>n1_u1_AB002583_tmRNA_chloroplast Cyanidioschyzon merolae
ACCTCGACCACCCTTAACTTGGGTGCAGGTATTCAACAAAAGCAATGAATCAAGGAATGAATCAATGGATTTTCAATGGATTTATGGATTTTAAAAACAGAGAACTCAGAAATCTAACAGAAATTTAACAGAAATTTAAATTTGTCGATCTACAAATTGCCCTTATCTTTTTCCATCTTAAACTAAACGTTAATAACTTATTGTTGTTGAATACAGCTTGTGGAATGTCGGGGTACAATGTCGGGG
>n2_u2_AB002583_RNase P RNA_chloroplast Cyanidioschyzon merolae
AAGGCATAGATGATAACAGGTCTTGACAAAAGATTTGAGGAAAGTCCGGGCTTGACAAAGGGCTATCTAGCTGGAGAAATCCAGTGCCGTCCCTACGGTGAGGAAAGTGCCACAGAAAGAAACCGCCTATTTAACATAGGTAAGGGTGCAAAGGTGCGGTAAGAGCGTACCAATTAAGATGGTCACATCTTAATTTAGGCAAACCCCTAGCAACAAGCAAAGTGCTCCCTTCGTCTGCCCTTTGCATGGGAGCTTAACTGCTAAAAGCTTTATGCTTTAGAAGAATCATCATCCTTGCCAAGAGCAAGAACTTAACCCGGCTTATGACCTTTG
>n3_u3_AB003477_tmRNA_Synechococcus sp
GGGGCTGTAATGGTTTCGACGTGTTGGTGAATCCTTCACCGTGATTCAGGCCGAGAGGGAGTCCACTCTCGTAAATCCAGGCTCAACCAAAAGTAACTGCGAACAACATCGTTCCTTTCGCTCGTAAGGCTGCTCCTGTAGCTGCTTAAACGCCACAAACTTTCTGGCTCGAGCGTCTAGTCGTAGACTCCGTTAATACGCCTAGACTTAAACCCCCAACGGATGCTCGAGTGGCGGCCTCAGGTCCGTCCTCTCGCTAAGCAAAAACCTGAGCATCCCGCCAACGGGGATAATCGTTGGCTCCCGCACAGTGGGTCAACCGTGCTAAGCCTGTGAACGAGCGGAAAGTTACTAGTCAATGCGGACAGCGGTTCGATTCCGCTCAGCTCCA
>n4_u4_AB007644_snoRNA_Arabidopsis thaliana (thale cress)
ACGACCTTACTTGAACAGGATCTGTTCTATAGGCTCGTACCTCTGTTTCCTTGATTTCTCAAGAGACAGGCCCTTAACCCTGGTTGATGAACCATGACCGTGCGGCTAGAGCGTGATTGACGGCTACGATCGTCCTCGGACGCATCCGGTGCTGTAGAGGATCGTTACTCGGCTCGGTTTCTACCTTGCCGGGGTGGTCGCACGGCGGTCTGACAGGTCC
>n5_u5_AB009049_snoRNA_Arabidopsis thaliana (thale cress)
GGCCGGTGATGTAATCAAAATATTTGCTACTCTTGATGAAGAATTTCTTCAGTTGATGATATTTACCACCAAGATCTCTGAGGCCTTT
>n6_u6_AB009051_snRNA_Arabidopsis thaliana (thale cress)
GTCCCTTCGGGGACATCCGATAAAATTGGAACGATACAGAGAAGATTAGCATGGCCCCTGCGCAAGGATGACACGCATAAATCGAGAAATGGTCCAAATTTTTTT
>n7_u7_AB010698_snRNA_Arabidopsis thaliana (thale cress)
GTCCCTTCGGGGACATCTGATAAAATTGGAACGATACAGAGAAGATTAGCATGGCCCCTGCGCAAGGATGACACGCATAAATCGAGAAATGGTCCAAATTT
>n8_u8_AB010885_BORG RNA_Mus musculus (house mouse)
CACCCAGAAGTGTGCTATTCTACCAGCTATTTGGTATCTCTAGGGCAACAAACTTGACAATCAAGATCAGCTACCACATGCCTCTCTCCTCGATAAAGAGCAAGCTGCGAAGGGCGATTACAGCTGGACACAGGTGAGTGAGCCAGAAGGAACTGACCAGCCTTAGGAAGGAACCGTCACAGCTAGGCCATGCTCCAGATATTAATTTCTGAGTCACTGGCCAGGAGCGAGATCCCAGTGTAAGAGTCCCCTGTGATGTAACGTCTGGAAGAATTCCACAGAGAAAGAAGTCAGAAACTTCTACACAGCTGACAGATCAAGATCACCAGGGCTGGGAAGTTTTCTCAGGAGTAAAGTGTGAGGAGCGGAGTTTAAATCCCAGCAGCCGTGTAAAAGCTGCTGCAGGAGCATGTCTGCAATCTCAGGCCTGGGGGAAGTGAGCAAAGACAGCAGCTGCTGAGAACTTACTGGGCAGCCGTGGAGACAAAGTGCCAAGCTCCAGATTCCGTGGGAGCCCCAGGAAATAAGGTGAAAGAACAAGATGTAGAAAGAACTCTCAGCTTCCTCAGCATCCTGTCTGCCTGCCTTCAAGCTTTCGTGCTTCCCACCATGATGACAACGGACTGAACCTCAGAATCTACAAGTCAGCCCCAATTAAATGTTGTTTTAGTCATGGTGTCTTTTCACAGCAATGAAAATTCTAAGATAGAAGTTACTAACAAGGACTAGGGTATTGCTGTGATGGGCCTGACCATGCTTTTGTGGATTTTGTAACTTTGGATTTGGAAAGCAGTGGAATGCTTTAAGTGGGACTTAATGGGACAGCCTAGTAGGAATAGGGAGGACATTGGTGCTAAGGGTGAACTCTGCGGGTCTGGCTCAAGAGATTTCAGAGGAGAATAACTTGAGTATGTGGCCTGGAGACTGCTTTTGTGATACTTTGGTGAGGAATGTAGGTACTTTTTGCCCTCGTTTGAAGTGTCTGCCTGAGGCTCAAGTGAAGACATTCAAATTAATTGCAATGACAGAAGTCTCAGAAAAGGGGCAAGTCCAATCTTCATCATCAGGATATCTTCAATCAGCAACCAGCAAAAAACAGCAAAACAGCAAATGCAACAGCAGGAACCAGCAACAGCAGGAAGAGCAGCAGCCACTACCTCCTCTGGTGTTTATATACTGCTCTGGTATTTATATTCTCTCTCAAGAATTCCTAGAAATCTACTGTCTTCAGCTGGCAAATCACATCCCTGCCAGAGCACGAGACAAATCATAGTCAGCTGCTGTGGACAATCTGAAGCAGACCCACATCCCACCCCTGGAATTAAAACAAAAACACATTCATAGAACATAACTAGGGGGAAAAAAAACCAATACAGTGAGCTTTGGGATGGCCAGCTTTCTTACACGGAGGCTCAGAGCTCCACAGTAAGAGAGGGTGGTGGGAGTGGTGACAGGTAGAAAGACTGTCATCTTTCATGACTGCCTGCATAAGAAGCTAAGCCCCAGGGATAGAGGCTCAGCCTCTTTATGAAAGAATAGCATGGCTCTAAAAGAACATGTTTAGAGGGAAAGACTATTAGAGCCATATTTTGGAAAATATAATGAGACACAATATTTTTTTGTGGATACAGTTTTATAATAAGGGTGGTAGCAGGAAATGTCTCCTGACCACCACCTGCTATCCTGATGAGGGAACCAGCTGCTATTTGGATGCCTGTGGTAAATACCACCCACTTTGATGCCATCACTCTGATAGCCCAGACTCACTTACAACCCCTTCACTGGGGAAAGAGGGATTTTTGGTATTACAGCTGCCATCATTGCAGCCATTATTGCAGGTATTACAGGGGCAACAACAGCTACTGTTGCCCAGACCGCCACTATGAGAGGCTGTCAACGCTGTAGTCTCTAAGTCAGCTGAGGTGCTACAGGCATAGGAGCTACTAAATCAACATCTTTATGAGGCCATCCACATTTTACAACAACAGATTGACTGCCAGAAGAGCTGGCTCTTGTTAGGGACATGTGTCTATGGGCCTGTGACCCAGGTTTCACTCAATCTACCTAACCCTTTACCAAGTACATAATGCCACTGAAGCCCAACAACAGTTGGCTCAATAGCTTAAAGATACCTAGTCAGACAAATTCCTATTCCTGAAGGCAAGAAAACCACTCACTTGCCCAATTGGTGGTAGATATAACCACGTCCATAACCAACTTTGGAAGCGGGAACCAGGGCTCCTATGACAGAAAAGAAGCAGGCTTCTCTCTGCAATTCATAAACACCGACAGGAATATGTTGCTTTTCCTAAGCCCTTCGCTGTCTTTCCAAGAAGAATTTTTTTGTCCTTAACCAAATGTGAAATGCACATTTTGAGCACAAAGAATCAAAGCTCCAACAGCAAACTGACATGACATCCTTTACAGGAAGTAAAATATTTAAAGACAGATTCAGAGTCTTCTATTCCCCTCCCCCCAGGAAGAAACCCTTTAATATTCCGATTAACCTTGATGTGAATCACAGCGCTCCTTCTTCCCTGTAGGCAGATAATCATGACTCACCACAGACCCCTGACTGTGGGCTTCATGTAATTCTGGCAGCAAAGGCCTTCCTTTGCTGTGTGAGGCCATTGGCTGTGAAATCTTTACAAAGTCCAGGGATGGACTAGGAGTAACCCTGGAGCAAGCTTTGCACTGTGTATCAAAACAAGACTCCACATTGGGGCATCCACACTGAGGCCACCTTGTGAACTAGGCCTCACCTTGGATAAGAAAGAAATTGCATTATTTTTACTTTCAAATGTGTTAAAGAATAAATTTTACTTAAATATATTCTATATTCAATC
>n9_u9_AB013387_snoRNA_Arabidopsis thaliana (thale cress)
ACGACCTTACTTGAACAGGATCTGTTCTATAGGCTCGTACCTCTGTTTCCTTGATTTCTCAAGAGACAGGCCTTTTACCCTGGTTGATGAACCATGACCGTGCGGCTAGAGCGTGATTGACGGCCACGATCGTCTTCGGACGCATCCGGTGCTGTAGAGGATCGTTACTCGGCTCGGTTCTACCTTGCCGGGGTGGTCGCACGGCGGTCTGACAGGTCC
>n10_u10_AB013390_snRNA_Arabidopsis thaliana (thale cress)
ATACCTTTCTCGGCCTTTTGGCTAAGATCAAGTGTAGTATCTGTTCTTATCAGTATAATATCTGATATGTGGGCCATCGGCCCACACGATATTAACTCTATTTTTTAAGGGAGAAAGCCCATTATGATAGCTTGCTATCTGGGCTTTCACGAGTCGACCATGCGTTGCACTACTGCACGGTCTTGGCTCAACCCGCCAA
>n11_u11_AB013396_snRNA_Arabidopsis thaliana (thale cress)
ATACCTTTCTCGGCCTTTTGGCTAAGATCAAGTGTAGTATCTGTTCTTATCAGTTTAATATCTGATATGTGGGCCATCGGCCCACACGATATTAACTCAATTTTTTAAGGGGGAAAGCCCATCTAGGTAGCTTGCTATCTGGGCTTTCCCGAGTCTCCCATGCGTTGCACTATTGCAAGGGTCTGGCTCATCCCGCCAA
>n12_u12_AB014877_Bsr RNA_Rattus norvegicus (Norway rat)
GGATGATGTTAGATCATTGATGACCATAAAAGATGTGGGAGTCGTCTGAAACATGCATGATGACCACAACATTGCGAGTCTGAGGTCCATATCATAATCTATGCACTGCATGCTGGGATCCTGGTGAGAGATGTTAGGAACAGTCTACTTTGAACATGGAGTTTTAATGTAGATTAAAGAAAAAATTGGAAATTGTGTCTACTAAGACATAAACCAATATGAAGAGTGCTAATCATCTTGACCGGGTAGTATCTGAGTCAGAAACGATGACAGAGGAATCCCCATAAGTCATGGAAAATCATTGTCTATACTCCTGGATGACGTCAGAGTCATGGGTTTTGATGTGTCAGGAAGACCCATCCAATGGGATTGATAGCTCAAGCAAGGGATTGGATAGAGGAGAAGTGATCAAGGCAGATAGATGTAAATTATGGATGAGTAAAGAGAAAGTTAATCTTTTTGTCATTTTTTTTTCTGCATTTTACTCTCAGAATAGATACCTCCAAGGTGATCTCCAAGTTCTTCCTCAGTCTTGAGGTGTGGGATCCCGGTGTGTGTCAGGAGTATTTTGGGAGTGTGAGTTCATCTATTTTCTTCAGATCGATTTTTTTCTTGCATGTATTCCCTCTTCCGGCATAATTTAGTATCTTGGGAGAGCAACTGTAGACAGTGGTTCAATAAGGAAAGCATACGAAAAAATATGTTCCATGAACCGATTCCTATGAAGAGTATGCAATGACAGAGGTAGTGAACACTGCCAAAGATGCTCTAGAGTTTAAAGTCCAGTCAAGCATTTGGTAGTTAATGTTAGTTTTAAATGGAAATCTAACCAGCACTACTAGTGATCAGCCGTTCAATAAATGCAGCACAATTTAGAGCCTGGGTGGATGATGTTGGATCATTGATGAACAAAAAAAAAAACATCTGGGAGTCCTCTGAGACATCCATGATGACCACAACATTGGGAGTCTGAGGTCCACATCATAATCTATGCACTGCATGCTGGGATCCTGGTGAGAGATGTTAGAAATAGACTAATTTGAATAAGGAGTTTACATGTAGATTAATTAAAATTGGGAAATCGTGTCCACTGACACATAATCCCGTAAGAAGAGTGCCAATCATTTTGACCGGGGACAACTTAGCCAGAAACGATGACAGAGGAATCCCCATAACACATGGAAAATCATTGTCTATGTTCCTGTTGACGTCAGAGTCATGGTGGTTTTATGGGTCAGGAAGAGCCAATCCAAGTGGATTGATAGCTCAAGCAAGGGATTGGATAGAGGAGAAGTGATCAGGGCAGATAGCTGTAAATTATGGATGAGTAAAGAGAAAGTTAATCTTTTTGTCATTTTTTTTCTGCCTTTTACTCCCAGAATACATACCTACAAGGTGATTTCAGAGTTCTTCCTCAGTCCTGAGGTTTGGGATTCCCGGTTTGTGTCAGTAGAATTGCCAGAGTGTGAGTTCATCCTATTTTCTTCAGTTCGATTTTTTTTCCTGCATGTAATGCCTCTTCCCCTATGAGTTGATTATCTTGGGAGAGCAACTGTAGACAGTGGTTAAATAAGGAACGCATACGAAAAATATATGTTCCATGAAATGATCCCTATGAAGAGTGTGGAATGACAGAGGTAATGACCTTTGCCAAAGATGCTCTAGAGTTTAAAGTCCACTCAAGCATCTGGTAGTTAATGTTAGTTTTCAATGGAATCTAACCAGCACTACTAGTGTTCAGCTTCTCAATAAATG
>n13_u13_AB014878_Bsr RNA_Rattus norvegicus (Norway rat)
GGATCATTGATGACCATAAAAGATGTGGGAGTCGTCTGAAACATGCATGATGACCACAACATTGCGAGTCTGAGGTCCACATCATAATCTATGCACTGCATGCTGGGATCCTGGTGAGAGATGTTAGGAACAGTGTACTTTGAGCATGGAGTTTACATGTAGATTAATTAATATTTGGAAATCGTGTCTACTGACACATAATCCCATAAGTAGAGTGCAAATCATTTTGACCGGGGAGGTCTGAGCCAGAAACGATGACAGAAGAATCCCCATAAGTCATGGAAAATCATTGTCTATACTCCTGGATGACGTCAGAATCATGGGTTTTGATGTGTCAGGAAGACCCATCCAATGGGATTGATAGCTCAAGCAAGGGATTGGATAGAGGAGAAGTGATCAAGGCAGATAGATGTAAATTATGGATGAGTAAAGAGAAAGTTTATCTTTTTGTCATTTTTTTTCTACATTTTACTCTCAGAATAGATACCTCCAAGGTGATCTCCAAGTTCTTCCTCAGTCTTGAGGTTTGGGATTTCCGGTTTTTGTCCGTAGAATTGTGAGAGTGTGAGTTCATCCTATTTTCTCAAGAACGATTTTTTTTCTTGCATGTATTCCCTCTTCCGGTATGAATTTAGTATCTTGGGAGAGCAACTGTAGACAGTAGTTCAATAAGGAACGCATACGAAAAAAAAATATGTTCAAAACGATTCCTATGAAGAGTATGCAATGATACAGGTAGTTACCACTGCCAAAGATGCTCTAGAGTTTAAAGTCCACTCAAGCATCTGGTAGTTAATGTTAGTTTTAAATGGAAATCTAACCAGCACTACTAGTGATCAGCGGCTCAATAAATGCAGCACAATTTAGAACCTGGGGGGATGATGTTGGATCATTGATGACCAAAAAAAAAAAAACATCTGGGAGTCCTCTGAGACATCCATGATGACCACAACATTGGGAGTCTGAGGTCCACATCATAATCTATACACTGCATGCTGGGATACTGGTTAGAGATGTTAGATATAGTCCAATTTCAACAAGGAGTTTACATGTAGATTAATTAATATTTGGAAATCGTGTCTACTGACACATAATCCCATAAGTAGAGTGCAAATCATTTTGACCGGGGAGATCTGAGCCAGAAACGACGACAGAGGAATCCCCATAAGTCATGGAAAATCATTGTCTATGTTCCTGTTGACGTCAGAGTCATGGTGGTTTTATGGGTCAGGAAGACCCATCCAATGGGATTGATAGCTCAAGCAAGGGATTGGATAGAGGAGAAGTTATCAGGGCAGATAGCTGTAAATTATGGATGATTAAAGAGAAAGTTAATCTTTTTGACATATTTTTTCTGCCTTTTACTCCCAGAATACATACCTCCAAGGTGATTTCAGAGTTCTTCCTCAGTCCTGAGGTTTGGGATTCCCGGTTTGTGTCAGTAGAATTGCGAGAGTGTGAGTTCATCCTATTTTCTTCAGTATGATTTTTTTTCTTGCATGTAATGCCTCTTCCCCTATGAGTTGATAATCTTGGGAGAGCAACTGTAGACAGTGGTTAATTAAGGAACCCATACGAAAAATATATGTTCCATGAACTGATCCGTATGAAGAGTGTGGAATGACAGAGGTAATGACCTTTGCCAAAGATGCTCTAGAGTTTAAAGTCCACACAAGCATCTGGTAGTTAATGTTAGTTTTCAATGGAATCTAACCAGCACTACTAGTGTTCAGCTTCTCAATAAATGCAGCCCAGTTTAGAGCCTGGGGGGGATGATGTTGGATCATTGATGACCATAAAAGATGTGGGAGTCGTCTGAAACATGCATGATGACCACAACATTGCGAGTCTGAGGTCCACATCATAATCTATGCACTGCATGCTGGGATCCTGGTGAGAGATGTTAGGAACAGTGTACTTTGAGCATGGAGTTTTAATGTAGATTAAAGAAAAAATTGGAAATTGTGTTTACTAAGACATAATCCCATAGAAAGAGTGCTAATCATCTTGACCGGGTAGTATCTGAGTCAGAAACGATGACAGAGGGATCACAATAAGCCATGGAAAGTCATTGTCTATGTTCCTGGTGACGTCAGAGTCATGGGTTTTGATGTGTCAGGAAGAGCCAATCCAATTGGATTGATAGCTCAAGCAAGGTATTGGATAGAGGAGATGTGATCAAGGCAGATAGATGTAAATTATGGATGAGTAAAGAGAAAGTTAATCTTTTTGTCATTTTTTTTC
>n14_u14_AB014879_Bsr RNA_Rattus norvegicus (Norway rat)
GGATGATGTTGGATCATTGATGACCAAAAAAAAAAAACATCTGGGAGTCCTCTGAGACATCCATGATGACCACAACATTGGGAGTCTGAGGTCCACATCATAATCTATGCACTGCAAGCTGGGATCCTGGTGAGAGATGTTAGAAATAGACTAATTTGAATAAGGAGTTTACATGTAGATTAATTAAAATTGGGAAATCGTGTCCACTGACACATAATCCCATAAGAAGAGTGCCAATAATTTTGACCGGGGAGAACTGAGCCAGAAACGATGACAGAGGAATCCCCATAAGCCATGGAAAATCATTGTCTATGTTCCTGTTGACGTCAGAGTCATGGTGGTTTTATGGGTCAGGAAGAGCCAATCCAAGTGGATTGATAGCTCAAGCAAGGGATTGGATAGAGGAGAAGTGATCAAGGCAGATAGCTGTAAATTATGGATGAGTAAAGAGAAAGTTAATCTTTTTGTCACATTTTTTCTGCCTTTTACTTCCAGGATACATACCTCCAAGGTGATTTCAGAGTTCTTCCTCAGTCCTGAGGTTTGGGATTCCCGGTTTGTGTCAGTAGAATTGCCAGAGTGTGAGTTCATCCTATTTTCTTCAGTTCGATTTTTTTTCTTGCATGTAATGCCTCTTCCCCTATGAGTTGATTATCTTGGGAGAGCAACTGTAGACAGTGGTTAAATAAGGAACGCATACGAAAAATATATGTTCCATGAACTGATACCTATGAAGAGTGTGCAATGACAGAGGTAATGACCTTTGCCAAAGATGCTCTAGAGTTTAAAGTCCACTCAAGCATCTGGTAGTTAATGTTAGTTTTCAATGGAATCTAACCAGCACTACTAGTGTTCAGCTTCTCAATAAATGCAGCACAGTTTAGAGCCTGGGGGGGATGATGTTGGATCATTGATGACCATAAAAGATGTGGGAGTCGTCTGAAACATGCATGATGACCACAACATTGCGAGTCTGAGGTCCACATCATAATCTATGCACTGCATGCTGGGATCCTGGTGAGAGATGTTAGGAACAGTGTACTTTGAGCATGGAGTTTTAATGTAGATTAAAGAAAAAATTGGAAATTGTGTTTACTAAGACATAATCCCATAGGAAGAGTGCTAATCAACTTGACCGGGTAGTGTCTGAGTCAGAAACGATGACAGAGGGATCACAATAAGCCATGGGAAAGTCATTGTCTATGTTCCTGGTGACGTCAGAGTCATGGGTTTTGATGTGTCAGGAAGAGCCAATCCAATTGGATTGATAGCTCAAGCAAGGTATTGGATAGAGGAGAAGTGATCAAGGCAGATAGATGTAAATTATGGATGAGTAAAGAGAAAGTTAATCTTTTTGTCATTTTTTTTCTACATTTTACTCTCAGAATAGATACCTCCAAGGTGATCTCCAAGTTCTTCCTCAGTCTTGAGGTTTGGGATTCCCGGTTTTTGTCAGTAGAATTGTGAGAGTGTGAGTTCATCCTATTTTCTCAAGAACGATTTTTTTTCTTGCATGTATTCCCTCTTCCGGTATGAATTTAGTATCTTGGGAGAGCAACTGTAGACAGTAGTTCAATAAGGAACGCATACGAAAAAAAATATGTTCAAACCGATTCCTATGAAGAGTATGCAATGATACAGGTAGTGACCACTGCCAAAGATGCTCTAGAGTTTAAAGTCCACTCAAGCATCTGGTAGTTAATGTTAGTTTTAAATGGAAATCTAACCAGCACTACTAGTGATCAGCGGCTCAATAAATGCAGCACAATTTAG
>n15_u15_AB014880_Bsr RNA_Rattus norvegicus (Norway rat)
GTGAGTTCATCCTATTTTCTTCAGTTCGATTTTTTTTCTTGCATGTAATGCCTCTTCCCCTATGAGTTGATTATCTTGGGAGAGCAACTGTAGACAGTGGTTAAATAAGGAACGCATACGAAAAATATATGTTCCATGAACTGATACCTATGAAGAGTGTGCAATGACAGAGGTAATGACCTTTGCCAAAGATGCTCTAGAGTTTAAAGTCCACTCAAGCATCTGGTAGTTAATGTTAGTTTTCAATGGAATCTAACCAGCACTACTAGTGTTCAGCTTCTCAATAAATGCAGCCCAGTTTAGAGCCTGGGGGGGATGATGTTGGATCATTGATGACCATAAAAGATGTGGGAGTCGTCTGAAACATGCATGATGACCACAACATGGCGAGTCTGAGGTCCACATCATAATCTATGCACTGCATGCTGGGATCCTGGTGAGAGATGTTAGGAACAGTGTACTTTGAGCATGGAGTTTTAATGTAGATTAAAGAAAAAATTGGAAATTGTGTTTACTAAGACATAATCCCATAGGAAGAGTGCTAATCAACTTGACCGGGTAGTGTCTGAGTCAGAAACGATGACAGAGGGATCACAATAAGCCATGGAAAGTCATTGTCTATGTTCCTGGTGACGTCAGAGTCATGGGTTTTGATGTGTCAGGAAGAGCCAATCCAATTGGATTGATAGCTCAAGCAAGGGATTGGATAGAGGAGAAGTGATCAAGGCAGATAGATGTAAATTATGGATGAGTAAAGAGAAAGTTAATCTTTTTGTCATTTTTTTTCTACATTTTACTCTCAGAATAGATACCTCCAAGGTGATCTCCAAGTTCTTCCTCAGTCTTGAGGTTTGGGATTCCCGGTTTTTGTCAGTAGAATTGTGAGAGTGTGAGTTCATCCTATTTTCTCAAGAACGATTTTTTTTCTTGCATGTATTACCTCTTCCGGTATGAATTTAGTATCTTGGGAGAGCAACTGTAGACAGTAGTTCAATAAGGAACGCATACGAAAAAAAATATGTTCAAACCGATTCCTATGAAGAGTATGCAATGATACAGGTAGTGACCACTGCCAAAGATGCTCTAGAGTTTAAAGTCCACTCAAGCATCTGGTAGCTAATGTTAGTTTTAAATGGAAATCTAACCAGCACTACTAGTGATCAGCGGCTCAATAAATGCAGCACAATTTAGAACCTGG
>n16_u16_AB014881_Bsr RNA_Rattus norvegicus (Norway rat)
CCATGATGACCACAACATTGGGAGTCTGAGGTCCACATCATAATCTATGCACTGCATGCTGGATACTGGTTAGAGATGTTAGATATAGTCCAATTTCAACAAGCAGTTTACATGTAGATTAATATTTGGAAATCGTGTCTACCGACACATAATCCCATAAGTAGAGTGCAAATCATTTTGACCGGGTAGATCTGAGCCAGAAACGATGACAGAGGAATCCCCATAAGCCATGGAAAATCATTGTCTATGTTCCTGGTGACGACAGAGTCATGGGTTTTGATGTCTCAGGAAGACCAATCCAATTGGATTGATAGCTCAAGCAAGGGATTGGATAGAGGAGAAGTGATCAAGGCAGATAGATGTAAATTATGGATGAGTAAAGAGAAAGTTAATCTTTTTGTCATTTTTTTCCTGCATTTTACTCTCAGAATAGATACCTCCAAGGTGATCTCCAAGTTCTTCCTCAGTCTTGAGGTGTGGGATTCCCGGTGTGTGTCATCAGTTTTATTGTGAGAGTAATAGATACCTCCAAGGTGTTCTCCATGTTCTTCCTCAGTCTTGAGGTTTGGGATTCCTGGTTTGTGTAAGCAGAATTGTGAGAGTGTGAGTTCATCCTATTTTCTTCAGAACGATTTTTTTCTTGCATGTATTCCCTCTTCCGGTGTGAATTTAGTATTTTGGGAGATCATCTGTAGACAGTGGTTCAATAAGGAACGCATATGAAAATAATATGTTCCATGAACAGATTCTTATGAAGAGTGGGCAATGACAGAGGTAGTGACCACTGCCAAAGATGCTCTAGAGTTTAAAGTCCACACAAGCATCTGGTAGTTAATGTTAGTTTTCAATGGAAATCTGACCAGCACTACTAGTGATCAGATGCTCAATAAATGAAGCACAATTTAGAGCCTGGGTGGATGATGTTGGATCATTGATGACCAAAAAAAAATCATCTGGGAGTCTTCTGAGACATCCATGATGACCACAACATTGGGAGTCTGAGGTCCACATCATAATCTAAGCACTGCATGGTGGGATACAGGTTAGAGATGTTAGATATAGTCCAATTTCAACAAGGAGTTTACAAGTAGATTAATTAATATTTGGAAATCGTGTCTACTGATACATAATCCCATAAGTAGAGTCAAAATCATTTAGACCGGGTAGATCTGAGCCAGAAACGATGACAGAGGAATCCCCATAAGACATGGAAAATAATTGTCTATGTTCCTGGTGACGTCAGAGTCATGGGTTTTGATGTGTCAGGAAGACCAATCCAATTGGATTGATAGCTCAAGCAAGGGATTGGATAGAGGAGAAGTATTCAAGGCAGATAGATGTAAATTATGGATGAGTAAAGAGAAAGTTAATCTTTTTGTCATTTTTTTTTTCTGCATTTTACTCTCAGAATAGATACCTCCAAGGTAATCTCCAAGTTCTTCCTCAGTCTTGAGGTTTGGGATACCCGGTTTGTGTCAGCAGAATTGTGTGCGTGTGAGTTCATCCTATTTTCTCAAGAACGATTTGTTTTCTTGCATGTATTCCCTCTTCCGGTATGAATTTAGTATCTTGGGAGAGCAACTGTAGACAGTGGTTCAATAAGGAACGCATACGAAAAAAAATATGGTCCAAACCGATTCCTATGAAGAGTGTGCAATGACAGAGGTAGTGACCACTGCCAAAGATGCTCTAGAGTTTAAAGTCCACTCAAGCATCTGGTAGTTAATGTTAGTTTCCAATGGAAATCTAACCAGCAGTACTAGTGATCAGCGGCTCAATAAATGCAGCACAATTTAGAGCCTTGGGGGGATGATGTTGGATCATTGATGACCAAAAAAAAAAAAAAAAATAAACATCTGGGAGTCCTCTGAGACATCCATGATGACCACAACATTGGGAGTCTGAGGTCCACATCATAATCTATGCACTGCATGCTGGATACTGGTTAGAGATGTTAGATATAGTCCAATTTCAACAAGCAGTTTACATGTAGATTAATATTTGGAAATCGTGTCTACCGACACATAATCCC
>n17_u17_AB014882_Bsr RNA_Rattus norvegicus (Norway rat)
GTCGTCTGAAACATGCATGATGACCACAACACTGCGAGTTTTAGGTCCACATCATAATCTATGCACTGCATGCTGGGATCCTGGTGAGAGATGTTAGAAATAGACTACTTTGAACAAGGAGTTTACATGTAGATTAATTAAAATTTGGAAATCGTGTCTAATAAGACATAATCCCGTAGAAGCTTGCTAATCATCTTGACCAGGTAGTATCTGAAATCCGAAATGATGACAGAGGAATCCCCATAAGCCATGGAAAATCATTGGCTATGTTCCTGGTGACGTCAGAGTCATGGGGGATTGATGTGTCAGGAAGGGCCAATCCAAGTGGATTGATAGCTCAAGCAAGGGATTGGACGGAGGAGTAGTGATCAAGGCAGATAGCTGTAAATTATGTATTAGTAAATAGAAAGTTAATCTTTTTGTCATTTTTTTTCTACATTTTACTCTCTGAAAAGATACCTCCAAGGTGACTTCCAAGTTCTTCCTCAGTCCAGAGGTTTT
>n18_u18_AB014883_Bsr RNA_Rattus norvegicus (Norway rat)
GATCTCCAAGTTCTTCCTCAGTCTTGAGGTTTGGGATTCCCGGTTTTTGTCAGTAGAATTGTGAGAGTGTGAGTTCATCCTATTTTCTCAAGAACGATTTTTTTTCTTGCATGTATTCCCTCTTCCGGTATGAATTTAGTATCTTGGGAGAGCAGCTGTAGACAGTAGTTCAATAAGGAACGCATACGAAAAAAAATATGTTCAAACCAAATCCTTGTAGAGTATGCAATGACAGAGGTAGTGACCACTGCCATAGATGCTCTAGAGTTTAAAGTCCACTCAAGCATCTGGTAGTTAATGTTAGTTTTAAATGGAAATCTAACCAGCACTACTAGTGATCAGCGGCTCAATAAATGCAGCACAATTTAGAACCTGGGGGGATGATGTTGGATCATTGATGACCAAAAAAAAAATAAAACATCTGGGAGTCCTCTGAGACATCCATGATGACCACAACATTGGGAGTCTGAGGTCCACATCATAATCTATACACTGCATGCTGGGATACTGGTTAGAGATGTTAGATGTAGTCCAATTTCAACAAGGAGTTTACATGTAGATTAATTAATATTTAGAAATCGTGTCTACTGACACATAATCCCATATGTAGAGTGCAAATCATTTTGACCGGGGAGATCTGAGCCAGAAACGATGACAGAGGAATCCCCATAAGCCATGGAAAATCATTGTCTATATTCCTGGATGACGTCAGAGTCATGGGTTTTGATGTGTCATGAAGAGCCATCCAATTGGATTGATAGCTCAAGCAAGGGATCGGATAGAGGAGAAGTGATCAAGGCAGATAGATGTAAATTATGGATGAGTAAAGAGAAAGTTAATCTCTTTGTCATTTTTTTTTCTGCATTTTACTCTCAGAATAGATACCTCCAAGGTGATCTCCACGTTCTTCCTCAGTCTTGAGGTTTGGGATTCCCGGTTTGTGTCAGCACAATTGTGAGAGTGTGAGTTCATCCTATTTTCTTGAGAACGATTTTTTTCTTGCATGTATTCCCTCTTCCGGTATGAATTTAGTATCCTGGGAGAGCATCTGTAGACAGTGGTTCAATAAGGAACGCCTAAGAAAGTAATATGTTCCATGAACCGATTTCTATGAAGAGTGTGCAATGAAAGAGGTAGTGATCACTGCCAAAGATGCTCTAGATTTTAAAGTCCACTCAAGCATCTGGTACTTAATGTTAGTTTTCAATGGAAATCTAACCAGCAGTACTAGTGATCAGCTGCTCAATCAATACAGCACAATTTAGAGCCTGGGTGGATGATGTTGGATCATTGATGACCAAAAAAAATCATCTGGGAGTCCTCTGAGACATCCATGATGACCACAACATTGGGAGTCTGAGGTCCACATCATAATCTATGCACTGCATGCTGGGATCCTGGTTAGAGATGTTAGAAATAGACTAATTTGAATAAGGAGTTTACATGTAGATTAATTAAAATTTGGAAATCGTGTCCACTGACACATAATCTCATAAGAAGAGTGCCAATCATTTTGACCGGGGAGAACTTAGCCAGAAACGATGACAGAGGAATCCTATAAGCCATGGAAAATCATTGTCTATGTTCCTGTTGACGTCAGAGTCATGGTGGTTTTATGGGTCAGGAAGAGCCAATCCAAGTGGATTGATAGCTCAAGCAAGGGATTGGATAGAGGAGAAGTGATCAGGGAGATAGCTGTAAATTATGGATGAGTAAGAGAAAGTTAATCTTTTTGTCATTTTTTTTCTGCCTTTTACTCCCAGAATACATACCTCCACGGTGATTTCAGAGTTCTTCCTCAGTCCTGAGGTTTGGGATTCCCGGTTTGTGTCAGTAGAATTGCCAGAGTGTGAGTTCATCCTATTTTCTTCAGTTTGATTTTTTTTCTTGCATGTAATGCCTCTTCCCCTATGAGTTGATTATCTTGGGAGAGCAACTGTAGACAGTGGTTAAATAAGGAACGCATACGAAAAATATATGTTCCATGAACTGATACCTATGAAGAGTGTGCAAGGACAGAGGTAGTGACCATTTCCAAAGATGCTCTAGAGTTTAAAGTCCACTCAAGCATCTGGAAGTTAATATTAGTTTTCAATGGAAATCTAACCAGCACTACTAGTGTTCAGCTTCTCAATAAATGCAGCACAGTTTAGAGCCTGGGGGAGAATGATGTTGGATCATTGATGACCATAAAAGATGTGGGAGTCGTCTGAAACATGCATGATGACCACAACATTGCGAGTCTGAGGTCCACATCATAATCTATGCACTGCATGCTGGGATCCTGGTGAGAGATGTTAGGAACAGTCTACTTTGAGCATGGAGTTTTAATGTAGATTAAAGAAAAAATTGGAAATTGTGTCTACTAAGACATAATCCCATAGGAAGAGTGCTAATCATCTTGACCGGGTAGTATCTGAGTCAGAAACGATGACAGAGGAATCCCCATAAGCCATGGAAAGTCATTGTCTATGTTCCTGGTGACGTCAGAGTCATGGGTTTTGATGTGTCAGGAAAAGCCAATCCAATTGGATTGATAGCTCAAGCAAGGGATTGGATAGAGGAGAAGTGATCAAGGCAGATAGATGTAAATTATGGATGAGTAAAGAGAAAGTTAATCTTTTTGTCATTTTTTTCTGCACTTTACTCTCAGAATAGATACCTCCAAGGTGATCTCCAAGTTCTTCCTCAGTCTTGAGGTTTGGGATTCCCGGTTTGTGTCAGTAGAATTGTGAGAGTGTGAGTTCATCCTATTTTCTTCAGAACGATTTTTTTCTTGCATGTAATGCCTCGTCTCCCATTAGTTTAGTATCTGGGGAGATCAACTGGAGACAGTAGCTCAATAAGGAACGCATACAAAAAAAATATGTTCCGTGAACCAATTCCTATGAAGACTGTGCAATGACAGAGGTAGTGACCACTGTCCAAGATGCTCTAGAGTTTAAAGTCCACTCAAGCATCTGGTAGTTAATGTTAGTTTTCAATGGAAATCTAACCAGCACTACTAGTGATCAGCTGCTGAATAAATGGAGCACAATTTAGAGCCTGGGGGGATGATATTGGATCATTGATGACCATAAAAGATGTGGGAGTCGTCTGAAACATGCATGATGACCACAACACTGCGAGTTTTAGGTCCACATCATAATCTATGCACTGCATGCTGGGATCCTGGTGAGAGATGTTAGAAATAGACTACTTTGAACAAGGAGTTTACATGTAGATTAATTAAAATTTGGAAATCGTGTCTAATAAGACATAATCCCGTAGGAAGCTTGCTAATCATCTTGACCAGGTAGTATCTGAAATCCGAAATGATGACAGAGGAATCCCCATAAGCCATGGAAAATCATTGGCTATGTTCCTGGTGACGTCAGAGTCATGGGGGATTGATGTGTCAGGAAGGGCCAATCCAAGTGGATTGATAGCTCAAGCAAGGGATTGGACGGAGGAGTAGTGATCAAGGCAGATAGCTGTAAATTATGTATTAGTAAATAGAAAGTTAATCTTTTTGTCATTTTTTTTCTACATTTTACTCTCTGAAAAGATACCTCCAAGGTGACTTCCAAGTTCTTCCTCAGTCCAGAGGTTTTGGTTTCTCAGTTTGAGTAAGCAGAATGGGAGAGTGTGAGTTCATCCTATATTCTTCTGTATGGTTGTGGATGACTTAAGGATCTTGTTCCTAACCCTTTTTGACTCCTAGTCCCCTACATGTTATTAGGGAAATGGCAGGGTAATTAATCAATACGTGTAGAAATGTATTGTAGTTGACCTATTTTGTATCAATAGTGACCACCATGTTTACAGTTCTGTATGTCTGAAGTCTACCCTGTATTTTAACAGTGGTCCTCCTCACAGATGTGAGAATAGAGGCAGCATTGTATCCTTGTAGATAGTATTAATGGATACACATGTATAAAAATATAAATAAGAATTGTTCTGGGTTGGGGATTTAGCTCAGTTGTAGAGCACTTGCCTAGCAAGTGCAAGGCCCTGGGTTCGGTCCCCAGCTCCGAAAAAAAGAAAAAAGAGAAGAAGAAAAAAAAAGAATTGTGGTGATATTCAAATTATAGAATAAGGATGAATGTAATTTTGCTATACAGTAGACATATTTGTTTTGTTTTGTTTTTTTTTATCAGTAGCTCCAATGTATTTTCTCGGATGACATGGCCTGTAGACTTAACGGCTAATGTTCTAATTTTGACTTAGTAAAATATTCGTTGCCATTCTGTTTCTGAAGAGTGAGTAGACATGACTAGATAATTTATAGGTAAGTTGATGAGTCAGTGGCATCTCGTTTTGTTCTTGTCTGTTCTCAGAGAGGCCCACTTCAGATCAACGAGTGGATCCTGTCTCAACCTAAGCTCTAAGGTTGCTTGTGCTGTTAGGGTCACAGCTACAGTGAGTGACAATTACAGTAATACTTTTTTAATGTCTTTTTTTAGATGACGGTACATGTAGAGATTCAGTGTGCTTAGCATGATCAGGGATAGGCTCTTGTCACCAAACTAGTTACCACTACCTACAATCTATACACATCAAATACCAGATGTCTTGGACTTAAAAGTCCAAAGAGAGGGGGAACTTTGGTAACTGCCTCTCTTGGTGATAGTCCTGTAGTAAGTTGGTGAAAAGATACAAGAGTTTTGTGATTAATTTTGTTCTTCATGGACTTTGATATTATTGTTACAATTTCATATATTAAAATTAGAAAAAGTCAATG
>n19_u19_AB015469_snRNA_Arabidopsis thaliana (thale cress)
ATACCTTTCTCGGCCTTTTGGCTAAGATTAAGTGTAGTATCTGTTCTTATCAGTTTAATATCTGATATGTGGGTCATCGACTCACACGATATTAACTCTATTTTTTAAGGGGGAAAGCCCATTAAGATAGCTTGCTATCTGGACTTTCACGAGTCGCCTATGCGTTGCACTACTGCACAGGCTTGGCTCATCCCGCCAA
>n20_u20_AB016889_snRNA_Arabidopsis thaliana (thale cress)
ATACATTTCTCAGCATTTTGGCTAAGATCAAGTATAGTATCTGATTTTATCAATTTAATATCTGATATATGGACTATTGGTTCACATGATACGCTATTTTTAAGTTAGAAACTCACATTAAAATAGCTTATCTGAGTTTTCACAAGTGGTCTAAGCGTTGCTTATATTATTGCACGGATATGGCTCATTCCCACCAC
>n21_u21_AB017710_snoRNA_Homo sapiens (human)
TAATCAATGATGAAACCTATCCCGAAGCTGATA
>n22_u22_AB017710_snoRNA_Homo sapiens (human)
TATCTGTGATGATCTTATCCCGAACCTGAACTTCTGTTGAAAAAAAAAAACTTTTACGGATCTGGCTTCTGAGAT
>n23_u23_AB018115_snoRNA_Arabidopsis thaliana (thale cress)
ACGACCTTACTTGAACAGGATCTGTTCTATAGGCTCGTACCTCTGTTTCCTTGATTTCTCAAGAGACAGGCCCTTAACCCTGGTTGATGAACCATGACCGTGCGGCTAGAGCGTGATTGACGGCTACGATCGTCCTCGGACGCATCCGGTGCTGTAGAGGATCGTTACTCGGCTCGGTTCTACCTTGCCGGGGTGGTCGCACGGCGGTCTGACAGGTTC
>n24_u24_AB020752_SRP_7SL RNA_Arabidopsis thaliana (thale cress)
GTCGAGCTATGTAACGAGAGCTTGTAACCCAAGTGGGGACTATAAGATGGTGGAACACTGGATCGGCCCACGGGTCGGATTTGTTGTTGGCATAGGTCTGGACTGCCCAATCCAAGCTGTGAGTGAACCGTATGAACCAAGCGAAGGTTTGATCCGTACGGTTGCTAAAGGTTGAGGGTATTGCGTTAGGCTGGCTTCACAGAGCAGCGACTACCTCCCGCTCTCAGCAGTGGACGGACAA
>n25_u25_AB021078_ReplicationControl RNA_Plasmid ColIb-P9
ATTCTGTGAGGCCCCCACTATCTTTCGTCGTTCCGCCAAGTTCGTAAGAAAGATAGTGGGGGTTTTCCTTTT
>n26_u26_AB021173_snRNA_Mus musculus (house mouse)
GATTTCCGTGGAGAGGAACAACTCTGAGT
>n27_u27_AB021174_SRP_7SL RNA_Oryctolagus cuniculus (rabbit)
GCCGGGCGCGGTGGCGCGCGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCCGGAGGATCGCTTGAGTCCAGGAGTTCTGGGCTGTCGTGCGCTATGCCGATCGGGTGTCCGCACTAAGTTCGGCATCAATATGGTGACCTCCCGGGAGCGGGGGACCACCAGGTTGCCTAAGGAGGGGTGAACCGGCCCAGGTCGGAAACGGAGCAGGTCAAAACTCCCGTGCTGATCAGTAGTGGGATCGCGCCTGTGAATAGCCACTGCACTCCAGCCTGGGCAACATAGCGAGACCCTGTCTCC
>n28_u28_AB022308_self-splicing ribozyme RNA_Bacillus megaterium
GTGCGAAATGTTCTTGACTCAAATGAAATGTGGACACACAATTTCGGTAAAGGTCAGGCAGTTTTAGAGTTCTGAAACTGAAGGGTTATGTCGAGGAGTCGAATGAGGAGGTAACGCTCCGAAAGGCTCCCCCTGCGTCGAATAGCACACTGTTTAGTAAGAAAAAGTGTGTTATAAGCTCGGCTAATAGGCGTGAGAATTTACCGTAACAGTATAGCTGACGAAAGCCTACCCGATGGGGTGGTGTAAATCATGGTGCTTGGGTTGAACAGATATGGTGAGAATGCGACGAAATAAAATAAGAAAGTATATTGCTGACGAACTTCTGAATGTACGGGTCTAGACTGGCATTATACAGAAATGTATTTACTACTAAATGTAGGGTTAGCCGTGGGTGAGTAAGAATCCATAATATAAAAATCCATCTTGTGTTACAGGCACATGCGATTGCTAACAGGCTCATAGGAAGCACCTAAGTTTGTTCCATAATAGACATAATTCAACGTTGTAAGCTGATAACGTGGAGAGCTTACTCTCTATGAAGCGTTGAAAAGGAAACTAGTCGTGAGATTAGCGACCATATAACTTTTCTTTATATCAGTGAAAGTAGTGGCACAGTACCATTGAAACGTGTAATGAACGTTGAGGGATAGCCACCAGACTAATAAAAGATTCATTCAGCCATGCAAGGCAGTTCTTCAACGATTAATAAGGTTCTTGTAAGACTAATAGAGGTTCAGCTCCTAAAGGAGTCACCAACTTGTTAAAACGAAAGAAACTGAGACACAATGAGTATTATGATATGCAGTACAATTTTGATTCTTTATATGCTCAAAGTGCCAATGGACAGAATTTTTATGGATTACTAGACTTAATGCAATCCGATGATAATATACGGTTAGCTTATCGGAATATTAAACGAAACACTGGCAGTAAAACTGCTGGAGATGACGGATTAACGATTGAAGATATAAACCGATTATCTGTATCTGAGGTTGTATCGACGATACAAAGAATGTTTGAATACTATACACCCCAAGCCGTCCGGAGAGTATTCATTCCTAAGGCAAATGGGAAAACTCGGCCCTTAGGGATTCCGACTATCTGGGATAGATTGTTCCAACAGTGTATCTTGCAAGTACTTGAGCCGATTTGTGAAGCGAAATTCTATAAACATAGTTATGGTTTTAGGCCAAACCGCAATACACATCATGCGAAAGCTAGGTTTGAAACGCTCATTAATCGCGCATGCCTATATCACTGTGTTGACGTTGATATAAAAGGATTTTTTGACAATGTAAATCATGCCAAATTAATAAAACAACTGTGGTCTTTAGGCATTCGAGACAAGGCATTGCTTTCCATTATTTCACGTCTTTTAAAGGCTGAAATTATTGGGGAAGGTTTCCCAAAGAAAGGTACACCCCAAGGGGGGATCTTATCACCACTTTTATCTAATATCGTATTAAATGAACTAGACTGGTGGGTTAGTAATCAATGGGAAAGCTTTGAAACACATAAGTTATATAAATCAAATCTTGGCAGATATAATGCGTTGAAACAATCTAATTTAAAACATTGCTACATCGTGAGATATGCAGATGACTTTAAAATTCTTTGTCGCACTCGTTCACAAGCAATTAAAATGTATTATGCAGTGAATGATTTTCTTCATACAAGGCTTCGCCTTGAAATTAGCGAACAAAAATCAAAGGTGGTCAACCTAAAGAAAAACTCATCAGAGTTTTTAGGTTTTCGTTCCAAAGCCCATCTGAAAAAGACAAAGAAAAGGACTCTTTATGTCGCTCGCTCACACATGACAAAGAATGCGCTCAAAAATGCACAGATAAAAGTAAAACAAACAATCAAAGAGATTCAGAAACACCAATCGGTTGAGAATGTTTGGCACTTTAATACAGTTATAATGGGAATCCAAAATTATTATTCAGCAGCCTCACACATCACTGATGATTTAACTGAGCTGAACTATCGTCTTCATAAAGCGTTATTTAATCGTTTAAAAGAATTGAGAAAAGAAGCTACGTTTCAGGACTTTCCAAAATCCTTACAGAAACGGTACAAGGGATATGAGTGTAAGTACTTCAAAATAAAAGAAATGGTACTTATCCCAATTCATGCCCAACGTTGTAAGATAAATCTGAACTTCTCTCAAATTATTTGTAACTACACTACCGTAGGTAGGGACAAAATTCATCAAAACTTGCGAGCAATCAATAAACAAACGCTTACTCGTGTGATGAAACAGTTCATACCGAGCCGTTCCATCGAATACAACGATAACCGGATAAGTAGATTTATTGCACAATATGGGAAATGTGCTGTTACAGGGGTTGAATTAGGACTGGATGAATGGCATTGTCACCATAAGACACCGTACCATCTCACCAAAGATGATTCATACGGAAACTTAATGATATTGCATAAATCTGTCCATCTCCTTATACATTTGAGAGATTTAGAGAAAATACAAGTGCTTTTAAACTCACTCAAGTTAAATGAAAAGTAACTTACAGAAGTCAATAAATTGCGTAAGCAATGTCTGAACGAAGCTATCTGATTCTCCACAAAAACTTTGCATAATCATAAAAATCTTGAATGAATTGAATTAGTTGGAACGCCGTATGCTGGAAACTCGCCTGTACGGTGTGAAGTGGGGGAAAAGCTGGAGATAACTTCAAAAGCTTACCTATCACTAT
>n29_u29_AB023028_snRNA_Arabidopsis thaliana (thale cress)
ATTACTTACCTGGACGGGGTCAACTTGTGATCAATAAGACGAGTGGCCTAGGCTAGTGACCTCCATTGCACATAACGGAGGGGTGCTTAGCTTAAGGTCTCCCCAAGTGGGAGAGCCTGCGTCATTATTTGTGGCAGAGGGGGCCTGCGTTCGCGCGGTCCCTACCATT
>n30_u30_AB023033_snRNA_Arabidopsis thaliana (thale cress)
ATCACTTACCTGGACGGGGTCGACTTGCGACCAAGAAGACGAGTGGCCTACATTGCACATAAAAGAAGGGTGCTTAGCTTAATCCTTAAGGTCTCCTCAACTGTGAGAGCATGCGTTATTATTTGTGGCAGAGGGGTCATGCGTTAGCGCGGTCACTACCATT
>n31_u6_AB023038_snRNA_Arabidopsis thaliana (thale cress)
GTCCCTTCGGGGACATCCGATAAAATTGGAACGATACAGAGAAGATTAGCATGGCCCCTGCGCAAGGATGACACGCATAAATCGAGAAATGGTCCAAATTTTTTT
>n32_u31_AB025639_snRNA_Arabidopsis thaliana (thale cress)
GGAGCCGTGTGGTGAGCACAAAGCGAACTATTCTTTCGCCTTTTACTAAAGAATACCGTGTGCT
>n33_u32_AB028610_snRNA_Arabidopsis thaliana (thale cress)
GTCCCTTAGGGGACATCCGATAAAATTGGAACGATACAGAGAAGATTAGCATGGCCCCTGCGCAAGGATGACACGCATAAATCGAGAAATGGTCCAAATTTTTTT
>n34_u33_AB028893_snoRNA_Homo sapiens (human)
GGCCGGTGATGAGAACTTCTCCCACTCACATTCGAGTTTCCCGACCATGAGATGACTCCACATGCACTACCATCTGAGGCCAC
>n35_u34_AB028893_snoRNA_Homo sapiens (human)
CGTCCATGATGTTCCGCAACTACCTACATTGTTTGATCCTCATGAAAGCAGCACTGGCTGAGACGC
>n36_u35_AB028894_snoRNA_Mus musculus (house mouse)
GGCAAGTGATGTCTGTTCTCACGATGGTCTTCAGATGTCCTCTAGGGCACTGCTGAGACAGCCAGTTGACAAAGCTGATGCCATAAA
>n37_u36_AB030733_IGF2AS RNA_Homo sapiens (human)
GGCCCGCGGGCTAGAGGCACTTTACCGCCCGGCGGGAGCGCCTCTCCTCCGCGTCCCTCGCCCCAGCCCCCTGCCCGCCCCACTTTGGGACCCTCCAGCCGCTTTCCCCACGAATGAGATCTTTGCAATGAGCAAACGAAAGTGGCGCGGATTTCGGGGCGCCCAGCAGGAGCGAGCGCAGCCGCCAGCCGCAAGTCCGCAGCCGTGTCCCGCGCCCCACGCCGGCCTCCCCGGCGGCAGCCGGAGACGAGCGCCAGCACCGGCGGGACAGCAGCAGATGCGGGCCGAGAGCCGGTCAGGGGCGCAGAGGCGGAGGGGATCGGCGCGGCGGGGAGCTCACCGCGAAGCTGGAGGCTGCGTCCGCGGGCGCACCAGGAGCTCAGGCAGCGAGCGATCGAACGCTCTGTGGCAGGCGGTGGACGCTGCTGAAGCTCTGGCTCTGAGCTCACCGCTCCGCCGTCCGTGGGACCAAGCCCAGCATTTTACAAACCCAGCTCCTGTCTCCAAGGGTCCTCAGAGCGCCCCTCCGTCACCCCCTGCAGGGCGCCGCAGACGAGGCGCTGACCTTGCGCTCGCTCCCCTCGCTGGGGAAGGACACACTCGCTGGCGTCACCGGCCGGCCTGGGAAGTAGGACTAAGGACCCGAACTGCAACCCTCCACACCAGACAGCACAGACCACCCCAAGGCTGCTCAATCTGCCCAAAGCCAAAAGAGCTCCCCTGCCAGGACCTCGGTGCCGTGGAGACTGCGGGGAACCTGCTCTGCCCACACCTGCTCTGGCCCCTAGACGGAAGCACCTGGAGCCAACCACGGAACTCCAGATCCCAGCTGTGTGACTGAATCCACGCCAGCCTCTCTGAGCCAAAGCTGCTTGCAGAAGGGGGAGATCCCAGTTCGAAGACTCCCGCGCAGAGCCTGTGGCCCTCTCTGCCAGGCCTCAGGGTGCCTGAGACACTCACCTCTCTGCCTCGCAGTTGGGGCTGAGGCTGGGGCTGGCTGCCAGCTCAGTTCTGGGAGCGCTGGGGTCGCCTGGGCCACAGGCACAGCAGCTCACCTCAGGACTGGGCTCTCTGGCCTGCTGGGGCTCAGGCTGTGGGGCAGGCTGGGCAGGGGGCTGAGCTGGCAGCGATTCAGAGCCCTGGGGCTGGGGGCTGGAATCCACCTCCTCCCACACAGGCTCGGTGGTGACTCTTCGGCCCCTGGGGAAAAACAAAAAGATATTGCTGAGATGACCTCTTTTAAAAGCAAAGCCCCCCTCCCCATACACCCCAGGCCTGAGCCCTGTCCCATCCCCCTCCCCGGGTTCCTTCAGGTCACCTTGTCAGGATCTGGGCAGCGGCTTCCCCCTCTAGCCCCTCCCCTGCCTAGAGCTCCCTCTTTCAAAGTATAAGGGAGGGAAGAAGTGGTGAGAAGTTTGCCTAGAAAGGGCTTCCCGGTGCTGATGGAGAGGCCGAGACCCTTCTGTTGGACAGGCTGCCCTGTTCCTGGGTGAGGATGGGCTTCTGCCTGGCACTGGGGGTGGAGGGTGCACACGAATGGCCCGCCTTGAGGGGTCATGGCACGGAATATGAAAGCCTCCTCCACCTCCAAACACCCCCACCTTGGAAGGAGATAAGGAGGGGGCCCCAGCAAAAGCCACTGGACACACAGCTCTGCTTGACGAGGCCAGTGAGGGACGGCGTGGCTGTGCTTCCTGGGGAAATGAACCCCCTCCCCACAGACACACCCTGGGTGGATTGAGGAGTCTGGGTCCAGGGTGCAACAGAGAAAAACTTCATGCATGAATGAGCATTCCCAGGGAAACTGCCTTGGCCCCAGGGCGCCTCTCTGTGCCAGGGAGGCTGGGAGAGCAGCAAGGGGGACCAGGTGCGCCATCAGGAGGAGAGAAGCTAAACCTAGGGGGGACATGGAGGGCCGTTGTTGCCTCTCCCGGCGTTTCTCCTCAGTCTCCTGTCCAATTTCTTGCTGGTGGTCAGCAGGCATAGGGAGGCAGGAGGGAAGGAAGCTTTACCTGTAAAATGGTGTATATATGTATAAATAAAATATCTGCGCCAG
>n38_u37_AB030734_IGF2AS RNA_Mus musculus (house mouse)
TGGAGTGCCTGGTGGCAAAGATGGGGGGGGGGCTGTGCGCCCCAACAGGCCCACTAAATCCTGGGTGTCTATCCCTAAAAATCGAGGTCCCATGTCATGTTTCCGGGGTGCCCTGTGCTTGTGCAACATGGGCGCGTGGTGCGAACCAACGTGCGTGGCACCCTAGGCCTCAGTGGTAGTGGCAGGACCTGTGCTCAGTTAGAGGGTTACAAGGTAGGCGCATCCCGGCCGACTGAGTTAAGGCGCAGGTAGCTGGGTAGAGGGTTCTCACAGGGACCTACTTGCTAAGCAGGGGACAGTCCCCTGGATCGGCTGGGGGGGGGGGGGAGCGCGCAGCCTCCACCTGCCTGAGCAGGCAGGGCGGGCTGTGAGGCACCTCGAATAGCAGCCAGATAGATCTTACTAAGCGCCCCTAACCTCTGCTTTGCCTGGGATCTCCTAGCAGCCTTTGGGGGGCCACCAGGTGCACCATGAAGGGAAGGCTGGCTTGGCCACGCCAAATCTGGGCCCCGCGTGGAGCCCCCCGCACAATGTCTGCGCCCTTCAGCAGAAAAAGAAGCAGGGCGGGAAACGTAGCTCAAACCAGACCTGTAAACCAGAGCTCACTGAAGTGCTTCTAAGCGGCGCGCCTTTGGGACCCCACCCAGTATGAGCAGATAACAGTTCCCTGTCCTCAGCACTTTGAATTTGCTTAGTTGCAGGTTCGGCCCCAGGGGCAATGCGATAATTCCGGGCTATTAAGAAACTCTCCCCGGGTGGTTTCAGATATAAGAAGCCATTGTGATTTTTACCAAGTCAAAATCACTTCTAAACCGGTGCACCTTGTTTCCCTCTCCCGACCTCCGCACCTCTAGGCCTCTAAAGGGCCACTACTGGCGGAAACCAGTGCACCCGGGGCTAACCTCCCGGCCCGACCATCAATCACCGCGCCCGCGCTCTACACTCGCTTCCCCAAGCCCTCGACCTGTAGGGTTGGAGGCTCCAAGCCGCCCGAGCGCTCTGCCCTTCCCGCTTCCTGGCCGCCCAGGCGCTTTCCCTACCACCGCGTTGTTTGCAGAGTGCACACAAAGTGGCGCGCGTTTCGGAGCGCCCAGCCCAAAGGAGCGCTGCCGCCGAGGGAGAAGCCAGCAGCCCGCTCCCGCGCTACTCCGCAGCAGCCCTGAGGACAAACTGCGAGGTAGCCGGTGCCCCGCAGTGGAAGAGCTGGGGCACGAGGGAGCGCGCCACGGGGAGCTCACCACAAGGCCGAAGGTCGGGTCCGCTGGCGCAGGAGGATCGGAGGAGAAGGGCGGGAGAGCGGATGAAGTGGGAGCTGCTGAAGTGGACGCTGCTGAAGAGGTCTCTGGAGAAGCCGCTGACTCACACCCCGGAGATGAACTCCTGGACTTTGCCAGGGTCCCCAGCATGCTCTTCCTCATGCCTGTGCTGGATGCCTGCCACAGAGGACACACTCAACTGGGCTGCGGTCTTGGACACCACATAGGGACTCCACACCAGGAAGACCCAAGCAATGCTCTATGCCAATCTGCAAGCCTGGGAAGAAGTCACTACCTGAACCACCAACATGAGGATTGCACCAAACTGATCAACACAACCCACACCAAAAATTCTTTCCTCATCTGGAACCCTGCCTTTCCCTCTGGAGCTGTCTGACCTCCCCCCTTCCCCAGCATTTGCTACCTTTGCCCCTGGACTCCTGGAAGCATTACAGAGACTGCTGCCTCGTGTCTGCTTGGCTTACACCCCTTGTTCCCAAGAAGTGACACCTGGAGCGCACCTGAATCCCAGATACTGTGACTGACTAGACTTCCTAGCCTTGGCTGGTTCCTTGGCTGAGTCTTGCATTTGCAGGAGCTCTGATGCTCCTGTGCTAGAGATACCTCTGTTCTGCTGTATACCTGAAGGACACTCACCTCTGAGGAAAGACTGGGGCTGGTGGGAGGTTTCTGAGGTTTCATTCAGTTCTGGGAGCGTGGGGATCTCCTGGGCCACAGGCACAGCACTTGGGCACGGGGCTGGAGTCTCGGGATGCTCTAGCCTGTTTCTTCTCAGGTTCCGGCTCAGGCTTCAGCTCGGGCTCAGGCTCAGGCTCAGGCTTCAGCTCAGGCCTCGGTGGCAGAGGCCTCGGCTCGGGCCTTGGTGGCAGAGGCCTCGACTCGGGCCTTGGTGGCAGAGGCCTCAGCTCGGGCCTTGGTGGCAGAGGCCTCAGCTCGGGCCTCGGTGGCACGGGCCTCGGCTCAGGCCTCAGTAGCAGAGGTCTCAGCTCAGGCCTTGGTGGCACGGGCCTCGGCTCAGACCTCAGTAGCAGAGGTCTCAGCTCAGGCCTCGGTGGCAGAGGCCTCGGCTCAGGCCTAGGTGGTACAGGCCTCGGCTCAGGCCTAGGTGGTACAGGCCTTGGCTCAGGCCTAGGTGGCACAGGCCTCGGCTCAGGCTTTGGTGGCTCAGGCCTCGGCTCAGGCTTTGGTGGCTCAGGCCTCGGCTCAGGCTTTGGTGGCTCAGGCCTCGGCTCAGGCTTAGGTGGCTCAGGCCTGGGCTCAGGCTTAGGTGGCTCAGGCCTCGGCTCAGGCCTTGGTGGCACAGGCCTGGACTTAGGCTTCTGCAGCTCTGGCTGGACGAGAAGTTTAGCCTTAGGAGACTCAGAACCCTGGGTTAGGGGCCTGCAGTCGTCGTAGTCGTTCTCCTCTTCCTCCTCCTCCTCTTGCACAGTGAGCTCTGTTTTAATTACTCGTCCCCTGAGGAGGAGAAGCAAAAATCCTTGAGATTATCTCAAAAACAAATCTTCTCCAGCTGAGTCTGGCCCCCTCCCCCCACCTTGCTGCTGGATGGGGAAGCCCAAGGGTCACCTTGTCATGGTTGGAGCACTCCCCCCTACCCTGTCCCTTCAGCTGCCTACTCTCCCCACCCCCTTCTCAGTAGAAGGGAGGAAGCAGTTGGTGAGAAGTCACTTTGCCAAGTTTGACAACTGTTCAGGGAGAGGCAGGAGACCCTCCTTTGGGAAGGACAATCTGGCTCCTGCCTGGCTGGGGGCGGGGGTGGTGGTGGTGTAAAACTGCTGCTGCACACAAAAGGCTTTCTTTGAGGGGTCACAGCTAAAAATGTGAATGTCTCCCATTCCTCTCCTCACACTTCTACCTTGGATGGGAACAAAAAACAAAGGGCACATGGATCTGCCTTAGGAAGGCAACTTCTGGAAGGGGTGGCAGGGCTTCTCCCCATAAACATTATACCGGTGGATTAAGGAGTCTGGGATCCCAGTTGCAGGGAAAAAAAGCTTTGTGCACAAATGAATGTGCAACTGGGAGTGCTGTGGCTGCTGCCCCAAATTCCTGCCTGTGCACAGGGAACACGGAGGGGGGGGGGGAGGGGGAGTTAAAGACAGACACAGCCAGGAGAAAAGCAGTTTTTGTACTTAAACCCTGCTAGGGAATAGCAAGGCACATCATCCTATCTATCTACCCTCCAGTATCCTGGTGGTAGTTAGGAGGTACAGGATATAAAAACAGGGAAACTTTGCTTTTAAAATTTTATATATATATATATATATATATACATACATCTACATAATATATATGTATAATAATAATACACACCCCCACACTGCTCTAGAATCTCTGGCCCCTCTGCACAGTTTAGCCGGGAGTGGGGTGGGGGTGGGGGGGAGGAGCGGGGGGAGCATACACCAGGGGGAAAATGTTCACACAGAAAAATTTCACATTTGCAAAAACAGCTGTGTACTCCTGCTGGGAAGAGAAAGAGCGCTGCCTCTCCCCTTTGCATGGTAGATTAGAGAACGAAACCATACTTTCCTTGTAGCTTTGTGCAGCCCTTTAAGTCCCAGTCCCAGTTGTCCTTTTGTCCCCTCAGAAGTTGAAGTCACTCTTAAGACCGTCCGGTTTAGCGGCAACCTTCCCCCTCTTCAGAGACTAACTGAAGGACCCTAACTCTCCCAAGTCCCAGCCACCTACCCACACCAGAATATTTAAACTGCACCTTCACTCATACACAAAAGGCATGAACAAGGGGAAATCAATTAGTTACCTGTACTCTAGTCGCTTCGTAGTTCCTGAAGTTCCCGGACGGTGGATAAAGAGGACCGGGGAGTCACTGGTGCCCAAGATTCTCTTCCGAAATTGCCCGGACGATGATCCGCTGGCTGGGTCAATATTAGCAGCCCCCTCCAAAGCAGGGGGTGCTCTGGTTGTGGTGCCCGGGCCCTCCAGCCGGGGCGACGATGTTGCGGCGGGGCTGGAAGGGGCTGAGTCTGAGTCTGAAGAGACGGTGAGAGGGAGTTTTAGAGCGTGCATGATAACAGAGCCCCTAGAAGTGGCTTCTGCTCTCCACCACTGAGTAAGGCACCTGCTCGAATGACACCACGCTTTTATCCCTCACCTCGTCCCCTCCACGCCCACTTCCAGCCCCCTCCAAATTTGGGAAATGATATGCCAGTAAAGTACTGCAAAGACTTATGGGGCAGCTGGCTATGGCGCTTTCCCACACTAGGGTATGGGGGCATTAGAGGGTGGGCTTTGGCCCCTGCCTGACAGACAGGAAGGCGTCTATGCAGGTTTGAATTAAGCTAGAAGCACTTCCTGTTAGCTAGGGGGTAGGGACTATGTGCAGGGGTGGAGAGTGGGTGGGGCTTCACTGGATTGACACCTGGCAGTCACCTGACACCCTGGAATGTCTGTGGGCGTGGCACAGGTAAAAAGGGGCGTGGCTTATGCAAATTAGGGTCCGGATTTAAAATAAATATTAAAATTACTTTCTAAGGTC
>n39_u38_AB032798_snoRNA_Gallus gallus (chicken)
TGCACATGATGCCATTCTCACGATGGTCTTCCAAGCCTCATGGTGAAGGGGCTGTGACGACAACGCCACATGGCTTTGCTGATGCCTGGT
>n40_u39_AB032798_snoRNA_Gallus gallus (chicken)
TGGTGGTGATGTCTGAACTCACGATGGTCTTCAGAGTCCCTGTTGGTGAGGGGACTGCTGACAATGTCAGTGGCAACTGCTGAACCATCAG
>n41_u40_AB037947_self-splicing ribozyme RNA_Hepatitis delta virus
GTGGCCGGCATGGCCCCAGCCTCCTCGCTGGCGCCGGCTGGGCAACGATCCGAGGGGACTGTCCCTCTCGAGAATCGGCAAATGGGGCCCC
>n42_u41_AB037948_self-splicing ribozyme RNA_Hepatitis delta virus
GTGGCCGGCATGGCCCCAGCCTCCTCGCTGGCGCCGGCTGGGCAACGATCCGAGGGGACTATCCCTCTCGAGAATCGGCAAATGGGGCCCC
>n43_u42_AB046698_MHM RNA_Gallus gallus (chicken)
CTGCCAGGTGAAACCCCAACGAGAAAGCATTTGTCAGAGTGCAGAAATCAGACCCGCGCGGATCCTCCTAAGCACACGTATGGAAGGGATAAGACATTCCCTGCGGATACCCTCAGAGCCTTTGAGCCATGCTGATAGATTGCTGGCTCTGCATTTTTGTGGCTGCTGAAGGCGCGGCGGCACGAGTTGAACCCAGCGTTTTCAGTAGTGGCTTTGAGCAAGAAGGCAAGGTTAGCCACTCACGTGTCCCTGCTGAAACACCTGGGGACTTGTCGCCCACTCGGAACCATGAAAAAAGACGTAAGCACGCACCGCACCACATAAGCACAGTCACGACGTACAGGTCACTCTTTCTCTCTGCTTCCCTGCCGAGAGCGGAAACCACACGCCTGGGGGTCTCCAAAGGAGCAAAGAACTACTCGCCAAAACTCTCCACCTGCCCCTTTCCTGCTCCCGGAATTTACCCTTTCAAGCGCTTTGACTAAGGCTGGTGGCAACACAGCGCTCCTTACCCACTGACCGGCCAAACGCTGACAGCTCTGGCATGCAGACGTGACGCTGCTGTGGCTACAGCTGCTCCACAGACCCGCACCTCTGGCCTGCCGCTCTGCCCGCTCACCAGCTGGCAAGGCTGCACAGAATGCAGAATGTGTGCCGGGATGGGAAAAGTGCTGCGGGTGAAGGACCGGACCTGCTGCCGATTGCTGTTGCCCGGAAGTAGGTGGGGCCATAACCGGAACTCCCTCCCACCTACCTACATAGGGAGGCGCCATTTTGTTGGAGCCTGCGTTCCACTCTGAGGAGCCGCCATTTCATGCCACTCCGTACGCCACGTGGTTTTCTACTGCTTAGGGCTTGGCTCCCTGGCTTTTCTTTAGCTCCTTCATATTCCCAGGCCTCCCTCTGACTGCGTGCCCAATTCCCTTGCTCCGGGAAGTGCTCACATGACAAAACAGATCCATTCCTGCGCAGTCGCACCGGGCAAAGGCGTCCCGGTCTTGGCGCTGGGGGCTGCCTCGTGTCTGACACGGGGGTTTCTGGAGACCAGCGGTACTACGGGCGCTTTGGTCCCAGCTAAACAGCTCCGCCGGCTCCACTTCTCGGTTGGCAACAGCAACTCACTCGCGCCTCCCGCATAAGGATCTGATGGGAAATGCCTCGCCCTTTAAGTGCGCCGCCTCTTGCCTTGTGGAAAGGCACAGACAACCAAGGGCAGTCACACGCCAGAGAGGGCTCCACTCATTTCCATCGTAGCGTTTGATACAGCCGTGGAAAAAGCACTCATCACATTCAGGAGCTCTCGGCACGCCATCAGTGATGGCAGAGCACTGCAAGAACAAGGGTCTCTTTGATATTCAACACCTTGTCATGCGGAACGCACGTTCTCTTGGGCCCAAATACTCAGCTCGGCACTGCTCTACTTGAGGAAACGACTGACAAAGGGCATAAAGCAGGCTCTTCTGCTGCACCCCTCTGTCACTCCTCCCATCACAAGTGGTCTCATCACAAAGAGAACCAGCTGTGCAGCAGACTTCAGGCCTGCAAAGGGCCCCCTACAAAAACTCCCGCGGCTGTGCACAGACCTGTGTTCCCCGCTCCCTGAACAGGCCAGCAGCGTGACTTACACTTTGACACGGCCTGTGCAATTCCTTCTTTTGGGAAAGCACGCCACCTTTCTTCTAGCACACGCAAAGAAAACTCTGCTCTCTCATTCCGGCTTCCACGCCGTGTTTCTGGCAACTCCAGAATTACCCAGCATCAGCACTGGCCAAACAAAAACAACCGGAGCTCACCATTCCTAAAGGGACTCGTCTCACTCACAACAAGCATCTGTTCCAAGCAGTGGTGGTTGTCCCGGCACATGACTTTGGTACGGCTAGAAGAAGACCATTACTCCGTACCGTTTCACGTCATGCACAGGAAGGAAAGAGGGCCTAAGGAAGAAGGAGCTGTTCACCTCGGGAGTGATGGCTTTGTCTTCCCAGCAAGCTGTTACACGTGCTAAACCCTGCTTCCCAGAAAGCAGACGAGCGTCTATCTGCCTGCCCAGGGGGATGCAGCAAAAGAATTCCTGGCTTTGCTTTGCTTACGCCTGCAGCTTTTGCTTTACCTCTCGGAACACCTTTATCTCACCCTCTGGATTCTCACACCGTTGCCTCACCAGTTCCATCCCATAACCCACACGGGCAGGGTGAGCAAGCAGCTGTCTGGCGTTTAGCTGTCTGCCAGGTGAAACCCCAACGAGAAAGCATTTGTCAGAGTGCAGAAATCAGACCCGCGCGGATCCTCCTAAGCACACGTATGGAAGGGATAAGACATTCCCTGCGGATAC
>n44_u43_AB047584_RNase P RNA_Vibrio parahaemolyticus
GGAGCTGACTGGGTAGTCGCTGCTTTGTTGATGTCCTTCGGGAGACTGACGTTGAGGTCCTTCGGGAAACTGACGTTGACGTCCTTCGGGAGACTGACAAAGGGGAGGAAAGTCCGGGCTTCATAGAGCAAGGTGCCAGGTAACGCCTGGGGGGCGCAAGCCTACGACAAGTGCAGCAGAGAGAAGACCGCCGATGGCCCGCAAGGGAACAGGTAAGGGTGAAAGGGTGCGGTAAGAGCGCACCGGACGACTAGTAATAGTTCGTAGCAGGGTAAACTCCACCTGAAGCAAGACCAAATAGGCCTCCACATTGCGTTGCTCGCGTAAGGAGGCGGGTAGGTTGCTCGAGCCAGTGAGTGATTGCTGGCCTAGACGAATGGCTACCGCCGCGCAAGCGGAACAGAACCCGGCTTATGTGTCGGCTCCACCT
>n45_u44_AB047585_RNase P RNA_Vibrio proteolyticus
GGAGTCGACCGGGTAGTCGCTGCTTCATTGATGTCTTCAGCCTAGTGTTGGGGAGACTGATGGAGGGGAGGAAAGTCCGGGCTCCATAGAGCAGGGTGCCAGGTAACGCCTGGGGGGCGCAAGCCTACGACAAGTGCAGCAGAGAGAAGACCGCCGATGGCCCGTAAGGGATCAGGTAAGGGTGAAAGGGTGCGGTAAGAGCGCACCGGACGACTGGCAACAGTTCGTTGCAAGGTAAACTCCACCCGGAGCAAGACCAAATAGGCCTCCACATTGCGTTGCTCGCGTAAGGAGGCGGGTAGGTTGCTTGAGCCAGTGAGCGATTGCTGGCCTAGACGAATGGCTACTGCCGCGCAAGCGGAACAGAACCCGGCTTACAGGTCGACTCCCACT
>n46_u45_AB047586_RNase P RNA_Vibrio alginolyticus
GGAGCTGACTGGGTAGTCGCTGCTTTGTTGATGTCCTTCGGGAGACTGACAAAGGGGAGGAAAGTCCGGGCTTCATAGAGCAAGGTGCCAGGTAACGCCTGGGGGGCGCAAGCCTACGACAAGTGCAGCAGAGAGAAGACCGCCGATGGCCCGTAAGGGTACAGGTAAGGGTGAAAGGGTGCGGTAAGAGCGCACCGGACGACTAGCAATAGTTCGTAGCAGGGTAAACTCCACCTGAAGCAAGACCAAATAGGCCTCCACATTGCGTTGCTCGCGTAAGGAGGCGGGTAGGTTGCTCGAGCCAGTGAGTGATTGCTGGCCTAGACGAATGGCTACCGCCGCGCAAGCGGAACAGAACCCGGCTTATGTGTCGGCTCCACCT
>n47_u46_AB047587_RNase P RNA_Vibrio natriegens
GGAGCTGACTGGGTAGTCGCTGCTTTGTTGATGTCCTTCGGGAGACTGACGTTGAGGTCCTTCGGGAAACTGACGTTGACGTCCTTCGGGAGACTGACAAAGGGGAGGAAAGTCCGGGCTTCATAGAGCAAGGTGCCAGGTAACGCCTGGGGGGCGCAAGCCTACGACAAGTGCAGCAGAGAGAAGACCGCCGATGGCCCGTAAGGGATCAGGTAAGGGTGAAAGGGTGCGGTAAGAGCGCACCGGGCGACTAGTAATAGTTCGTAGCAGGGTAAACTCCACCTGAAGCAAGACCAAATAGGCCTCCACATTGCGTTGCTCGCGTAAGGAGGCGGGTAGGTTGCTCGAGCCAGTGAGTGATTGCTGGCCTAGACGAATGGCTACCGCCGCGCAAGCGGAACAGAACCCGGCTTATGTGTCGGCTCCAACT
>n48_u47_AB047588_RNase P RNA_Vibrio harveyi
GGAGCTGACTGGGTAGTCGCTGCTTTGTTGATGTCCTTCGGGAGACTGACGTCGAAGTCCCTTCGGGAGACTGACGTCGAAGTCCCTTTGGGAGACTGACGTTGACGTCCTTCGGGAGACTGACAAAGGGGAGGAAAGTCCGGGCTTCATAGAGCAAGGTGCCAGGTAACGCCTGGGGGGCGCAAGCCTACGACAAGTGCAGCAGAGAGAAGACCGCCGATGGCCTTAGGGCACAGGTAAGGGTGAAAGGGTGCGGTAAGAGCGCACCGGACGACTAGTAATAGTTCGTAGCAGGGTAAACTCCACCTGAAGCAAGACCAAATAGGCCTCCACATTGCGTTGCTCGCGTAAGGAGGCGGGTAGGTTGCTCGAGCCAGTGAGTGATTGCTGGCCTAGACGAATGGCTACCGCCGCGCAAGCGGAACAGAACCCGGCTTATGTGTCGGCTCCACCT
>n49_u48_AB047589_RNase P RNA_Vibrio harveyi
GGAGCTGACTGGGTAGTCGCTGCTTTGTTGATGTCCTTCGGGAGACTGACGTCGAAGTCCCTTTGGGAGACTGACGTTGACGTCCTTCGGGAGACTGACAAAGGGGAGGAAAGTCCGGGCTTCATAGAGCAAGGTGCCAGGTAACGCCTGGGGGGCGCAAGCCTACGACAAGTGCAGCAGAGAGAAGACCGCCGATGGCCTTAGGGCACAGGTAAGGGTGAAAGGGTGCGGTAAGAGCGCACCGGACGACTAGTAATAGTTCGTAGCAGGGTAAACTCCACCTGAAGCAAGACCAAATAGGCCTCCACATTGCGTTGCTCGCGTAAGGAGGCGGGTAGGTTGCTCGAGCCAGTGAGTGATTGCTGGCCTAGACGAATGGCTACCGCCGCGCAAGCGGAACAGAACCCGGCTTATGTGTCGGCTCCACCT
>n50_u49_AB047590_RNase P RNA_Vibrio campbellii
GGAGCTGACTGGGTAGTCGCTGCTTTGTTGATGTCCTTCGGGAGACTGACGTCGAAGTCCCTTTGGGAGACTGACGTTGACGTCCTTCGGGAGACTGACAAAGGGGAGGAAAGTCCGGGCTTCATAGAGCAAGGTGCCAGGTAACGCCTGGGGGGCGCAAGCCTACGACAAGTGCAGCAGAGAGAAGACCGCCGATGGCCCTAGGGCACAGGTAAGGGTGAAAGGGTGCGGTAAGAGCGCACCGGACGACTAGTAATAGTTCGTAGCAGGGTAAACTCCACCTGAAGCAAGACCAAATAGGCCTTCACATTGCGTTGCTCGCGTAAGGAGGCGGGTAGGTTGCTCGAGCCAGTGAGTGATTGCTGGCCTAGACGAATGGCTACCGCCGCGCAAGCGGAACAGAACCCGGCTTATGTGTCGGCTCCACCT
>n51_u50_AB047591_RNase P RNA_Listonella pelagia (Vibrio pelagius)
GGAGTTGACTGGGTAGTCGCTGCTTTGTTGATGTCCTTCGGGAGACTGACGCTGAAGTCCTTTGGGAGACTGGCGTTGACGTCCTTCGGGAGACTGACAAAGGGGAGGAAAGTCCGGGCTCCATAGAGCAGGGTGCCAGGTAACGCCTGGGGGGCGCAAGCCCACGACAAGTGCAGCAGAGAGAAGACCGCCGATGGCCTCATTTCTTCGGAAGGGGCACAGGTAAGGGTGAAAGGGTGCGGTAAGAGCGCACCGGACGGCTAGCAATAGTCCGTTGCAGGGTAAACTCCACCCGGAGCAAGACCAAATAGGCCTCCACATTGCGTTGCTCGCGTAAGGAGGCGGGTAGGTTGCTTGAGCCAGTGAGCGATTGCTGGCCTAGACGAATGGCTACTACCGCGCAAGCGGAACAGAACCCGGCTTATATGTCGACTCCACCT
>n52_u51_AB051373_CR20 RNA_Cucumis sativus (cucumber)
TTTTTTTTTTTTGCCAAGGATGACTTTTTCAGAACAATTTGTTGTAGAAGATTTGGTTTGTATTTTAGATCTTCCATTGGTCTGTCCTGTAAGATAATTCAGTATAATTAGTTTAGCTTTGTTAGATGTTTGTTATTATTAGATTGGGGAAATTTCAACACTGCTTGCTCGCTAGCCAAGATTAATCGAGGATTTTACAAGCTACTTGGCGTTGGAGAATGGTTATTGCTCGTGGGTGAATGGAAGATAAAATCTGGAACAAGTATCACTCGTCTCTGCCGAGTCTTTTCATTAATGGAAGGTCTTGTATTATTTCTGTTTTTCATTCGCTTCTGAATTCAGCATTTTTTTCAATAGTTGCATTATGCAGTGCTAATTCTTTATATCTATTGAGGTCTTTTTTTAGTATGATTACGTGATTGGACAAAGTTTCTATTTAGGGTTTAGGGTGGATGGATGTCTAATTAATTATGTTTTCTCACTGATTTGTCACCGAAGTTTGGAATACTATGTTCTATTATTACTCGGAAAAAAAAAAAA
>n53_u52_AB051842_roX RNA_Drosophila melanogaster (fruit fly)
TAAATTGAAAAAAAAAATCACCAAAAAATCGAAATCTCTGGCAAGATGTAGCGTCGAAAGAAAATTCATCAAACGGCATTGCCATCATCGTGCAGCAATCCCAAAGAAGCCATTTAGAATGCAGGCATCCAGGCAAAAACCAGAAAACGTGCCTGTGGCAGCTGCACTTCGTGGCCTTGACGAGTCCGGACAATAGAAAAACCCTGGGAACCTAACCCAAATGGCTTATAGGGGTTGGACTGGACTCAGGTAGGCGAAGTCCCCGAAAACCGAGGCTACATTCTTGCCACCGCTGCTAAATCGATCATCAGTCTTTGGCGGCATGGCTAAGTGGAAACTTCTCGTGAAATTAGCTAGAGTGTGTACTGCTACTGATAGGGTGACCTAACGCAACAGCAACGAGATGTGCTCCATCGGGCAGTGATAACTTCTTGGCAACCCCAACCTTAAAAATTCGACTTCAATTCAATACATGTGACCAGATAAACACAGCTTCAAGCGCAGTACTCGCTCCATAGATTCATTAAACCTTAATGAACACAAGAAACACTCAAAAAGTAAGAGATTCTTCGCCTGAGCTGCAATTCTTAAGGGTGGCGTCTTCGAGGCATCGAAGACGCGGCTATCCGAAGGAGCGAAAGTGGTGCGAGTGGTGCAACTTGTGACACTGCCAGCGGAGTGGATGAGCCCCATATAAACTGAACCTTGCAGACCTACAAAGACCCTATGGCCCATAAAGCCGGACAGGGTTTTCCTGTCCGAAAAGTAATGTAACGAAAACGCTTGAGGTGGGAAATTCTGGCCGGAGCGAAAGAGACAAATGAACCCAAAGCGTCCGCTTGTCGCCACTTGCGTTTCGAGAAGACGCGTACGCATACCTCTATCGGATGCATGTGGCGGTACGCGGATGCGAGCGAGACAATGATACTGTAGACAAGGAGAGACGGCTCCCTCTCTCCATCACTCTCTATCGGGCTGGCCAGGCGTTTGCATCGCAAGCGGGTGAGTGAGACGGCCATAGGGCGGACTGCAAGTCCCGAAAGAGAGCGGTAAAGCCATATAACCCCTATAAGCAATAAACGACGCATCGAAAGTTGCGTATAACGGCATGGGCATCCCTCGGAAAGGAAAAAGTTCAGACCGCACTCACGAATACCGCTCCGCTCTGGAAAGACCGGCCAAATCTGTAAGAAATGCTCGGCCAGGAGCGTAGAATCGCCATAATGCAGTAAACGACTGCAAAAGCAGCTATAACTCAAACAGAAGTTGACAAAAGCAAGAGCTATGCGCTCTATTAAAGTCACAATAAGTGTCATCGTAACGTTCACCACTTTTCACATTTCATCAAAGTCCATTTCTGGTCCGTGCAAAGCAGTAATGTAGAGATTCTGTTTCATTTGAAATTGTTGGTTATCACTGCCCTAGGAACTCATCAATTTTTGTGATAGTAGTGACTGAAGTATTTGTTTTGAGGGACTTGTAGAATTAGAAGCCATGCCGCCGCTTAACTAAGATCTAAAAGCCAAGAAGCTACACCCAGAAGAAACTGCCACTGCATAGATTCTTGAAATGAGCAAAGAAATCTAAACTGAAATGGTTATCCACCAACTGAAGGCCATCGAATCTATTAAGTTTTATCCACGTTAGCACTGTTCAAAATCTCAAGCTAGGCCGCTAAACGAACTATTCATCACAAAAGCCTCACACAAAATATTCATTCATGAATCAGTCTAGCCTATTTTTTCTTCTGCTTTACCATTTGAACAAGTACTCAGAAATCGCTCGAAAAGGGACATTTTGATTTTGCTTTGATTTTGTGCCTTAGTTTTTCAACTAACCAAAATATTGCTTGCAGAAATTAATCAGTTTATTAACTGAAAAAGCTCTTAAATTAACTGCCAGGAGGTGAGTTTTTGTCTTCGATTCTTGGAAAACGTTGAGTAGGGGCCCAACTAAAGGAAATAGGCCAGACAAAGCCTGTAAAAAAAAACCTATAAAAATAAAAAGTTCTAAAAGAGGCCAATGTGAAACTGTTATACAAGCTGGCCTAAAGTTATGCGTAGAAGAATACGTATAAAAGTGAATAAATGTTTGCAAACGGATGTTTAAAACATGCGTTTTCTAAACGAAAGATGAAAAATAATATCAAAAAGCGAATTAAGTGCTGTTCAATCGTTAGACCAGCAGTTGATTTGCGAATGGCTGAAAATATTCGCTTAAACTTATGGCAAAGCTTGTTAAAATAAAAAATAAAAAATTTTAAAAGAAATAAAAATATCCTTACACCGGGCACCTACAATGCGTATCCACCCGGGATTCAAGCAAAAGCTATTATTCTATTGGCCTTGATTATTAACATATTTCTATGCTGTGTGTTCTTTCAGATGAGTTTTGAACAGAGACGAAACTTGGAGCCTCGCGGAGCCAAAGTTTTAAATTGATTTTTGTTTTTAATTCCCTATATTCGAGTCGATTTCCCGCAGTCTTTCATTAATTTTCTTAAACATTGACTGGCTAATTCTTGAACCTCAGTTTTCATTCAAAAGTCATCTTTTCTTCGTTGGTCCCTGCTTGAGCTTGAAACATTGTGCCAAGAATTTTTTTCTGTTCAATTGAACCTTTTCTGTGCAAATGTCCTGCAGAAGAGGAAACCCATTACAGACTTGTGCTTTCTCCTGAATGTGATATGCAAGCAGGTGTAACAAAGCCTATGAAATCCGGTCCAACCCCACATCAGGCCATAGCCAAGAAGCTCCGCCTAATACAAGAGAAGATTATACTAACCAGTTTGCTATCTTTCAGATCCGACCAGAAGTAGATCGTGTTCTGTGAACTAACCCCTTCAGTGTTCAGCACCTCGTCAATTGTTCTTAATTGTTCCTTTTATTTTATGTTGTGTTATCTAATTAACTTCCGTTGTATTTTACCCAGTCCCCTTCCTTGACTTTCTAATAATTTTCCATGTTTTGACATATCCTTTTTTGTCCCAGCCGAATAACCAACCATACTATTCCTATATAAGGTTCGTGTTTCGGAAAACGCATTAAAAGGCGTAATTTTAAATCGTTTTCCGAAATGGGAATCACATTTAAACAATATTTTGAACTGCGTAAAACGAATAAATGGAACGGTATTGAAAGCCTATGCATTCATTACGGTTCAAGAAGTATAACTAAAAAAAAGGAATGAAAAAAAAAAAGAAAAGAAAAACACATTTACTAACAAATAAAAACTTGCTGATCAACGTTCTACGCAGTTCTTAAAAAGATGTTGAAATGAACACAGCCAAAGCAAGTAAAAATGTGTGGAAACGTTATACGAATCTTCACCAAGTGCCCAAACTATAAAAAGAAAATTGAAATCGTTATACGCCTGAGCCGATTCACAAAG
>n54_u53_AB054300_meuRNA_Schizosaccharomyces pombe (fission yeast)
TTCATTTTATCTAAATTTATATGAGAGTTTATTATCCTAGAAATTCAGCTAACATTTGATTATCAAGAAACACAACCTAATTACAGGTAATGACAGAGAGCCTGATATTTTCGTAAACCAACATTTAGCGTAGTAAATTGGTTGACTGGAAGATTTATTCCCTTCAATCCGGTTCAAGTGAAAAATTCAATCATATTTAAGAGGGATTCATTCGGTGCAACAGTATTTTCATCAACCGGTAATAAATCATATATTGTCTGAAAAGTTTCAAATCTTCTTTGTGCAATATCTTTGTTTTTATGCGTTCCACTAAAAGCATCCAAAATCAGCGCATTCCAAAATAAAGGACTTTTGTCAAATTGCGGCTGCATAGATTTTTGAAGGTACTCAACTGCCTTAGCAAGATTTTCAGAGACTAGTTCATGAAAGCTAAATTATGATTAGTTGATTGATGTCGATACTTAGTACATACCGATGCAAGTGTAACTGGAGAGACACATTAGATAGACAATGCTTTATCCCCCAACGATCTAGAATATCTAGTTTCCAGAAATCTGAAAGCTTCATTGGTCTCAAAGGATGCGTACTTGCATTTCCACCCATTAAATATATAATGTTTCTATTCAAATCAAAAAAAAAAAAAAAAAA
>n55_u54_AB054303_meuRNA_Schizosaccharomyces pombe (fission yeast)
TTTTCAGGATTTTAGCTTGAAAAATGGGAAAACAAATAAACCAGTATCTTTAGAGGTTGTCAGTATCCATATCTTAAACAAAAGGTTAAATGCGGTTATGAGTGTCATCAAGCACGTTTCCGTAATGAATTAAAATTCAACAAAATACAGCGTGATAAAACAACGATACAAATCTTGATTTTACAAGTTATCGTTTGTTCTTTGTGATTATGTTTATCATTATCATCATTTACTTTTATTAATATGATGACTAGCTTTCCTACCCAAAAGCATGTTATTGTATTAGTAATTTGGTTACCCGAAAAAGTATAAAAACTTTTTCACTGGCTACCCTCTTTTGGTTACTTCCTATGGTTGTAAATATTTGGAACATCTTTACTTTCCTTCTTCATCGTTTTAGGAAAGACGACATTGTTCTTTATATTTCGCATTACTGCATGGTCGGTGAATCATTTATTTGACCAATGATTCAAGTCTTATACTCTCCAATTGATTTAGAGAATTAATACTTGGTAACTCGTCTCCATTGTAAATTAGGTCAAAGCAATGGGAACTATTCTCCATAACTACCTAACCCAGTGTTTTGTACTTCTGGAAGCATTATAAATAATTTCTTTTGAAAAATAATTGTTAGAATTTCATTTTTAGGGACATTTAAAATGATTAGGAAATTTACACTGCTATGTACATTTAATTATGCCCACATAGATTGAAACGCACCAATAAAATTTGTGAATTTCCATAAAAAAAAAAAAAAAAA
>n56_u55_AB054304_meuRNA_Schizosaccharomyces pombe (fission yeast)
GCACACTGTAACCTCGGACCTTTTATGACTGGTTTTCTTTCGCCACCTCGGTGCGAAATCTAAAAAGTGTATTGAGAAAAAAAATTGTGGGGAAACCGACTTGTATTGATTAAGGAGACGCGGGCATGCATGTATGTCTTTCCTTTAATGTGAGAAGGGCTTAAAGTTAAAATACTTTCTTAAAGGCAACTGCAACAGTTGAAATCGATTAATGCGCCGCTTACTACAACAAAAAAAAAATTCGCAGTTTAAAAATCTTTAAGAAATCATATTCACATTACAGTCTGTGATTGTGGAAACTTATTTTTTCAAAGATCCATCAAAAAAGATTAAACCGTTTTACATGGCTGTTATTTACCAAATTTTCCTTACATCAAGCCTTTCAAAATATCACTCTTTTTATGTTTACAAAATGTTAGTTTTGGTCAATTTCTTCTCGTATGATTTTATATAGACGCCTTCAAGATTCAGTGTAAACGAAAAAAATAATAGCATGATTTTTTTTATCGTCATGGTGATGCCTGAACACAAAGACAGAGTGGCTTTTATTTATTATTTTATCAAGCAAAACTCCTTTAATAATAGCAATCACTTCAAAATTTCGCAAAAAAAAAA
>n57_u56_AB054313_meuRNA_Schizosaccharomyces pombe (fission yeast)
CATATCTTAAATGGATGACAGTCTAACTCTCAGAATAGGCAAACAACAGTTGAAATCGCACCTCTGTTACATATATTACAAGTTCATTCCCTTATTAATCACTCATTAATGAATGCCTCCTAATTGAAATCGAGCGCTGTCATCCCCACGGCTAATAATCGTTAGATTTCTGCATTCTATTTAGTAATATTCTTGCATTATTACCATCATATTCTCTGTCCACTTTCGTTTGCTTCTTTAACTTACAGTTAGAGAAAATACACTTTAAAATATAATAATGGAAAACAGCTATATTAAAAATCAATATTGGCATAGCAGATCATTCATAGTATTATATAACTTCTTGATATAAAATTGTTTCTTTTTTCAAAAAAAAAAA
>n58_u57_AB054531_meuRNA_Schizosaccharomyces pombe (fission yeast)
GTTTTGTTATAATTCCATATTAGAAAAGGAATCTGCAAAAAATGAAGTCTAAACACTGTCCAAACAGTCCAGTTCGCTGAGAAGTTTAAGTTTATTACTCTCAAAAACAAATTCAATGGTGTACAAAACTGATCATCATTCATCCCTTGAGACTATAACGTTCTCGTTTTTTGTTGATCGAGCTCAATAATAAATCATTTATCATTTATCAATGATACGTTTTTTCAATAGCGATTTACTTCAATGTCAAACCATGGTTGAACAAATCGTAAAGCCAATTTTAATCTTTGCTTTTGGTTTATCGCAAAATCAAATCTCTGTTTTCTGATTGAACTTCAAGAACTTTTTTTTAAACTATTATTTTATAGGAATTATTAGATTTGTGAAAGCTGACATCAAATACGGAAAAA
>n59_u58_AB061820_snoRNA_Homo sapiens (human)
CAGTAGTGATGAAATTCCACTTCATTGGTCCGTGTTTCTGAACCACATGATTTTCTCGGATGTTCTGATG
>n60_u59_AB061820_snoRNA_Homo sapiens (human)
TGCAATGATGTCGTAATTTGCGTCTTACTCTGTTCTCAGCGACAGTTGCCTGCTGTCAGTAAGCTGGTACAGAAGGTTGACGAAAATTCTTACTGAGCAA
>n61_u60_AB061820_snoRNA_Homo sapiens (human)
TCAAAATGATGAGATTCCACTTAATTGGTCCGTGTTTCTGAAACACATGATATTTGTGGAAATTCTGACT
>n62_u61_AB061820_snoRNA_Homo sapiens (human)
TTGTTATGATGAGATTCCACTTAAGGTCCGTGTTTCTGAAACAAATGATTTTGTGGAAGTTCTGATT
>n63_u62_AB061824_snoRNA_Homo sapiens (human)
CTGCGATGATGGCATTTCTTAGGACACCTTTGGATTAATAATGAAAACAACTACTCTCTGAGCAGC
>n64_u63_AB061824_snoRNA_Homo sapiens (human)
CTGCAGTGATGACTTTCTTGGGACACCTTTGGATTTACCGTGAAAATTAATAAATTCTGAGCAGC
>n65_u64_AB061824_snoRNA_Homo sapiens (human)
TTGCTGTGATGACTATCTTAGGACACCTTTGGAATAACTATGAAAGAAAACTATTCTGAGCAACC
>n66_u65_AB061826_snoRNA_Homo sapiens (human)
CTTAATGATGACTGTTTTTTTTGATTGCTTGAAGCAATGTGAAAAACACATTTCACCGGCTCTGAAAGCT
>n67_u66_AB061835_snoRNA_Homo sapiens (human)
AAAGCAGGTTGCAATTACAGTGCTTCATTTTGTGGAAGTACTGCCATTATCCTGCTGAAAGAAAAGCCGTGTTAATCATTTTTGATTTTGCCTTTATGAGGGTAAAATCATGACAGATTGACATGGACAATT
>n68_u67_AB061838_snoRNA_Homo sapiens (human)
CTTCGATGAAGAGATGATGACGAGTCTGACTTGGGGATGTTCTCTTTGCCCAGGTGGCCTACTCTGTGCTGCGTTCTGTGGCACAGTTTAAAGAGCCCTGGTTGAAGTAATTTCCTAAAGATGACTTAGAGGCATTTGTCTGAGAAGG
>n69_u68_AB061838_snoRNA_Homo sapiens (human)
CTTCAGTGATGACACGATGACGAGTCAGAAAGGTCACGTCCTGCTCTTGGTCCTTGTCAGTGCCATGTTCTGTGGTGCTGTGCACGAGTTCCTTTGGCAGAAGTGTCCTATTTATTGATCGATTTAGAGGCATTTGTCTGAGAAGG
>n70_u69_AB061842_snoRNA_Homo sapiens (human)
TGGCGATGAGGAGGTACCTATTGTGTTGAGTAACGGTGATAATTTTATACGCTATTCTGAGCC
>n71_u70_AB061848_snoRNA_Homo sapiens (human)
GTGCAAACTCGATCACTAGCTCTGCGTGATGTGGCAGAAGCAAAGGGAACCAGGTTTGCAAAAGTAACTGTGGTGATGGAAATGTGTTAGCCTCAGACACTACTGAGGTGGTTCTTTCTATCCTAGTACAGTC
>n72_u71_AB063319_Rian RNA_Mus musculus (house mouse)
GTCACGGACGATGACTACGTCACTAGAGGTCTGAGGTCCATAGCAGAAGATGCCTCATGTGACCCTCTCATGCAGGGGTTGCATGTCAGGCATGTGCATACAGTAGATATTAGCCATGCACTCTCACCATTTCATAGTAGATCACAGAATCAAGATACAAATCTCCATGCACGGAAAGGATTTAAGGCATTGATCAATCCTGAACATAAATATTTGGCCATCAATGATATTTACGCACACACTGAAAAATCTATTCAGAATGACTTACACAAAGGTTTATATAACCTTTATCAAAGGTAATTTATATAGTAAGATTCATGGCTGAAGTCTTCATGATGGTCAAGGCCTTAATTTTTAAAATTATCAATTTTTTTCTTTTCTTTTTTTTTAACTTGAATTTTTTTTTAATGAAAACTATCATGACAATTTGTCTCTTAAATGAAAGGAGAAATGTAAAACTAAATGGACAAATATCAACCTTTTTATTATCTTTGCTGTTGTGCCCTCCCTGGATGGGTGCTGGCACATGATGTCTTGCCTGCTGGTCCGTGGTTGCACTCTCACCATGTGGATGGAGCTCGGCAGCTGAAGTAAGTGAAGCCAAAGATCTGCTCTTCATTTGAGTTTCTTTGATAAGACACCCCTGCTGTGGTAAAGCCATGCATAGGCTCCTTTCAGCCCTATTCAGACTGTGTGCTCAACGCAACATGACCACAAACACTGGGTTAAGAATAGCCAAAATTAAGACAGAGAGGCAGGGTGGCACAAGATCTGTTAGTTATTCAACAAACGAGGATAGGAATTTGTGAGGAAGACTTTCAAGTGAGATGAATAGTTAGGCAATCCATCACAACTATAGGTCTGAGAGTCTCAGGTCCACACCAGAACACAGGTACAGCTACAGCTGTGAGCTAGATATCAGAAGTGGTTTAATATGTTATCTTGATCTTTATATTCATGAGTTTTCATTTTATTTTTATAAGGTAGCTAAAATATAACAAACAATAGCACATTGCAATCTCAAATTATGAACAATACACACATCCAAATTTCTAAGTGCATTTTGAATATGTAGACGAGATCTTTGTCCAGTGATCGATTTCTTATATTGGCAGAGCAGTTCTTATAGTTATCTTCCCTTCCCCAGAAAAGAGTACCATGCATTATGTTTGTGGAAAAAAACACAAAACAACATAATTATCATTGGAACGAATATAATTATGTGCCTAGTCTGTTTTGTTTACATCTGTATGTGATATCTCAAGCTGTCTTCCCTTTCCTACCTAGTCCTGACACCTCTGACTAGCCTTGGGTCTTTAGAGCACATTAGGCTGTGTAAATGCAGTTCATGTTCTTTTCTTACTATGAACACTTCTCCTTATTGACAAATGAATCCCTAATAACTCAAGGATGACACCCATGTTTAATGACAGATGTAGCATGTGACAGATTTTATTAATATTCATAAAATTAGGATAGATATGATGACACACGAAATAAGCAAAGATCCTTTAGATAGCTCTAAAGCATATTTAAGAATATCAATTAAAAGCTTTTATAAGTCATGTTTATCTAATTAGTATAAAACAATAAGGATCTCAATAAATAAATATAAAGATTAATGAAAATTTGTAGGGCTTATGTTGGATAAATGATAACCCCTGTCGCATATGAATCAAGGACCATGACTCCTGGGCTGCTCTTACATCTTAAAGCCTGTGGTTCATGCTTGGCATTCTGGTTATAGATGCCAGATGAATGTTTGTGTTGATTAATTTTACTATATTCCATACCTGAAGTCTGCTGAAGGAGTCATTGATGAAATAACCCCAAAGTAAATCCAGTATTTTTATTTGTTGACTGGAAAATAAATACATGACAAATTCTAGAAATATGCACAAAATAACTGCACTTAAGAGTATCTATTAGATAGTGATTGGTACCATGTTGAACTGTAAGTTGGGAATCTTAGAGCCTGTCCATTATCAAATAAAGTTCGGGAAGAAACCAGGGGATAAATATGGAGGCCTTTACTGAAGCAGAGATCACAGAGGAATGTTTCTCGTTCTTCATAACTTTCATAGCTTGTTTTTTATAGCTCCAAAGAGTATTTAACGCACACCAGATCCTAGCAAGCACTTATTTCTTTAGGTGCATCCCAAAATATATCCAAATATTCGAAAATATACCCAAAAATGGAGTGTTGGTAATGCTTTTCTGGTTTCAAAGTTCATGTGTTCAGAATATAAGGATCAATTTTTATGTCATTAATGGATGTACACTGAAATGTATCTGTGCATTGAGTTACACTATCTCATCCATAACCCTGATACTAGTGGCAGAGTCTAGGAATAGTCTTCCTTTATAATTAGACAAGAACATTAACAGAAGTAAGTTTGTAAGTCACTTTCTAACACCAAACTACTCCAGAGACTAGAGAGACAGATAGCTCAGTGGATAAAAGAACTTACTGTTCTTGTAGAAGACCCACAGTGGGCTGAATCGCCCATGTGACAGCCTGTAACTCTAGTTCTTATGTATCTGGTACCATCATCTGGTCTCTTTACCACATACATGTGTCACAAATACAAAATGCAGATTAAAAAAATCATTAAATAGATAAAAATAAAATAAATATTTGAGAAAATAATTCCACATGAGTTATTAAAATTAGTTATACCATCATTATATTAAAAAATACAGTAATTTATGAAAACAGGATGACTGAGGAGTAGACAGGAAAGAAAACTGTAAGAACCTTCTTAGTATGGTTCAGAGCTATATGTCTAGTGTTTTACATCATAATAGAACATATAGTAGTGTCACACATACAGATGTTTGAGAAGAGGTGCGAGGCAAGTACACAGATCATCTGAACAAAGGAACAAAATACCAATTTTCTTTTGTTGATCTCTTCTGTTTTGAACTCTCAGAATGCATTCTTCCACCAAGATGATTTACACAGCCTAGCTGGATCAGGAGCCCCCTAATAAGCTGCTTCAGATTGTAATATAGACACAGTGTAAGTACAGTCCATATTCTGCTGTCGCTTCATGTTGCATTTAAAGGCCATTTACTGTATTGATAAGGGCACTATCTGTTTTAGGAAGAACAGTCAAGTAAAGGCTGCGTATGGCATGTGTTTGACGCACAAGGTTTAATGAAGTTGTTTCAAATTAAGGATATGTATTGAAAACTGCTTCATAACTCAAAAAGAAACTGAGGAACTCTGAAGTTTACTGGAATCTCTTGTCTTTAGTTTTTTGGTGTTTTTTTGGTGGTTTTTTTGTTTTTGTTTTTGTTTTTTTTTTTTGTGAATCACAATGATCCCAGTAGTACTTGTAATCGTTTGCACACTAAAGATGCCTACGTGAGTAGAGAAGCAGAGACTGATGTTGGATCAATGATGACTGTGGGTGCTGTATGAGTCGTGTATTATGACTATGCGTCTGAGAGTCTGAGGTTCACATCGTAATATATGTAGAGCATCCTATGATCTTAGTGACAGATGTTAGGAGTAGTCTACATTTACATGTAGATAAAATGGTGATACATTTGGAAATCATTTCTAATAAGACATAATTCCATAGCAATAATGTTAAGCACATAGACTAAATAGTGTTTCATTCAGATATGATAACTGGGGGTTCCCCATGAGTGATCTAAAATTGTTAGCAAAGTTCTTGCTCACCTCAGAGCCATGCCCATTTGATCTGTAATGCAGAGATAGTAATAGAATAATGAAGACCTCATGAGGGATATGGTGGAGAATGACCCAGAGAAGCAGACGGAATGCAGTTACCTAAACAGAATCTTAACCTTTTTATAATTTTTCTGCTTTTTGCTCTCAGAATGTATGCCTGCAGGATGAGTCCCACCTTCTTCATTAGTCTTGAGGTTTGAGATTCCCTGTTTGTGTCTGCAGGATTCAGATAGTGTGAGTATAGTCTGTGTTCTTGTGTTGGAATTCTTTTGCTTGCATAAAAACAGGGTAGAAAATATTTCTGGGGCTGGTGAGATGGCTCAGAGGTTGAGAGCACTGACTGTTCTCCCTGATGTCCTGAGTTCAATTCCCAGCAACCCCATGGTGGCTCACAACCATCTGTAAGGGCTCTGATGCACTCTTCTGGTGTGTCTGATGACAGCAGCAGTGTACTCCTGTTCCTAAAATAAATAATTATTTTAAATACATTATTATCTCTGAAGAGCAGATGTAGCCATAGGCATATAAGATGTATATGAAGCACAATGTTTAATAAAATTTTACCAAATTAAGATTGTGCAACAATAGAGATAGGCATCAGTGCAGAAGATCCCGTAGAGGTTTAACTGCACTCACGGATCTTATAGTTAGGGCTTGTCTCCAGTGGAGATTTTCGCAATGGTCCTAGTCATCCATTGCTCAATAATTTTACATAGATTAGTAGGGAAGAGGAGGACTGATGTTGGATCAATGATGAATGTCTGTGAGCATTCTTAGAGTCATGAATCATGACGACAAATTTAATTCTGAGATCAACATCATAAAGTATCCAGTGACAGCTATAAGAAGTAGTCTTCTTTTATAAGTCAGTAAATGTAAATAAAAATTGACTAGGAAGTCATTTAATCAAAAGGCAGCTCACAAAGAAGACTACATATATGTATATATGTATATATGTAAGAAGAAAGTGTGACAGAGTAATGACCATGGAGGTGAGGGATAAGATGAAATGAGCAGAAGCAGGCAGAATACATAGATAAGCGAACGGAACATCAATCTCTTTATAACCTCTTCTGTCTATACTTCAAGAATGGATATCCTGCAAGTCGGCTTCGTAGAGTCTCCCTTGAAAGTGGACCTCATGATCTAGCCTTTATGTCCGTGGATTGACACTGTGATGGATTCCCCCCAAGTTCATTTAGATATTCTCTCTTATTCATAAATGTCACGGTCAGCTCTGTTCTTATAGATACCAGGTGAGTATAGCCAACGTTCTTTTGTTGCTTCATGTTGCTTTTTAATGACTGTGCATATACTGAGAAAAGAAAGTCCAGTTATTATCTGGGAAGAGCATCCCGCTTAAAGTGTTAAATGGCAGTTAGATGAAACAGAATGTTTATGAGTATTTCCAGAAGAGGAATGTATAACAGAAAAGATTCTAATCATGGCAAAAGATCCTGAGGACCTTCAGAGTACACGCAACGATCTTGTCCTTAGATTGTGTCATTTATTATCATCTTAGAGGCACTAGTGAGATTAATTGCTC
>n73_u72_AB065135_snmRNA_Human herpesvirus 4 (Epstein-Barr virus)
AGGACCTACGCTGCCCTAGAGGTTTTGCTAGGGAGGAGACGTGTGTGGCTGTAGCCACCCGTCCCGGGTACAAGTCCCGGGTGGTGAGGACGGTGTCTGTGGTTGTCTTCCCAGACTCTGCTTTCTGCCGTCTTCGGTCAAGTACCAGCTGGTGGTCCGCATGTTTT
>n74_u73_AB065136_snmRNA_Human herpesvirus 4 (Epstein-Barr virus)
AGGACAGCCGTTGCCCTAGTGGTTTCGGACACACCGCCAACGCTCAGTGCGGTGCTACCGACCCGAGGTCAAGTCCCGGGGGAGGAGAAGAGAGGCTTCCCGCCTAGAGCATTTGCAAGTCAGGATTCTCTAATCCCTCTGGGAGAAGGGTATTCGGCTTGTCCGCTGTTTTT
>n75_u74_AB070559_snoRNA_Homo sapiens (human)
CTGCGAATATTCTCGCTGTTCTGATTTTGTAATAGTCAGGACAGGCTAAACATTCGCTATATTAAGACCATGCATGTGTCCCCAAACCTAGTTCTTTCCCTAGGTCTGGTTTTATAAATGCTGGTGATAAAC
>n76_u75_AB071139_Ks-1 RNA_Apis mellifera (honey bee)
GTCGAACGGCGCTGTGTTGCGACGGGACCATGCCGCCGCGCCCTGCACCACCGATCAACCGATCTCAGGTACGCGAGACACATTATCATTCCCGAGATATCGATACATTTCATTACAGAGAGGCCATTCCTTCCCGTACGAATGAACGTGGTTCCGGTGTTTTCGCATCTTTTCCTTTATCTCGGCTGGTGATTCGGAGAAACGTGTATATTTTCAACGTAGATCGCGTCTCACGAGAGTGAGATAAATCCGTTTCTCGTGAGTTGCTGCTTCTTCTCTCCTCTTTGATAATTGATAATTTGTGCTGTTTCGTGTGTTCGTTCTTCTTGTAAAAAAAAAAAAAAGAAAGAAAACGTTCAGATATCGTGATTAGAAAAGAGAGAGAAAAAGAGAGAGTGTGCGAGGAAACTTTGTTTTTCCTGTTCGTCGTTTTTCACTGCACTTTCTGTTATGATTTTGGTGCGGTTTAGTGGAAGGAGCGAAGGAGCCACGCGAGGGAGAAACAATCTCGAGTTTTTTTGGTGAAACTTGTTGTTCGTTACGTATCCTCGTGTGGATACGACACGAGGATCGATCCTGGCATCGATCCTACGATCCTATACGTGGAAAGAGAAGAGATTTAGAATACGTTTACCGTTTTCCTTGTTCCATGGGATTAGTTACGCGTGATCATCGGCCGGCTATCGATTATAAAAAAAAATAGAAGAAACCGAAGAGAGAAAGATTATTATCAATATAGGAAGATGCGTCTCCAGTCCTCTTTTCTTTTTTCTTTTTTTCTTCTTCCAAGAGATGCTTCCTTTTGAACACCCGCTTGACATTCGTGTAATATAATACCATCGACCTTCGAATACATCCACTTAAAATAGTTTCGATCGAGTCTTCGAAAAAAGACCATCAACGGAACTCGAAAACGTGATGTCTTAATCCATCGAGGGAATCGAGATAGAAAGCGAGAGAGAAAGTGAGAGAGAAAAAGAGGTGTTGTTTGCCTYTGGAGGGCTTTCACGGAGCTATCTCACCGAAGGGGGATGGGAAAATACTTTTTGGCGGAGAATATGAAGTGAATCCTTGATCAGTTTCCGACTTTTTGCTTACTCTCGTTATGCGTTTTTGTGTGTAAGCATCATGACAAAGCCATGTAAAATAATTAAAATAGTTTTGTGCGTCCGTCGGTTTTCTCGCGTGTGCTTATGTGCGCGTATACATATATATGTATACATATATATATATATATGTATATACGTCGAAGATCAAAGAAACGCAAAAAGATTGTGCTACGGATTACCAGCATGTTCATAAAGGGATGCTTTTGATAAAGGCGCCGCTTAGGCGAGACACGGTTTACTTCATTTTCACGCCGGTGGGGACCGATATTTTTCACCCTCCCCCCTCCCCCGTTTAATGCTGGTCTCTCTTTGCCTAAGTGCATACCGCGTGGCCGACCTTGTTTTAAACGGAGCCTCATTAATTAAAAAAAGAAAAAGAATATATATATACACGTAATAGTACACGCAGAGGCTGTGCACTATTGAAATATTTGTCTCGAGTTCTTCAGAGAATGGCTACATTATTGGCAGGAAGTTTTGTTGTTGGCCCATTCCTCCGCAATTTCACTGAAGTAGGCAGTTTGCGTTTCAGTGGGCTCTGTTCGACGCTCTTGGTGCCTCGGCGAAAAGTTAAATTAATGGAAAATGAAGGGAACAGAATTCATTGAAAAGTTGAAGTATTTAGTCGATCGCTTAAAGATATTGGTTTTCTTCTGGATCGAGGAAAGTAGGATGAGTCACCTCCCTCCGTATAACTTTCTTACACTCTTCTAACCATAAATAATAATCGCGTCTCGAGGGTAGGAAAATAATAGAATTAAGTTAATTAGGTATGCCAAGTAACAATCCGTTCTCGATGAACGGAATCGGTTTTCTCGGAGCCGATCAATCGAAGCGCCGTAAGTTGCTCAAACTGTTCTTTAAACGCGGACCGATTTAATTCCGTGCTATTTCTCAAGAACGCGATCTATATTCCTGATGACGCATCGACGTGATGGAAAACCGTTTTCTTCGTTCTCCTCGCCTCGTGACGAGGAAAAAAGAAGAAAAAGCGACACGCTGAAATAATAGAAAATGTGGAACATCTCGGAGGTAGTAATGTCATAAGGAAAATACACATGTAGAACGATATATATATTAAAGTAGATTTATTGTCGTTTAAAATACACGAGACCAATTATTGTTAACCATCTAACACGTCTCTCATTGGTACAAACTCTCTTTATTATCAAACTTTGCGAGAAATTTTGTATCCACTAACCAAACTACTAAATTCTACCACGTGTACAGTTTAAACATTAACCGTTCGAATTCTATTGTTCGTCAATCGTTATTTTCCTTTCGTGATCACGGAATCAGAAGAAACGAGTACACGTTTCGAGGGAACGTGAGAAGCGACGACGAAAACAAAAACACGTGAGAAGAAAAGGGAGTGGAAGAAAGGAAAAGGAACATCTTGCAGCGTTCCTTTTTTTTCGCCTCGTTGTGCTTTGGAGCTCGCGATACGCACGTCTGGCACGTCTATCTCGAGCACGAGCACGGAATAGATATATCATTGTTATGGGTTGAAATATTTTTCGTTGACGGGAAATAATGCTACCATTTTGTCTCGTTAGCTGACAATTCTTGTACCTATTCTTGCGTGTCACGGGATTTTATACCGGCCAGGATTAATGGTATAGAAAGAGGAGATATTTTTCGGTTAACCAATCGCGGAGACTGTATTCCGCGAAACAAACTTTAGTTCTTCCAGCGGCATTGCTTAAAAAGGGGGAAAAAAAAGTTAGTGGAAAGGAGAGAAACAATGGTTTCAATCGATAACTGGAAACTTTTCTTGGTCATTTCTGCTTTGCTTCCTCTTTTAAATTTCGCCAGATAAATTCTATATCAGTGAGAAAACTATTGTAGGAGTTAATATTCGATTGCGTCCTTTGTTCTATGAAATTTTATTACTTTTTTTCGAAAGGGGATAGGGAAAGGAGAGAAACGATGGTTTCGTGTGAAAATGGTTTCTTTTCATTTGAGATCATCATCAGAAAATCGGTATATCAGTAAGTAAAATATTGTAGAGAAACATTAATTGCTGTTGTTTGATTAAAAATCATGTTTCTTGTTTGTCGTTTATTTCTATTTTCAAAAAGAGATAGGGGAATCTTATCTTAAATCTTCGTCAGCCATATCGGCGAAAAACAATTGTGGGTATTGATGTTTGACGAACATTGTGTCTATTCTAGAGTTTTATTACTATTTTCAAAAATAGATAGGGGAGAAAGGAGCATCCGATATGAAATTTGGTCATTCATATTTTGATCATCACATTGACGATAGTGAACGTGAAAAATCATATTGTTTTTTGTCTTTCGAAATTTTATTATTTTTTTGAACATGAATAGAGAAAGAAAAGAGAGAAGAACAATGATTTTAAATTGACATGAAACTTTTCTTGCACGTTTGTACCTGATTCTCCTGATTTTAAATCTCATCAGAAGATTGTCATATAGATAAAAAAAACTATTGTAAGGATTGATGTTTGGTAAAAATCATCTTCTTCATTTAAATGCATTTATATAAACTTGTCCAAGTGCAATATTTTCTCTAGAATGTATAATAATCATTAAATATTATAAATTTGGAAACAATTTTACAGGCATAATAATTAATAGAAATTTATTTTTTATCATCAGATATAATTTATATTTGTAATTATATTACAACGAGTAATTGATTATAATTGAGATAATAGGAATTCAGTGATCATATACTTAAATGAAATCTATATAAGTGAATTTTCACTTATATAGATTAAATAAAACAAAGCATGTGATTTGCTAATATTATTTAAATTCAAAGAAGGTATAAATATTATAATTTCTTGTACTTTGAATACTTGAAATAAATAAATTTTAAGTGAATAACAGTGTACAGTAAACGGCTTACCAAGTTTAATCGAATATCAGGATTACAAGGAAATGTCTCATCTAAAAGTGAATGACAGAATCATTAATGTAACAAAAAGTAGAATAAAGCGAAATATATTTGCATATAATGTAATATTTCTCTCTGAATAAAAAATATGAATGAAAAGATATGACATGAATTTCGACAGCCAAATAAAATATTTTGTAATCATGATACATACGATGTAATAATGGCAAAATAATTAATCTTTTTTTAATCAAAGAATCATTATAATATAAGAAAAATATTATATAATTCTTACACTGTATTTTAATTAAAGTATAAATACTTTTTTAAAATATTTCATATGTAAGTATCATAGATATGTGGATATCTATAGAAAAAATCTATAGAAATCTATAGAATCTAGAAATCTATAGAAAAGTGGATATCTATAGAAAAAAGTATTTATTTAGTAATATTCGTAGATTTAACTTTAACATTTTTCATTATTACATTTTCAATTATACGTATTATTCATATTTAAAGCTATTTTATATAAATTATTAATTTTCGTTTAAAAGAAATTAAGATTTTGCAATTTTAGGTGATTTTTTAGCGAGTATTTCACTTTATCCTGTGATTTTATTCAAGAATGATATCTCAATGCCTTTAGAAAATTGTATTTTTCTTTGTAATTGTATCTTATTCCCTCAGTTAGTCTTTATCAGCGAAAATTCAAAATTAATTTTCAATTTTACTCTACTTTCATTCGTATACATTCCCCAGCAAAAATCTGGAGAAAAAAAACCATACAAAAACTGTATTATACAAGCCCATACACAACAGTTTTACAATATTTGAATAAACAAGCTGAACAAAGACCGATATAAGACTACATTATCATTAAAATAATTTATTTCTCCTCGCAACAAAAGCAAACAACATCCCCTCGTAAACGTGATATTATTCATTCAATGTCAATAAATACGAGACGTTTCGAAACGTTAAATCAATCCGCGAGAATGAGAGGGATATTTTGCGATGAAATCGGCGCAATCAAAGCAACTTTAGATCATCGTTATTCCTTAATAACCCGGAGCTTGTTTAATAAATATTTCCCACGGCGATATTCAAGCGGATGTTGGATAGGATTTCCCGCGACCTGAAATTTCCACCACCATGTTTCCACCACGATGAACCGAGTTTTATATATCGCGAGCTCCCTGATTGCGTGAGCCCGTTAGGCTTCGATAAATATGCATTCGTCGCCCTCTCTCGTTCTTTTTTCTCTTCTCTTCTTTTTTTTTCTCTCTCTCTCTCCCTCTGCTCCCTCCCTCTGCCTCTGCGAGAGAAGGTTTTGCAACGAGTGTTCCGAGCTGTTGGTGAATTTTCGCCTTGCAAGGGGAGAACGGYATARGTTATTGATTATCGTGAATGGTTTTATAAATAACCGATCGTGTAGGAGCAGCCGCCGGACGACGCGTAAATATCGCGCTTGCCGGGGATGATTCTTTAAAATCGCCGCGCGCGCCGCCATAGAAAAAGGGGGGCGCGAGATGAAATCCGGGCCGTGTGTTTGATCGATACCCATCGTAATTCCTCTTGAATTCTTATTTCATTAATTCTAATACTCCACGTGGCGGATTGCCCYGTGRAGGATAAATAGGCAACTGAGTGAGATAAGGTTTGAACATTGATGATCAAGATTAAGTTGATGACAGAAGAAAGAATTAATYACAATGATTATTAATCAAGRTAAATCGTGATAGAGAAAAATCTTGTACAACATCGGTAATTGTGTATACAGTTTTTAAAAAAATCGATGAAGGATCAAGAAGAGATTGGTTCGTTACGAATTTTTAGAATGATTTTGAGAATAACATCATTCAYAAATCACTTTGTACATTTTGTTGGCGAACAATAACTAAATTTAAATATTATCGATCAATATTYATTGATARAAAAAGTTTTTCTYTTTTTTATAAAACTTACCTCTGCCATTTTCTATCGACARATTATTGTGATATATATATATAATAATAATAAATGTGACAAAAGTGGATTAAATAAAATGTCGTAAAGTGAAAGTCGTGTTARGAGCACGATAAAAGTAAATAAACGATTTATTGTTCTAAAATTACACATATAATAAATAATCATGATCAATGTAACGTGATTTCGCGTTAATTACAATCTTCAATCAAATTATATCTTTGTTCTCTAAAGCTCTCTCTATTTACAAAATTCTATTTTGTTTGCTACAACATCTGGAACAATACGAAAGGAGGAAAATTCTCCTCGTAAAAGCTCGATCTTTGGGATAAACCGACTGGCCGATATTAAATTCTTTTACGGCCATGATTTTTTACTTATTTCCTCCGTGTTCTGTGTACATAAATGGTGTCCAGAGATGAAAAGCTTTCTTTCTTCCTTTCTTTCTTTCTTTTCTTTTTTTTTTCTTTTTTTCTTTCGTCAGAAGAGAGGCTAAATGAATCTTTAAATTCTAGCTTAATCGAGAGAGTGAATATCAATTTTTTATCAATTAACGGGGACTGAAAGCCGCGAGTGCTTGTCGTTCTGGTATCCGGGGCTCTTATTTACGTAACGAGTCGCGCTCTGTTAAATTTCCTGAGAAATAAGGGCGTAAACAGTGTCGTGTTTTGCGTCAGTTAAAATAGCTTTAATAAGGTAAGTGGCAACTCGAGTGTCTCATCGGCTGTTCCCGTATAGATCATCGTCGATTGTACTTGAGCGGAACCATTTCTGTACCATTGATCCTCATTCGATCTTCGTAAAAAACAATTTAAATGGAATAATTAACACGAACACGCACGAGATAATCTGAGAACATGATGGACAAAAGGTTGGTTAAAGCGGCTTCACTCGAAAATATATCAAAGGAAATCTGAATCTGAATTAATAATCTCAATAATTACGTAGTGGCAGCGATCTACGTAGAAACTAGAGAAATAATTGATGTAACGAGAACGTAAATATTTATTGCTGCTGTGAAACGTGTGTATATTATGCATATTCGCCCATAATATTTCATCGCCTTTGTTTCCTTTTCTATTAAAAATTTGTTGAATCGTTTGGTGGCACAGACTAATTTCCCCTTTTTAGGACACACTGGCTTATTCTCGTAATCGGTTTATCTCTCGGAATATCAGGGAGTTATTTCAAAACAGAGGAGATATCAAATAAAGTAACAAAGAAAAAACTTTTTCTCCCTTGTCCTTCTCTTTATGATAGGAAAATACACGAAAAAAAAAAAGAAAAAAGGAAAGAAAAGGAAGAATTATGCGTAAAATTTGTGCAAAACGATGTTCTAGATAGTTGCAAATAATTGTTGAAATTTAAAATTGCTTATGTAATGGATTACATTTGAAATTATGCATTTCTGAGCTTAGCTACCGAGTTAAATTAGAGTTAAATTCGCGAAGAACTTTAGAAAAGGTTTTTGTAATATTCGTAGATGAAAATTTCTTGTTCTGATCTCATTCTCAGTAAGATTTATTTATTTTTAAACTTGAATATTCATCCCTAGAAAATTTTTCCTTCTTCAAAATCGAAATCGTGAACTCCTCCTATAAAAATCTGTATTTATAATTCTAGTTAAGCAATATAAAAATGATTATTTTAATTTGTTTTCCACATTTTTTGCATCTTCTTTTTCCCCTCTCTTGATTACTCGATAATCATTTATATCACGTATAATAAAAAAAATATGATTGATAAAAGTTCGATTCACGAGATAAAAACGACAGACGAGATATTGTTAACAGCTCCTCGAAATGTTCGCATTTGTATAGAAAAAGGTAGACAATAGAAAGTCAATGATTTACCAAACTTGAGAGATGTGCAGAGGACGTATAAATCCGCGTGACATTTTGTGCTCGATAATAAATGAAAAGAACCATCCTGTACAATTTCTTCGTCGATGGAACTACCCTTGTCAATTTCCCCTTCCCCAGAGATGAGAATTTCCAATATCGTTGCTTATGAAGATACAGATTAATAGTCGAGGTTTTTGATCATGTTTCGTCTTTGTAGAAGCCGTGGATGCTAGCCGCAATTTCTTTTTTCCGATTGGCCGCGTTGGATATGCAAATGGCGGTCTACGTAACCTTCCCTCCCTAATTCAACAAGCGGTCGCATAAATTTCACGTAATGGCAGGCAATTACAGGATAATAGTGCGATCGTGCCTAACATTGACTGGTGTGGACAGGTCATAAAAATGAAACGCGTAATTATATACGATTTTGGAAGGGGAGGGAAAGTTTCAACTTTTATAGAAAAGCTATACGTGTCGATCTTTTTTTTTCTTTCTTTTCTATTTTCGCGCACGCGAGACTTTTTCACCGGGAATTTTTTCCTCTTGGGTTAAAACTGTTTCACTCGCCAACTTCTTATCTTGCTTCTATTTGTAAAATAAACGTATACTAGAAAGAGAAAAAAAAGTATTTGTACATACTGCTATTTTATAATGACGCGTTTTTTTATCATGCTCCATATTTTACTTTCATCGTATCAAATTTAATCATACGAAAGCGTTAACAAATAACACTGTACGAGATTAGAACGTGAAGCTGAGTCTGCGAAATAAATCGAAAATAGAGAATAAAATTTCCTCGTTTCCCATTTTGTAAATCAAATTCGAAAATTTTTCAGACATGATCAGACAGAAATTGATTAATTTTCAAATTCAATCCTATAGAAAACTAATTTCTAAATGAAGAAAAAAAGTTTATTCCATATTTTCTTGTTTATCGATAAAGCATTTTTTTCACATAGTTTTTCGACTTACTTTTTCACATAGAATCAATCTTTATGTAGTACTTTCTACAATATTCTGACTTCTTTTATATGATTATGATAAAATTATAAATGCTGTAATAAATATAACGAAAATACTTTTATATACAGCTATATTACAGGATGAATTTTCCATGTAGTTTGAAAAAGGACTTCACGCTTGCGAATCAAACTTACTTCACTTGAAGGCATCGTATTGAAGTTTGGTTGAAACCAGGTGTTCGATGGATATTCTTTTTATTCCCTTCTCTCTTTCTTTTCCATCCACTTTTCTTTCTTTCTTTCTTTTTTTTTTTCAATAAAACGTAAATTCAACGCTGCATCGCGTACAAGATTGCCCGCCTCTTTACAACGATAATCCGCCTGCTTTGGAGTACCAATCGGCCGTGATGTAAGCGTAAAATGATTAATTAGAGTGCAGAGAACCGTGGAAGAAGCGCGGGAAACTGTCCGCCTCGTTTGTGGGAGGAGGTTTCCTTTAATTAAAACGCATGCATGCATCGTTTGCTTTTCCTTTCTCTCTCTTTTTCCCTCCTCTCATAATTGTACACAAATTAAAACGTGTTTTAAAATTGTCGTTAATTCCAACTTCTGTTACCTACATTAATTGACTATCTATTCATCGTTAATTAAATCTTCGTCGTTTCACGCGTTAAATCGTTATCGACGTCTCGTTCCCATCTATCTGCTTTTTGCCACCTCATTTCCTGTCAACGAGATCGTTCCGATCTGAATTAGTCGAATTTCCATCAAACTTCTTTTTTTCTTCTCTTCTCTTTTTCTTTTTACCTGATACCGAAATAAGCGAGAACTGTTTGTTTCAAGAAACGGAGAGAGAGAGAGAGAGAGAAATGCACTCGACTTTCGACAGACGTGATGCATCTCTCTTTTCCCTTCACGCTTCTCTCCGTCATTGTAATAACAGAAAAATCCCTCGCATCGCCACGACACCTGTCTTCATCCCCAAAACCATTCCCCTCGTCCCAAAACCTTGAAAAACATTCTCTCTTTCGATGGTTGAATGAAATGCTCTGTCCCAGCCGCGCCCTTTAACACGCGATGCCTTCCAACCCTCGGCCAGAGAGATATTTAGAGAATACACGCCCGTTCCGCACGTTCCGCCACGCTTTAGAGCGCTTTTCCCAAAACGTTGGAAATTTTCCAGATGCCGTCCGTCCCATAAATTCGCCATGAAATTCGTAACGTAAAGGGAAAGGCTCGGGTATCGAGTTATATATCCAATATATATATGGGGACAATGCTCGATTCCAATATCACCGGGTAACGAGCACGTGGGGAGAGGTAGGGGGAGGGAGATCACGAGATCTTATTATTCGCAAGTTATCGTTTCGAAAGTACAGATTTTGCAGGCGATATATTCAAAATTTTGCAAGGTAAACCTATGTTCGTGGAACAGATTGTACGAGGAGGGTCCATTCACGCACGGGTTACGATAATAGTATGGAAAATTGGCCGAGTGAATATCGGTGTGGGGAAGGGGGGGGAGGGACCGTTGGGAAAAATCGATGGGATCTGGGAAGAAAGGGCGACAGTGTTGGGACGAAAATGTTGCGGACACACTCGATTTGCCATTATCCCGCCACGAGGAGAAAATGTCACGCTTCGTGCTCCCTCCGTTATTGACGCGAAAACCGTTCTTAATCGCGAATTTAACTTGTAGGAGGGGGCGAATACCAATCGTCGTTCCATTTCCGTAAGTGCTTAATCGGTCGGAAATGAATCGCGATATTCAATCTGTATCGTGATACTGGATACCCTGGAAATATATAAGTCCAAAGTATACTTTGAATACGTGGAAGGAATCGATTGTCTTGTTCGCTAAAAATTACTATGAATTTTAAAATAAACTATGGATCGGTCTCGGTGGAATTCAGGAAGTTCCTTTCAAATTGAAACAGAAAGAGAGAGAGAGGAAAGGGTATATTCGGAATGTCAGTTGTACCGGTATTGCACGTTGTAGATTAATTTTGATACGTTGCGAAAAATATTGAAGTGATGGAGAGGGATGATGGATTAGGTTTTATTGGATCTATCTCATGGCGTTTCATAGAATATATAGTGGATGGATGTACAGGAAATTAAAAATAAATGATAAAAATGTATCTGTTACATTTCATTTTTGACAGGAGAAAGATTATTAAGATGATATTTGTAATTTAACGAGTGTAAGGTTGGATTTGTAAAATTTATAAAACAAGATATGCTGAATATTCGAACATACATATATATGTATTATTCATTACATTTAATTGATTTTAACTTTAATAATGGTAATTTTTTGGTATGGAGTCGGTATTTTATACCGAATTAATTTCTGCATTTACATCGATGATATTCCATATTTTAATTGAATTTAGAAGAAAAGAATATATTACATTTCACAAAATTAAAAAGGTGAATTATTCACCAGTGATTAAAGAAGAAGAATTGCTGTATAACGCTTCTTTGAAAAATATTCTGCTTCTTTAATTGCTACAATGAGAAACAAATTGTTCTTACTTCTTCCTGTAAATTTTCTTTTAGACATTCAATTATTTTTTATATTAATAATTTTGTTAAATATATATATTATTATTAATTATTTAATCTTCTATTTTTATCATTTCAGACAAATGGTTAATTGTATACTTTAATGTATAATTATCTACTATCTCATAACAAATGTAACATCATTTTTGAAATCATCTTATTTTTTAAACATTATTCTTATTTCAATAAACGAGTATTAAAATATTTTTATTAGACAAAGAGAAGATAAACAATAGAGCAAGTATAATAATTTCTTTCTAATGATATATTAATTGGCAAGCATGTACCATTAAAATTTAATGTATTCGTATTTCAACATTTTTGAGAAATATCTTATACCTGTATTTATGTATTATATAAAGAACGTGCGACAAAAAAAAAATAATTACAAGATTATAACGCACAATGTATTTCTCTTAGTTGATGGAGTTGATTGGAAATTTCCTACCAGAATCAGTATCTGACAGCGGCAATAATAGCCTCGATAATAGACTGCGTTTTATTTTTCAATTACTTGGAGAAGATACCAGAGATTGTATCGTAAGTTTCAGACATAATAAACTTGAGGAAAAAAAAAGAAAACGAACAAGTTGCCTTGTAATATTTGTGATAGAAAATTTCAACTAGGGAATTGTTTTAAAAGATAGAACATCGTAAAACCAGAGACCAGGATTCAGGAGCCATTTTTAACAGAAGGTGTAACGTGTAAGGCGAAACGTGTAAATATATATAGACAATTTTTTAATCTTTTTTTTTTTTACACGATTTGAAATTCTCCATATTGTAAAAACTTAGAATAATTATTTAGCGATTAAATATCGGATAGATTTATCATTAAATCTTTTTAAAATTAAGAAACTTTCTCTCTATACTCTTAGCAATATTTACCAAGAGTCTAGAATACATAAAATTCCAGAGAGAATTATAGAAATTATAGAAATTCAAATAATTTATTATAAAAAGAATCGTGTAAAACACCATCAAAATATGCGATAATAAATAAATCTTCTTTAATCATCATCTCACCATACATTTCACTCACAATTTTTCTAAAAAATTCTGTCCATTAACTGTGAAGTTGATAAAACGCAAATGTTAAACAACCCTCAGAGAGTGAAAAGCTTTAATCCAATATCACGACGCGTTAACGGAGCACATAACGAAGCCGACGAATTACAGTTGAAATACGGGTTTCAGGATGGAAAAATTCCATCCTGAGTGGTTGCAGCCATCAAGGCGCTTATCTACCGACGAACAGCCGTAGTTTACTTTACGTATGTTAAGGAAACATTAATTTGGCCGCAAAAGTTTGCATTGCATCGGTGTTCCGCAACGTATCCGAGTTGTCGGGCACGGTTAACCTGTGTATACGTCACGTTTGTCCCTTGCGATCCTCCTCTCCCCCTCCTCCTCGCATCCGTGGTTACCGTCTCTCGATGAGGGCGTGGGTTTCGTTAGTTTCTTGCAACAGCCGGCGCGGAACGCGTTAGTGGTTCGACGTTACGAGATTATAACGACGTATACACGGAAATTTCTGGAGAAATTTCTCGATACCATTAAACGCGAGAACTCTCCGTTAACTTAAATATCGAACTTTCCAACGATGATAACTCGTCGCTTTAACCCGATCAACACACACACACACACACACGCACGCGCGCGCTTACGCACGAGTGACGAGCTCATGTCCTCCCCTGTTTAACTTGCTCCTTGCTGTTTTCGTTTGTGTGCCTACGCCAATTTCATTCATTAGTCCTAAAATCGTCGAGTTTATGATTGCCAAACGGTTGTTGATCCCGGAAATAGTCAGGAAGGTTGATTTTCATCCGTGTTTGCCCAACAAGTTGACACAACACGTTCTCCGAGGTATCAACCCTCGGTTAACCGAGTTTATTTAACGTTTTGACGAATTACGTTTGAGAAATTAGATTTAGATCTCTTTCTGTTGCTTTTATCCTCCAAATTAATCCTTCTGTTTACCGGAATACAAAGGGATTGAGCAGGGAATGATGTTAAATACTCGAGAACAAGATCTTTCTTGCAGAGTTTAGAGTTTTTCTCACTTTGAATGTAGTCATCTCGAGTGCAGAAAAGTGAAAAGTGAAGGTAAAGATTACTTTCATCTGCATTTCGTTCAAAGAATATGTAAAATGCTGTAAAATAAAGTTGATCTTTATTTTTAATATAAAATGAAATGTTTGGTTTATTTGTAATAACAATAAAACGACAAGTTAAACGAAGTTTCGGTTTAGTTTTTTGATGTGCATCTCGGATGATCGTTCATAAAAGTACAAAGATTATTTTTAATGAACAGGATGAATGATTTTTCTATATAATAGAAAAGTTTTTTTATATGGAAAGATGAATCTGGAAATTATGAGCGAAATAAGAAATCTGAAAATGATCGTAAAGCAAACACCCATAAAAAGTTAGATTTATTTTAAATGATACAAAAGCCAAAACAAAAACAATTCGAATTAGCTGACATTTTGAGAATTAGGGAATTGAATTCAATTATTGAACAAGTGTAAACATTCGAGCTTTCATTGAATATTCATGAATCAATTAATGAATTAATTTTATTCTTTGAATCGCAATGAATACCCAAAATGAAATATAAGTGAATAGTTATTCAAACAACAAAGTTGAAAATATCTTTTGAATTTGAATGATGAGCATTTTAATTAAATATATTGAATTATAAGTATCATTTTTCTGTTGAAGTTAAGTTAACTCAATTTCAACGTTTGCTATTCCTGCTAATATTTTGAGAATCAAAGAATCTAATTGAACCATCGAACAGAAGAAGAAAGGAAAAAAGGAAAAATTTTTTTTCAAATTCAAAGCGAATGAATCATCCACGACGACTGTCAAAAATCTAAAAAAGCGTAAAATTTGCCTGAAATACTCGAGATTTCTCTGTGTATACGGGATCATGGAAAGTGAAAAAGTGTAAATTTGGCTTAAGGATTCACGAAGCTTCTCGTTTAAAATGGGCATTGAATTTTAATAACTCGCTTCTCTTACGAGTTTCATCCTCTTACTCGAAAATCGAGGTGAAAGGATCATTCACGATTCGCTTTAACTTTGCTTTAAATTTGTTCCGAAACCGACGTCGTTCGACGCTTCTATTTTCGAAACACTTCCGACGAGCGAGCCGGCTCCGTCTTGGTTACTCCTTTCCCTTACACCTGGCGGGTCAAAGTTAAATCGCGCCTAACCCTTCCAACTACGGCTGTTTGTAAATCGACGCTTTGAACTTGAGACGTCGCCCACCCCGTCGCCAACGATAGCTAAAGCCCTTTATGTAATTAGAGAGAAAGAGAGAGAGAGAGAACGATAGCCTCCGTATCCTTGACACGAGCTCTTTTAAAACTTTCGCTTGTCTTTTGATCATTATTATCCGAAGATGTACAAATTTTTCAAATTTTCCTCCTATTTTCCTTTAGTTTCGTCATTTCTTATCAATTATGATCGCCATCTCGATTGTTTAAAGGAAAAGGAATATGAGGATAAATATTTTAATGATAATATCGTTTTAATTATTTTTAACGAGCTTTAAAGATACATATATATAGTATAATTGGATAGTTTTGATAATAAATAAATGAATAAATAAATAATTTATGAAATAAAATTGTAATTTAAATTAAATTAGTATGAATTAAAAAATCATAGCTGATGAAAGAAATTTATATAATTTTCTTTTCAACGTGCAAATGTTGAGTTTTGCTAATTCTTCATCTTACTTCTTAAATTTCAATTAAAAAATACGATATTGTGTCATGGAATTGTTATTATTATAATTTAGCTTCTTTGAAAATTATAAAATGAACAATAAGAAGAGTAAATTTCATTTAAATATATACGCGAAGAAACTTTGCATAAATTTTAATTGTATAAACATAGGACGTCCATTAAATCTTAATGACAACTTGCAATCTTCAATTTACTTATATTTATCATTGTTAAAGATCTCATTGTTATGTATGTATAAATCACAATTCTTAACGTTTCATATTTCTTCCTTGTCTCATATTTCTATCTTCATTCATATTAGCTTAGATTTCTATTATTTTTCTTGCGTTCAACTTTCATTGTTACCAATAAAAAACCGACATGTAAATATCTCGTTACCTCTTGAAATGTGTGGCACAGATGAATGCCATTAAATTTTGCGTATCTCTCGTATTTTTTTGACATTTCAAAATGACCTCGATTTTTTGCACGATCAATAGATCTCTTTTTTTTAATACAGCACGAAAAGTCGAAAAATTCCATAATAAATTGATTTTCAAATTAAAATCTTGATCCACAAACTGGAATAAAATATTTAATATATTTTTTTACAAAAAATTTAATCCAATAGTTCCCTTTCCAATCCTGGTATCAAATTCCGTTTATCTAAATCAATTTTGATACAATCGAGAGATAACGAATTAATAATAATCGTTATTTTTCTATCGATTTTATTTTAACGCGTAATTTCGAATTTAACTCGTAAATTCGAAAGTTCGAAGTTTTCGCGCCATTATGAAAATATTTTCCTCGCAGAATTATAGAATTTCGAAATTTTGGCTCGCATGCCCGCGAGATTACGAGGTCGCTCTGTAAAATTAATGGCGTGGAAATTAATTATTTCGCTCATCTCGGTGATAAATGTCGTTTTAAACACGAATTCCTGAACGCGTGCCGGCACGCCACAACCTTCTTCGGCGTTTCCCTTTCTTCCCCAGGTTGCCTCACTTTCGGCAATCGTACAATCGACGCTGCATCGAATTTTCATCCAAAAATGGGAACAGCCGCGAAACAGGTCGATCCTTTGCTGAAAATTAAATTGTATTCACGTAATATTGTTTTTGCAGAGAGGCGGGAAAGCTACTCACTTTTGGCAACAAAATCGCCGATTTATTTCGCTATACTGATTTTCCCAGAAAAAGTTTCGTTTATGCGGAGAAAATGTCTCGTTACGTTTCACTCTGCATAAATTGATATTAAGTTGAGATTAAATTTGACTGGTCTTGGTTAATTTTGTTCCTCTGTTTGTTCTCCATTCTTTGTAAACACTAAATACATTATTAATTATTGTATAATAATTATTAATTAATGATTTCAGTAAGTCTTATATTTAATAAAACAACTTTGAATTTTTTTTAAACTGCTTTTTTACAATAGAAATAATATAATCTTATAATTTTGTTTCTGAAAAACAGTTAAACAATATAATTTAATCATTGATACGTATAATATAGTATTAATTTCACATAGAATTATTGACTCAATTTGTAAAAATTGTTAGTTTATTAAATTATTCTTTGGTAAATGATAATCGATAAAGCAACTAACAATATACATAAAATAAAACTGATTCTAGGTCAAATAAATCTGAACAAAATTAATATTTCATTGGAAAGGAATATACGGAGGAATAAAAATTTTCTAATTATCTTTACTTTTCTTGTCTTTTATCGAATGAATAGAATGGCAAGATTAAAAGTATTTCGCTAGAAAAAAGAGATATAAGATTGACAAGAATTTTCTAATTGCCTTTATTCCTCTGTCTTTGATTCGCTTTATTTCAACCCTTTACGTGAACGTGTCTATGCACTTGAGACTGAATTTCTCTACTCCGGCAATGTTTTATCTGTTAAACTATCCAAGAAAGGTTTCGTTCACGCGAAATTACTTCGTTTCCTTGATAATACTATGAATTTTTATCTTTCCAAGGTGAATCGTTCATTCATCGAAATTTATTCCACACTTTATGATCGCGGTGGATGCATAAATGGATAGATGGAATAGAGACAATGCGTATTCTAGAGACTATGAAAATAAAAACAAGAAAAAAAAAGAAAAGTTGCGAGATGAAATTGAAACATCGTATAACCGTAATAGTATGCCTCAAAATGGGAAACCATTTTGTTGATTATTCCATTTTTCGAAATGGCCACCTTCGCGATTCTCCTCCGTTTTATATCCTTTTTTTTTTTCTTTCTTCCGTTCCTTGAATTAGTAACGATCGATGAAACGTTTGAAAAAATTCGAGAAGGGGATCCGAGATCTTTAGAACAGTTGTTCGTTCGAGATGAGCTTCGAAAGAATGAAGAGGCGGATTTATTCGTGCGAATAATTATTATACGTTAACGAAGAAATGGGAAGAAGCTCGTGGATAGATAGGAATGTTTTAACGGATGAGATATATTAAAGAA
>n77_u76_AB073218_SRP_7SL RNA_Gallus gallus (chicken)
GCCGGGCGCGGTGGCGCACGCCTGTAGTCCCAGCTACTCGGGAGGCTGAGCCCGCCGGATCGCTTGAGCCCAGGAGTTCTGGGCTGCAGTGCGCTATGCCGAGCGGGCGTCCGCGCTAAGGCCGGCATCAATATGGTGAGCCCCGGGGAGCCGAGGCACACCAGGTTGCCTAAGGAGGGGTGAACCGGCCCAGGTCGGAAACGGAGCAGGTCAAAACTCCCGTGCCGGTCAGTAACGGGATCGCGCCTGTGAATAGCCACTGCAGCGTAGCCTGGGCAACATAGCGAGACCCTGTCTCC
>n78_u77_AB076245_snoRNA_Mus musculus (house mouse)
CAAAGGGTGGCGTATGAGTTGTGGATCATGAGTACATGTCTGGAAGTCTGAGAT
>n79_u78_AB079134_msr RNA_Vibrio parahaemolyticus
GCTCTTTAGCTTAGGACGAATTTCGTCTAGTCGGGTGATTAGCCAGACTCTAACTTATTGAACGGG
>n80_u79_AB086106_snmRNA_Mycoplasma capricolum subsp. capricolum
TATAAATATCTTGTATATTTATAATATTGGCAGTGTGGTTCTTGCTGGCCCTGGGTGACGAGAGATCCCGAAATCAAGAGATTGAACCAAAAAACAACTCTTTTTATAAGAGTTGTTTTTTTA
>n81_u79_AB086107_snmRNA_Mycoplasma capricolum subsp. capricolum
TATAAATATCTTGTATATTTATAATATTGGCAGTGTGGTTCTTGCTGGCCCTGGGTGACGAGAGATCCCGAAATCAAGAGATTGAACCAAAAAACAACTCTTTTTATAAGAGTTGTTTTTTTA
>n82_u79_AB086108_snmRNA_Mycoplasma capricolum subsp. capricolum
TATAAATATCTTGTATATTTATAATATTGGCAGTGTGGTTCTTGCTGGCCCTGGGTGACGAGAGATCCCGAAATCAAGAGATTGAACCAAAAAACAACTCTTTTTATAAGAGTTGTTTTTTTA
>n83_u79_AB086109_snmRNA_Mycoplasma capricolum subsp. capricolum
TATAAATATCTTGTATATTTATAATATTGGCAGTGTGGTTCTTGCTGGCCCTGGGTGACGAGAGATCCCGAAATCAAGAGATTGAACCAAAAAACAACTCTTTTTATAAGAGTTGTTTTTTTA
>n84_u80_AB086110_snmRNA_Mycoplasma capricolum subsp. capripneumoniae
TATAAATATCTTGTATATTTATAAGATTGGCAGTGTGGTTCTTGCTGGCTCTGGGTGACGAGAGATCCCGAAATCAAGAGATTGAACCAAAAAACAACTCTTTTTATAAGAGTTGTTTTTTTA
>n85_u81_AB086111_snmRNA_Mycoplasma sp. PG50
TATAAATATCTTGTATATTTACAATATTGGCAGTGTGGTTCTTGCTGGCCCTGGGTGACGAGAGATCCCGAAATCAAGAGATTGAACCAAAAAACAACTCTTTTTATAAGAGTTGTTTTTTTA
>n86_u79_AB086112_snmRNA_Mycoplasma capricolum subsp. capricolum
TATAAATATCTTGTATATTTATAATATTGGCAGTGTGGTTCTTGCTGGCCCTGGGTGACGAGAGATCCCGAAATCAAGAGATTGAACCAAAAAACAACTCTTTTTATAAGAGTTGTTTTTTTA
>n87_u82_AB086113_snmRNA_Mycoplasma capricolum subsp. capricolum
TATAAATATCTTGTATATTTATAATATTGGCAGTGTGGTTCTTGCTGGCCCTGGGTGAACTCTGAGATCCCGAAAGACGGAGATTGAACCAAAAACAACTCTTTTTATAAGAGTTGTTTTTTTA
>n88_u82_AB086114_snmRNA_Mycoplasma capricolum subsp. capricolum
TATAAATATCTTGTATATTTATAATATTGGCAGTGTGGTTCTTGCTGGCCCTGGGTGAACTCTGAGATCCCGAAAGACGGAGATTGAACCAAAAACAACTCTTTTTATAAGAGTTGTTTTTTTA
>n89_u82_AB086115_snmRNA_Mycoplasma capricolum subsp. capricolum
TATAAATATCTTGTATATTTATAATATTGGCAGTGTGGTTCTTGCTGGCCCTGGGTGAACTCTGAGATCCCGAAAGACGGAGATTGAACCAAAAACAACTCTTTTTATAAGAGTTGTTTTTTTA
>n90_u83_AB086116_snmRNA_Mycoplasma capricolum subsp. capripneumoniae
TATAAATATCTTGTATATTTATAATATTGGCAGTGTGGTTCTTGCTGGCCCTGGGTGAACTCTGAGATCCCGAAAGACGGAGATTGAACCAAAAACAACTCTTTTTATAAGAGTTGTTTTTTTA
>n91_u84_AB094037_ANTI-RAF1 RNA_Seriola quinqueradiata (five-ray yellowtail)
AAAGAAATTTAACTTAATTTTATTAAAATATTGAACAGACAACTTTCTCACCAAGTTCACAATAAAACGTTTAACCTCCTGAAAGAGACATGATAAACAAATACAAATTAGTTTCCAAATCATTTTAAATATTTAAGACAACTGCCAAATGTCCAGCTCATGATAACCTACCCATGACAGGACCGATGAGAATGTGTTGGTATCTACAGATCATTTTACTCAGAGCTAGGAAACCATTGTGTTTACTGTTGGAACATAACCATTGCTTTTGCTAAAATGTGCAAAATTTTCCATCATCACTTCTGCTCGCTGTCTGACAGGCTATAATTCCTCCCAAAAAAAAAAGACCCCCCCAAAAAAAAAACAAAGACGATAGAAAGAAGTTAAAGACGACAAAGACAACAAAAAAAGACATCAATTTCCCA
>n92_u84_AB094038_ANTI-RAF1 RNA_Seriola quinqueradiata (five-ray yellowtail)
AAAGAAATTTAACTTAATTTTATTAAAATATTGAACAGACAACTTTCTCACCAAGTTCACAATAAAACGTTTAACCTCCTGAAAGAGACATGATAAACAAATACAAATTAGTTTCCAAATCATTTTAAATATTTAAGACAACTGCCAAATGTCCAGCTCATGATAACCTACCCATGACAGGACCGATGAGAATGTGTTGGTATCTACAGATCATTTTACTCAGAGCTAGGAAACCATTGTGTTTACTGTTGGAACATAACCATTGCTTTTGCTAAAATGTGCAAAATTTTCCATCATCACTTCTGCTCGCTGTCTGACAGGCTATAATTCCTCCCAAAAAAAAAAGACCCCCCCAAAAAAAAAACAAAGACGATAGAAAGAAGTTAAAGACGACAAAGACAACAAAAAAAGACATCAATTTCCCA
>n93_u84_AB094039_ANTI-RAF1 RNA_Seriola quinqueradiata (five-ray yellowtail)
AAAGAAATTTAACTTAATTTTATTAAAATATTGAACAGACAACTTTCTCACCAAGTTCACAATAAAACGTTTAACCTCCTGAAAGAGACATGATAAACAAATACAAATTAGTTTCCAAATCATTTTAAATATTTAAGACAACTGCCAAATGTCCAGCTCATGATAACCTACCCATGACAGGACCGATGAGAATGTGTTGGTATCTACAGATCATTTTACTCAGAGCTAGGAAACCATTGTGTTTACTGTTGGAACATAACCATTGCTTTTGCTAAAATGTGCAAAATTTTCCATCATCACTTCTGCTCGCTGTCTGACAGGCTATAATTCCTCCCAAAAAAAAAAGACCCCCCCAAAAAAAAAACAAAGACGATAGAAAGAAGTTAAAGACGACAAAGACAACAAAAAAAGACATCAATTTCCCA
>n94_u84_AB094040_ANTI-RAF1 RNA_Seriola quinqueradiata (five-ray yellowtail)
AAAGAAATTTAACTTAATTTTATTAAAATATTGAACAGACAACTTTCTCACCAAGTTCACAATAAAACGTTTAACCTCCTGAAAGAGACATGATAAACAAATACAAATTAGTTTCCAAATCATTTTAAATATTTAAGACAACTGCCAAATGTCCAGCTCATGATAACCTACCCATGACAGGACCGATGAGAATGTGTTGGTATCTACAGATCATTTTACTCAGAGCTAGGAAACCATTGTGTTTACTGTTGGAACATAACCATTGCTTTTGCTAAAATGTGCAAAATTTTCCATCATCACTTCTGCTCGCTGTCTGACAGGCTATAATTCCTCCCAAAAAAAAAAGACCCCCCCAAAAAAAAAACAAAGACGATAGAAAGAAGTTAAAGACGACAAAGACAACAAAAAAAGACATCAATTTCCCA
>n95_u84_AB094041_ANTI-RAF1 RNA_Seriola quinqueradiata (five-ray yellowtail)
AAAGAAATTTAACTTAATTTTATTAAAATATTGAACAGACAACTTTCTCACCAAGTTCACAATAAAACGTTTAACCTCCTGAAAGAGACATGATAAACAAATACAAATTAGTTTCCAAATCATTTTAAATATTTAAGACAACTGCCAAATGTCCAGCTCATGATAACCTACCCATGACAGGACCGATGAGAATGTGTTGGTATCTACAGATCATTTTACTCAGAGCTAGGAAACCATTGTGTTTACTGTTGGAACATAACCATTGCTTTTGCTAAAATGTGCAAAATTTTCCATCATCACTTCTGCTCGCTGTCTGACAGGCTATAATTCCTCCCAAAAAAAAAAGACCCCCCCAAAAAAAAAACAAAGACGATAGAAAGAAGTTAAAGACGACAAAGACAACAAAAAAAGACATCAATTTCCCA
>n96_u85_AB094072_CCLS96.1 RNA_Silene latifolia
TTTTGTTGTTTGTTTTTACCCCAATTTCTTGTGGCATATAACATTTTAGAACACCTTCTTTTGCCATTTCTTTTGATTTTTGGCATTTCAACACTTGCCAATTTTTCAACTTTTGTATTTTCTTTTGAACGTTTTCAAAGTCACCCCAATTAGTAACGAGGGTGGCTTATATTTGAAGCATAGGAGTTTTTATTTTTTTTACTCCTCTTTTCTTTTGATGCAATTTGCAAACTTTTTCTTTTCTTTTCTTGAACTCAAATTTGAACAATTTCTTTTGTGCCCATTCCCTTTTTATGACAAAATATATGGTAGAACATGGATGAATGATGGTTGCATGGTTTCAAGGGTCACCTTGGAATAAACGGTAGCCAATGAGTTATCACACCACAAGGTACGCTTGACTAGGCCTTAATCCATGGGTCAAAGGATACTAGCATGACACATCCTAGGGTGTTTTACAAGTATTCTAATGAGCAAAGTCTTACGAAGAAAAAGTATCTACAAGGGCCTTATATACACTTGTCAAGCTTCCAAATAGATGTTTTCACAAATTTTTTTCCTAAATGCAACTATATGCCATGATGGAATTAGCATTTATACAACCTAATGCATATGCTTCTACCAACTAGTATGCCAAATAATCTAAATGCAATCCTATAATCACATTGTTTATACCACATCAATCAAAATAAAGCCACATAGTCATGAACATAAAGAGTTAAAAAGGAGATTGGAAAGGTCATACCATGCGGTCTTCAATATCCTCATGTCTCGGATGTGGCATAGTCGATCAATTTGAAGAAGGATAAACAAATAAGCAAACAAACAACTATATACAATATATACAATTATAAACTATAAAGGAAATGATCATGTTTTTGGGTTTTTGCATTTTTCAAATTTTTATGGTTTTTTTTGTTTATGAAATAAAAAGACATGTTTTTGTATTTTTTCAAATAATTTCAATTTATCATTTTTGTTTTAAAAGTCATGTTAGAATTTTCCATCCCCACACAAGTATGGGCATTGTCCTCAATGGCCAATACGATAGGAAATTATGCAAGCTATATGAAAATGCATGATTTCTATACTAAATGCAAACTATATGACATATAAACAAGTGAATGCATTCTAAACTATACTATATGATGCATGAATTTGTTTGGTTGGAGAGCATAATTTGAATTAACTCCTAATGCTTATGTTTGAACTTCCTCTAACCAAATGAGACACTATTGCTAATGTAAAAAATAAGAAAGTTCATGCACAAGAATGCTGTGCATGAAACTAAATTTGTCATTTTGGATTTTACATGTGGGAACAATTAATTTAACACCACCCAAATGTTGCCTAGGTGGAATAGTAGTCCTTCTTTTTATGAGGACACCCA
>n97_u86_AB094073_CCLS96.1 RNA_Silene latifolia
TTTGTTGTTGTTTTCCCCCCAATTTGTGGCATTTGACATTTTGAGAACATTTCTTTGCCATTTCTTTTGATGTTTGGCATTTTCAACACTTGACAAATTTTCAACTTTTTCTTGGTTTTCTTTTGAACATTTTAAAAGTTACCCCATTTGTAGTGAGGGTGCTTATTTTTGAAGCATAGGAGTTTTCATTTTGTTACTCCTCTTTTCTTTGATGCAATTGCAAACTTTTTGATTTTTCATTTCATTTCTTGAACTCAAATTTTGAATAATTTTTGTGCCCATTCCCTTTGATGACAAAATGTGGTAGAATGTGGATGATGGATGGTTGCATGGTTTCAAGGGTCACTTTGGAATAAACGGTAGCCAAGGAGTTATCACACCACAAGGTACGCTTGACTAGGCCTGAATCCATGGGTCCAAAGGATACTAGCATGACACATCCTAGGGTGTTTTAGAAGCATTCTAATGAGCAAAGTCTTAAGAAGAAAAAAGTATCTACAAGGGCCTTATGTACACTTGTCATGTTTCCCAATTAGATGTTTTCACAAATATTTTCCTACAATGCAACTACATGCCATGATGCAACTAACATTTATACAACCTAATGCAAATGCTTCTATCAACTAGTATGCCATATAAACTAAATGCAACTCCTAGAATCACATTGGTTTGTACCGCATCAATCAAAATAAAGCCACATAGTCATTAACATAGAGAGGAAAAAGGAGATTGGAAAGATCATACCATGCAGTCTTCATATTCCTCATGCCTCGGATGTGGCGTAGTCGATCAATGTGATAGGAGGATAACGCACAAAAACGAAAACAAAACAAAACAAAGCACTTGCA
>n98_u87_AB094074_CCLS96.1 RNA_Silene latifolia
TTTTGTTGTTGTTTTCCCCCCAATTTCTTGTGGCATATAACATTTGAGAACACTTTCTTTTGCCATTTCTTTTGATTTTTGGCATTTCAACACTTGACAACTTTTCGACTTTTTTGCATTTTCTTTTGAACATTTTCAAAGTCACCCCAATTAGTAACGAGGGTGCCTTATATTTGAAGCATAGGAGTTTTCATTTTGTTACTCCTCTTTTCTTTTGATGCAATTTGCAAACTTTTTCTTTTCTTTTCATTTCTTGAACTCAAATTTTGAACAATTTTTGTTTGTGTCCATTCCCTTTGATGACAAAATATATGGTAGAACATGGATGAATGATAGTTTCATGGTTTCAAGGGTCACCTTGGAATAAACGGTAGCCAAGGAGTTATCACACCACAAGGTACTCTTGACTAGGCCTTAATCCATGGGTCAAAGGATACTAGCATGACACATCCTAGGGTGTTTTACAAGTATTCTAACAAGGAAAGTCTTGAGAAGAAAAAGCATCTACTAGGGCCTATATACACTTGTCAAGCTTCCCAAATAGACGGTTTCACAAAATTTTTCTAACATGCAACTACATGCCATGATGCAACTAACATTTATACAACCTAATGCAAATGCTTCTATCAACTAGTATGCCATATAAACTAAATGCAACTCCTAAAATCACATTGGTTTGTACCGCATCAATCAAAATAAAGCCACATAGTCATTAACATAGAGAGGAAAAAGGAGATTGGAAAGATCATACCATGCAGTCTTCAATATTCCTCAATGCCTCGGAATGTGGCGTAGTCGATCAATGTGATAGGAGGATAACGCCACAAAAACGGAAAACAAAACAAAACAAAGCACTTGCA
>n99_u88_AB094075_CCLS96.1 RNA_Silene latifolia
ATTTGATTTTGTTATTCCCCCCAATTTTCTTGTGGCATTTGACATTTTTGAGAACAATTTCTTTTGCCATTTCTTTGTTGTTTGGCATTTCGATGCTTGACAATTTTCAACTTTTACATTTTTGAACATTTTCAAAGTCACCCTAATTTGTAACGACGGTGCTTTTATTTGAAACATAGGAGTTCTTATTTTTTTTTTGTACTCCTCGTTTCTTTGATGCAATTTGCAGACTTCTTGTTTTTCATTTTGATGCTTGAACTCAAATTGATAATTTTTGTGCCCATTCCCTTTTTTATTGACAAAATGTGATAGAAGTGGAAGGTGGTTGCATGGTTTCAAGGGTCACCTTGGAATAAACGGTAGCCAAGGAGTTATCACACCACAAGGTACTCTTAACTAGGCCTTAGTCCATGGGTCAAACGATACTAGCATGACACATCCTAGGGTGTTTTAGAAGCATTCTAATGAGCAAAGTCTTAAGAAGAAAAAAGTATCTACAAGGGCCTTATATACACTTGTCATGTTTCCCAATTAGATGTTTTCACAAATATTTTCCTACAATGCAACTACATGCCATGATGCAACTAACATTTATACAACCTAATGCAAATGCTTCTATCAACTA
>n100_u89_AB094076_CCLS96.1 RNA_Silene latifolia
TTTTGATTTGTTTTACCCCTCAAATTGTTATGGCATTTGACTTTTTGAGAACATTTCTTTACCATTTCTTTGATGTTTGACATTTTTGATACTTGACAATTTTTCAATTTTGCATTTTTGAACATTTTTCAAAGTTGCCCCATTTGTAGCAAGGGTGCTTTTATTAAAGCATAGAAGTCTATTTTTGCTCCTCTTTTCATTTGATGCAATTTGTGCAAAAATTTTTATTTTCATTTTGGTACTTGAACTCAATTTGGAGATTTTTGTGGTCATTCCCTTTTTGTTGACAAAATATGATGATAGAAGTGAAAGAACGGTTGCATGGCATCAAAGGTCACCTTGGAGTAAACGGTAGCCAAAGAGTCATCGCACCACAAGGTACTCTTGACTAGGACTTAGTCCATGGGTCAAAAGATACTAGTATGACACATCCTAGGGTGTCTTGAGGGTATTCTAGCAAACAAAGTCTCAAGGAGAAAAAATATCTACAAGGGCCTTATATACACTTGTGAAGATTCCCAAATAGGCATTTTCAGAAAATCTTTCTATCCATGCAAACTACTTGCCATGATGCAACTAGCATATATACAACCTAATGCATATGCTACTATCACTAGTATGCTCTATAATCTAAATGCAACTCCTAACAACACATATATACACAGACCACCAACAACAACAATCCATCCTCCTTCATTTCAAATCCCCCCTCTTCATCACCCA
>n101_u90_AB094077_CCLS96.1 RNA_Silene latifolia
TTTTGTTTTTGTTTTTCCCCCCAATTTCTTGTGGCATTTGACATTTGAGAACACTTTCTTTGCCATTTCTTTTTGATTTTTGGCATTTCAATACTTGACAATTTTTTTGCATTTCTTTTTGAACATTTTCAAAGTCACCCCAATTAGTAACGAGGGTGCCTTGTATTTGAAGTTTTTAGGAGTCTATTTTTGCTCCTTTTTTTTCTTTTGATGCATTTTTGCAAACTTTCTTTCACTTTTCATTTCATTGAACTCAAATTGATTTCTTTTTGTGCCCATTCCCTTTTGTTGACAAAAATATGGTAGAACATGGATGATGGATGTATGGGTGCATGGTTTCAAGGGTCACCTTGGAATAAACGGTAGCCAAGGAGTTATCACACCACAAGGTACTCTTGACTCGGCCTTAAACCATGGGTCAAAGGATACTAGCATGACACATCCTAGGGTGTTTTACAAGTATTCTAACAAACAAAGTCTTAAGAAGAAAAAACATTTACTAAGGCCTATATACACTTGTCAAGCTTCCCAAGTAGACAGTTTCGCAAAATTTTTCTAACATGCAACGTACATGCCATGATGAACCTAACATATAAACATCCTAATTCAAATGATTCTTGTAACACCCCCATACTCCAAGTGCCTTACCAGGACCACTCGGGTATGAAGACATCACCATCTCGGTCGCCCGAGGCATGATAATCAAATAGACA
>n102_u84_AB095075_ANTI-RAF1 RNA_Seriola quinqueradiata (five-ray yellowtail)
AAAGAAATTTAACTTAATTTTATTAAAATATTGAACAGACAACTTTCTCACCAAGTTCACAATAAAACGTTTAACCTCCTGAAAGAGACATGATAAACAAATACAAATTAGTTTCCAAATCATTTTAAATATTTAAGACAACTGCCAAATGTCCAGCTCATGATAACCTACCCATGACAGGACCGATGAGAATGTGTTGGTATCTACAGATCATTTTACTCAGAGCTAGGAAACCATTGTGTTTACTGTTGGAACATAACCATTGCTTTTGCTAAAATGTGCAAAATTTTCCATCATCACTTCTGCTCGCTGTCTGACAGGCTATAATTCCTCCCAAAAAAAAAAGACCCCCCCAAAAAAAAAACAAAGACGATAGAAAGAAGTTAAAGACGACAAAGACAACAAAAAAAGACATCAATTTCCCATATCTACTCCATTATCATTTAAGATAATGTACAATCAACTACTACTGTGCAACTAAATGGACTACATCCAACGGCTTTGTTTGTGATAACAAGAGGAAAATGAAGTTGTGCAGGATCTTAGTCCAGGCTTTGTTTCCTCTTAAGGCAGGTAAGCTTTAAAGGTCCTCTTCATCAGAAACCAGCGCGACCAGATAGAAGGGTGTGCTTCACATCACAGAACCCGAATCAAGAGAGACATCTGTCTGTCTTGAGCTTCCTTCAATGTCCATTAATCGCTGTCTTAGGTAGGTGTGCTGTGCATGTATTTACAACTTTTACCAAATGCATTGCCACCGTGGAGCCCCTGCATACTTCTTAATACGTGCAGTGAAAAGCAAGGCACCACCTCCATGTATCTTATGCCAACCTCTTCATGTGTACATCCCACTGCGATCCATCATCACTCACTCCCTTCCATAGTTAATCACAGATGTACTTTTTCTGACTCTTTTTCCTTACATAATGTATTGATTAGCATGGGTTTATGTATGGTTGTATGTACATTTTTATGTCTATATTGGCATCTGTATGTAGAGAATTTGGTTGTACTGAGCATTTGGACTATTTCGAAGAGGAGGGGAAGTGGAACGAGAGGAGGAGGAGGGGCAGTGCTGTCTGAGCCTCTAGAAAACAGGCAGTCTGGTGGAGGTCAGAGTACAGGCATTGATATCCTCAGTGTGAGAGGCTCTGTGCAGGGACGGTTCTGAGGCACTGCGGTTTATCTTAGGGAGGGCGTGCTGGAGAAGTTCGATGGAGGACAAGATCTGTGG
>n103_u91_AB095268_anti-CLST11240 RNA_Homo sapiens (human)
GATTTTCCTCAAAACTGCTTTATTAGGAATGTACCAGGGATGAGTTAGGGGAAGTTGGACAGCCCCGGGTCCTAATAGGAATCCTACTTCTCTCCAGCATCCTGTTGCCATCCTCTTGACGTAATCGCTGTACATTGTGTACAC
>n104_u92_AB095269_snmRNA_Homo sapiens (human)
GAGGAAAATCAACAGACTCTTTTTCACTGGGGGAGAACAGAGTAAGGGACTGGTGGTAGCTGGGGAGAGGACTTGGAGTAAATGGCTGGAAATCAATGTGCTCTGGCCCCCTACTCCAGGGCAAGGAAAATTCTTAGGGGAGGCAGCAGTTTCCTGAGGAGGTGGTGGGGTAGACTTCTGATCGCAGGAACCCAACAACTCCCAAGCCATCTTAGGTCCCACCCAGAAGCAGCATGGAGTGGGAGCAAGGGGGCAATAATGGGGCCTTGGCGCTCATGGGAACACTGAATTAAAAGGCAGGCGGCTTCCCTGGGGACCCA
>n105_u93_AB102678_snmRNA_Brassica rapa
GTGAGCAGAATTAGGTCAAGCCGCCAACAAAAAAAATAAGAAGAAAATCCCATAATCACCGATCTCACTTCGTGGTTGACGATTCGTCGGTGTGAAGTGTACTTGCTGTAGAGGTGTCTATTAGACCTTTCCAATATTTACCATGGATTGGGCGAGCGTTTCGAGACGAAACGTATTTGATTTGCAGGTTTTCTCTTGCAAGGAGGTGATCAGTTTTAGCTATGCAGATCGCTATTCTGCCTAACGAGTATCCGTAGAGAATCAAGAACTTCAGGGAAAGTTAGGTTTTTCTGGTTTTTCTCTGATTACAAAAATCGACGGTGTGAATTTCGGTTCCTACAGTCATGATTATGCGGGATGCTTCAACTTCAAGTTACTCTTGTCTGCCATTTTACCTTGTTCATCAAACAAAATCAGTTTAAAAAGAACAAGATTATATGAACTAAAGGAACATCGATTACTTCAAAGAGTACACAACCGACACAAGCGATTACTGTTTATATTCAAGACTTCATTACATTCAATAAAAAAACTAAATCATTAGGTAGATCCTCTCATATCTTACATTTATTCTATAATTCCTTATATATTAAAAGAGAAACATTGTAATAAATACATTCACATTATAATAGAC
>n106_u94_AB102679_snmRNA_Brassica rapa
AAGATCACAAGTAGTATCAGCTAAAGCTCGATATTCAGCCTCTGTACTGCTGCGACTAACAACACCTTGCTTCTTAGACTTCCAAGATACGATAGAGCCACCAGGAGACACAATAGGTGAAGAGATAACCTGAAATGGGAAAGATGGCCGACTTGGAGGCATATATAAAGAAGAGCCTAGGCAAGGAGTAAGGAAACGATTCTTCCGAGCTCTTAGAACTCTCTACACTTAGAAACCTTAAGTTTTATTCTCGACAAATTCGGTTTCTATGACTTGCACTCATACTAGACGAACTCGCCCATGCAGTTCGAGCTCTTGTTCAATTCTTTCTAATTGAACTACATTCGCCTTGATCCTCGAAAGGGGTACGTAGGCAGCCTTTCATAAGTTCTAGTCCGAAATCCTTTAAACCTTTTTTGTCTTTTTCGTCTATTTCTAAGTGAATTGCGGCCACATAGATTTTTCTCCACATAGGTGGTAACGCTAGCAAACTTAGTCTCGCTTTACTGTTTGTGTTATATGATTTTCTTTGTAATCCCGTTTTCAGAAAAGCTTCAAGTATGATTTTGTCTCTGAAACGCTCATACGCAAATTCGAAATAAATATCTCTTGTTTTCTAAA
>n107_u95_AB102680_snmRNA_Brassica rapa
CCGATCTCACTTCGTGGTTGACGGTGAGGGTCTCTTTCTTGTTGATTTATATTTCTCATCAATTTCGACGATCAGAACCGTCTTTGTTGTCAACTTTTTAGATTCGTCGGTGTGAAGTGTACTTGCTGTAGAGGTGTCTATTAGACCTTTCCAATATTTACCATGGATTGGGCGAGCGTTTCGAGACGAAACGTATTTGATTTGCAGGTTTTCTCTTGCAAGGAGGTGATCAGTTTTAGCTATGCAGATCGCTATTCTGCCTAACGAGTATCCGTAGGGCTGGAAGCAAGATAGAGAGCCGATTTGCTGTGCAGTAAAGAGTAACATGGAGCTTAATGGTGACTTCGAACGCATCGAGCAGCTGTTTTAACCAAAGAAGATCACAAGTAGTATCAGCTAAAGCTCGATATTCAGCCTCTGTACTGCTGCGACTAACAACACCTTGCTTCTTAGACTTCCAAGATACGATAGAGCCACCAGGAGACACAATAGGTGAAGAGATAACCTGAAATGGGAAAGATGGCCGACTTGGAGGCATATATAAAGAAGAGCCTAGGCAAGGAAGAATCAAGAACTTCAGGGAAAGTTAGGTTTTTCTGGTTTTTCTCTGATTACAAAAATCGACGGTGTGAATTTCGGTTCCTACAGTCATGATTATGCGGGATGCTTCAACTTCAAGTTACTCTTGTCTGCCATTTTACCTTGTTCATCAAACAAAATCAGTTTAAAAAGAACAAGATTATATGAACTAAAGGAACATCGATTACTTCAAAGAGTACACAACCGACACAAGCGATTACTGTTTATATTCAAGACTTCATTACATTCAATAAAAAAACTAAATCATTAGGTAGATCCTCTCATATCTTAC
>n108_u96_AB102681_snmRNA_Brassica rapa
CCGATCTCACTTCGTGGTTGACGGTGAGGGTCTCTTTCTTGTTGATTTATATTTCTCATCAATTTCGACGATCAGAACCGTCTTTGTTGTCAAGTTAAGGGCTGCTTTAAATTGGGTTGTAGTGTTTATGTTTCTCTTCGATTGCTTACAGTTATGGTCAATTCATTTTTCGTCTTGTTCTAGCTTTTTAGATTCGTCGGTGTGAAGTGTACTTGCTGTAGAGGTGTCTATTAGACCTTTCCAATATTTACCATGGATTGGGCGAGCGTTTCGAGACGAAACGTATTTGATTTGCAGGTTTTCTCTTGCAAGGAGGTGATCAGTTTTAGCTATGCAGATCGCTATTCTGCCTAACGAGTATCCGTAGAGAATCAAGAACTTCAGGGAAAGTTAGGTTTTTCTGGTTTTTCTCTGATTACAAAAATCGACGGTGTGAATTTCGGTTCCTACAGTCATGATTATGCGGGATGCTTCAACTTCAAGTTACTCTTGTCTGCCATTTTACCTTGTTCATCAAACAAAATCAGTTTAAAAAGAACAAGATTATATGAACTAAAGGAACATCGATTACTTCAAAGAGTACACAACCGACACAAGCGATTACTGTTTATATTCAAGACTTCATTACATTCAATAAAAAAACTAAATCATTAGGTAGATCCTCTCATATCTTAC
>n109_u97_AB102682_snmRNA_Brassica rapa
CCGATCTCACTTCGTGGTTGACGGTACTTTTTACCGTCGTTACGTGAAATTTTTATCTTTAATTTAATTTATGTTTTGTATGGTTTATGATGGTTTTAGCTTTTTAGATTCGTCGGTGTGAAGTGTACTTGCTGTAGAGGTGTCTATTAGACCTTTCCAATATTTACCATGGATTGGGCGAGCGTTTCGAGACGAAACGTATTTGATTTGCAGGTTTTCTCTTGCAAGGAGGTGATCAGTTTTAGCTATGCAGATCGCTATTCTGCCTAACGAGTATCCGTAGAGAATCAAGAACTTCAGGGAAAGTTAGGTTTTTCTGGTTTTTCTCTGATTACAAAAATCGACGGTGTGAATTTCGGTTCCTACAGTCATGATTATGCGGGATGCTTCAACTTCAAGTTACTCTTGTCTGCCATTTTACCTTGTTCATCAAACAAAATCAGTTTAAAAAGAACAAGATTATATGAACTAAAGGAACATCGATTACTTCAAAGAGTACACAACCGACACAAGCGATTACTGTTTATATTCAAGACTTCATTACATTCAATAAAAAAACTAAATCATTAGGTAGATCCTCTCATATCTTAC
>n110_u98_AB102683_snmRNA_Brassica rapa
CCGATCTCACTTCGTGGTTGACGGTGAGGGTCTCTTTCTTGTTGATTTATATTTCTCATCAATTTCGACGATCAGAACCGTCTTTGTTGTCAACTTTTTAGATTCGTCGGTGTGAAGTGTACTTGCTGTAGAGGTGTCTATTAGACCTTTCCAATATTTACCATGGATTGGGCGAGCGTTTCGAGACGAAACGTATTTGATTTGCAGGTTTTCTCTTGCAAGGAGGTGATCAGTTTTAGCTATGCAGATCGCTATTCTGCCTAACGAGTATCCGTAGAGAATCAAGAACTTCAGGGAAAGTTAGGTTTTTCTGGTTTTTCTCTGATTACAAAAATCGACGGTGTGAATTTCGGTTCCTACAGTCATGATTATGCGGGATGCTTCAACTTCAAGTTACTCTTGTCTGCCATTTTACCTTGTTCATCAAACAAAATCAGTTTAAAAAGAACAAGATTATATGAACTAAAGGAACATCGATTACTTCAAAGAGTACACAACCGACACAAGCGATTACTGTTTATATTCAAGACTTCATTACATTCAATAAAAAAACTAAATCATTAGGTAGATCCTCTCATATCTTAC
>n111_u99_AB102684_snmRNA_Brassica rapa
CGATCTCACTTCGTGGTTGACGGTACTTTTTACCGTCGTTACGTGAAATTTTTATCTTTAATTTAATTTATGTTTTGTATGGTTTATGATGGTTTTAGGTGAGGGTCTCTTTCTTGTTGATTTATATTTCTCATCAATTTCGACGATCAGAACCGTCTTTGTTGTCAACTTTTTAGATTCGTCGGTGTGAAGTGTACTTGCTGTAGAGGTGTCTATTAGACCTTTCCAATATTTACCATGGATTGGGCGAGCGTTTCGAGACGAAACGTATTTGATTTGCAGGTTTTCTCTTGCAAGGAGGTGATCAGTTTTAGCTATGCAGATCGCTATTCTGCCTAACGAGTATCCGTAGAGAATCAAGAACTTCAGGGAAAGTTAGGTTTTTCTGGTTTTTCTCTGATTACAAAAATCGACGGTGTGAATTTCGGTTCCTACAGTCATGATTATGCGGGATGCTTCAACTTCAAGTTACTCTTGTCTGCCATTTTACCTTGTTCATCAAACAAAATCAGTTTAAAAAGAACAAGATTATATGAACTAAAGGAACATCGATTACTTCAAAGAGTACACAACCGACACAAGCGATTACTGTTTATATTCAAGACTTCATTACATTCAATAAAAAAACTAAATCATTAGGTAGATCCTCTCATATCTTAC
>n112_u100_AB102685_snmRNA_Brassica rapa
CCGATCTCACTTCGTGGTTGACGGTACTTTTTACCGTCGTTACGTGAAATTTTTATCTTTAATTTAATTTATGTTTTGTATGGTTTATGATGGTTTTAGATTCGTCGGTGTGAAGTGTACTTGCTGTAGAGGTGTCTATTAGACCTTTCCAATATTTACCATGGATTGGGCGAGCGTTTCGAGACGAAACGTATTTGATTTGCAGGTTTTCTCTTGCAAGGAGGTGATCAGTTTTAGCTATGCAGATCGCTATTCTGCCTAACGAGTATCCGTAGAGAATCAAGAACTTCAGGGAAAGTTAGGTTTTTCTGGTTTTTCTCTGATTACAAAAATCGACGGTGTGAATTTCGGTTCCTACAGTCATGATTATGCGGGATGCTTCAACTTCAAGTTACTCTTGTCTGCCATTTTACCTTGTTCATCAAACAAAATCAGTTTAAAAAGAACAAGATTATATGAACTAAAGGAACATCGATTACTTCAAAGAGTACACAACCGACACAAGCGATTACTGTTTATATTCAAGACTTCATTACATTCAATAAAAAAACTAAATCATTAGGTAGATCCTCTCATATCTTAC
>n113_u101_AB112443_snmRNA_Ciona intestinalis
CGCAAAGACCGATGCTGTATGCAGATCTGGCACGACTTTCAACAGAGCTGAATCTGCTGTTGATACTACCCTTGTAGCTGTCGAAGGTGGAGCATGTCACATACCAAGCAGAGGTGGTGTGAGCGCAAAGAACAAGGCTTACTACGTTGCCAACGATGTCTCTTCCGTTCAATCTTCAGTCAGCAGTTTGAGCAGCAGAGTGGGATCCGTCGAGAGCGACGTCAAGGCAGTAAAGGAGACCGTGAACAGCTTGAACAAATGTGCCAAGGCAGAGGATATGTTCCTTTGCATGTTCGGCATTGATTATTAAACCCTCCCTTCATCCTTCAAGTCATGGATAGGAAACCAAGACCCTGTATCAGTGTTTTAAATACCCAGTACCATGACATCATATAATAAAATAAAAAAGCATCAAAAAAA
>n114_u102_AB114184_CCLS96.1 RNA_Silene latifolia
ATTTTGAGTTTCATGTGGGAGTTTGCTTTTGTTGTTGTTATTCCCCCCAATTTCTTGTGGCTTTTGATATTTGAGAACATTTTCTTTTTGCCATTTCTTTTGATGTTTGGCATTTTAATACTTGACAACTTTCAACTTTTTGCATTTTATTTTGAACATTTTCAAAACTACCCCATTTGTAGTAAGGGTGCTTATATTTGAAGCATTAGGAGTCTATTTTTGCTCCTCTTTTCATTTGATGCATTTTGCAAACTTTTTGACTTTCATTTCAATGCTTGAACTCAAATTTTGAACAATTTTTGTGCCCATTCCCTTTGATGACAAAAATGTGGTAGAACATGGATGATAGATTCATGGTTTCAAGGGTCACCTTGGAATAAACGCTAGCCAAGGAGTTATCACACCACAAGGTACTCTTGACTAGGCCTTAAACCATGGGTCAAAGGGTACTAGCATGACACATCCTAGGGTGTTTTACAAGTATTCTAACAAGCAAAGTCTTAAGAATAAAAAGCATCTACTAGGGCCTATATACACTAGTCAAGCTTCCCAAGTAGACGGTTTCGCAAAATTTTCTAATATGCAACTACATGCCATGATGCAACTAACATATAAACATCCTAATGCAAATGATTCTACCAACTAATATGACATATAAACTAAATGCAAGTCCTAAGTTCACATTGTTATACCGCATCAATCAAAATAAAGCCACATAGTCATTAACATAAAGAGGAAAAAGGAGATTGGAAAGATCATACCATGCGGTCTTCAATATCCTCATGTCTCGGATGTGGCGTAGTCAATAAATGTGAAAAAGGATGAACAAACACAATATATACAAGACAATATATACAAGACTACAAAAGGAAATAAACATGTTTTTGGGTTTTCAATTTTCAAATTTTTATGATTTTTGAAATTTTTCAATTTTTTGGATTTTTGAATAAGAGTTAAATGTTAGAATTCCCATCCCCACACTAATATGGGCATTGTCCTCAGTGGCCAAAATGATGGAAATTATGCAAAGATGATGCATGATTTCTATACTAAATGCAATCTATACTAAGCTACACTACATGATGCATGGTTTTTGTTGTGACGGAGAGGATAATTTAGATTACCTCCCGTTGCGTATGCATTATGGTGCGTGTCATTTATATGATGTTTTACATCTCTTTTTACACGCATTTCAGAGCTCATTTGTGTAATATTTGTTGCTTTTCTCCCTATTTCCGTCTACTTCCGTATTTTGTACTTTATTGCAGAAATGTGAAGAATTCGACGGGAAATCAAGCCAAATCCGCCCCCGAGTAATCTGCATTGCAAATGACGTAAAGGAATCACTTAAGGAACGAGCTTGGTGCGCGATCCAAGGCCCAAAAGACAAGTCCACGAAGAATAAAGAAGTCAAGTAGCAGCTCATCCGGTCGATCGACTGGACCCATCAGTCGATCGACCAACTATCGGGATCCAGAAGCTACTGTTTGCTGACATCCAGTCGATCGACCAGCCTGATTAGTCGATCGACCAGATTTCTTTACCAGACGAGAATTAGAAAGTCGTGAATCTCAAGGCCCGTGAAGTTTAGGTTTTAGAAATAAGTTGTTGCGTTTATTGATATATAACGTAACACCAACATCTAGTTTTGGAAGGAGGGAATACATTAAGTTTCACATCACAATAGTTTAGTTTATCTTCTGAGTAATTAGGGTTTGATATATCGACTTTAGCATTGGAATTTTTGCCCCTTTGTTCTTAATCTTTCCTCTGGAATTTTCGGTATTTATTCTGCCCTAATCTTAGTTTATTGCTTCGCTTTCATTAATAGTATAGAATTGATAGTTAATGCCCCAAAGCCAATTGTCT
>n115_u103_AB114185_CCLS96.1 RNA_Silene latifolia
CTTAGGAGTTTTATTTTTTTTTTTGCTCCTCTTTTCATTTGATGCATTTTTTTTGCAAACTTTCTTTCACTTTTCATTTCATTGAACTCAAATTGATTTCTTTTTGTGCCCATTCCCTTTGATAACAAAAATGTGGTAGAACATGGATGAATGATGGATGGATGCATGGTTTCAAGGGTCACCTTGGAATAAACGGTAACCAAGGAGTTATCACACCACAAGGTACTCTTGACTAGGCCTTAATCCATGGGTCAAAGGATACTAGCATGACACATCCTAGGGCGTTTTAGAAGTATTCTAATGAGCAAAGTTTGAAGAAGAAAAAGTATCTATAAGGGCCTTATATACACTTGTCAAGCTTTCCAAATAGATGTTTTCACAAAATTTTCCTAAAATGCAACTACATGCCATGGTACAACTAACATTTATACAACCTAATGCATATGCTTCTACCAACTAGTATGCCATATAAACTAAATGCAACTTTTACCATCACATTGGTGTAAACCGCATCAATCAAAATAAAGCCACATAGTCATTAATATAGAGAGAAAAAGGGAGATTAGAAAGATCATACCATGCGGTCTTCATAATCCTCAAGTCTCGGATGTGGCGTAGTCGATCAATGTGATAGAAGGACAAACAAACACAATATATACAATATATACAATTCTACACTATAAAGGAATGAACATGTTTTTGGTCTTTCAATTTTTCAAATTTTTATGGTTTTTGCGTTTATGAAAATAAAAGAACATATTTTTGTATTTTTCAAAAAATTTCAATTTTTATCATTTTTTTTAAAAGTCAAGTTAGAATTTCCAATCTCCACACTAGTATGGGCATTGTCCTCAATGGCCAAAATGATAGGAAATTATGCAAGCTAAATGAGAGTGCATGATTTTTATACTACTTTGCAAACTACATGACATATACACAAGTGATGCATTTTAGATTACACTAAATAATGCATGAATTTATTGGTTGGAGAGCTAATTTAAATTAACTCCCAATGCTTGTGCTTGAACTTCCCGAAACAAAGTAAGATACTATTTCTTGTGTAAAAATGGGGGAGTTCATGCACAAGTATGCAATGCATAAAACTAGTTTGTCATTTTGGATTTTCAAAAGTGGGAACAATATGAGACACCTCAATGAGACCGAGGTCGGTGATGTGACCATTATTTGGACACATTTAGTCCCCTAATTGAGCCTATTTTGCATACTATTATAGCATTCTTTGGCCATTTTATCCGTCAAAACCTTCCTATTTGCTTTTCTATCGCATTCTATATGTTTTGTAGGAAAAAAGAGAATAAGGCGGAAATTCCCGTCTTTCGTGCATATTCGGAAGCTATTTGACGACATTTGATGGATTACTATGAGGAGGAAGCAAGAACTGAAGACCAAGCCTACAAGAATAAAATGGAAGTGAAGGAAAGGGAAGAATAGAAAAAGAAAATGTAAACCGAAGTCCAACCCGAGCGGATTCTCTGAAATCCGGCCGTCCACAACGCACGGAACCCGTGCGTCTTCTCCCCAATCCGCCCGTTTTCCTCTTCACCAATCCGCCCGGATTCTCCCAAAAACGCTCGGATTCCAGCCCAGCGCATTTTCGTCTTCTTCAAGCCTCAGAGAAAGACGCCCTTCCTTCAAGAAATACCGGCTCCTCCCTGCTCCATTTAAAAAGTGTAATTACTAGTTTAGCCCTTAGTTAACCCTAATGCATCCACCTAATTTCTACTATAAATACCCCATTTGTAATAATCAAACAAGGAAGTTTTACTAAGGGGAATCTTTTTAGCTAGAAGATATATCCTTAGATTAGATTAGGAGTAGATTAGAATAGATTACTCTTTAATCTTTCCACAAATTACACATTAATCTTTCCATAATTATTGTTCAAGTTTATTAGTTCAAGTAAGTTTATTATTTAAGTTT
>n116_u104_AB114186_CCLS96.1 RNA_Silene latifolia
CTTAGGAGTTTTATTTTTTTTTTTGCTCCTCTTTTCATTTGATGCATTTTTTTTGCAAACTTTCTTTCACTTTTCATTTCATTGAACTCAAATTGATTTCTTTTTGTGCCCATTCCCTTTGATAACAAAAATGTGGTAGAACATGGATGAATGATGGATGGATGCATGGTTTCAAGGGTCACCTTGGAATAAACGGTAGCCAAGGAGTTATCACACCACAAGGTACTCTTGACTAGGCCTTAAACCATGGGTCAAAGGATACTAGCATGACACATCCTAGGGTGTTTTATAAGTATTCTAACAAACAAAGTCTTAAGAAGAAAAATCATCTACTAGGGCCTATATACACTTGTCAAGCTTCCCAAGTAGACGGTTTCGCAAAATTTTCCTAACATGCAAGCTACATGCCATGATGCAACTAACATATATACATCCTAATGCATATGATTCTACCAACTAATATGCCATATAATCTAAATGCAAGTCCTAAATTCACATTGTTTATACCGCATCAATCAAAATAAAGACACATAGTCATTAACATAAAGAGGAAAAAGAAGATTCGAAAGATCATACCATGCGGTCTTCAATATCCTCATGTCTCGGATGTGGCGTAGTCGATCAATATGAACAAGGATAGACAAACATAATATATACAAGTCTACACTACAAAGGAAATGAACTTGTTTTTGGATTTTCAATTTTTCAATTTTTTTGATTTTTTCGAAATTTTTGGTTTTTTTTGGATTTTTTTGAATAAAAGTTAAGTTAGAATTTCCCATCCCCACACTAATATGGGCATTGTCCTCAATGGCCAATATGATAGGAAATTATGCGAGTATGATGCATGATTTCTATACTAGATGCAAGCTATTACAATCTACACTACATGATGCATGGGTTTTTGTTTATGACGGAGAGCGTAATTTAGATTACCTCCCGTTGCGTATGCATGTACTTCCCCAACCCGAGATAGACATTATTTCTAATGTCTTAAATTTTAGGGTAGTTCATGCACACAAGATGCAATGCATAAAACTATATATTGTCATTTTGGATTTTTCAAATGGGAACAATAAAAAGAACACCTCAATGGGGTCGAGGTGTTAGTCCTCATGTTGCAAGGACTCTCCAAACTATGATC
>n117_u105_AB114187_CCLS96.1 RNA_Silene latifolia
TTTTTTGCAAACTTTCTTTCACTTTTCATTTCATTGAACTCAAATTGATTTCTTTTTGTGCCCATTCCCTTTGATAACAAAAATGTGGTAGAACATGGATGAATGATGGATGGATGCATGGTTTCAAGGGTCACCTTGGAATAAACGGTAGCCAAGGAGTTATCACACCACAAGGTACTCTTGACTAGGCCTTAAACCATGGGTCAAAGGATTCTAGCATGACACATCCTAGGGTGTTTTACAAGTATTCTAACAAGCAAAGTCTTAAGAATAAAAAACATCTACTAGGGCCTATATACACTTGTCAAGCTTCCCAAGTAGACGGTTTCGCAAATTTTTTTTAACATGCAACTATATCTCATGATGCAACTAGCATATAAACATCCTAATGCAAGTGATTCTACCAACTAATATGACATTTAATCTAAATGCAATCCTAAGTTCACATTGTTTTAACCGCATCACTCAAAATAAAGCCACAAAGTCATTAACATAAAGAGGAAAAATGAGATTGGAAAGATCATACCATGCGGTCTTCAATATCCTCATGTCTCGGATGTGGCGTAGTCGATCAATGTGAACAAGGATGAACAAACACAATATATACAAGACAATTTATACAAAAGG
>n118_u106_AB116374_snoRNA_Mus musculus (house mouse)
TCTATGATGATCCTATCCCGAACCTGAATTCCTGTTGAAAGACCATACTTACGGATCTGGCTTCTGAGAT
>n119_u107_AB116375_snoRNA_Mus musculus (house mouse)
TCTATGATGATCCTATCCCGAACCTGAATTCCTGTTGAAAAACCATAATTACGGATCTGGCTTCTGAGATTCTATGATGATCCTATCCCGAACCTGAATTCCTGTTGAAAAACCATAATTACGGATCTGGCTTCTGAGAT
>n120_u107_AB116376_snoRNA_Mus musculus (house mouse)
TCTATGATGATCCTATCCCGAACCTGAATTCCTGTTGAAAAACCATAATTACGGATCTGGCTTCTGAGAT
>n121_u108_AC002067_scaRNA_Homo sapiens (human)
TGTTGTTATGTGTTGGTTATGTGTTGAATATAATGTCCTATAAGCTTCAGTTAGGTCAGGTTATGTGTTGCTTAAATCTTTTGTACCTTTACTGATTTGTGTGAGAGAGTGTGTGTGTGTGTGTGTGTCTGTGTTTGCACGCGCACATGTGCGTGCGTGCTTGTGCTTGTTTTATTACTTGCTGAGAGGATACTACAAACTCAAACAATTATTGTAGATTTAGAATTACCTTACTTAT
>n122_u109_AC002069_snoRNA_Homo sapiens (human)
ATCCAAGGCGATTCCCTCTCCAAGGGGACATCTAGTGCCCCTCTCAGGAAAGTAGCAACTTGGAATAGAATCTGGCATGCCTAAGGTCTTTGAGGAACAGGGATGCTTATTTCCTCTGCCTTCCTTGGCTGCCTACATAG
>n123_u110_AC002382_scaRNA_Homo sapiens (human)
AGTGAAGATGTGATTTTTAAAGTAGAATTATGGTAATATTATATATAAAAATGTATTTTTTAAGGAAAATATTTTGATGAGTGCATACGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTTGGCAGGAGCAAGAAATTAATGTTTCAGAGTAAAGATGTGTTTTTATGCTATTAAGTACAACTCAAGTGTGTATTTATCATATCAT
>n124_u111_AC002397_snRNA_Mus musculus (house mouse)
ATTTGCATAGCCTTTACAAGCGGTCACAAACTCAAGAAACGAGCGGTTTTAATAGTCTTTTAGAATATTGTTTATCGAACCGAATAAGGAACTGTGCTTTGTGATTCACATATCAGTGGAGGGGTGTGGAAATGGCACCTTGATCTCACCCTCATCGAAAGTGGAGTTGATGTCCTTCCCTGGCTCGCTACAGACGCACTTCCGCAAGTGTTACAGCTCTTTTAGAATTTGTCTAGCAGGTTTTCTGACTTCGGTCGGAAAACCCCT
>n125_u112_AC002410_7SK RNA_Homo sapiens (human)
GTATGTGAAAGCAATCTGACTGCAACATCTGTCAACTCATTCATCACCAGGGTTGATTTGGCAGATCACTGGCTATGCAGAGATCCCCTTCCTCCTTCACTGCTTCACGTGCTTTTCTCCTGAAGCTGAGCACTTAGTTGAAGAGGATGACGTTCCTCAATAGAGGAGTACCATTCTGTGATCAAGGGTACACAAGTAGCTGCACTTCCCTGATAGAATCTCCAAACATGATCTCAAG
>n126_u113_AC002429_snRNA_Homo sapiens (human)
AGCTTTGTGCAGTGGCAGTATCACAGCAAATGAGGTTTATCCTAGGCGTGATTATAGCTAATTGAAGACTTTTCCCAATATCCCGCTGTGAGGACTTACAATACAGTCGGCATTAACATTTTTTGGCAGTCTTTATGGAGACTG
>n127_u114_AC002454_SRP_7SL RNA_Homo sapiens (human)
GGGCATGGTGGCACATGCCTGTAGTCCCAGCTACTCGGTGGGCTTAGGCATGAGGATCGCTTGAGCCCAGGAGTTCTGAGCTGTAGTGAGCTATGACCATCAGATGTCTGCATTAAGTTCAGCATCAATATGGTGACCTCCCGGGAGTGGGGACCACCAGGTTGCCTAAGGAAGGGTGAACAGGCCCAGGTCTGAAACGGAACAGGTCAAAACTCCCATGCTAATCAGTAGTGGGACCGTGCCTGTGAATAGCCACTGCACTTCAGCCTGGGCAACATGGCCAGACCTCATCTC
>n128_u115_AC002456_snoRNA_Homo sapiens (human)
ATCCTTTTGTATAGTTCATAAGCGTGATGATTGGGGTTTCACCTCATGTGTAAGATGTGCCTCCCTCAAACCTTACTACAAGGTCAGTACATTACCTGTCTGA
>n129_u116_AC002457_snoRNA_Homo sapiens (human)
ATCCATTTGTGGTTCATAAGCGTGATGATTGAGCTTTCACACACATGTGAGACGTGCCTCACCCAATCCTTGTTATGATGTCAGCATATTACCCATCTGA
>n130_u117_AC002461_Y RNA_Homo sapiens (human)
TGGTCCAAGTGCAGTAGTGTTTACAACTAAATTGATCACAAGCAGTTACAGATTTCCTTGTTCCTTCTCCGCTTCCACTGTTGCATTTGACTAGACTT
>n131_u118_AC002541_snRNA_Homo sapiens (human)
GTGCTTGCCTTGGTAGCGCATATACTAAAGCTGGAATGATACAGAGAAGTTTAGCATGGCCCCTGAACAAGGATGACATTCAAATTCGTGAAGCATTCCATTTTTT
>n132_u119_AC002543_Y RNA_Homo sapiens (human)
GGCTGGTGTGTGTGCAGTGCTGTTTGCCACTAATTGATCACAATCAGTTACAGGTTTCTTTGTTCCATCTCCACT
>n133_u120_AC003085_7SK RNA_Homo sapiens (human)
ATGTGAGGGTGATCTGGCTGTGACATGTTACCTCATTGATCGCCAGGGTTGATTCTGCTCATCTGGCTGGATAGTTGAGTGTCCTCTTTCTCCCTCATCACTCCATGTGCATCCCTCCCAAAGCTGTACACTCTGCTAACAAGGCTGATCTTTCTGAGAGAGGAAGACTGTTCATCAATCAAGGGTACAAGAGTGTGTACGCTCTTCTGCTACAACCTCCAGAAAAGGTCTAAAGGCTGATTTGTAGAAGAATGTAGGTTCATCAAGCTTTCAAGACTCCAGACACATCCAAATGAGGTGCTACATGTGGCACTATGTTTTCCTTT
>n134_u121_AC003087_snoRNA_Homo sapiens (human)
ATCCTTTTGTGGTTCAAGAGCGTGATGATTGGGTTTTCACGCTCATGTGTGAGAAGTGCCTCCCTCGAATCTTGTTATGACTCCATGTTGGCAAATTATGTCTGA
>n135_u122_AC003959_Y RNA_Homo sapiens (human)
GGCTGATCTGAAGGTAGTGAATTATCTCAATTGACTTCACAGTCAGTTACAGATCGAACTCCTTGTTCTACTCTTTTCCCCCTTCTCACTACTGCCCTTG
>n138_u123_AC004022_snoRNA_Homo sapiens (human)
CTTTTGTAGTTCCTAAGTGTGATGATTGGGTGTTCACAGGCATGTGTGAGATGGCCTCCCTCAAACCTTGTTATGACATTGGCATA
>n139_u124_AC004112_7SK RNA_Homo sapiens (human)
GAATGTGAGGGCGATCTGGCTGTGACATCTGTCACCCCATTAATCGCCAGGGTTGATTCGGCTGATCTGGCTGGCTAAGTGGCTGTCCCCTTCCTCCCTCACCACTCCATGTTCATGCCTCCCAAAGCTGTGTTCTCAGTCAAAGAGGACAACCATCTCCACTAGAAGAGGACCAGTCTTTGGTCAAGGGTATACGAGTAGCTGCGCTTCCCTGCTGGAACCTCCAGACAAGCTCTCAAGTCCATTTGTAGGAGAACATAGGGTAGTCAAGCTTCCAAGATTCCAGACACATCCAAATGAAGTGCTGCATGTGGCAGTCTGCCTTTCTT
>n140_u125_AC004128_snRNA_Homo sapiens (human)
GTGCTCGCTTCGGCAGCACATGTACTAAAATTAGAACGATACAGAGAAGATTAGCATGGCCCCTGCGCAAGGATGACACGCAAATTCGTGAAGCATTCCATATTTTT
>n141_u126_AC004130_snoRNA_Homo sapiens (human)
CTACAAAGATAGCAACACTTTTCATCAACAGCAGTTCACCTAGAGAGAGTCGACACTTTTTGTCTGAGTGA
>n142_u127_AC004142_snoRNA_Homo sapiens (human)
ATGCTTTTGTAGTTCGTAAGCATGATGATTGGGTTTTCTTGCTCTTGTATGAGATGTGCCTCCGTCATACCTTG
>n143_u128_AC004450_snoRNA_Arabidopsis thaliana (thale cress)
GGATATGATGACAAAAATACGATATCTCTAAGGCTAATTGCTGTGCGGATGAAATGTATTTGCACGTCAGTCTGATC
>n144_u129_AC004450_snoRNA_Arabidopsis thaliana (thale cress)
GGAAGTGATGATAAGATATATCAATATATCATAGGCACATGCAATGCTGAACGATATATATTTGCACGTCAGTCTGATC
>n145_u130_AC004450_snoRNA_Arabidopsis thaliana (thale cress)
GGAAGTGATGATAAGATATATCAATATGTCATAGGCACTTGCAATGCTGAACAATATATATTTGCACGTCAGTCTGATC
>n146_u131_AC004450_snoRNA_Arabidopsis thaliana (thale cress)
GGAAATGATGATAAGTATATCGATATTTCAGAGGCGTATGCAATGCTGAACGAACTATTTGCACGTCAGTCTGAT
>n147_u132_AC004455_snRNA_Homo sapiens (human)
GTGTTCATTTCTGCAACACACCTGCCAGAATTGGAACAGTAAGAGAAGATAAGCATGGCTCCTGCACGAGATGACAAGCCAAACTGTGAAGCATTCCATGTTTTT
>n148_u133_AC004458_snRNA_Homo sapiens (human)
GTGTTCGCTTTGACGGCACATATACTAAAATTGGAATGATACAGAGAAGATTAGCATGGCCCCCGTGCAAGGATGACATGTAAATTCATGAAGTGTCCCATATTCTT
>n149_u134_AC004458_snRNA_Homo sapiens (human)
GTGCTCGCTTTGGCAGCACATATACTAAAATTGGAATAATACTGAGAAGATTAGCATGGCCCCTGCCCAAGGATGATAGGCAATCCACAAAGCATTTCATATTTTT
>n150_u135_AC004485_snoRNA_Homo sapiens (human)
ATCCTTTTGTAGTTTGTAAGTGTGATGATTGGGTTTTTTCACGCTCATGTGTGAGATATGCCTTCCTTAAAGTTTGTTACATCATCAGCACATTACCCATCTGA
>n151_u136_AC004541_snRNA_Homo sapiens (human)
TCTTTCATTTAGCATAAATTCTCCAGGTTCAGCCATGTTGTCACAATTACATTAAATGGATATTTAGGGCAGATAGGTGGAAGAGGAGCTTGTTCTGTCCACTCCCTGCATTGACCTAGCATTGCAGTGCGT
>n152_u137_AC004547_Y RNA_Homo sapiens (human)
AACTAACTGATTACAACTAGTTACGGATTTCTTTGTTCTTTCTTCACTCCCACTGCTTCACTTAACTAGC
>n153_u138_AC004548_snRNA_Homo sapiens (human)
GTACTTGCTTCGACAGCACATACTAGAACTGGAATGATACAGAGAAGATTAGCATGGCTTCTACACAAGAATGACATGAAAATTTATGAAGCATTCCAAATTTTT
>n154_u139_AC004774_SRP_7SL RNA_Homo sapiens (human)
CTGGGTGTGGTGGCACATGCCTGCAGCCCCAGCCACTCTGGAGGCTGAGGCGGGAGTGTTGTTTGAGCCCAGGAATTCTGGGCTGTACTGCACTATGCCAATAGGGTATCCACACTAAGTATGGCATCAGTATGATGACTTCCCTGGAACAGAGGACTATAAGTTTCCTAAAGAGGGGTGAAGCAGCCCAGGATGGAAACAGAGCAGGTCAAAACTCCCATGCTAATCAAATGTGGAATTATGCCTGTGAATAGCCACTGCACTCAGTCTGGGTGACATAGTGAGACCCCATATCT
>n155_u140_AC004849_Y RNA_Homo sapiens (human)
GGCTGGTCTGAGTATGGTGTTTATAACTATTTGATCACAAACAATTACAGATTTCTTTGTTTCTTCTCCATCTCACTGCTTCACTTGACTAG
>n156_u141_AC004855_scaRNA_Homo sapiens (human)
TTTTTTACAATACTTACAATTTTTTTATAAGTGTAAGATTATTTCAAAATTTTAAAAATAATAGGATTCTGTCAGTGTGTGTTTCTGAGAGTGAATGGCTCACAGCTGTTGAGTATCTAACACAACCACTACACAGGAGATTGACAGTCGCATTCATGAGTGTGATGGTGCATGATCTCATTTTCAATCTGAGACTT
>n157_u142_AC004862_SRP_7SL RNA_Homo sapiens (human)
GCTGTGTGTGGTGGGGCATGCCTGGAATCCCAGCTATTCAGGAGGCTAAAGTGGGAGGAGGGCTTGAGCCCAGGAGTTCTGGGCTGTAGTGAGCTGTGCTCATCGGGTGCCGCACTAAGTTTGGCATCAATATGGTGACCTCTCAGGAGCCAGGGACTACCAGGTTGCCTAAGGAGAGGTGAACTGGCCAAGTTCAGAAATGGAACTGGTTAAAACTCCTGTGATCAAGAACAGAAGCCAGATC
>n158_u143_AC004878_Y RNA_Homo sapiens (human)
GGCTGGTCAAAGTGCAACGGTCTTTACAACTAATTGATCACAACCAGTTACAGATTTTTTTGTTCCTTCTCCACTCCAACTGCTTCACTTGACTAG
>n159_u143_AC004878_Y RNA_Homo sapiens (human)
GGCTGGTCAAAGTGCAACGGTCTTTACAACTAATTGATCACAACCAGTTACAGATTTTTTTGTTCCTTCTCCACTCCAACTGCTTCACTTGACTAG
>n160_u144_AC004879_snoRNA_Homo sapiens (human)
TAAATAAACCAAACAAATTATACTTTATGAATTTAAATTGTACAAGAATAAAAAAGGTAATTAGAGCTTTAGAAGATGAAATATAATCTGGGTATTATAATATAGAGTAAAAAATAAAACAAAGTTTTAAATTATGAGAAATGGAAGATAATTTGGGAATAGAATGACCAGACAAAATATCTGATTAAAGAAGTCTCAGAAAGATGATACTTTCA
>n161_u145_AC004881_scaRNA_Homo sapiens (human)
AAAGAACCAGATTCTGATCCTGGGCAGGCTCCCTTTCCTTTACATATCTTAATGTGACCATCCATAAAATGAGGGAAATGAGAGTGCCATCTCATAGGCTCATGGCAAGTTAAATGACTTGGTGTGTGTGCGTGTGTGTATACACACACACACACACACATATATACACATAATATATATGTTATATATACA
>n162_u146_AC004884_snRNA_Homo sapiens (human)
GTGCTTGCTTCAGCAGCATATATACTAAAATTGGAACAATACAGAAAAGATTAGCATGGCCCCTGCCCAAGGATGACTCACAAATTCATGAAGTGTTCTAGTAATTTT
>n163_u147_AC004885_snRNA_Homo sapiens (human)
GTGCTCCTCTTGGCAGCACATATGCAAAAATAGGAAAGATACAGAGAAGATTAGCATGGCCCTTATGCAAGGATGACACACACATTTATGAAGCATTTTATATTTTT
>n164_u148_AC004888_snRNA_Homo sapiens (human)
TGCTCTCTTTGGCAGCACGTGTACTAATAATATAGGAAGGATACATAAAAGATTAGCACAGCCCTTGTGCAAGGTTGACATGCATATCTGTGAAGTGTCTCATATT
>n165_u149_AC004889_snRNA_Homo sapiens (human)
GTGTTGGCTTTGGCAGCACTTTCTAAAATCAGAATGATGCCAACAAGATTAAAATGGTTCTTGAATATAGATTACACAAAATTTTGTGAAGCATTTCATGTTTTT
>n166_u150_AC004895_snRNA_Homo sapiens (human)
GTGCTCACTTCAGCAGCACATATACTAAAAACTGGAACGACACAGAGATTAGCACAGCTCCCGCACAAGAATGAAACACAAATTCCTGAAGCATTCCATA
>n167_u151_AC004895_SRP_7SL RNA_Homo sapiens (human)
GGTGGTGCATACCCAGTCCCAGCTACTTGGGAGGCTGAGGCAAGACGACTGCTTGAGCCCAGGAGTCCTGGGCTGTAGTGCACTATGCCAGTCTGGTGTCCACATTAAGTCTGGCATCAGTATGGTGACCTTGATCTCCCAGGAGCAAGGGACCACCAGGTTGCCTAAGGAGGAGTGAACTAGCCCAGGTTGGAAACAGAGCAGGTCAGTACTCTGGTGCTGCTCAGTAGCAGGATCACACCTGTGAATAGCCACTGCAATCTAGCCTGGGCAACACAGCAAGACCCTGTCT
>n168_u152_AC004895_Y RNA_Homo sapiens (human)
GGCTGGCCGGGCATGGTGGTGTTCATAGCTAATCATCAGTTACAGATTCCTTGGTTCCTTCCCCACTCCCACTGCTTCACTTGACTAGCCT
>n169_u153_AC004899_scaRNA_Homo sapiens (human)
TAATATATATTTTATATATATTATATATAATGTGTATATATATTATATATATAATGTGTATATATATTATATATATAATGTGTATATATATTATATATATAATGTGTATATATATTATATATATAATGTGTATATATATTATATAT
>n170_u154_AC004899_scaRNA_Homo sapiens (human)
GCATGTTTTACTTTCTGCAGCTTCTTATCTCAATGTCCCATATTGTTGTCATGTACACAAGTCTGCTCAAGGTTCCTGTGTATGTGTTGGGGAGTAGGTGTGTGCCTGTGTTTGTGTGTGCATGCCTGCATG
>n171_u155_AC004909_Y RNA_Homo sapiens (human)
GGCTGGTCTGATTATTATGGATTATCAGAACTTATTAACATTACTGCCACTAAAGTTGGTATACAACCCCCACGGCTAAATTTTAGTGGCTT
>n172_u156_AC004912_snoRNA_Homo sapiens (human)
ATCCTCTTGTAGTTCATGAGCGTGATGATTGAGTATTCATGTGCATGTGTGAGATGTGCCACTCTCTGAACCTTGTTACAACCTTGGCACATTACCTGTCTGACC
>n173_u157_AC004915_snRNA_Homo sapiens (human)
ATATGTACCTGGCAGGGGAGATACCATGATCATGAAGGTGGTTTTCCCAGGGTGAAGCTTATCCATTGTACTCCGGATATGCTGACCCCTGTGATTTCCCCAGATGTAGGAAACTCAACTACA
>n174_u158_AC004921_snoRNA_Homo sapiens (human)
ATCCTTTCGTAGTTCATAAGCATGATGATCGGGTGTTCACATGCTCATATGTGACATGTGCCACCCTCGAATCTTGGTACAATGTTGGGACATTACCCATCTGA
>n175_u159_AC004966_Y RNA_Homo sapiens (human)
GGCTGGTCCAGATGGAGTGAGTTATCTCAATTGATTGTTCACAAGCAGTTACTGATGGAACTGCTGGTTCTGTTCTTTTCCCACTTCTCACTACTGCATTTGTCTAGT
>n176_u160_AC004967_SRP_7SL RNA_Homo sapiens (human)
GCCGGGCGCGGTGGCTGGTGTCTGTAGTTCCAGCTACTTGGGAGGCCGAGGCAGGAGGATTGCTTGAGCCCGGGAGCTCTGGGCTGCAGTTCGCTCTGCCGATTGGGTGTCTCCACTAAGTTTGGCATCAATATGGTGACCTCCTGGGTGCAGGGGACCATCAGGTTGCCTAAGGAGGGTGAACCAGCCCAGGCTGGCAACGGAGCAAGTCAAAACTCCTGTGCTGATCAGTAGTGGGATTATGCTTGTGAATAGCCACTGCACTCCAGCCTGGGCAACATAATAAGACCCCATCCCT
>n177_u161_AC004967_SRP_7SL RNA_Homo sapiens (human)
GCTGGGTGTGGTGGCTCATGCCTGTAGTCCCAGCTACTTGGAAGGTTGAGGTGAGGAGATCGCTCAATCCCAGGAGTTTGGCATTCATTGGTGACCTCCCAGAAGCAGGGGACCACCAGGTTGCCTAAGGAGAGGTGAACCGGTCCAGGTCAGAAACAGAGCAGGTCAAAACTCCCGTGCTGATCAGCAGTGGGATTACACCTGTGAATAGCTACTGCACTCCAGCCTGAGCAACATAG
>n178_u162_AC004975_SRP_7SL RNA_Homo sapiens (human)
GAGTGTAGGATGACTGTGTGAGCCCGGGAGCTTGAGGCTGCAGTGTGTTAAATTGATTAGGTGTCCATGCTAAATTCAGCATCAATATGGTGACCTCTGGAAGCTGGGGGCCACCAGGTTGCCCAAGGTGGGGTGAACGAGCCCATGTCAGCGGGGAACAGGAGCAGGTTAAGAGCTTCTGTGCTGACCATGGCCAGTGCCCTCCAGCCTGGGCAACATCACCAGACCCATCTCTAA
>n179_u163_AC004983_SRP_7SL RNA_Homo sapiens (human)
GCCGGGCGCAGTGGCTGGTGTCTGTAGTTCCAGCTACTCGGGAGGCCGAGGCAGGAGGATTGCTTGAACCCGGGAGCTCTGGGCAGCAGGGCGCTCTGCCGATTGGGTGTCTCCACTAAGTTTGGCATCAATATGGTGACCTCCTGGGTGCAGGGAACCATCAGGTTGCCTAAGGAGGGTGAACCAGCCCAGGCTGGCAACGGAGCAAGTCAAAACTCCTGTGCTGATCAGTAGTGGGATTATGCTTGTGAATAGCCACTGCACTCCAGCCTGGGCAACATAGTAAGACCCCACCCCT
>n180_u164_AC004987_snRNA_Homo sapiens (human)
TGCTTGCTCCAGTAACACACATACTTAAGTTGGAACAATAGAGAGATTGGCATGGCCTCTCTGAAAGAATGACATGCAAATTTGTGAAGCATTCCATATTTTT
>n181_u165_AC004991_snoRNA_Homo sapiens (human)
ATCCTTTTGTAGTTTGTAAGGGTGATGATTGGGGTTTCATGCTTATATGTGAGACATGCCTCCCTCAAACCTTGTTATGTCAGCACATTACCCATCTGAT
>n182_u166_AC005049_Y RNA_Homo sapiens (human)
GCTGGCCCGAATGCAGCGGTGGTTACAGTTAATTGATCACAACCAGTTACAGATTTTTTTGTTCCTTCTCCACTCCCACTGCTTCACTGGACGAGCC
>n183_u167_AC005049_snRNA_Homo sapiens (human)
GCGCTGGCTTCGGCAGCACATATACTAAAAATTGGAAAGACAGGGAGAAGATCGCATGGCCCCTGTGCAAAGATGACATGCAAATTCATAAAGCATTTCATATATTT
>n184_u168_AC005060_SRP_7SL RNA_Homo sapiens (human)
AACAAGGGGTAAACTGTCCCAGGTTGCAAATGGAGTCAGTAAAACTCTCAGGCTGATCAGTAGTGGGATAGTACCTGTGAAGAGCCACTGTACTCCAGCCTGGACAACATAGTGGGACTCTATCTCT
>n185_u169_AC005077_snRNA_Homo sapiens (human)
TGCTTGCTTCAGTAGCACGTATACTACAGTTGGAACAATAGGGAGATTGGCATGGCCTCTGTGCAAGAACGACATGCAAGTTTCTGAATCATTCCATATTTTT
>n186_u170_AC005084_snRNA_Homo sapiens (human)
GTGCTCGCTTCGGCAGCACATATAGTAAAATTGGAACTATACAGAAAAGATTAGCATGGCCCCTGCACAAGGATGACACACAGATTTGTGAAGCATTGCATATTTTT
>n187_u171_AC005088_Y RNA_Homo sapiens (human)
GGCTGGTCAAAGTGCAACGGTGTTAACCACTAATTGATCACAACCAGTTACAGATTTTTTTGTTCCTTCTCCACTCCAACTGCTTCATTTGACTAGCCTAT
>n188_u172_AC005094_snRNA_Homo sapiens (human)
ATACTCGTCTGGCAGGGAAGATAAAATGATCATGAAGGTGGCTTTCCCAGGGTGAGATTTATTTATTGCACTCTGGGTGTGCAGACCCCTGCAATTTCCCCGAAAGTGGGAAACTTGGCTGCATAATTTGTGTT
>n189_u173_AC005236_SRP_7SL RNA_Homo sapiens (human)
GCCTGGTGTGGTGGAGTGTGCCTGTATTCCCAGCTACTTGGGAGGCTGAGGTGGGAGGATCCCTTGAGCCCAGGAGTTCTGGGCTGTAGTGTGCTATGCCAGTCAGGTGTCTGCACTAAATTTAGCATCCACTTCCTGGGAGTGGGGGACCACCAGGTTGCTTAAGGAGGGGTTAACCAGCTCAGGTCAGAGACTGAGCAGGTCAAAACTCCCATGCTGATGAGTAGTGGCATCACGCCTGTGAACAGCCACTGCACTTCAGCCTGGGCAACATAGTGAGACCCTGTCTC
>n190_u174_AC005251_Y RNA_Homo sapiens (human)
CCAGTCACAGATTTCTTTGTTCCTTCTCCACTCCCACTGCATCACTTAACTAGCCTT
>n191_u175_AC005251_Y RNA_Homo sapiens (human)
CTGGTCCGAGTGCAGTGGTGTTTATAACAAATTGATTACAACCAGTCACAGATTTCTTTCTTTCTTTT
>n192_u176_AC005275_SRP_7SL RNA_Arabidopsis thaliana (thale cress)
GTCGAGCTAAGTAACATGAGCTTGTAACCCATGTGGGGACATTTAGATGGTGGAACACTGGTTCGGGTCCACGGGCCGGTTCTGTTGTTGGCATGTTTCTGGGCTGCCCAGTCCAAGCTGTGAGTAAGACGTGTGTGTCAAGCGAAGGCTTGGCTCAAACGGCTTCTAAAGTTGGAGGGTAATGCGTGAGGCTGGTTTCACAGAGCAGCGACTACTTCCCGCTTACAGCAGTGGACGGATCACAGTTTAGCGTCGCTCAGAACCACTATGGCCTGCTGGTCCGATCTCATATGAACCACCATTT
>n193_u177_AC005275_SRP_7SL RNA_Arabidopsis thaliana (thale cress)
GTCGAGCGAAGTAACATGAGCTTGTAACCCATGTGGGGACATTAAGATGGTGGAACACTGGTTCGGGTCCACGGGCCGGTTCTGTTGCTGGCATGTTTCTGGGCTGCCCAGTCCAAGCTGTGAGTAAGACGTGTGTGTCAAGCGAAGGCTTGGCTCAAACGGCTGCTAAAGTTGGAGGGCAATGCGTGAGGCTGGTTTCACAGAGCAGCGATTACTTCCCGCTTACAGCAGTGGACGGATCACAGTTTGGCGTCGCTCAGAACCACTATGGCCTGCTGGTCCGATCTCATCTGAACCACCATTT
>n194_u6_AC005275_snRNA_Arabidopsis thaliana (thale cress)
GTCCCTTCGGGGACATCCGATAAAATTGGAACGATACAGAGAAGATTAGCATGGCCCCTGCGCAAGGATGACACGCATAAATCGAGAAATGGTCCAAATTTT
>n195_u178_AC005314_snoRNA_Arabidopsis thaliana (thale cress)
CGAGGTGACGATAGAAATTCACAGGTCTGTCAATCCACTGATATATGTGATGTAATTGTGTTCTCGACAGGTTCTGATC
>n196_u179_AC005314_snoRNA_Arabidopsis thaliana (thale cress)
GTATAGGATGAATCTCATATATTGATGTTATTTACTACTGAAATTACATTGATGTTTTATTCACCTTGGAGAACTGATA
>n197_u180_AC005314_snoRNA_Arabidopsis thaliana (thale cress)
GCATATGATGAAATTATATTTCATGGGTAATTTGCGTCTGATTCTATGTGATGCTAACTTTTATGATTATCTGATG
>n198_u181_AC005377_snRNA_Homo sapiens (human)
ATACTTACCTTGTGGGGGAGATAACAGGATCACAGAAATGATTTTCCCAGGGCAAGCCTCATCCATTGCACTCTGGATGGGCTGACCCTCACAATTTCCCCAAACGTGGGACCTCAACTGCATAATTTGTGGTAATGGGGGACTGTGTTTATGCTTTCCCCT
>n199_u182_AC005377_snRNA_Homo sapiens (human)
GTGCTTGCTTTGACAGCACATACACTAAAAAATTGGAATGATACAGAGAAGATTAGCATGGCCCCTGTGCAAGGATGACATGCAAATTCATGAAGCATTCCAT
>n200_u183_AC005486_scaRNA_Homo sapiens (human)
CCAAAGCTCACAGGCCTGACCTGGCTCTGAAAACTCGGGAGGAAGTGAGTTCCTGATTTATGAGGACAGTTACTTAATCATGCAAATATCTACACAGAGCTATGGGTTTGGAGCTGTGACCGATCCAAAATAGTGTGTGTGTTTGTATATGTTGTGAGCACATGTGAACATGTGTGCATATGTGTATATGTGCATGTGTGTTGTGTGCACAATG
>n201_u184_AC005537_Y RNA_Homo sapiens (human)
GGCTGGTCTGAAGGTAGCAGGTTATCTCAATTGATTGTTCACAGTCAGTTATAGAGCAAACTGCTTGCTCTACTCTTTCACCCCTTCTCACTACTGCACTTGACTAGT
>n202_u185_AC005586_Y RNA_Homo sapiens (human)
GCTGGTACTGAGTTATCAGGATTGATTCGCATTAGTGTCACTAAAGTTGGTATACAATCTTCCACTGCTAAATTTGACTGCCTT
>n203_u186_AC005631_Y RNA_Homo sapiens (human)
GGTAGTGAGTTATCCCAATTGATGGTTCACTGTCAGTTACCGATCAAATTCCTTGTTCTATACTCTTTACTCCCCTTTCACTACTGCACTTAACTGGTCTT
>n204_u187_AC005995_Y RNA_Homo sapiens (human)
GGATGGTCAAAGTGCAACGCGGTTTACAGCTAATTGATCACCACCAGTTACAGATTTTTTTTGTTCCTTCTCCACTCCAACTGCTTCACTTCACTAGCCT
>n205_u188_AC005996_scaRNA_Homo sapiens (human)
CTGGGCATGATGCATGTGCCTGTAGTCCTGGCTACTCAGGAGGCTGAGGTGGGAGATTGCTGGAGCCCAGGCGTTCTGGGCTGTAGTATGCCGTGCTAATCCTGTGTGTACACTGAGTTCGGCATCAATACGGTGACCTGGGAGCTAGGGACCGCCAGGTTGCCTGCGGAAGGGTGAAGCCATCCAACCTGGAAACAGCGCTCAGAACTCCTGAGCTGATTAGTAGTGGGAGTGTGCCTGTAAGTAGCCACTGCCCTCCAGCTAGCAACATAGCCAGACC
>n206_u189_AC006000_7SK RNA_Homo sapiens (human)
GGATGTGAGGGCAATCTGGCTGCGACATCTGTCGCCCCACTGATTACCAGGGTTGATTCGGCTGATCTGGCTGGCTAGGCGGGTGTCCTCTTCCTCCCTCAGCCCTCCATGTGTGTACCTCCTGAAGCGGACTGGTCTTCAGTCAAGGGTAGACGA
>n207_u190_AC006006_snRNA_Homo sapiens (human)
GTGCTTGCTTCAGCAGCACATATACTAAAATTGGAATAATACAGAGAAGATAGGCATGGCCCTTGCCTAAGAATGGCATGCAAATTCATGAAGCACTCCATATTTTT
>n208_u191_AC006068_snoRNA_Arabidopsis thaliana (thale cress)
GCCAATGAGGACATCAGATTATAAAAGAACACCATCTTTCGGGACTGATTAACATTGATGATACTTCTGCAATTCTGAGG
>n209_u192_AC006068_snoRNA_Arabidopsis thaliana (thale cress)
GGCAGTGATGAACGAGAATGTCATGCACCACTCTGATATTAGTGCTGATAACCATCTCTAACCCATATTTTCTCTGAGC
>n210_u193_AC006068_snoRNA_Arabidopsis thaliana (thale cress)
GGCTGTGATGATTGAGAATGTCATGCACCACTCTGATTTTTTGTGCTGATAATCATCTCTAACCCATATTTTATCTGAGC
>n211_u194_AC006234_snoRNA_Arabidopsis thaliana (thale cress)
GCTGGTGATGATGTTTCATATCTTTGCCTACATTGCCTGATCAAAGCTATTTTTGGCTTTGAACAAGTGAGTGAATGATAAACTTCTGAAG
>n212_u195_AC006234_snoRNA_Arabidopsis thaliana (thale cress)
GCCAGTGATGATTGAAAAAGATTGTCTACATTGTTTGATGTACCACTGAAATGAATTCTTTAATTAGTCTGAGG
>n213_u196_AC006234_snoRNA_Arabidopsis thaliana (thale cress)
GCCTATGATGATTCAAATTTTGCCTACATTGTTTGATAAACCAATGATATAACTTGTACAAAATGTTTTCTGAGG
>n214_u197_AC006315_SRP_7SL RNA_Homo sapiens (human)
GCCAGGTGTGGTGGCAAGCCCCTCTAGTTGCAGCTACTCAGGAGGCTGAGAGAAGGATTGCTTGGGCCTGGGAGCTCCTGGTTATAATGTGCCATGCTGATCACATGTCTGCACTATTTGGCATCAATGTGGTGACCTCTCAGGAGCTGTGTGTAATGTGGTTGCAAACGAGAGGCAAACTGACCCAGGTCGGAAATGGAGCAGGTCAAAA
>n215_u198_AC006320_snoRNA_Homo sapiens (human)
AGGAGGAAGGGAAGGGGGAAGGGAAGGGAAAGGGAAAGGGAAAGGGAAAGGGGAAGGGAAGGGAAAGGGGAAGGGAA
>n216_u199_AC006324_snRNA_Homo sapiens (human)
GTGTTCACATAGGCAGCACACATAGAACACTGGAATGATACAGTGAAGATGAGCATGGCCCCTGCACAAGGATGACACACAAATCCATGAAGCATTCCATA
>n217_u200_AC006362_snRNA_Homo sapiens (human)
AGCTTTGTGCAGTGGCAGTAAGGTAGCCAATGAGGTTTATTTGAGGCGCAATTATTGCTAATTGAAACAGATTCGTAGTGCACAGAGAGTGGGATTTGTAGTTAACTACATCTAGATTTTTAAATCCCCAC
>n218_u201_AC006465_snRNA_Homo sapiens (human)
TGATTGGTTTTGCAGCAGATATACTAAAATTGGAATGATACAGAGAAGACCAGCATAGCTCCTGCACACACAGGGTGATACACAAATTTGTGAA
>n219_u202_AC006478_SRP_7SL RNA_Homo sapiens (human)
GTGGGAGGATTGCTTGAGCCCAGGAGTTCTGGGCTGTCATGCACTGTGACCATGAGGTGTCCACACTAAGTTCCACATCAATACAGTGACCTCCTGGGAGTGAGGGACCAACAGGTTGTCTAAGGAGGAGTGAAGCAGCCCAGGTCAGAAATGGAGCATGTCAAAACTTTCATGCTGATCAGTAGAGGAATTGTACCTGTGAATAGCCACACTGCAGCCTGGGCAACATAGCAAGAGAGTCTCT
>n220_u171_AC006480_Y RNA_Homo sapiens (human)
GGCTGGTCAAAGTGCAACGGTGTTAACCACTAATTGATCACAACCAGTTACAGATTTTTTTGTTCCTTCTCCACTCCAACTGCTTCATTTGACTAGCCTAT
>n221_u203_AC006654_snoRNA_Caenorhabditis elegans
CTGCGGTGACGATCAACTCTTACCTACTATGACAAAAACAATGGTTAGACGTTACTCGTACTGTCTGAGCAG
>n222_u204_AC006681_snmRNA_Caenorhabditis elegans
GGTTTTAACCCAGTTAATTGAGGTTAGCAATAATTTCGACCTTTCGAAAGATTGTGTTGAATGACAATAATTTTTGGAACGACTCCTTCGGGGATATCCGATGAAGCAAA
>n223_u205_AC006761_miRNA_Caenorhabditis elegans
AGGCAGTGTGGTTAGCTGGT
>n224_u206_AC006783_miRNA_Caenorhabditis elegans
TCACAGGACTTTTGAGCGTTGC
>n225_u207_AC006816_snoRNA_Caenorhabditis elegans
AAAAAGTCAATGATGTTTTTTCAAGACGGGACCGACTGGTGAATGATGCATAAATGAAATGCTGAGACTTTTT
>n226_u208_AC006979_7SK RNA_Homo sapiens (human)
GGATGTTAGAGCAATCTGACAGTGACATCTGTCACTCCATTTATGCCAGATTTGATTTGAGGGATTTGGCTGGTGAAGTGTCCAGTGATTCCCTCACTGTTCTATATTTGTCATCCTGCCATAAGGATTGGCTACATCTTTAGGATGTCAACCAAGTCAAAGAGGGGAATAC
>n227_u209_AC006992_snRNA_Homo sapiens (human)
GCGCTTGCTTTGGCAGCACATATGCTAACACTGGACCAATACAGGGAAGATCAGCAAGGCCCCTGCACAAGAATGACACATAAATGCATAAAGATTCCATATTTTT
>n228_u143_AC007000_Y RNA_Homo sapiens (human)
GGCTGGTCAAAGTGCAACGGTCTTTACAACTAATTGATCACAACCAGTTACAGATTTTTTTGTTCCTTCTCCACTCCAACTGCTTCACTTGACTAG
>n229_u210_AC007027_Y RNA_Homo sapiens (human)
GGCTGATCTGAGTGCAGTGGTGTTTACAACTAATTCATCACAACCAGTTACAGAGATTTATTTGTCCCATCTCTACACCTAACTCCTTCATTTAACTAG
>n230_u211_AC007032_snRNA_Homo sapiens (human)
CTTGCTTTGCAGCACATATACCAAAATTGGAATGAGACTGAGAGATTAGCATGGCCCCTGTGCAAAGAGGACACAAAAATTCATGAAGTGTTTCATATTGTT
>n231_u212_AC007138_snRNA_Arabidopsis thaliana (thale cress)
ATACCTTTCTCGGCCTTTTGGCTAAGATCAAGTGTAGTATCTGTTCTTATCAGTTTAATATCTGATATGTGGGCCATCGGCCCACACGATATTAACTCTATTTTTTAAGGGAGAAAGCCCGTTAAGATAGCTTGCTATCTAGGCTTTCACGAGTCCCCCATGCGCTGCAGTACTGCATGGGCCTGGCTCAACCCAC
>n232_u213_AC007233_snoRNA_Arabidopsis thaliana (thale cress)
ACCGATGATGATTATTGCTAAACTATGGAATTACCGTCTGAGTTTATTCTTTGACGAGAAAAACGCTGGCTTACTGAGG
>n233_u214_AC007276_snRNA_Homo sapiens (human)
TTGCACTCCCCTTAACAATAATGAAAGAGGCCTCAGGCCTGACAGCAGGGACACGGTTAAGACACTGCCACCTGCTCCCTCACTTCT
>n234_u215_AC007384_SRP_7SL RNA_Homo sapiens (human)
GGTGCGTGCCTGTGGTCCTGGCTACTTGGAGGCTGAGGCAGGAGGATGGCTTGAGCTCAGGAGCTCTGGGCTGCAGTGCACTGTGCCCATCAGGTGTCCGTGCTAAATTCAGCATCAAGAGGGTGACCTCCCTGGAGCGGGGAACCGCCAGGTTGCCTAAGGAGGGGTGAACCGACCCAGGTCGGAAACGGAGCAGGTCAAAACTCCCGTGCTGATC
>n235_u216_AC007735_snRNA_Homo sapiens (human)
ATACTTACCTGGCAGGGGAGATAACCATGATCACGAAGGTGGTTTTCCCAGGGCAAGGCTTATCCATTGCACTCTGGACATGCTGACCCCTGCGATGTCCCCAAATATGGGAGACTTGACTGCATAATTTGTGGTAGTGAGGCACTGCATTCGC
>n236_u217_AC008267_snRNA_Homo sapiens (human)
TGTTTGCTTCAGTAGCACATATACTAAAGTTGGAACGATAGATTGGCATGGCCTCTGTGCAAGAATGACATGCAAATTTGTGAATCATTCCATATGTTT
>n237_u218_AC009468_7SK RNA_Homo sapiens (human)
TCATCCCATTGGTTGCCAGGGTTGATTTGGCTGATCTGACTGGCTAGGTGGGCTGTCCCCTTCCCTGCCCTCACTCTTCCCAAAGCCGAGCACTTGGTGGAAGGGGACAACCTTCCCTGATAGAGGAAGATTGTTCTTTGGTCAAGGATATATGAGTAGCTGCACCTCCCCTGACAGTTCCTCCAAACAAGTTGAAGACATTTCATATAATGCCTAGAAGTGGAACAGATGAATGTGTAAGATACTGGAGAGTGTTTGTACTCAGCACTGCATTGGGCA
>n238_u219_AC011228_snRNA_Homo sapiens (human)
GTGTTTGCTTCAGCAACATGTATACTAAAATTGGAATGATATAGAGAAGATAAGCATGGCCCCTGCACAAGGATGACACACAAATTCATGAAGCGTCCCATATTTT
>n239_u220_AC011230_Y RNA_Homo sapiens (human)
GGCTGGTCTGAAGGCAGTGAGTTATCTCAATTGATTGTTCATAGTTACAGATTGAACTTGTTGTTCCACTCTTCCCTGCCTTCTCTCTACTGCACTTGACTAGTCT
>n240_u221_AC011292_scaRNA_Homo sapiens (human)
TGGTAATGGTGATGGTGATGTTGGTGATGGTGGTTATGTGATGGTGATAGTGATGGTGATGTAATGATGATGGTGATGGTAGTGATGTGATGATAGTCATGGTGATGTGATGATAGTCATGGTGATGTGATGATGCTGCTGATGGTGATGGGGATGATGATGTGAATGGTGATGATGATGTTGGTGATAGTGATGATGTGGTGGTGATAGTCATGGTGATGTGATT
>n241_u222_AC012490_SRP_7SL RNA_Homo sapiens (human)
GCCTGGTGCCATGGTGCGTGCCTGTAGTTCCAGCTACTCAGCAGGGTGACGCTGGAGGATCACTTGAGCCCAGGAGTCCTGGGCTGTTGTGTGCTATGCTAATTGGGTTCCTGCACTAATTTCAGCATCAATATGGTGACCTCCCAGTAGCGGGGAACCACGAGGTTGCCTAAGTAGGGGTGAACCTGCCCAGGTTGAAAATGGAGCAGGTCAAAACTCCTATGCTGATCAGTGCTGGGATCGTGCCTGTAAACAGCCACTGCACTGCAGTCTGGGCAACACAGTGAGACCTCATTTC
>n242_u223_AC018705_snRNA_Homo sapiens (human)
GTGCTCATTTTGGCAGTACATATACTAAAATTGGAATGATACAGAGAAGATTAGCATGGCCTCTGAGCAAGGATGACATGCAAATTCATGAAGTATTCCATAT
>n243_u224_AC019043_Y RNA_Homo sapiens (human)
GGTAGGAAGGTAGCGTTGCGTCACCCCGACCGGCTGCTCAGTCAGTTCCCAATCTAGCTCCTTGTTGTACCCTTTCCGCCTTCTCTCTACTGCACTTGACCAGTCTT
>n244_u225_AC023105_Y RNA_Homo sapiens (human)
GGCCGGTCTGAGTGCAGTGGTGTTTACAACTAATTGATCACAACCAGTTATAGATTTCTTCGTTCCTTCTCCACTCCCACTGCTTCACTTGATTAGCC
>n245_u226_AC024028_7SK RNA_Homo sapiens (human)
GGATGTGAGGGTAATCTGGCTGCAACAGCTGTCACCCCCATTGATCACCAGAGTTGATTTGGCTGATCTGGTTGGCTAGGCGGGTGTCCCCTTCCTCCCTCACCGCTCCACATGTGTCCCTCCTGAGGCTGCATACTTGGTCAAAGAGGATGACCATCCCCGAGAGAGGAAGACCGGTCTTCCATCAAGGGTACAGAAGTAGCCGCGCTCCCCTGCTAGAACCTCCAAACAAACTCTCAAGGTGCA
>n246_u227_AC024206_snoRNA_Caenorhabditis elegans
GAGGAGTTGATGAGAACTCTAATCCATTCTCTGAGCGAGAAGGATGGCCGAAGCGGGTTCGCATTTGAGGCATTAAGGTAGACGACAGAGTTCTTCTGGAAACTACTGCCTCGCGCTGACGTC
>n247_u228_AC024776_miRNA_Caenorhabditis elegans
TCGAAAATTAAAAAGTGTAGA
>n248_u229_AC024798_miRNA_Caenorhabditis elegans
AATGACACTGGTTATCTTTTCCATCG
>n249_u230_AC024798_miRNA_Caenorhabditis elegans
TATGACACTGAAGCGTTACC
>n250_u231_AC024798_miRNA_Caenorhabditis elegans
TATGACACTGAAGCGTAACC
>n251_u232_AC024798_miRNA_Caenorhabditis elegans
CATGACACTGATTAGGGATG
>n252_u233_AC024830_snoRNA_Caenorhabditis elegans
CGGCTGTGATGATTTCCTATTGCCGTTTACCCGTCTGAGGAAAACCGTGCTTGATACAACTTGGAAAAGGCTGAGCCG
>n253_u234_AC024848_miRNA_Caenorhabditis elegans
TGAGATCGTTCAGTACGGCA
>n254_u235_AC025724_snmRNA_Caenorhabditis elegans
ATTTTTGGATGTTCCTCTATTTTTTAAAGATATTATGTCCATTTTAAAATACTTATGATTGGTATATCACAAAAAAAGAAACTGAAAATTTGGAAAATTTAATCATTTTTTTTAGTTTTGCAAAAGAAAAACCGAAAGTCTGACAACAACATCAAAAGCATTAGAAAAACATCTGTAAAATTAACGTTTAAAACAAAAATGTGAAAAATTCAGTCCGTTTTCAAGCTTGTAAAGTTGCCCAAAATCAAGGCTAAAGTAAACGAAAAAATCCTCTTATCCTCGAGGAGTAGTACACGAGCTTCGTAAATCGACAAGTTGCCATTACCAGAAGTTCTATTATTAGCCCTTATCTATTACTTGGTTTACCCCTATATACGCATACCTTTTTTATTTTATTTTATTTTAGAAAATAGAAAAATGTGGTCTGAATTATCAGAAAAAATAACACACACACACACACAAACATACACAAGTAGAATATAATTTCTGCAACACACACAAAAAAACCAAAAAAAAAAAAAAAAA
>n255_u236_AC025726_miRNA_Caenorhabditis elegans
TGATATGTCTGGTATTCTTGGGTT
>n256_u237_AC026281_snRNA_Homo sapiens (human)
GTCCTTGCTTTGGCTGAACCTAACACTAAAATTGGAACAATACCAAGAAGATTGCACAACATGGCCCTGTGCAAGGATGATATGTAAGGTCATGAAGCAT
>n257_u238_AC027644_snoRNA_Homo sapiens (human)
TTTTGTTTTTTGTTTTTTTTTGAGATGGAGTCTTGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCATGATCTCAGCTCACTGCAACCCCACCTTTTGGGTTCAAGTGATTC
>n258_u239_AC069292_snRNA_Homo sapiens (human)
GAGTTTGCTTCAGCAGCAAGTGTACTAAAATTAAAACAATATAGAGAAGATTAGCATGATCCCTGCACAAGTGTGACACACAAATTTGCGAAGCATTCTATTTTTTT
>n259_u240_AC069305_snRNA_Homo sapiens (human)
GTGCTTGCTTCGGCAGCACATATACTAAAATTGGAACGGTACAGAGAAAAGTAGCAAGGCCCCTGGGCAAAGATGACATGCAAATTCCTGAAGCATTCCACATTT
>n260_u241_AC072054_snoRNA_Homo sapiens (human)
ATCCTTTTGTTGTTCATGAGCATGACAATTGGGTGTTTTCATGCAGCGAGTGAGATGTGCCACCCTGGAACCTTGTTACGACGTCGCATGTTACCTGTCTGACC
>n261_u242_AC072061_SRP_7SL RNA_Homo sapiens (human)
GGCACAGCAGTGCATGCCTGTAGTCCCAGCTACTCCTGAGGTGGGAAGATCACTTGAGCCCAAGAAGTCCTGGACTATAGTACACGATGCCAATCGGGTGTCTGCACTAAGTTCAGCATCAGTATGGTGACCTCCTGGGAGTGGGGGACCACCAGGTTGCCTAAGGATGGGTGAACCAGTCCAGGCAGAAACTGAACAGGTCAAAACTCCTGTGCTGATCAGTAGTGGGATTGTGACTGTGAATAGGCATTGCACTCCAGCCTGGATGACATAGTGAGATCCTATCTCT
>n262_u243_AC073101_Y RNA_Homo sapiens (human)
AAAATTCCTTGATTACAACCATTACAGATTATTTTGTTCCTTCTCCACTCCCACTGGTTCACTTGACTAGACT
>n263_u244_AC073107_snRNA_Homo sapiens (human)
TGCTTGCTTCGGTAGCACATATACTAAAGTTGGAACAATAGAGAGATTGGCATGGCCTCTGTGCAAGAATGACATGCAAATTTGTGAAGCATTCCATATTTTT
>n264_u245_AC073138_SRP_7SL RNA_Homo sapiens (human)
TTGCCTATGGAGGGATGACCCGGCTCAGGTTGGAAATGGAGCAGGTCAAAACTCCCATGCTGATCAGTGGTGGGATTGCACCTGTGAATAGATGCTGCACTCCAGCCTGGGCAACATAGCAACGCTCCATCTTT
>n265_u246_AC073140_Y RNA_Homo sapiens (human)
GGCTGGTCCGATGGTAGTGGGTTATCAGAACTTATTAACATTAGTGTCACTAAAGTTGGTATACAACCCCCCACTGCTAAATTTGACTGGCTT
>n266_u247_AC073140_SRP_7SL RNA_Homo sapiens (human)
GAGGATCACTTGAGCCCAGGAGTGCTGGGCTGTAGTGGGCTGTGTTGATCAGGTGTCTGCACCAAGTTGAGCATCAGTATGGTGAACTTCCAGGAACTAGAGACCACGAGGTTGCCTAAGGAGGGGTGAATCGACCCAGGTTGGAAATGGACCAGGTTAAAACTCCTGTGCTGATCACTGCTAGTGGGATTATGCCTGTGAATAGCCACTACCCTCCAGTTTGGGCAACAACATGACCCCATCTTT
>n267_u248_AC073140_Y RNA_Homo sapiens (human)
AGTTGGTCCGAGTGTTGTGGGTTATTGTTAAGTTGATTTAACATTGTCTCCCCCCACAACCGCGCTTGACTAGCTTGCTGTTTT
>n268_u249_AC073203_snRNA_Homo sapiens (human)
GTACTGGCTTTGGCAGCACATATACTAAAATTAGAATGAAGCAGAGATTAGCACTGCTCCTGCACAAAGATGACATGCAAATTGATGAAGTTTTCCATACTTTT
>n269_u250_AC073264_snRNA_Homo sapiens (human)
GTGTTGGCTTTGGCAGCACTTTCTAAAATTAGAATGACACAGACAAGATTAACACGTCTCCTGCATATAGATTACACAAAATTTTGTGAAGCGTTTCATACTTT
>n270_u251_AC073269_snoRNA_Homo sapiens (human)
ATCCTTTTGTAGTTTATAAGCGTGATGATTGGGTTTTCATGCTCATGTGTGAGAAGTGCCTTCCTCAAACCTTGTTATGCTGTTGGTGCATTACTCATGTGAT
>n271_u252_AC073320_Y RNA_Homo sapiens (human)
AGTGTTTACAACTCTTGATTACAGATTTCTTTGTTCCTTCTCCATCCCCACTGCTTCACTTGACTAGTCTT
>n272_u253_AC073320_Y RNA_Homo sapiens (human)
GCTGGTCCAGGTGCAGTGGTGTTTAAAACTAATTGATCACAACCAGTTACAGATTTCTTTGTTCCTTCTACACGCCCACTGCTTCACTTGACTAGCTTT
>n273_u254_AC073323_snRNA_Homo sapiens (human)
GTGTTTGCTTCAGCAGCCCATATACTGAAATTGGAACCATATAGAGAAGATTAGCATGGCCCTTGGACAAGGATGACATGCAAACTTGTGAAGTGTTCCATATT
>n274_u255_AC073330_7SK RNA_Homo sapiens (human)
GGATGTGAGGGTGATCTGGCTGCAACTTCTGTCATCCCATTGATCGCCAGGGTTGATTCAGCTGATCTGGCTGGCTAGACGGGTGTCCCCTTTCTCCCTCACCCCTCCACGTGCATCCCTCCTGAAACTGCATGCTTGGTCAAAGAGGATGACCATCCCCAATAGAGGAAGACCAGTCTTTGGTCAAGGGTATACGAGTATCTGCACTCCCCTGCTAGAACCCCCAAACAAGTTCTCAA
>n275_u256_AC073335_snRNA_Homo sapiens (human)
TGCTTGCTTCGGTAGCACATATACTAAAGTTGGAACAATAGAGAGATTGGCATGGCCTCTTTGCAAGAATGTCATGCAAATTTGTGAAGCATTCCATATATTT
>n276_u257_AC073422_SRP_7SL RNA_Homo sapiens (human)
GCCGGGCTTGGCCGCGCGCGTCTGTGGCCCCGGCCACTCGGAAGGCTGAGGCGGGAGCAGCGCTTGAGCCCGGGAGCTCTGCGCTGTATATGCGCTAGGTCCGTCGCGCGGTGCCTCTGAGTTCTGCATCTGTGTGGTGACCTCTCGGGAGCGGGGACCACCAGGTTCCCCAGGGAGGGGGAACCGGCCCAGCTCGGAAACCGAGCAGGGCAAAACCCCAGTGCTGATCGTTAGTGGGATCGCGCCTGTGAATAGCCACTGCCCTCCAGCCTGGGCAACAGCCAGACCCCGTCTGT
>n277_u258_AC073520_Y RNA_Homo sapiens (human)
GGTAGGTCTGAAGGTAGCAAGTTATCTCGATCGTTCACAGACAGTTATAGATCAGATGAAGTCCTTGTTTCACTCTTTCCTTCTTTCCCACTATTGCACTTGACTAGTCTTT
>n278_u259_AC073846_SRP_7SL RNA_Homo sapiens (human)
GAGGCAGGAGGATCGCTGGAGTCCAGGAGTTCCGGGTTGTAGTGCAGTATGCCTGTAGTGCAGATAGCTATACTTGCACTAAGTTCACCACCAATTTGGTGACCTCTCAGGAGCAGGGGATTACCAAGCTGCCTAAAGAGAGGTGCACCAGCCCAGCTCAGAAACAGAGGGGTCAAAACTCCTTTGCTGATCAGTAGTGGGATCTTGCCTGTGAATAGCCACTGCACTTCAGCCTGGGCAACATAGCAAGACCCATCTCT
>n279_u260_AC074024_snRNA_Homo sapiens (human)
GTGCTCACTTCAGTAGCATATATACTAAAATTATAATAATACCCAGAAGATTAGTATGGCCCTTGTGCAAGGATGACACACAAATTTGTAAAGCATTCCATATT
>n280_u261_AC074257_Y RNA_Homo sapiens (human)
GCTGGCCCGATGGTGTTGAGTTATCGGAACTTATTAACATTAGTGTCACTAAAATTGGTATATAGACCCCCACTGCTAAATTTGGC
>n281_u262_AC074257_snRNA_Homo sapiens (human)
GTACTCTGTGTGGCCGCACATACACTACAATTGGAACAATACGGAGAAGATGAGCACAGCTTCTGTGCAAGGATGACACACAGATTCGTGGTGTTCAAAA
>n282_u263_AC074348_snRNA_Homo sapiens (human)
ATCCCTTCTAGGTCTTTTGGCTAAGATCAAGTGTAGAATCTGCTTTTATCAGTTTAATATCTGGTACTTCCTCTATCCCAGGACAATATATTAAGTGGATTTTTGGAGCAGGGAGATGG
>n283_u264_AC074384_7SK RNA_Homo sapiens (human)
GAGGTGAGGGCGATCTGGTTGTGACATCTGTCACCCCATTAATCACCAGGGTTGATTCAGCTGATCTGGCTGGCTAGGCAGGTGTCCCCTTTCTCCCTCACAGCTCCATGTGTGTTCCTCCCAAAGCTGTGCGGTTGGTCAAAGAGGATGACCATCCCTGACAGAGGAGGACTTGTTTTCACTCAAGGGTGTACCAATGGCTGCACTCCCTGCTAGAACCTCCAAACAAGCTCTCAAAATCCATTTGTAGGAGAACATAGGGTAGTAAAGCTTCCAAGACTCCAGACACATCTGAATGAGGCACTGCATGTGGCAGTCAGCCTTTCTCTT
>n284_u265_AC078791_SRP_7SL RNA_Homo sapiens (human)
CCTGCACTCCTGGCTACTAGGGAGACTGAGGTGGGAGGATCACTTGGGCCTAGGAATTAGAGGCTGTAGTGCACTATGCTGGTCAGGGGTCGGCACTAAGTTCACCATTATGGTGACCTCCCTAGAACAGGGGACCACCAGGTTGCCTGAAGAGGGGTGAACTGGTCCAGTTTGGAAATGAAGCAGGTCAAAGCTGCTATGCTGATAAGTAGAGGGGTGACACCTGTGAATAGCCACTGCACTCCAGCCTGGGCAACACAGTGAGTCCCTATCCCT
>n285_u266_AC079405_SRP_7SL RNA_Homo sapiens (human)
GCCAAGCATGGTGGCGGGTGCCTGGGGTCACAGCTACTTTGGACACTGAGGCAGGAGCATTGTTTTGAGCCCAGGAGTTCTGCGTGGTAGTGCACTGTGCTGATAGGGTAGTCGCACTAAGTTTGGCGTCAATATGGTTAATTCCTGGGAGCGGGAATCATCAGTTTGCCTAAGGAGGGGTGAACCAAGCCAAGTGAGAAACGGAGCAGGTCAAAATTTCCATTCTGATCGGCAGTGGGTTCCACCTGTGAATAGCCACTGCACTCCAGTCTGGATACCATAGCAAGACCCTGTCTCT
>n286_u267_AC083849_snoRNA_Homo sapiens (human)
ACACTTCCATGCACCATTTCTATAGTTTCTTACCAGAGAAGTTTCTCTGAACATGTGGAGCACCGGAAACCACGAGGAGGCGGCTCAGCATTCACTCCTGAGCATGAAGCTGGCTCTTGGTGGTGCTTCTCTGCAATTGCCTTTTGCTGCTGATGATCACTCTTCTCTTCCTTTGGGAGAGTGAAAGGGAAAGGAAGCCATCTGAAGGGT
>n287_u268_AC083849_SRP_7SL RNA_Homo sapiens (human)
GGAGAACCACTTGAGCCCAGGAGTTCTGGGCTATAGTGCTCTATGATGAGGTGTCTGCACTAAGTTTGGCATCAATGTGGTGACCTCCCCAGAGTGGGGACTGCCAGGTTGCCTAAGGAGGGGTGAACTGACCCAGGTTGGAAACAGAGCAGATTAAAAATTCCTGGGCTAATCAGTAGTGGAATTTCACCTGTTAACAGCCACGGCCCTCCAGCCTGGACAATACAGCAAGATACCATCTCT
>n288_u269_AC090426_Y RNA_Homo sapiens (human)
AGGCTGTTCCAAAACAGTAAGTTATCTCTATTGATTGTTCAGTTACAGATCAAACTCCTTGTTCTACTCTTTTCCCTCCTTCTCACTACTGCACTTGACTAGT
>n289_u270_AC090426_BC200 RNA_Homo sapiens (human)
GGGGCGCTGTGGCTCACGCCTGGAATCCCAGTTCTTAGAGAGGCAGAGGCGGGCAGATATCTTGAGCCCAGGAGTTCAGACCTGCCTGGGCAATATAGCTAGAACCTATTCTCCACAAAAAG
>n290_u271_AC091812_snRNA_Homo sapiens (human)
TGCTCACTTTAGCAACACATACTAAAATTGGAACCATACTGAGAAGAATAGCATGACCTCCATGCAAACAGGACATGCAAATTTGTGATGTGTT
>n291_u272_AC092001_scaRNA_Homo sapiens (human)
ATATATGTATGTGTGTGTGTGTATATTATATATGTGTGTATATATGTATGTATATATGTATATATGTGTATGTATATGTGTATTATATATGTGTATATATATGTGTGTGTATATGTGTGTGTGTGGTGTGTAT
>n292_u273_AC092099_SRP_7SL RNA_Homo sapiens (human)
CTGAGAGCTGGGTACTGGCCCAGTTTGGAGACGGAACTGGTCTAAACTCCTGTGCTGATTCATTGGTGCCATAGTGGCTGTGAATACTGAATTGCCACTGCCCCCCAGCCTGGGTAACATAGCAAGATGCCATCTCT
>n293_u274_AC092100_snRNA_Homo sapiens (human)
GTGCTTGCGTTAGCAGCACATATACTGAAGTTGCAACAGTACAGTGGAAATTTGCATGGCCCTTGCATCAGGATGACATAGATTTATAAAGTCCATATTTTT
>n294_u275_AC092148_Y RNA_Homo sapiens (human)
TTAGTAATCTCAATTGATGGTTCATAGTCAGGTACAGGTTGGACTTTTTGTTCTGTTCTTTCCCCGCTGCTCACTGCTATGCCTCAGTAATCTTT
>n295_u276_AC092180_SRP_7SL RNA_Homo sapiens (human)
GGGAGCTGGGCTGGGAGCAGTTGTACTTGCCTGTAGTCCCAGATACTCGGGAGGCTGAGGTGGAAGGGTCCCTTGAGCCCAGGAGTTCTGTGCCACCCAGAATGATGGATCTGCACTAAGTTTGGCATCAATATGGCACCCTCCCAGGAGCGGGGAACCACCAGGTTGCCTAAGGAAGGGTGAACTGGCCCAGGTCAGAGATGGAGCCGATCAGAACTCTCATGCAGATCAGTAGTGGGACCATGCCTGTGAATAGTCGCTGCCCTCCAGCCTGGGCAACATAGTGAGACCCTGTCTCT
>n296_u277_AC092439_Y RNA_Homo sapiens (human)
TCAGTTACAGGTCTAACTCCTTATTCTACTCTTTCCTCCCTTCTCACTACTGCATTTGACTAATCTTT
>n297_u278_AC092449_snoRNA_Homo sapiens (human)
TCCAACATGGACAGACTCAGGAAGTCACTCTCCCCGGCTCTGTTCAAGTGGCACAGAGGGGCCCAGGGCTCTGCCCGACGATGTACA
>n298_u279_AC092585_snRNA_Homo sapiens (human)
GTGCTCACTTTGGAAGCACATATACTCAAATTGGAACTATACAGTGAACATTAGCATGGCCCCTGCACAAGGATGACATGCAAATTTGTGATGCATTCCATATTCTT
>n299_u280_AC092610_Y RNA_Homo sapiens (human)
GGCTGGTCCGAGTGTATTGGTGTTTAGAACTAATTCATCACAACCAGTTACAGATTTTGTTGTTTCTTCTCCACTCGCATTGCTTCACTTGACTAGCCTT
>n300_u281_AC092647_snRNA_Homo sapiens (human)
GTGCTCACTTCGGCAGCACATATACTAAAATTGGCATGACATGGAGAAGATGAGCATGGTACCTGGGAAAGTATGACACACAAATTCATTAAGCATTTCATATTTTT
>n301_u282_AC092685_snoRNA_Homo sapiens (human)
AAAGCAGGATTTAGACTATGATATAGCTGTTAAGTGCTGTTGTCATTTCCTGTGCTCAAAATAAAGTTGTTTCTTGACCGGGCATGGTGGCTCATGCCTGTA
>n302_u283_AC092685_snoRNA_Homo sapiens (human)
TAAAATAAAGTTGTTTCTTAACTATACCTGTCTGCTATTCTCCTGTAGCAACCAGGGATGATTGGTTTCATACATGT
>n303_u284_AC093087_snoRNA_Homo sapiens (human)
ATTCTTTCGTAGTTCGTAAGCTGGATTATTGAGTATTCACACACGTGTGTGAGATGTGCCACCCTTGAACCTTGTTACAACGTGGGCACATTATTCACTTGA
>n304_u285_AC093376_snRNA_Homo sapiens (human)
TACTTGCTTTGGCAGCACATACACTAAAATTAAAATGATACAGAGAAGATTATCTGACCCTTGTGCCAGGATTACACACAAATTCGTGAATTATTCCATATTTTT
>n305_u286_AC093392_snRNA_Homo sapiens (human)
GTGCACGCTTTGGTAGCACGTATACTAAAATTGGAAAGATACAGAGAAGATTAGCATGGCCTCTGCACAAAGATGACGTGCAAATTTGTGTTGCGTTCCATATT
>n306_u287_AC093392_snRNA_Homo sapiens (human)
TGCTTGCTCCAGTAGCACACATACTTAAGTTGGAACAATAGAGAGATTGGCATGGCCTCTCTGAAAGAATGACATGCAAATTTGTGAAGCATTCCATATTTTT
>n307_u288_AC093582_snRNA_Homo sapiens (human)
GTGCTCACTTCGGCAGCACATATACAAAAGGTGGCATGACATGGAGAAGATAAGCATGGTCCCTGTGAAAGGATGACAAACAAATTCATGAAGCATTCCATATTTT
>n308_u289_AC093743_Y RNA_Homo sapiens (human)
GGCTGGTCCGAGTGCAGTGGTGTTTACAACTAATTGATCACAACCAGTTACAGATTTCTTTGTTCCTTCTCCACTCCCACTGCTTCACTTGACTAGCCTTT
>n309_u290_AC093743_snRNA_Homo sapiens (human)
AGAATAAATAAATAATTGGAACGATACAGAGAAGATTAGCATGGCTCCTGGGCAACGATGACACAAATTTGGGAAGTGTTTCATGTTTT
>n310_u291_AC093743_Y RNA_Homo sapiens (human)
GGCTGGTCCGAAGGTAGTGAGTTATCTCAATTGATTGTTCACAGTCAGTTACAGATCGAACTCCTTGTTCTACTCTTTCCCCCCTTCTCACTACTGCACTTGACTAGTCTTT
>n311_u292_AC093799_snoRNA_Homo sapiens (human)
AAGACTTTACTTTCAGGGGTCATTTCTATAGTTTGTTCAGAAGTTTCTCTGAATGTGTAGAGCA
>n312_u293_AC095044_snRNA_Homo sapiens (human)
GTGCTTGCTTTGGCAGCACATATACTAAAATTGGAAAGATACAGAGAAGATTAGCATGGCCCCTGCGTAAGGATGACATGCAAATTCGTGAAGCATTCCATATTTTT
>n313_u294_AC096551_Y RNA_Homo sapiens (human)
GCTGGTCCAAGCGCGGTAGTGTTTACAACTAATTAATCACAATCAGTTACAGGTTTCTTTGGTCATTCTCCACTCCCACTGCTTCACTTGACTAGCTT
>n314_u295_AC096582_snRNA_Homo sapiens (human)
TGCTTGCCTCAGTAGCACACATACTTAAGTTGGAACAATAGAGAGATTGGCATGGCCTCTGTGAAAGAATGACATGCAAATTTGTGAAGCATTCCATATTTTT
>n315_u296_AC096582_snRNA_Homo sapiens (human)
GTGCATGCTTCGGTAGCACATATACTAAAATTGGAAAGATACAGAGAAGATTAGCATGGCCCCTGCACAAAGATGACATGCAAATTTGTGTTGCGTTCCATATT
>n316_u297_AC097646_snRNA_Homo sapiens (human)
TGCTTGCCTCAGTAGCACACATACTTAAGTTGGAACAATAGAGAGATTGGCACGGCCTCTGTGAAAGAATGACATGCAAATTTGTGAAGCATTCCATATTTTT
>n317_u298_AC099412_scaRNA_Homo sapiens (human)
AATGTATACATTTCATACTTATTTACCAAAAATAATGATAATATAACTCTATTGAGAGGACATGAAAAAAGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGAGAAAGAGAGAGAGAAAGAAAATGCAAGCATTAAAGAGTAAATCTGCATCTACCGTAGCACAGGTTGTGAGTAGTTGACATATAAAATATCTTAAAAAATACTAATGGAAGAATGCCGTTTAACAACATGG
>n318_u299_AC104700_snRNA_Homo sapiens (human)
GTTCTTGCGTCGGCAGCACATATACTAAAATTGGAACGATACAGAGAAGATTAGCA
>n319_u300_AC104843_snoRNA_Homo sapiens (human)
TGTAGTTCCCGAGCACGATGACTGGGTGTTCACGTGCACGTGTGGGATGTGCCACCCTCTGAACCTTGTTACGATGTTGGCACATTA
>n320_u301_AC105446_7SK RNA_Homo sapiens (human)
GATTTGAGGGTACTCTGACTGCAACATCTTTCACCCCATTGATCGCCAGGATTGATTTGGTTGATCTGGCTGAGCAGGCGGGTGTCCCCGTCCTCCCTCACTGCCCCATATGTGTCCCTCCTAAAGCTGCATGCTCAGTTGAAGAGGACGAGAGGACGACCTTCTCTGATAGAGGAGGACCACGCTTCAGTCAAAGGCATACAAGTATCT
>n321_u302_AC106862_snRNA_Homo sapiens (human)
GTGTTGGCTTTGGCAGCACTTTCTAAAATTAGAATGACACAGACAAGATTAACACGTCTCCTGCATATAGATTACACAAAATTTTGTGAAGCGTTTCATATTTT
>n322_u303_AC112711_Y RNA_Homo sapiens (human)
GGCTGGTCTGAAGGTAGTGAGTTATCTCAATTGATTGTGCATGGTCAGTTACAGATCAAAATCCTTGTTCCACTCTTCCCCCCACCCTTCTCATTACTGCACTTAGTCT
>n323_u143_AC114737_Y RNA_Homo sapiens (human)
GGCTGGTCAAAGTGCAACGGTCTTTACAACTAATTGATCACAACCAGTTACAGATTTTTTTGTTCCTTCTCCACTCCAACTGCTTCACTTGACTAG
>n324_u304_AE000035_RNase P RNA_Mycoplasma pneumoniae
CGCTGTCGGTCAGTTGCTGCTCAATGAGTAGAGGAAAGTCCATGCTTGCACTTGCTGGAACGCAAGTAGTGTTTGTGTAAATTGAACAAATAAGATTTAGGACGCTAATAGACGTCACGACTGGACTAGTCTAAGGTCTTTGACTATGATGATGTCCGTAAAGTACCACAGAGACGAGCTTAGTGAAAACTAAGTATGAAACGCGGTAAACTCCACAAGCAAGAAACCTAAATTTTGGTAAGGGAATGTTACTTTAAGAAAAATAATTAAAGTAATGACAGGATTACTGTAGATAAATAACTGACTTTAAAACAGAACATGGCTTATTGGCAGCGTTCTATTTGAAAAAGGATCTGTTTGGATCCTTTTTT
>n325_u305_AE000035_tmRNA_Mycoplasma pneumoniae
GGGGATGTAGAGGTTTTGACATAATGTTGAAAGGAAAACAGTTGCAGTGGGGTATGCCCCTTACAGCTCTAGGTATAATAACCGACAAAAATAACGACGAAGTTTTGGTAGATCCAATGTTGATCGCTAACCAACAAGCAAGTATCAACTACGCTTTCGCTTAGAACATACTAAAGCTACACGAATTGAATCGCCATAGTTTGGTTCGTGTCACAGTTTATGGCTCGGGGTTAACTGGTTCAACTTAATCCTTAAATTATGAACTTATCGTTTACTTGTTTGTCTTATGATCTAAAGTAAGCGAGACATTAAAACATAAGACTAAACTGTAGAAGCTGTTTTACCAATCCTTTATGGAAACGGGTTCGATTCCCGTCATCTCCACCA
>n326_u306_AE000044_snmRNA_Mycoplasma pneumoniae
ACCTAGTTTTTTTAACTAAAAGTTGAGAAGGCTAGGGAACACCATTTATTTCATATTAAGATGGAAGACAAGAAATGCTGTGGTTGCAAAACCGAAACAGCTAACTGCAGTAAATGCAACTGTGGCGGTTGCAAATGCTGCCAAAAATAAGGCGAAATTTCTCTAAATTTCGTTTTAGATAAAAAGCCAGTCGTAAGACTGGTTTTTTATT
>n327_u307_AE000044_SRP_4.5S RNA_Mycoplasma pneumoniae
AGCCGTCACATCATTACGGTCGAATCATGTCAGGCCAGAAATGGAGCAGCATTAAGACTATTTAATGAGTGTGATGGTT
>n328_u308_AE000151_SRP_4.5S RNA_Escherichia coli K12
GCGTTGGTTCTCAACGCTCTCAATGGGGGCTCTGTTGGTTCTCCCGCAACGCTACTCTGTTTACCAGGTCAGGTCCGGAAGGAAGCAGCCAAGGCAGATGACGCGTGTGCCGGGATGTAGCTGGCAGGGCCCCCACCC
>n329_u309_AE000253_DicF RNA_Escherichia coli K12
TTTCTGGTGACGTTTGGCGGTATCAGTTTTACTCCGTGACTGCTCTGCCGCCC
>n330_u310_AE000287_DsrA RNA_Escherichia coli K12
ACACATCAGATTTCCTGGTGTAACGAATTTTTTAAGTGCTTCTTGCTTAAGCAAGTTTCATCCCGACCCCCTCAGGGTCGGGATT
>n331_u311_AE000347_tmRNA_Escherichia coli K12
TTAATCGAATAAAAATCAGGCTACATGGGTGCTAAATCTTTAACGATAACGCCATTGAGGCTGGTCATGGCGCTCATAAATCTGGTATACTTACCTTTACACATTGGGGCTGATTCTGGATTCGACGGGATTTGCGAAACCCAAGGTGCATGCCGAGGGGCGGTTGGCCTCGTAAAAAGCCGCAAAAAATAGTCGCAAACGACGAAAACTACGCTTTAGCAGCTTAATAACCTGCTTAGAGCCCTCTCTCCCTAGCCTCCGCTCTTAGGACGGGGATCAAGAGAGGTCAAACCCAAAAGAGATCGCGTGGAAGCCCTGCCTGGGGTTGAAGCGTTAAAACTTAATCAGGCTAGTTTGTTAGTGGCGTGTCCGTCCGCAGCTGGCAAGCGAATGTAAAGACTGACTAAGCATGTAGTACCGAGGATGTAGGAATTTCGGACGCGGGTTCAACTCCCGCCAGCTCCAC
>n332_u312_AE000374_6S RNA_Escherichia coli K12
ATTTCTCTGAGATGTTCGCAAGCGGGCCAGTCCCCTGAGCCGATATTTCATACCACAAGAATGTGGCGCTCCGCGGTTGGTGAGCATGCTCGGTCCGTCCGAGAAGCCTTAAAACTGCGACGACACATTCACCTTGAACCAAGGGTTCAAGGGTTACAGCCTGCGGCGGCATCTCGGAGATTC
>n333_u313_AE000394_RNase P RNA_Escherichia coli K12
GAAGCTGACCAGACAGTCGCCGCTTCGTCGTCGTCCTCTTCGGGGGAGACGGGCGGAGGGGAGGAAAGTCCGGGCTCCATAGGGCAGGGTGCCAGGTAACGCCTGGGGGGGAAACCCACGACCAGTGCAACAGAGAGCAAACCGCCGATGGCCCGCGCAAGCGGGATCAGGTAAGGGTGAAAGGGTGCGGTAAGAGCGCACCGCGCGGCTGGTAACAGTCCGTGGCACGGTAAACTCCACCCGGAGCAAGGCCAAATAGGGGTTCATAAGGTACGGCCCGTACTGAACCCGGGTAGGCTGCTTGAGCCAGTGAGCGATTGCTGGCCTAGATGAATGACTGTCCACGACAGAACCCGGCTTATCGGTCAGTTTCACCT
>n334_u314_AE000461_Spot 42 RNA_Escherichia coli K12
GTAGGGTACAGAGGTAAGATGTTCTATCTTTCAGACCTTTTACTTCACGTAATCGGATTTGGCTGAATATTTTAGCCGCCCCAGTCAGTAATGACTGGGGCGTTTTTTA
>n335_u315_AE000749_tmRNA_Aquifex aeolicus VF5
GGGGGCGGAAAGGATTCGACGGGGACAGGCGGTCCCCGAGGAGCAGGCCGGGTGGCTCCCGTAACAGCCGCTAAAACAGCTCCCGAAGCTGAACTCGCTCTCGCTGCCTAATTAAACGGCAGCGCGTCCCCGGTAGGTTTGCGGGTGGCCTACCGGAGGGCGTCAGAGACACCCGCTCGGGCTACTCGGTCGCACGGGGCTGAGTAGCTGACACCTAACCCGTGCTACCCTCGGGGAGCTTGCCCGTGGGCGACCCGAGGGGAAATCCTGAACACGGGCTAAGCCTGTAGAGCCTCGGATGTGGCCGCCGTCCTCGGACGCGGGTTCGATTCCCGCCGCCTCCACCA
>n336_u316_AE000894_RNase P RNA_Methanothermobacter thermautotrophicus str. Delta H
TAACCCACCTTCTGTTTCGGCAGCATTCATCTGGGCGGACTACCTCTGCCTCCTACAGTAATCACCGGCAGCATTTGTCCTTGCATCCCGTGGAATGGCCGTTTCACCGGTCCTCCTGATGTCAGTCTGCTCCTTGAGGGTGAAGCTTCATTATCATCCATCAGGAGACGTGTCGTTTCTGCTCCAGGGTCCAGCCTCTCAGCTGATGCCTCACGGCACCACGGTTCTGTATGATGGGTGGAGTTTCCTC
>n337_u317_AE000940_SRP_7SL RNA_Methanothermobacter thermautotrophicus str. Delta H
TGGGCTAGACCGGAGGGTTAGGGGTCCTCTGTAAGCGCAAATCCCCTATATGGCGCGGTTGAAGTTCGGGGGACGGCTGATTGACTGTCCATCGGCCCTGATGGTCGGTGTCGAAGCCTCGTCCCGCAGGATCAGTGGTGATGGGGCCCTGACTGGAGGGTCAGGGTAAACCATCTTAGTCATGGGAACGGGTCAGGCCTGGAAAGGAGCAGCCCTACCATGGACAGCTGATGCTTGCGGATTAACGGGGTGGAGCCGGTCATCAGGATCACCGGCGGATGGAAGATCTGTCAACCCCTGAACGTGCCC
>n338_u318_AE001276_tmRNA_Chlamydia trachomatis
GGGGGTGTAAAGGTTTCGACTTAGAAATGAAGCGTTAATTGCATGCGGAGGGCGTTGGCTGGCCTCCTAAAAAGCCGACAAAACAATAAATGCCGAACCTAAGGCTGAATGCGAAATTATCAGCTTCGCTGATCTCGAAGATCTAAGAGTAGCTGCTTAATTAGCAAAGTTGTTACCTAAATACGGGTGACCCGGTGTTCGCGAGCTCCACCAGAGGTTTTCGAAACACCGTCATGTATCTGGTTAGAACTTAGGTCCTTTAATTCTCGAGGAAATGAGTTTGAAATTTAATGAGAGTCGTTAGTCTCTATAGGGGTTTCTAGCTGAGGAGACATAACGTATAGTACCTAGGAACTAAGCATGTAGAGGTTAGCGGGGAGTTTACTAAGGACGAGAGTTCGACTCTCTCCACCTCCATAG
>n339_u319_AE001313_RNase P RNA_Chlamydia trachomatis
GAGGAAAGTCCGGACTTTATAAGAAAAGATGCTGGAGAAATTCCAGGGGCCGTAAGGCTACGGAAAGTGCAACAGAAAACACTCCGCTATAAATTGTATAATTTATAGACAGGCTGAAAAATCTTACTTTAGGAGTAAGAGCTGCTAGGGAGACCTAGCAGACTTGTAAACCCCATCTGAAGCAAGAGAAAAAGTTATTTGTTTCTGCAAACAACCTTTCTAACGAAAGGCACAGGCTTTTTCATAATCGCTTGAGGAGTACAGTAATGTGCTCCCTAGATGAATGGTTGCCCGCAAGCAAGAACTTCCGTTCG
>n340_u320_AE001597_tmRNA_Chlamydophila pneumoniae CWL029
GGGGGTGTATAGGTTTCGACTTGAAAATGAAGTGTTAATTGCATGCGGAGGGCGTTGGCTGGCCTCCTAAAAAGCCAACAAAACAATAAATGCCGAACCTAAGGCTGAATGCGAAATTATTAGCTTGTTTGACTCAGTAGAGGAAAGACTAGCTGCTTAATTAGCAAAAGTTGTTAGCTAGATAATCTCTAGGTAACCCGGTATCTGCGAGCTCCACCAGAGGCTTGCAAAATACCGTCATTTATCTGGTTGGAACTTACTTTCTCTAATTCTCAAGGAAGTTCGTTCGAGATTTTTGAGAGTCATTGGCTGCTATAGAGGCTTCTAGCTAAGGGAGTCCAATGTAAACAATTCTAGAAGATAAGCATGTAGAGGTTAGCAGGGAGTTTGTCAAGGACGAGAGTTCGAGTCTCTCCACCT
>n341_u321_AE001637_RNase P RNA_Chlamydophila pneumoniae CWL029
GAGGAAAGTCTGGACTTCATAAGAGAAGATACTGGAGAAATTCCAGGGGCCGTAAGGCTACGGAAAGTGCAACAGAAAACACTCCGCTATAAAATTTATTTTATAGACAGGCTGAAAATTCCTACTTTAGGAGTAGGAGCCATTAAGGTGACTTAATAGGCATGCAAACCCTATCTGAAGCAAGAGAAAAAAGCTTTTTGTGTCTGCAAATGTGAGAGGAATTCCTCCCATAGGCTTTTTCGAAATCGCTTGAGGGATCTAGTAATAGCTCCCCTAGATGAATGGTTGCCCTTAGGATAGTTCGCAAG
>n342_u322_AE002112_SRP_4.5S RNA_Ureaplasma urealyticum
TTATAATATATATGTCATTACAATATTAAGTAGCGAACCTTGTCAGGCCAGAGATGGAGCAGCAATAGCAATATCTTTTTATGTGTGATGACATATATTAA
>n343_u323_AE002128_RNase P RNA_Ureaplasma urealyticum
GCTAATTGCTGCATTTTTTAAAAAATGTAGAGGAAAGTCCGTGCTCACACTAACTGTGATGTTAGTAGTGTTTGTGTATGTATAATTAATAAGGCATAGCATAGGCATATGACGGCAAATTTTTAAGCTAAGTGATTTAAATTATATGTTTAAAAATTTATAAAAGTGCCACAGAGACGATTAATCAAGAAATTGATGAGATGAAACGTTGGTAAACCCCACAAGTGAGAAACCTAAATTTCGGTAAGGGAATCTAATTTAGTAAATTAAGAAATTAAATTAGGATAGAATTGTTTACATTCTATAGATAAATAATT
>n344_u324_AE002154_tmRNA_Ureaplasma urealyticum
GGGGATGTCACGGTTTCGACGTGACACATTAATTTTTAATTGCAGTGGGGTTAGCCCCTTATCGCTTTCGAGGCATTTTAAATGCAGAAAATAAAAAATCTTCTGAAGTAGAATTAAACCCAGCGTTTATGGCTTCAGCTACTAATGCAAACTACGCTTTTGCGTACTAATTAGTTATTAGTAGAAACGTTCATTAACATAATTACTATTGGTTGGTTTTTGGGCTTATTTTACAATAGTTTTAAATTTAAAATTCTTATTTGTTGTTTAAATTTAAATAGATTTAACAAATAGTTAGTTAATTTTAAATTTGTTTTATTAGTTATTAACTACACTATTTTTAATAAAACTAAACTGTAGATATTATTAATTATGTGTTGCGGAAAGGGGTTCGACTCCCCTCATCTCCACCA
>n345_u325_AE003421_snoRNA_Drosophila melanogaster (fruit fly)
AATTCAATGATTTCAACTTCACTGCTGACCAGCCACGCCTCAACGCCTCGGAGTGTTTGCCCCCAGTCTCTGATAGATACACCATATTCTAATACACAC
>n346_u326_AE003429_roX RNA_Drosophila melanogaster (fruit fly)
TTAATGCGTAGTCACCGAAGAAAAGTGTTAGTTACCAGGGCCTGCCCTTTTAAAATTAAATTTAAATTGAAAAAAAAAATCACCAAAAAATCGAAATCTCTGGCAAGATGTAGCGTCGAAAGAAAATTCATCAAACGGCATTGCCATCATCGTGCAGCAATCCCAAAGAAGCCATTTAGAATGCAGGCATCCAGGCAAAAACCAGAAAACGTGCCTGTGGCAGCTGCACTTCGTGGCCTTGACGAGTCCGGACAATAGAAAAACCCTGGGAACCTAACCCAAATGGCTTATAGGGGTTGGACTGGACTCAGGTAGGCGAAGTCCCCGAAAACCGAGGCTACATTCTTGCCACCGCTGCTAAATCGATCATCAGTCTTTGGCGGCATGGCTAAGTGGAAACTTCTCGTGAAATTAGCTAGAGTGTGTACTGCTACTGATAGGGTGACCTAACGCAACAGCAACGAGATGTGCTCCATCGGGCAGTGATAACTTCTTGGCAACCCCAACCTTAAAAATTCGACTTCAATTCAATACATGTGACCAGATAAACACAGCTTCAAGCGCATTACTCGCTCCATAGATTCATTAAACCTTAATGAACACAAGAAACACTCAAAAAGTAAGAGATTCTTCGCCTGAGCTGCAATTCTTAAGGGTGGCGTCTTCGAGGCATCGAAGACGCGGCTATCCGAAGTAGCGAAAGTGGTGCGAGTGGTGCAACTTGTGACACTGCCAGCGGAGTGGATGAGCCCCATATAAACTGAACCTTGCAGACCTACAAAGACCCTATGGCCCATAAAGCCGGACAGGGTTTTCCTGTCCGAAAAGTAATGTAACGAAAACGCTTGAGATGGAAAATTCTGGCCGGAACGAAAGAGACAAATGAACCCAAAGCGTCCGCTTGTCGCCACTTGCGTTTCGAGAAGACGCGTACGCATACCTCTATCGGATGCATGTGGCGGTACGCGGATGCGAGCGAGACAATGATACTGTAGACAAGGAGAGACGGCTCCCTCTCTCCATCACTCTCTATCGGGCTGGCCAGGCGTTTGCATCGCAAGCGGGTGAGTGAGACGGCCATAGGGCGGACTGCAAGTCCCGAAAGAGAGCGGTAAAGCCATATAACCCCTATAAGCAATAAACGACGCATCGAAAGTTGCGTATAACGGCATGGGCATCCCTCGGAAAGGAAAAAGTTCAGACCGCACTCACGAATACCGCTCCGCTCTGGAAAGACCGGCCAAATCTGTAAGAAATGCTCGGCCAGGAGCGTAGAATCGCCATAATGCAGTAAACGACTGCAAAAGCAGCTATAACTCAAACAGAAGTTGACAAAAGCAAGAGCTATGCGCTCTATTAAAGTCACAATAAGTGTCATCGTAACGTTCACCACTTTTCACATTTCATCAAAGTCCATTTCTGGTCCGTGCAAAGCAGTAATGTAGAGATTCTTTTTCATTTGAAATTGTTAGTTATCACTGCCCTAGGAACTCATCAATTTTTGTGATAGTAGTGACTGAAGTATTTGTTTTGAGGGAATTAGAAGCCAGAAGATTTAGGAGCCATGCCGCCGCTTAAGTAAGATCTAAAAGCCAAGAAGCTACACCCAGAAGAAACTGCCACTGCATAGATTTTTGAAATGAGCAAAGAAATCTAAACTGAAATGGTTATCCACCAACTGAAGGCCATCGAATCTATTAAGTTTTATCCACGTTAGCACTGTTCAAAATCTCAAGCTAGGCTACTAAACGAACTATTCATCACAAAAGCCTCACACAAAATATTCATTCATGAATCAGTCTAGCCTATTTTTTCTTCTGCTTTACCATTTGAACAAGTACTCAGAAATCGCTCGAAAAGGGACATTTTGATTTTGCTTTGATTTTGTGCCTTAGTTTTTCAACTAACCAAAATATTGCTTACAGAAATTAATCAGTTTATTAACTGAAAAAGCCCTTAAATTAACTGCCAGGAGGTGAGTTTTTGTCTTCGATTCTTGGAAAACGTTGAGTAGGGGCCCAACTAAAGGAAATAGGCCAGACAAAGCCTGTAAAAAAAACCTATAAAAATAAAAAGTTCTAAAAGAGGCCACTGTGAAACTGTTATACAAGCTGGCCTAAAGTTATGCGTAGAAGAAAACGTATAAAAGTGAATAAATGTTTGCAAACGGATGTTTAAAACATGCGTTTTCTAAACGAAAGATGAAAAATAATATCAAAAAGCGAATTAAGTGCTGTTCAATCGTTTGACCAGCAGTTGATTTGCGAATGGCTGAAAATATTCGCTTAAACTTATGGCAAAGCTTGTTAAAATAAAAAATAAAAAATTTTAAAAGAAATAAAAATATCCTTACACCGGGCACCTACAATGCGTATCCACCCGGGATTCAAGCAAAAGCTATTATTCTATTGGCCTTGATTATTAACATATTTCTATGCTGTGTGTTCTTTCAGATGAGTTTTGAACAGAGACGAAACTTGGAGCCTCGCGGAGCCAAAGTTTTAAATTGATTTTTGTTTTTAATTCCCTATATTCGAGTCGATTTCCCGCAGTCTTTTCATTAATTTTCTTAAACATTGACTGGCTAATTCTTGAACCTCAGTTTTCATTCAAAAGTCATCTTTTCTTCGTTGGTCCCTGCTTGAGCTTGAAACATTGTGCCAAGAATTTTTTTCTGTTCAATTGAACCTTTTCTGTGCAAATGTCCTGCAGAAGAGGAAACCCATTACAGACTTGTGCTTTCTCCTGAATGTGATATGCAAGCAGGTGTAACAAAGCCTATGAAATCCGGTCCAACCCCACATCAGGCCATAGCCAAGAAGCTCCGCCTAATACAAGAGAAGATTATACTAACCAGTTTGCTATCTTTCAGATCCGACCAGAAGTAGATCGTGTTCTGTGAACTAACCCCTTCAGTGTTCAGCACCTCGTCAATTGTTCTTAATTGTTCCTTTTATTTTATGTTGTGTTTTATCTAATTAACTTCCGTTGTATTTTACCCAGTCCCCTTCCTTGACTTTCTAATAATTTTCCATGTTTTGACAGATCCTTTTTTGTCCCACCCGAATAACCAACCATACTATTCTTATATAAGGTTCGTGTTTCGGAAAACGCATTAAAAGGCGTAATTTTAAATCGTTTTCCGAAATGGGAATCACATTTAAACAATATTTTGAACTGCGTAAAACGAATAAATGGAACGGTATTGAAAGCCTATGCATTCATTACGGTTCAAGAAGTATAACTAAAAAAAAGGAATGAAAAAAAAAGAAAAGAAAAACACATTTACTAACAAATAAAAACTTGCTGATCAACGTTCTACGCAGTTCTTAAAAAGATGTTGAAATGAACACAGCCAAAGCAAGTAAAAATGTGTGGAAACGTTATACGAATCTTCACCAAGTGCCCAAACTATAAAAAGAAAATTGAAATCGTTATACGCCTGAGCCGATTCACAAAG
>n347_u327_AE003429_roX RNA_Drosophila melanogaster (fruit fly)
ATTACGTTCGGAGTGGAAAATGGAAATTAAGTGAAATATCCAGTGATCGATCGGTAATAGTAAATTGTTTGATACGTTTAGGCCAGTTGGTAAGGCAAATTAACAGCAGTTGTAAGTAAATTTAATCAGAGACCAGGGCACCACACCCGAAAAGCGTGCAGATATTAGAAGACATGGGCGTAGTTTCATATACGAGCTGTCCCCTTCGGCTTTTTCGACAAGTGGCAGCCCTAATGGCCCTCGTTTTTTCGCCGACAAGCATTTAATGCGTAGTCACCGAAGAAAAGTGTTAGTTACCAGGGCCTGCCCTTTTAAAATTAAATTTAAATTGAAAAAAAAAATCACCAAAAAATCGAAATCTCTGGCAAGATGTAGCGTCGAAAGAAAATTCATCAAACGGCATTGCCATCATCGTGCAGCAATCCCAAAGAAGCCATTTAGAATGCAGGCATCCAGGCAAAAACCAGAAAACGTGCCTGTGGCAGCTGCACTTCGTGGCCTTGACGAGTCCGGACAATAGAAAAACCCTGGGAACCTAACCCAAATGGCTTATAGGGGTTGGACTGGACTCAGGTAGGCGAAGTCCCCGAAAACCGAGGCTACATTCTTGCCACCGCTGCTAAATCGATCATCAGTCTTTGGCGGCATGGCTAAGTGGAAACTTCTCGTAAGAAACTCTTCCCGGAGGAGTGTGGAATTTTTGTTATATTTTTTTTAAAGTGCATTTTTTTTTAAAGGTGAAATTAGCTAGAGTGTGTACTGCTACTGATAGGGTGACCTAACGCAACAGCAACGAGATGTGCTCCATCGGGCAGTGATAACTTCTTGGCAACCCCAACCTTAAAAATTCGACTTCAATTCAATACATGTGACCAGATAAACACAGCTTCAAGCGCATTACTCGCTCCATAGATTCATTAAACCTTAATGAACACAAGAAACACTCAAAAAGTAAGAGATTCTTCGCCTGAGCTGCAATTCTTAAGGGTGGCGTCTTCGAGGCATCGAAGACGCGGCTATCCGAAGTAGCGAAAGTGGTGCGAGTGGTGCAACTTGTGACACTGCCAGCGGAGTGGATGAGCCCCATATAAACTGAACCTTGCAGACCTACAAAGACCCTATGGCCCATAAAGCCGGACAGGGTTTTCCTGTCCGAAAAGTAATGTAACGAAAACGCTTGAGATGGAAAATTCTGGCCGGAACGAAAGAGACAAATGAACCCAAAGCGTCCGCTTGTCGCCACTTGCGTTTCGAGAAGACGCGTACGCATACCTCTATCGGATGCATGTGGCGGTACGCGGATGCGAGCGAGACAATGATACTGTAGACAAGGAGAGACGGCTCCCTCTCTCCATCACTCTCTATCGGGCTGGCCAGGCGTTTGCATCGCAAGCGGGTGAGTGAGACGGCCATAGGGCGGACTGCAAGTCCCGAAAGAGAGCGGTAAAGCCATATAACCCCTATAAGCAATAAACGACGCATCGAAAGTTGCGTATAACGGCATGGGCATCCCTCGGAAAGGAAAAAGTTCAGACCGCACTCACGAATACCGCTCCGCTCTGGAAAGACCGGCCAAATCTGTAAGAAATGCTCGGCCAGGAGCGTAGAATCGCCATAATGCAGTAAACGACTGCAAAAGCAGCTATAACTCAAACAGAAGTTGACAAAAGCAAGAGCTATGCGCTCTATTAAAGTCACAATAAGTGTCATCGTAACGTTCACCACTTTTCACATTTCATCAAAGTCCATTTCTGGTCCGTGCAAAGCAGTAATGTAGAGATTCTTTTTCATTTGAAATTGTTAGTTATCACTGCCCTAGGAACTCATCAATTTTTGTGATAGTAGTGACTGAAGTATTTGTTTTGAGGGAATTAGAAGCCAGAAGATTTAGGAGCCATGCCGCCGCTTAAGTAAGATCTAAAAGCCAAGAAGCTACACCCAGAAGAAACTGCCACTGCATAGATTTTTGAAATGAGCAAAGAAATCTAAACTGAAATGGTTATCCACCAACTGAAGGCCATCGAATCTATTAAGTTTTATCCACGTTAGCACTGTTCAAAATCTCAAGCTAGGCTACTAAACGAACTATTCATCACAAAAGCCTCACACAAAATATTCATTCATGAATCAGTCTAGCCTATTTTTTCTTCTGCTTTACCATTTGAACAAGTACTCAGAAATCGCTCGAAAAGGGACATTTTGATTTTGCTTTGATTTTGTGCCTTAGTTTTTCAACTAACCAAAATATTGCTTACAGAAATTAATCAGTTTATTAACTGAAAAAGCCCTTAAATTAACTGCCAGGAGGTGAGTTTTTGTCTTCGATTCTTGGAAAACGTTGAGTAGGGGCCCAACTAAAGGAAATAGGCCAGACAAAGCCTGTAAAAAAAACCTATAAAAATAAAAAGTTCTAAAAGAGGCCACTGTGAAACTGTTATACAAGCTGGCCTAAAGTTATGCGTAGAAGAAAACGTATAAAAGTGAATAAATGTTTGCAAACGGATGTTTAAAACATGCGTTTTCTAAACGAAAGATGAAAAATAATATCAAAAAGCGAATTAAGTGCTGTTCAATCGTTTGACCAGCAGTTGATTTGCGAATGGCTGAAAATATTCGCTTAAACTTATGGCAAAGCTTGTTAAAATAAAAAATAAAAAATTTTAAAAGAAATAAAAATATCCTTACACCGGGCACCTACAATGCGTATCCACCCGGGATTCAAGCAAAAGCTATTATTCTATTGGCCTTGATTATTAACATATTTCTATGCTGTGTGTTCTTTCAGATGAGTTTTGAACAGAGACGAAACTTGGAGCCTCGCGGAGCCAAAGTTTTAAATTGATTTTTGTTTTTAATTCCCTATATTCGAGTCGATTTCCCGCAGTCTTTTCATTAATTTTCTTAAACATTGACTGGCTAATTCTTGAACCTCAGTTTTCATTCAAAAGTCATCTTTTCTTCGTTGGTCCCTGCTTGAGCTTGAAACATTGTGCCAAGAATTTTTTTCTGTTCAATTGAACCTTTTCTGTGCAAATGTCCTGCAGAAGAGGAAACCCATTACAGACTTGTGCTTTCTCCTGAATGTGATATGCAAGCAGGTGTAACAAAGCCTATGAAATCCGGTCCAACCCCACATCAGGCCATAGCCAAGAAGCTCCGCCTAATACAAGAGAAGATTATACTAACCAGTTTGCTATCTTTCAGATCCGACCAGAAGTAGATCGTGTTCTGTGAACTAACCCCTTCAGTGTTCAGCACCTCGTCAATTGTTCTTAATTGTTCCTTTTATTTTATGTTGTGTTTTATCTAATTAACTTCCGTTGTATTTTACCCAGTCCCCTTCCTTGACTTTCTAATAATTTTCCATGTTTTGACAGATCCTTTTTTGTCCCACCCGAATAACCAACCATACTATTCTTATATAAGGTTCGTGTTTCGGAAAACGCATTAAAAGGCGTAATTTTAAATCGTTTTCCGAAATGGGAATCACATTTAAACAATATTTTGAACTGCGTAAAACGAATAAATGGAACGGTATTGAAAGCCTATGCATTCATTACGGTTCAAGAAGTATAACTAAAAAAAAGGAATGAAAAAAAAAGAAAAGAAAAACACATTTACTAACAAATAAAAACTTGCTGATCAACGTTCTACGCAGTTCTTAAAAAGATGTTGAAATGAACACAGCCAAAGCAAGTAAAAATGTGTGGAAACGTTATACGAATCTTCACCAAGTGCCCAAACTATA
>n348_u328_AE003446_miRNA_Drosophila melanogaster (fruit fly)
TATCACAGCCATTTTGACGAGT
>n349_u329_AE003457_pgc RNA_Drosophila melanogaster (fruit fly)
TCAAGAGAACAAGTTGAGCGTGGGTAAGTTTTGGCTCCAAATTAATAGACCTCCATGGACTTCTCAAAGAGTTGCGACAGGTTTTCCTGCGTCTGCGCCCTGGGTGCTAGCTTAGTGATCCTTTCCTGGGGCAGGGTTCCCTCCACCAAGGCGGGTATATCGCTGCTGGAGAATCCCAGCTCTCGGAGGCCATTTTCTATGCCCGCGCGTTGCATAAAACCGCGTACAGTGTCCGCCAAAAGACGACCGGCGTCTGCTTTTTCGACACCTCGCACTTCTGCGCCCAGCAACTGGGCAGCCTCCAAATGCCGATCCGGACAAGCTGGAGCAGTGAACTCAAAGACCGCCGGAGCACTGATCACCACGGATAGGCCGTGTGGAATAAGAGCGTGATCCGCGGAGTAGCCCTTTGGCTTGTAATCCCTCACATTTCCAGAAATAGGATAGGAAAGGCCATGACACAGGTGCACTCCGGCATTACCAAATCCCACGCCAGCCATTGTGGAAGCCAGGTGCATCTGGGATCGGGCTTCTAGGTTATCGGGCTGCTTTGAACTACAAGAAGACCCGAAAATGTGCGACTACCAGATGGAGTACTCCTTTATTTTTGAAGACAGCTCCTGCGAGGGCGATGCCTCGATGGCATCCTACGACAATGGATTCGAGTCCATGTGGCATCAAGTGCGCGAGGAGTTGCAAAGGGAGCGGGAGATGAATGAGCTCTGCCAGGTTTTCCAGCAAAACTTGAGCCTGAGTCCGCCGGTCATCGCGGATAGATGGAGATTCTGACTGGACCTCCCAAAAGCCAACTTATTGTGATATTTGTAAATTATAGTTTTAGCAGTTCGTTTGCCACATGAGTGGAACATCGTGAATGCACTTTTGATAAGTGCTCGGTTATTTTATATTGTAACTACCAGCCTTCAGAGGCGATCGTATGCATAGTTTCTTGAAGTCAATTTGTCCGTGTATTCAAATGTTTGCTTTCGTGAAAACTCGCATTGTTTTGTCACTCTACCAAGTAATCAATTTGTACCAATCAATCGCATATGGTTGTCCTAGATCTAAAAATGGCAATAATTTGCCTTCGGTATTGCACCTAATGTATTCAAGAACAAGTAGGGAAGCTCGAAATTTCTCAAATACTTACCCAAAAAATAGATAGAAATATATTTTCGATTCGCAATCGTTCAAAAA
>n350_u330_AE003463_snoRNA_Drosophila melanogaster (fruit fly)
ACCCCATGATATTAAGCCGGCAGGTGCCTGCAATCCCCACGGGCACCTGTGACTATGATTGGGAACAGCAAAGCTGCTGATGTGTGTATGTTGGGCAGCGCTCTTATCCTGCGCGCTCGACAAAGAATATTCGGTCGACA
>n351_u331_AE003477_snRNA_Drosophila melanogaster (fruit fly)
ACTCTGGTTTCTCTTCAATTGTCGAATAAATCTTTCGCCTTTTACTAAAGATTTCCGTGGAGAGGAACACTCTAATGAGTCTAAAATAATTTTTAGTAGTGCCCTGTCGCAAGACTGGGGCCA
>n352_u332_AE003486_roX RNA_Drosophila melanogaster (fruit fly)
TGTTGCGGCATTCGCGGCCTGGTCACACTAAGCTAGGGCTACTTTTTATATCATAAGTCGAGCGTTTAGGTAGCTCGGATGGCCATCGAAAGGGTAAATTGGTGTTACATATAGCTTTAGAGATCGTTTCGAATCACATTGATAATCGTTCGAAACGTTCTCCGAAGCAAAATCAAGCAAGAGTAACGATTTCCGCATAGTCGAAAATGTTTAAGTTGAATTGTCTTACGGACAGTGAGATGAGTACGACTATTTGGAAATCACAAACGAATTGTTTTCATGGTTGACGCGCTTGTCAAGCTACAAAACAAAATGAATGATATACAATATACAATATACAATATGCAATACAATACAATACAAGACAAAAAAATGTGTCTTGGAACGCAACATTGTACAAGTCGCAATGCAAACTGAAGTCTTAAAAGACGTGTAAAATGTTGCAAATTAAGCAAATATATATGCATATATGGGTAACGTTTTACGCGCCTTAACCAGTCAAAATACAAAATAAATTGGTAAATTTCATATAACTAGTGAAATGTTATACGAAACTTAACAATTGCCAAATAA
>n353_u333_AE003486_roX RNA_Drosophila melanogaster (fruit fly)
TAGAGGTATTAGTTTGGTTGCTATTATTTCTAAATTGAAAACTTCACTTCCTTTGATCCAAAAGACACTGAAAAGACACGTTTGCAGTTGAGTTCATTATTTTCTGGTATACATACACACTGATTACTCATTCAATTGGCATTTTGCTCTTGTTTTTCTCCGATTGCCTTGCACTCGCATAAATTTAACACAAAAAAGAAGTTCGGGGTGTTTAGAATCCATCCACTTGGTACAGTTCCCATCGAGCTGGTGAGTACTCCGCGCAGTGCAACGTATACACACTTGAACTCGAATTCTGGCAGCAAAATGGTGGTGACCTATTAATAACACCCGCTCAATTTTCCCTCGCTTTTCCATTCAGTCTCCAACTAGCTGCAAGTGAGTACGTTACTTCCGAGATCCTCTCCAAAAAAATAAAACATAAATCCAAATCCAACCAGTGTAGCATCCATTGAATTAGATTTTCCGACACGTTGCGCCTATGACAATCCTAATTCCATCCTCTTCTCTTTCGTTTAGGTAGCTCGGATGGCCATCGAAAGGGTAAATTGGTGTTACATATAGCTTTAGAGATCGTTTCGAATCACATTGATAATCGTTCGAAACGTTCTCCGAAGCAAAATCAAGCAAGAGTAACGATTTCCGCATAGTCGAAAATGTTTAAGTTGAATTGTCTTACGGACAGTGAGATGAGTACGACTATTTGGAAATCACAAACGAATTGTTTTCATGGTTGACGCGCTTGTCAAGCTACAAAACAAAATGAATGATATACAATATACAATATACAATATGCAATACAATACAATACAAGACAAAAAAATGTGTCTTGGAACGCAACATTGTACAAGTCGCAATGCAAACTGAAGTCTTAAAAGACGTGTAAAATGTTGCAAATTAAGCAAATATATATGCATATATGGGTAACGTTTTACGCGCCTTAACCAGTCAAAATACAAAATAAATTGGTAAATTTCATATAACTAGTGAAATGTTATACGAAACTTAACAATTGCCAAATAATACAGATCGATTTAGAGCGAGATGACAATAGAGAGGCGATCTCTCTCGTATACGAGTCTTGAAAAGAAAGAGAAGGCGAACGGTGCTGGCTTAGAGAGAGATGGCAATACTAATTAACTGCAAATACATTTCCGCCATTTTGTTGGCGCTAAAAGTAACGGAAATTCGAGATGCTTTTAGGGCTGCCACCTTGGTTTCCAGGGTGACCAGAACTGACACTTAAATTACATATGACAAATAAAGACTTATCTGCTATTGCAAA
>n354_u334_AE003499_miRNA_Drosophila melanogaster (fruit fly)
TGAGTATTACATCAGGTACTGGT
>n355_u335_AE003501_snRNA_Drosophila melanogaster (fruit fly)
ATCACTCTGGTTTCTCTTCAATTGTCGAATAAATCTTTCGCCTTTTACTAAAGATTTCCGTGGAGAGGAACACTCTAATGAGTCTAAACACAATTTTTTATTGAGGCCTG
>n356_u336_AE003501_snRNA_Drosophila melanogaster (fruit fly)
ATCGCTTCTCGGCCTTATGGCTAAGATCAAAGTGTAGTATCTGTTCTTATCAGCTTAACATCTGATAGTTCCTCCATTGGAGGACAACAAATGTTAAACTGATTTTTGGAATCAGACGGAGTGCTAGGGGCTTGCTCCACCTCTGTCACGGGTTGGCCCGGTATTGCAGTACCGCCGGGACTTCGGCCCAAC
>n357_u337_AE003516_miRNA_Drosophila melanogaster (fruit fly)
TCTTTGGTTATCTAGCTGTATGA
>n358_u338_AE003526_snRNA_Drosophila melanogaster (fruit fly)
GTGCCTCAAACTAATGAGTAAGGAAAACCAATCAGCCTTGCTAATCGCTTGGCAGTATTGGCTTCTAGGCAGGGGGGCGTGTCCCGCGCCCCTTGAAGCTCAAATTTTTGCAAGGGCACAGGTCGTCCCCTCCTCCTCCGCGTGGGTGGCGTTCGGCCGAGCGAACCGGCGCCTACTTTGCGTCCGGCTAGCGAGGATCTCTGGGTGCCATCCCACGGCTGGGTGTTGCGATCTGCCC
>n359_u339_AE003555_snoRNA_Drosophila melanogaster (fruit fly)
TGCACATGATGATAATTTGTCTTCTTGATAGGAAGTGCCAACTGACACATAAATGAAGCTAGTTTAACCCTCTGAAAGCA
>n360_u340_AE003555_snoRNA_Drosophila melanogaster (fruit fly)
CTGCACATGATGATAATTGAAAGTTCTTGATAGGAATTGCCGGCTGACACATATATGAAGCTAATTCTAGTTTATCTGATTACA
>n361_u341_AE003568_snoRNA_Drosophila melanogaster (fruit fly)
AGCCAATGATGATTAAACCACAAATGCAGGGAGTGGGCAGCTGGCAACAGTTGGCGCACGCATGACCAGCAACTAATCTTCTCGCTGACGG
>n362_u342_AE003581_snRNA_Drosophila melanogaster (fruit fly)
TACTCTGGTTTCTCTTCAATTGTCGAATAAATCTTTCGCCTTTTACTAAAGATTTCCGTGGAGAGGAACACTCTAATGAGTCTAAACACAATTTTTGCTTAGAGCCCCGATGGCATTTGCCTTTGGGGCCA
>n363_u343_AE003586_snoRNA_Drosophila melanogaster (fruit fly)
TCATCATCGACGGGTATCATCCTTCTCACCGGACGGTTGGATCTTCTGGTGTTTGCATGATTTGCATTAATTTGGCAAATGTTGTCGATACCGGACGCCGACGATAAGCGCTGACATGACCAGATCCATTTGGTCATTAATTAGCCCACAGCTTTCCATTCCTCCGTCTTCCTCCTCTGGGTTTCTGGTGTTCTGCTACTCTGGCCCACAT
>n364_u344_AE003588_snRNA_Drosophila melanogaster (fruit fly)
AGGAAAGCATACTTACCTGGCGTAGAGGTTAACCGTGATCACGAAGGCGGTTCCTCCGGAGTGAGGCTTGGCCATTGCACCTCGGCTGAGTTGACCTCTGCGATTATTCCTAATGTGAATAACTCGTGCGTGTAATTTTTGGTAGCCGGGAATGGCGTTCGCGCCGTCCCGA
>n365_u345_AE003599_snoRNA_Drosophila melanogaster (fruit fly)
ATATGATGTTAACAGCTTGTAATGATTATGCATTGTGATTATTCAAGTTTATTTTGTTTCAAGACGGGACTGACTATA
>n366_u346_AE003603_snRNA_Drosophila melanogaster (fruit fly)
AATCACTCGGATTTCGGTAAATTATTTTCTACCCAACTTTACCGTAACCAAACAAAAGGCGTTCAGTTGCAGAAAACTTGACTATTTTTTCAATAATGATGCTCAAGATTGAATCGTGGTAT
>n367_u347_AE003603_snRNA_Drosophila melanogaster (fruit fly)
CAATAATGTTATAAATAATAAACAATTTTTAATTTTTAGAAGGAAGTCAAAAGTAGAGTGTAAATCGCTTATTACACTTTATTTACAAACGATATTTTAGTGTATGCAATATTTCCCTTGC
>n368_u348_AE003604_snRNA_Drosophila melanogaster (fruit fly)
ACCACAATAATTCCCAACTAGTTCTAGTTGCGCCCTCATGGAAATTCCTATGCCGAGCTAAGCAAAGCATACTTACCTGGCGTAGAGGTTAACCGTGATCACGAAGGCGGTTCCTCCGGAGTGAGGCTTGGCCATTGTACCTCGGCTGAGTTGACCTCTGCGATTATTCCTAATGTGAATAACTCGTGCGTGTAATTTTTGTTAGCCGGGAATGGCGTTCGCGCCGTCCCGACATTCGTAAATAAATATGTACAT
>n369_u349_AE003610_snRNA_Drosophila melanogaster (fruit fly)
AACCTTGTGCAGTGGCAACATCGCAAGCAATGAAGTTCCAACTGAGCTGCGATTATTGCTAGTTGAAAACTAAAACCAATATCTCGCCCAGCGTAAGGATCTACGATCTTTAAGCTAAGGCAATTTTTTTAGGCCCCAAGTGGGCTGA
>n370_u350_AE003620_miRNA_Drosophila melanogaster (fruit fly)
TATCACAGCCAGCTTTGAGGAGC
>n371_u351_AE003621_snRNA_Drosophila melanogaster (fruit fly)
GTGTTGTTTGGAAGGAGAGCAAGTTAGCACTCCCCTAGACAAGGATGGAACACATAAACGGTCGGCTAGGCACAGACAAAAGCCGTCCACAAATTTT
>n372_u352_AE003626_miRNA_Drosophila melanogaster (fruit fly)
TGAGCAAAATTTCAGGTGT
>n373_u353_AE003634_bft RNA_Drosophila melanogaster (fruit fly)
CAGGCAAGTCGCAAAGTGGAACGCAGCGGCGAACGAGCTAAGAAAGTCAGTTGAAAACAGTGGAAACGCGGTGCCAGTCACTTTTTTTCATTGCACATAGAGAGAGGGCCCTGTATACTCAGCAGCCTACCACCAACAATCAACCAACCAACCGACCAGCCCAACCAACATACCTGTCGTGTTGGCCACGTTTGTGGCGATCCGATCAGTGCACCGTCAGCCAGCGACGCGCACACACCGAACCACACAATCCAGCAGTCTGGGAAACGAACACCACTGTATATACTATCAAGCGAAGTGTTAGAGATAAACTGATAATACAACGGAGCCGAGAAAAGAAAAGCACTAACGTGGCGTTAACTCTTTTAACTAAAAAACACTCACTCACTCAACCAAAAAAAAAAAAAAACGTCAGTAAAGACAATAAACAAAGTAAAACAAAAACGAGTCAGCGGCAAAGTGTCAATAAAACTCTCGAATTCATTAACACAACTCAAAACGTTCTATTAGTAAGCACTTGCAAATTTAAACGAAACAAAAAAAAAAAATCTTGACAGAGAGAGAGAGAGACAGAGAGCGATAAAAGGAGAGGGAACATTAGACAGAAATTAGCGTGGCCAACAGTCAAAAGGTCTAATAGAAGCGCGTGTATACGAGTCAAAATGCCCGTATACACCTCGTCGAGACCCACAAGCCATGATCGTAAAAACCACATCAACAAATGTTCGAAACGAGATAAAAAAAACAACAACCGAGAATATATGAAAAATACAGAAAAAAAAGATACAAAAACCCAGACGAGACCGCTGAGACATGTCCTTGGCCTGTAAAAGGGCAGTGAAATTCCTGGCACTCCATAACAACATCATCAAAGGATGGTGCGCAACTTCGGTTCCCAGGAGTCCTTTCAGCTGAACCGCTCTACTGAAGTACAGAATTACAGAAATTCAAAGCCCCCCCGCTGAAGTATGCCATAAGACAAATGCCATGGACTCGCTTACAATTTGGTCTCGTCTTGTCAATCAATTGGGATCGAGTCGGGGTCTAGAACTGGAAATGGCCAAGGATGACCGGCGACCGTTTCCTGTTTGGGTTGGCAAGTTGGTAAGTTAATACTCGGACTAGGCTCTAACTTAATTAGCCGCACGACAGACTGAAGACTAAAGACTGAATGCCGAAAGCACACGACCCCGACCTCTGGTGACCTCAAAGCTGACGGAGGCGACTAATTTATCAAAATGGCTAGAAAAACTGAAATAACTCTACGCATAATTAAATCCAGCTAAAAACGAAAAATGAGTGAAACACCGCGATACTCAAATGCGTTTTTAAACCGTTGCGCAACGCCTATTTCTAACAGTTTTAAATTTTGTTGAGACTTTTCTTTGGTGTTTTGTTCGAATTTTTCTTTTGCTTAATTGCCGCCTATTAATCCCGACTCCGTTAATGGTCTCACAAACAAAAATTCTAATTAATGAAATATTTTTCGGCCTTTTGCATGCATTGTCTACTGTAGGCATTCCAGCCCACCGAAAGTATAATCAATCATGGCCCAAGACCTCATGGATCTCACAGATGGTGGAGATTTTTGGACAAAGTGAACTTGAGTGTGTTGACAAATTTGTGAGTTGCCGGCATGGATTGACAGGAAAATTGAGTAATCAATCATGGGCCATCAAACGAAGCCGACCACAGCGAATTGGCCTTCGAAAGGTCTGTTTAGTTAGTTAGCGAAATCAAGTCTTATCAACTGATGATGCACGTCGCGGCCATTATTTAAATGCTAATGTTAATTAACGAAATCACGTTAGTCGAGAATGTTGACAAAAATCTCACAATCAGTAGTAGTAGTTGCTGCTCGAACAAGTTGATTCAGGTTTGCTTATATTTTTAGTCGCTGTGCCTCGCATGCGATTGAAACGAAATATAAAATTACATTAAATTACCGGATGTAATTGCGGTGGTCGTGCCAGTCGCCTCTCTCAACCCGGTCAATGAATCACGGCCCGGCGCACACGAAATGCGTCGAAACAAAAGACTCAGGCAACGAACTCGAATTCAACTCGGCCAGATTTCAAGCGGCCGAGCACTTCACTTACGTATGTCCAAATCAGGGAAACCAGCAACCCACACAGAATGGTAGAAAAATCGAAAAACAAATGAAGAGAGACCCACACAGAAAGGCCAGTTGAGTGGTATCTTATCAGGGCTAACGATTTTGTCAAATGACAATTTTCTTGGCCCCATTGAATGCCTCTTTTTCACGCCATTCATTGACTTTTGTATGGTCCATTTAGTTGTCAATTATTTTTGATAGCCTCAGCTGAGGCAGCTGATAAGAACTGGTGACTAGCAAGCACAAGACTTGTTTAACAATCCCAGGAAATCCGTACATTGAAAAGAGGAGGGGAAATAGAGGACACCATCGGATCTGTGGCTGTGGATCCAGCTACTGCCTCTCTCCGTTTTGGCCAAATTTGCATATTGAACGGCAGTTTGTCTTGAGCCTGAGCTTTTAGTTATGGCCGAGCATTAAATTTAACTATTAAGCCATTTTCGGAGGCCAGTTTTGTGGAGCTTGACTTTCCAAACATTGTCCCCTGACAGTTGTACCCTATGGGAATTATTTTCTTTTTTTTTCTGCCGCAATTTATGAGCCAAAAAGACACAGATAGACAGAATGATTAACATGAAGTGGAGAGGCATGGGAACCTTGGATTGGCAAAGTGAAATGTTGAAAGCAATATAACTTTGACATATAATTAAACAGAAATAAAGGCTTTATTTCTTAAATCAATGGTTCACTCAATAGTGGCACACCCAAGTAGGTTTATATACACTAGCTTGCCAGCTGCAATTGAAAAAAAAAACAATTGCAAGAGTCGACTTAATTTCATCATAAAAATGCGAATTATCTCCAGATGAAATTCATTTCTTGCAACTCAATCAAGAGGCATGCAACAGAGGCTGCTGACCTATATATGGTTAATAAGAATCAACTTACATGCCCGCAAATGTATGTAGGAATGCTGGTGGCATAAAGACCATACAGATATACAGATATCCATATTGATATCTCCACCTCTGTTGCATTTCGGTTCGTGCAACAATTTTCGTCGAAAACAATTTTCAGAGCACGAAACGAAACGTAACGAAAACGGGAGGGGAAAGATCAGTGCAGAAAATGAGAAATTTTCGCAGTGCATCATATGCCACGCACGTAGAAACCAAACCAAAAGCAAACGAAACAGTAACAATCAGACAATCATGCACATAATCATGCCATCAATATATGGCAATTATCAATGAAATTTATAACAATCCACGAAATGTAACGAAAACTTAACCGACCAATAAAAATTTCATTTTTCAAAAAGGAGCGCTCAACTCACTGCAGTTCGTCATCCTCGTTCTGCAAGAAAAAAAAA
>n374_u354_AE003634_bft RNA_Drosophila melanogaster (fruit fly)
CAGGCAAGTCGCAAAGTGGAACGCAGCGGCGAACGAGCTAAGAAAGTCAGTTGAAAACAGTGGAAACGCGGTGCCAGTCACTTTTTTTCATTGCACATAGAGAGAGGGCCCTGTATACTCAGCAGCCTACCACCAACAATCAACCAACCAACCGACCAGCCCAACCAACATACCTGTCGTGTTGGCCACGTTTGTGGCGATCCGATCAGTGCACCGTCAGCCAGCGACGCGCACACACCGAACCACACAATCCAGCAGTCTGGGAAACGAACACCACTGTATATACTATCAAGCGAAGTGTTAGAGATAAACTGATAATACAACGGAGCCGAGAAAAGAAAAGCACTAACGTGGCGTTAACTCTTTTAACTAAAAAACACTCACTCACTCAACCAAAAAAAAAAAAAAACGTCAGTAAAGACAATAAACAAAGTAAAACAAAAACGAGTCAGCGGCAAAGTGTCAATAAAACTCTCGAATTCATTAACACAACTCAAAACGTTCTATTAGTAAGCACTTGCAAATTTAAACGAAACAAAAAAAAAAAATCTTGACAGAGAGAGAGAGAGACAGAGAGCGATAAAAGGAGAGGGAACATTAGACAGAAATTAGCGTGGCCAACAGTCAAAAGGTCTAATAGAAGCGCGTGTATACGAGTCAAAATGCCCGTATACACCTCGTCGAGACCCACAAGCCATGATCGTAAAAACCACATCAACAAATGTTCGAAACGAGATAAAAAAAACAACAACCGAGAATATATGAAAAATACAGAAAAAAAAGATACAAAAACCCAGACGAGACCGCTGAGACATGTCCTTGGCCTGTAAAAGGGCAGTGAAATTCCTGGCACTCCATAACAACATCATCAAAGGATGGTGCGCAACTTCGGTTCCCAGGAGTCCTTTCAGCTGAACCGCTCTACTGAAGTACAGAATTACAGAAATTCAAAGCCCCCCCGCTGAAGTATGCCATAAGGTAAGTCAGCCAGAGAGATGCTGTTTATGGTTTTAATTAAACGGGGGCAACATTGGTGCGCCTCATTAGCGGCAATTTGTTGGGCATGCCGCCATCAAATCGAATCGAGTAGCCTTTTTCACGGAAGCCACACGGTCCCCAGATAACCCACAATCCACTATGCACTATCCAGTATTCAGTGTTCGCTGCTCGGTACATGTACAACCATACATACATACATACATACATAACCGATACTGGATAAGCTGGCACCGGAGTTTCAGCCCGGAGTTCCAGTTCCCGCCGCCGGACCTGCTAATTATGCATGTGTACTGTGTGACGGGCTCATGGGGTTTCTCGGTTGTTAGGTTCCTCGATTTCTCGGCTTCTTGGGGCCTTAGCCTTATCTATCAAAGCGTTGCGGGGCATAAAATTCAAATTGACACTACTGCGACGAGTGAAAGCGTGTGAACTGAACTTGAGACGTGGCACAGATAAAGATATACCGCATAGACCAAACAGTCGGCGGAGCTATATAAATTAAACTGAAACCGCAAATAAACATGAGGTTTTCCAATGGGTGGCAAACAAGTGGTGAAATAGATAACGAGTCAGACGCGTGACAAATGCATAGAGAGAACAAATTGTTTAGCAAAGAAATAGTTTAAAATCTTACAAAGAAATTAAATACATACATTTCAAAATACTTTTGACCAAAAATCAGTTGAGATATCCGTGACTCACGCACATTCTCGCAATCTCCTCATTTTCATGCATATGCAAACCGGGCAAGACAACAAACAGAAAAACACATTTAAGAAAAACAAACCAACAAAAGCCGCTGGCACAACAATCACCGAGCTTAACCCATAAATCTACACATGTTTACATTGGCTTAGCCACTCGATTTGAGGCCGTTTTCTGAGCCCGGTGCGCTTCCATATCAGTTGACAAATTTGTCAACTTGCCTGGCAACTTGAATGACATTTTCCAAACCAATTTCCCCCGACCAACCACCACCACCACCAAAAGTGGAAACCACCCAAAGGAAATCCAAACAATGGACAAACAGCGAACAACTTGAGTCAGCTGCGACGCTTTCAATTCATGAAATGGACAATTGTTGTCTCGCAACGTTGACTCAATTGAACAAGGCCCACAGAAACAGGTAACAATATTGGCCATCAGCAGCGGCAACGGTAGCAGTCAACAACTGTAATTACTCCGACTGCGATAAGGTTGGCCAAGTTGAAGTTGGAGTTGCACAAGTCAGTCTTATCAGACAATAAATTGCAGTTGGATGAGTCAATTGTTTTTACTTTAATGGATGCCTCTCTGCTTTTTGTTAATGAAAGTCATGCATGTAATAGGAAGTTATGCTCACACAGCACAGAAATGTAGAAGTATTTGTTTGTTTTCCTTCCATGGATGTCATAGATTTTCAAAGGATATATGATTGGCTTTTTGCTTAAGGCCAAACTACCAAGTTCATAGATATATAATTCGTTTTGCTTTTCCAAAGCTTATACATTATTACATTGAGTGTGATTACGCCTCCATGGTTAGAACATAAATCATGGCCATATCTTTATCAACTATCTGCTATCTAATGCCATCGATGCAGCTGCTACCGGCCAGAAGTCGAAGATAAATGCGACCGCGAAAACTTTGACAAGCGATTAACTTTACAATTTATCGCCGAGCAATTTGAATCGTCGTAAATCTCGGCGCGGCAGCTAACCGTGTGTTAAGAACTGGTGCCCCGGCTCATGTTGCGTCATTAATTTAACCAGTTGTTGCAACAAGTATTAGCTCAGCCATTGGGTCAGGTTCGAGGCGCTCTCTAAGTATCGCCCTGATTAAAACATCAGGCCGAGCTTGGGGTAAAGTTGTTCCACCAGTCGAGTGGAGCCCCTCCGCTGCTCCACTGGCACTTTGCCACTCGACTCCTCTTCTGCTTATCCCATGGAGTCTGTTTTTATTTATGCATGTTTAAACATATTTAATGTCATTACGGGCACCTCTTGCGCCCAGCGCCCATGCCACAAAACACGCATTTAATTATCTGCCCGGCTCCACATGCCCCATGCGCATTAATTTAATGAACGCATGCATTTCACATTTTTATCATGTCCAATTGGATGGAGGAGGGGCATTTGGAGATCTGCGAGGGATCTGGGGGCAACTCGGGGGATGGTTGCTCTGGTTAGCGCTGCCGTTGTTGTCGTTGTCGTCGTCGCGTTTTTAATCGCATTTAATATTTCATTTTATTAAGCCAATCGTTGAGTCCAGCAGTTGGGTGTGCATCTGCATCTTCATCTTCATCTCCATCTGCGCGAAATGTGCATCGCCATGTCCGCGAATGTCTGCTGATCGTCTGGCGAGCAGTGAGCAATTTGCTTAATGCTGTCATAAGGCTGTCAGTTTATCATTTGCATTGCGGCGCCTTTGGCGACATGGAGATGACACTTAATAAGTAGCCAACTTAGTTGCCACCAATTGCTAGCTGGCCGTTAAGAGTGGTCAGCTTGGAGTTGGCAGTTGGTTGGTTGGTTAGCTGATGGAAACGGACGAAATGCCAGACATTTCATTACTGCCATGTGGCTGCCACAACTCTGCAGCTGCAAACTGAATACAAACTGCATTCCATTGAGCCAGCCAAGCGAAGTGTAGCAGAGCAATTGTCAATTGCACCACCCTATAAAAGAATGCACAGGAAGAAATTCTATATTTTCAAACTATTTTATACATTAAAAATCCAATGAAAGTAAAAAATGTATAATGTAATCAAAGTTAAAATGTACAGCTAGTTTATATATCAGGTTCCCATACCATCTTAAAATTTTAGTAGTTTCGGGACAAAAAATGGGTAAATCAACTGTGGCAACCTATTGAGGCAAGTTTTTGTTGCTCCTGTTTCCTGTCGTTACATGAGATGCACGTTGTAAGCGGATAGGCTGTGAGGGTTGTTCAGAAATTCACTTAATAATAATATTGCATTATATATTCAATGTGAAAGCTTTAACTGAAATGATTATCTATGAAACATTTAAAGAGTATTACATTCAATATGTGATATACAATTTAAATTCAATACTCACCAATCTGCCCTCGCTTCGTACCCATTGATACTTATGCCAATTACCATTCTCCGTTCGCCTCTTTGCAGACAAATGCCATGGACTCGCTTACAATTTGGTCTCGTCTTGTCAATCAATTGGGATCGAGTCGGGGTCTAGAACTGGAAATGGCCAAGGATGACCGGCGACCGTTTCCTGTTTGGGTTGGCAAGTTGGTAAGTTAATACTCGGACTAGGCTCTAACTTAATTAGCCGCACGACAGACTGAAGACTAAAGACTGAATGCCGAAAGCACACGACCCCGACCTCTGGTGACCTCAAAGCTGACGGAGGCGACTAATTTATCAAAATGGCTAGAAAAACTGAAATAACTCTACGCATAATTAAATCCAGCTAAAAACGAAAAATGAGTGAAACACCGCGATACTCAAATGCGTTTTTAAACCGTTGCGCAACGCCTATTTCTAACAGTTTTAAATTTTGTTGAGACTTTTCTTTGGTGTTTTGTTCGAATTTTTCTTTTGCTTAATTGCCGCCTATTAATCCCGACTCCGTTAATGGTCTCACAAACAAAAATTCTAATTAATGAAATATTTTTCGGCCTTTTGCATGCATTGTCTACTGTAGGCATTCCAGCCCACCGAAAGTATAATCAATCATGGCCCAAGACCTCATGGATCTCACAGATGGTGGAGATTTTTGGACAAAGTGAACTTGAGTGTGTTGACAAATTTGTGAGTTGCCGGCATGGATTGACAGGAAAATTGAGTAATCAATCATGGGCCATCAAACGAAGCCGACCACAGCGAATTGGCCTTCGAAAGGTCTGTTTAGTTAGTTAGCGAAATCAAGTCTTATCAACTGATGATGCACGTCGCGGCCATTATTTAAATGCTAATGTTAATTAACGAAATCACGTTAGTCGAGAATGTTGACAAAAATCTCACAATCAGTAGTAGTAGTTGCTGCTCGAACAAGTTGATTCAGGTTTGCTTATATTTTTAGTCGCTGTGCCTCGCATGCGATTGAAACGAAATATAAAATTACATTAAATTACCGGATGTAATTGCGGTGGTCGTGCCAGTCGCCTCTCTCAACCCGGTCAATGAATCACGGCCCGGCGCACACGAAATGCGTCGAAACAAAAGACTCAGGCAACGAACTCGAATTCAACTCGGCCAGATTTCAAGCGGCCGAGCACTTCACTTACGTATGTCCAAATCAGGGAAACCAGCAACCCACACAGAATGGTAGAAAAATCGAAAAACAAATGAAGAGAGACCCACACAGAAAGGCCAGTTGAGTGGTATCTTATCAGGGCTAACGATTTTGTCAAATGACAATTTTCTTGGCCCCATTGAATGCCTCTTTTTCACGCCATTCATTGACTTTTGTATGGTCCATTTAGTTGTCAATTATTTTTGATAGCCTCAGCTGAGGCAGCTGATAAGAACTGGTGACTAGCAAGCACAAGACTTGTTTAACAATCCCAGGAAATCCGTACATTGAAAAGAGGAGGGGAAATAGAGGACACCATCGGATCTGTGGCTGTGGATCCAGCTACTGCCTCTCTCCGTTTTGGCCAAATTTGCATATTGAACGGCAGTTTGTCTTGAGCCTGAGCTTTTAGTTATGGCCGAGCATTAAATTTAACTATTAAGCCATTTTCGGAGGCCAGTTTTGTGGAGCTTGACTTTCCAAACATTGTCCCCTGACAGTTGTACCCTATGGGAATTATTTTCTTTTTTTTTCTGCCGCAATTTATGAGCCAAAAAGACACAGATAGACAGAATGATTAACATGAAGTGGAGAGGCATGGGAACCTTGGATTGGCAAAGTGAAATGTTGAAAGCAATATAACTTTGACATATAATTAAACAGAAATAAAGGCTTTATTTCTTAAATCAATGGTTCACTCAATAGTGGCACACCCAAGTAGGTTTATATACACTAGCTTGCCAGCTGCAATTGAAAAAAAAAACAATTGCAAGAGTCGACTTAATTTCATCATAAAAATGCGAATTATCTCCAGATGAAATTCATTTCTTGCAACTCAATCAAGAGGCATGCAACAGAGGCTGCTGACCTATATATGGTTAATAAGAATCAACTTACATGCCCGCAAATGTATGTAGGAATGCTGGTGGCATAAAGACCATACAGATATACAGATATCCATATTGATATCTCCACCTCTGTTGCATTTCGGTTCGTGCAACAATTTTCGTCGAAAACAATTTTCAGAGCACGAAACGAAACGTAACGAAAACGGGAGGGGAAAGATCAGTGCAGAAAATGAGAAATTTTCGCAGTGCATCATATGCCACGCACGTAGAAACCAAACCAAAAGCAAACGAAACAGTAACAATCAGACAATCATGCACATAATCATGCCATCAATATATGGCAATTATCAATGAAATTTATAACAATCCACGAAATGTAACGAAAACTTAACCGACCAATAAAAATTTCATTTTTCAAAAAGGAGCGCTCAACTCACTGCAGTTCGTCATCCTCGTTCTGCAAGAAAAAAAAA
>n375_u355_AE003639_snRNA_Drosophila melanogaster (fruit fly)
TACTCTGGTTTCTCTTCAATTGTCGAATAAATCTTTCGCCTTTTACTAAAGATTTCCGTGGAGAGGAACACTCTAATGAGTCTAAAATAATCTTTTGTAGTGCCCGGCGACTTCGGTAGCTGGGCCA
>n376_u356_AE003639_snRNA_Drosophila melanogaster (fruit fly)
ATCGCTTCTCGGCCTTATGGCTAAGATCAAAGTGTAGTATCTGTTCTTATCAGCTTAACATCTGATAGTTCCTCCATTGGAGGACAACAAATGTTAAACTGATTTTTGGAATCAGACGGAGTGCTAGGGGCTTGCTCCACCTCTGTCGCGGGTTGGCCCGGTATTGCAGTACCGCCGGGATTTCGGCCCAAC
>n377_u357_AE003639_snRNA_Drosophila melanogaster (fruit fly)
ATCGCTTCTCGGCCTTATGGCTAAGATCAAAGTGTAGTATCTGTTCTTATCAGCTTAACATCTGATAGTTCCTCCATTGGAGGACAACAAATGTTAAACTGATTTTTGGAATCAGACGGAGTGCTAGGAGCTTGCTCCACCTCTGTCGCGGGTTGGCCCGGTATTGCAGTACCGCCGGGATTTCGGCCCAAC
>n378_u358_AE003648_snRNA_Drosophila melanogaster (fruit fly)
ACTCTGGTTTCTCTTCAATTGTCGAATAAATCTTTCGCCTTTTACTAAAGATTTCCGTGGAGAGGAACACTCTAATGAGTCTAAAATATTATTTTGTAGTGCCCGGCGACTTTGGTAACTGGGCCA
>n379_u359_AE003659_miRNA_Drosophila melanogaster (fruit fly)
TGAGGTAGTAGGTTGTATAGTAGT
>n380_u360_AE003663_miRNA_Drosophila melanogaster (fruit fly)
TATCACAGCCAGCTTTGATGAGC
>n381_u360_AE003663_miRNA_Drosophila melanogaster (fruit fly)
TATCACAGCCAGCTTTGATGAGC
>n382_u350_AE003663_miRNA_Drosophila melanogaster (fruit fly)
TATCACAGCCAGCTTTGAGGAGC
>n383_u361_AE003664_snRNA_Drosophila melanogaster (fruit fly)
ATCTTTGCGCAGAGGCGATATCGTAACCAATGAAGTTCTACTGAGGTGCGATTATTGCTAGTTGAAAACTTTAACCAATACCCCGCCATGGGGACGTGAAATACCGTCCACTACGGCAATTTTTGGAAGCCCGAGAGGGCCA
>n384_u362_AE003664_snRNA_Drosophila melanogaster (fruit fly)
TACTCTGGTTTCTCTTCAATTGTCGAATAAATCTTTCGCCTTTTACTAAAGATTTCCGTGGAGAGGAACACTCTAATGAGTCTAAACTCAATTTTTGTATGACCTGGCTAAATATTTAGTTGGGCCA
>n385_u363_AE003664_snRNA_Drosophila melanogaster (fruit fly)
ATCGCTTCTCGGCCTTATGGCTAAGATCAAAGTGTAGTATCTGTTCTTATCAGCTAACATCTGATAGTTCCTCCATTGGAGGACAACAAATGTTAAACTGATTTTTGGAATCAGACGGAGTGCTAGGGGCTTGCTCCACCTCTGTCACGGGTTGGCCCGGTATTGCAGTACCGCCGGGATTTCGGCCCAAC
>n386_u364_AE003664_snRNA_Drosophila melanogaster (fruit fly)
ATCGCTTCTCGGCCTTATGGCTAAGATCAAAGTGTAGTATCTGTTCTTATCAGCTTAACATCTGATAGTTCCTCCATTGGAGGACAACAAATGTTAAACTGATTTTTGGAATCAGACGGAGTGCTAGGGGCTTGCTCCACCTCTGTCACGGGTTGGCCCGGTATTGCAGTACCGCCGGGATTTCGGCCCAAC
>n387_u365_AE003664_snRNA_Drosophila melanogaster (fruit fly)
ACTCTGGTTTCTCTTCAATTGTCGAATAAATCTTTCGCCTTTTACTAAAGATTTCCGTGGAGAGGAACACTCTAATGAGTCTAAACACAATTTTTATTGAGGCCTGATAACTTATGCTATCGGGCCA
>n388_u366_AE003667_miRNA_Drosophila melanogaster (fruit fly)
TGGAATGTAAAGAAGTATGGAG
>n389_u367_AE003669_snRNA_Drosophila melanogaster (fruit fly)
ATCTTTGCGCAGTGGCAATACCGTAACCAATGAAGTCCTCCTGAGGTGCGGTTATTGCTAGTTGAAAACTTTAACCAATACCCCGCCATGGGGACGTGAAATACCGTCCACTACGGCAATTTTTGGAAGCCCGAGAGGGCTAA
>n390_u368_AE003671_scaRNA_Drosophila melanogaster (fruit fly)
TGCCCATGATGAAATATTCGACATCGGAGTTTGCGCATTGGCGACAAGACCTAAGGCTCAGACTCTAGCAAATCTAGTTTCATCCGTTGTAATCTTTGCTGCTGCACTCCAGAATTTGCAGTGGCCGTAAGGCCAGCGGGACACCAACAGCCAGGGATCAAGACTATTATCTGTCATTGAGTCCTAGACAGATAGTTTAGTCTCTGGTTTACAGAACACCCAAATGGAAATGAAACACGCGCTTTTGTCGACCCAGGAGCCAGTTAGGTCTAAGCTGTTTGTCATGGTGACGACGTCTTTAGTAATCTGAGCGCAA
>n391_u369_AE003673_SRP_7SL RNA_Drosophila melanogaster (fruit fly)
TCGACTGGAAGGTTGGCAGCTTCTGTAATCACGCTTCTGTGAGGTCTGATTGTGGGATGGCCTGAGGCTGGGATCTACTGCGTAGCGGACCAGCTCATGTTGACGGAACGTCCGCACTAAGCTTGCCATCAATATGGGTGCCATGGAGGAGTCCGTGGCATTCAGGTTGGCTAAGGAGGGATGAACCGGGCCAGGGGTGAAAACCAGCAGCCAAGAGTTCCCGTGGTAGGCAGTAGTGGGATAGCGTACCGGAGTGGACTGCCGTTATCAGCCCAACCGATATGGTTGGACCACAATCT
>n392_u328_AE003708_miRNA_Drosophila melanogaster (fruit fly)
TATCACAGCCATTTTGACGAGT
>n393_u370_AE003708_miRNA_Drosophila melanogaster (fruit fly)
TATCACAGCCATTTTGATGAGT
>n394_u371_AE003714_bxd RNA_Drosophila melanogaster (fruit fly)
CTCAGTATGAGTTCCAGTTCCCGGGTGCTTGGACGTTGCGGATCGGCTTAAAAAACGCATCGGAAGCGAGAATATTCTGTTTGCCAGCAATTCGAAATGAGTTAAAATGTGTGCAAAATATGATAAAAATATATGCCATAAATGGCATATGGGCTGCTATCCATGAAAAAGTGTTAAGTGTAGTGTATCCTATGCAACGAAATGGGTCCATGTGTTAAAGATGTGCTTGCCAAGTAAAAAAAACCGAAAAGTAGAGGGGGTTAACAATAATTCAGCAAATGAATTGAATAAAGGATTCTACGGTAATATTTCTGCACATATTTTCAGAACAACATAGCACTCACACAGCCAATAACCAGTCCGGCCGCCAGATTGCCACTCCAGGATACCAAATATTACACAACTCCAGAGGACTGTTCTCCATTTTGGGCACATTTAAAATTCAGAACGCGTTGAGCTATATTTTAGGCAAGATGTCCGAGCCATCCCCAGCACGATTCCGGTCATAATTCTTTTGGTTTGATGACCGCATTCCCACCTCCAAAACAAACGGCTAAGGCGCCGCGGTAAAAATTTGTTTGCGACTTGATGGCTTAATCCACCGCAAAGTGGCTCAGTGGTGCCTGGTATGGGCTCATTACGGGTCAGAAATCAATTGTGGTCCGAAATCGCTGTGAACCAACTGCTTATGCAAAGCATGCCATTCAAACAGAGCAAAACAATGGAGAGCGAAAGAGACCAGGCCAAAGAAATTCGTCGGACACAATGAAGACATTTGCTGCGAACCATACTACCTACTAATCCTGGCAATGAACCCTTGACTTTTGGCCGCAATTCATCAAACAATTGGCCGACCATTTGCATGCGGTGGTTGGCAGCTCTTCATTTTAAAACTCCCTTTCCCGTATCTGCATCCTAATCCGGAGGACTGAGGATTGCGGATTGAGGGCGACTAATTGAGCACTTTTGTTTGAGTGCCGTGCTGCGCGGATTTCGCCTACTTGTTAGTTGCTGCCCAATAACATCGCTCTCCTTCCTCATGCACTGCGGAAAGGATATTTGATTTTAAATAAAGCCTCTCAATTAATTGTATCCTAAAAATATACGAAATTACAAAAAAAATA
>n395_u371_AE003714_bxd RNA_Drosophila melanogaster (fruit fly)
CTCAGTATGAGTTCCAGTTCCCGGGTGCTTGGACGTTGCGGATCGGCTTAAAAAACGCATCGGAAGCGAGAATATTCTGTTTGCCAGCAATTCGAAATGAGTTAAAATGTGTGCAAAATATGATAAAAATATATGCCATAAATGGCATATGGGCTGCTATCCATGAAAAAGTGTTAAGTGTAGTGTATCCTATGCAACGAAATGGGTCCATGTGTTAAAGATGTGCTTGCCAAGTAAAAAAAACCGAAAAGTAGAGGGGGTTAACAATAATTCAGCAAATGAATTGAATAAAGGATTCTACGGTAATATTTCTGCACATATTTTCAGAACAACATAGCACTCACACAGCCAATAACCAGTCCGGCCGCCAGATTGCCACTCCAGGATACCAAATATTACACAACTCCAGAGGACTGTTCTCCATTTTGGGCACATTTAAAATTCAGAACGCGTTGAGCTATATTTTAGGCAAGATGTCCGAGCCATCCCCAGCACGATTCCGGTCATAATTCTTTTGGTTTGATGACCGCATTCCCACCTCCAAAACAAACGGCTAAGGCGCCGCGGTAAAAATTTGTTTGCGACTTGATGGCTTAATCCACCGCAAAGTGGCTCAGTGGTGCCTGGTATGGGCTCATTACGGGTCAGAAATCAATTGTGGTCCGAAATCGCTGTGAACCAACTGCTTATGCAAAGCATGCCATTCAAACAGAGCAAAACAATGGAGAGCGAAAGAGACCAGGCCAAAGAAATTCGTCGGACACAATGAAGACATTTGCTGCGAACCATACTACCTACTAATCCTGGCAATGAACCCTTGACTTTTGGCCGCAATTCATCAAACAATTGGCCGACCATTTGCATGCGGTGGTTGGCAGCTCTTCATTTTAAAACTCCCTTTCCCGTATCTGCATCCTAATCCGGAGGACTGAGGATTGCGGATTGAGGGCGACTAATTGAGCACTTTTGTTTGAGTGCCGTGCTGCGCGGATTTCGCCTACTTGTTAGTTGCTGCCCAATAACATCGCTCTCCTTCCTCATGCACTGCGGAAAGGATATTTGATTTTAAATAAAGCCTCTCAATTAATTGTATCCTAAAAATATACGAAATTACAAAAAAAATA
>n396_u372_AE003715_mRNAlike RNA_Drosophila melanogaster (fruit fly)
AAATTTCGAAGCACGTGCGTGTGAGTTGCGCATGAACGGTACACCAACACTTTCGAACAGAAACCCCTCACAGATACTCCTCACACAGATACTCTACTGTACTGGGGCTACGATATCTGTGAGATACGCACAGATACGGCGGCAGCGCCGCCGGCGTCAAAGTCGACGTCGCTGCCGGCGTTTGAGAGACCGAGCGGCGTGCAAGAAATCGTCGGGCAACGGCTTCAAATGAACGCAAAACGTTGGAAAGCAAACAACCGCAAAAAAGCCATCAGCTAAAAATAAAACTGCAACTATCAAAGTGAATCTGTAGAGAAAGAGTGATAGCTCAGTGTGCCCAGTGTTTATTTAATTACTTATTTAAATTTGATTTTCAAAATAAGTTGTGATTTTGGTTCGTTTGTTTGTTTCCCCATTAAATCGCATCGCGGAACTGGTTTGCATTTTGTATCTTTTATCGCTGCAGTTCGTTTATGTGTGGTTTCATGTATTCCCCATCTATTCCATCTCTTTTTGCAGATAAAAGTGAATGAAACCCTAACGTTTAAACGCCGCCATAAACACCAAATAACAAATTTTCTGGCAAACATGGCATGTCACGGTCCCATTTAACGTGGAAAATCGGCCCAGAAATTCAACACGACGACAACTTTTTCGACTGTCCCAGAAAGCAAATATGTAAAGTGTATTTGTGTGCGTGCCATTGACATTGACTTATGGTCATGAAGGGGTTAGGGGGGACGGGTCTAAGGGTGGGGGTTGATGGCTAAAGGGGGGTCTCGCCGCTACGACAAAAACTTGGATTCTCTCGTTTCTTTTTTGTCTTTCGTCTTCAACGCACATTTATGGTTTGTTTTGCTCACACACACACTCAAAAAGCCTACGCAGCGGCAGAGAGGGCACAAGCAGCAGAGAAAGAGACGAAACATGTCTCGGATGATGATAAACGCCTCTCGTCTATTTTGGCGGGTCCATGAATGAAACAATTGCCTCGAATGACTGACTGCCAGACAGATAGCTAGAAACTGCCTTACGGGGGGCAAATTGGGGTATTTTGGGTTTCGGTGACTTTGAGGGACCGGGACCTGAGGGCCCGGAAAGCCGACAGCAATAAACACTGTGCTACGACAAAAGTCTGATGAGACAGACCATCATGATGCTCATCATCATCGGCGATAATAATGATTTTCATTTGCACATTCCACCCGTTTCGCTGTTGCCGGCTTCCAGCATTCAGATTCAGTTTGCATTCAGTGGGGCAGGTTATTTATGGCACTTTTCCTATCGCCACTCACTGGGGTAATCGATTTTTATTGGATTAATATTGCTTTCCGCATGATTTGGCCTTCTTTTCGTTATCACTTAGCAGGTTTCTTGACGCTGAGGAGTGGACAATGACTAAAACTCAGTCATCTGGAAAAGCTGGACCAAGGACATCCATATATGGCGGAATAGAAGGACACGTCTTATGTGACAAGTGCTGGCTAAACGTCTGTGGTTATCGCAATCATTTTCGATTTTCGGGCCCCATCCCTGTTGAAAAATCAGCCGGACAGCAGCAACCACCGAACACAAGACACAGGACGACCGGAAGTGAGGAAAACGCTTGTAAAATCGGTCGCACACGAGTGGAGCGAGACACGAGCGAACGGGCCGAAAGGAAACGACAATTACGAGGACACGCCGGCTTGCTTTTCTGCTTTTCCTGTCTGCTCCTTTCAGTTGCGGCCGTGCAATCGTCGGGTCAACAACGCCGCGTGTCCGATTTCAATCTACAAATTAGAATATACATCTTTACATCTGGATATGGTTTCATCTTTATCTGCATTTGGATCCGCGACGACGCATAATTTTCAGCACTTTTGAATAATGGCGATTCTGTGCGACCTCGTAAACGTATACTGAATGTATCCTGAGTGTATCCTATCCGGTATACCTTCAGTATACGTAACACGAGAGAGCACTAACAACGTGGGATGTGAAACACTTTTTAAGACACCTTAATACACGTAGCACTTTGTTATATGGTCTTACACTTTTTTAAATATCTCGACTTATAAATATATAATTTAAATATAAATACTTTAATAAATGCCCGATATAAAGTTAAA
>n397_u373_AE003735_miRNA_Drosophila melanogaster (fruit fly)
CATCACAGTCTGAGTTCTTGC
>n398_u374_AE003745_snRNA_Drosophila melanogaster (fruit fly)
ATACTTACCTGGCGTAGAGGTTAACCGTGATCACGAAGGCGGTTCCTCCGGAGTGAGGCTTGGCCATTGCACCTCGGCTGAGTTGACCTCTGCGATTATTCCTAATGTGAATAACTCGTGCGCGTAATTTTTGGTAGCCGGGAATGGCGTTCGCGCCGTCCCGA
>n399_u344_AE003745_snRNA_Drosophila melanogaster (fruit fly)
ATACTTACCTGGCGTAGAGGTTAACCGTGATCACGAAGGCGGTTCCTCCGGAGTGAGGCTTGGCCATTGCACCTCGGCTGAGTTGACCTCTGCGATTATTCCTAATGTGAATAACTCGTGCGTGTAATTTTTGGTAGCCGGGAATGGCGTTCGCGCCGTCCCGA
>n400_u344_AE003745_snRNA_Drosophila melanogaster (fruit fly)
ATACTTACCTGGCGTAGAGGTTAACCGTGATCACGAAGGCGGTTCCTCCGGAGTGAGGCTTGGCCATTGCACCTCGGCTGAGTTGACCTCTGCGATTATTCCTAATGTGAATAACTCGTGCGTGTAATTTTTGGTAGCCGGGAATGGCGTTCGCGCCGTCCCGA
>n401_u375_AE003748_snRNA_Drosophila melanogaster (fruit fly)
GTTCTTGCTTCGGCAGAACATATACTAAAATTGGAACGATACAGAGAAGATTAGCATGGCCCCTGCGCAAGGATGACACGCAAAATCGTGAAGCGTTCCACATTTTT
>n402_u375_AE003748_snRNA_Drosophila melanogaster (fruit fly)
GTTCTTGCTTCGGCAGAACATATACTAAAATTGGAACGATACAGAGAAGATTAGCATGGCCCCTGCGCAAGGATGACACGCAAAATCGTGAAGCGTTCCACATTTTT
>n403_u375_AE003748_snRNA_Drosophila melanogaster (fruit fly)
GTTCTTGCTTCGGCAGAACATATACTAAAATTGGAACGATACAGAGAAGATTAGCATGGCCCCTGCGCAAGGATGACACGCAAAATCGTGAAGCGTTCCACATTTTT
>n404_u376_AE003777_RNase P RNA_Drosophila melanogaster (fruit fly)
AGTCAGTTGCAAACTAGCATCTGGGGCCCACACAACGAGTATCTGATTACTCCACAAACCATTGCCCCGGGAAGGTCTGAGAATCGGCCGAGCCAGCTGTTTGTTGCGGCTTCATTTCCCAGCAGGAAACCTGTGTGATTGCAGGGCGAAAGTACCAGAAATCCTGCTACCAGGTGTTGCCGTTGCCCCCGGTGACCGCCGCCTGGTTGGCATTGAAACCTTTCGTGGCCAGCGTTTTTAGTGCGATGTGCTTGCTGCCTCTAAGGCAGAACTCAATTCAGACTAATCTGTGACTGACT
>n405_u377_AE003791_miRNA_Drosophila melanogaster (fruit fly)
TGGAAGACTAGTGATTTTGTTGT
>n406_u378_AE003795_miRNA_Drosophila melanogaster (fruit fly)
TATCACAGTGGCTGTTCTTTTT
>n407_u378_AE003795_miRNA_Drosophila melanogaster (fruit fly)
TATCACAGTGGCTGTTCTTTTT
>n408_u378_AE003795_miRNA_Drosophila melanogaster (fruit fly)
TATCACAGTGGCTGTTCTTTTT
>n409_u379_AE003795_miRNA_Drosophila melanogaster (fruit fly)
AAAGGAACGATCGTTGTGATATG
>n410_u380_AE003795_miRNA_Drosophila melanogaster (fruit fly)
ATAAAGCTAGACAACCATTGA
>n411_u381_AE003795_miRNA_Drosophila melanogaster (fruit fly)
TCACTGGGCAAAGTGTGTCTCA
>n412_u382_AE003802_snoRNA_Drosophila melanogaster (fruit fly)
CTTACATGATGATTTTATTCGTACCGCCCCAGTCTGAAGAGACGTGTTGATTGGTTATTTATACTGATA
>n413_u383_AE003802_snoRNA_Drosophila melanogaster (fruit fly)
ACTCAATGATGAAACATTTACCCAGCTCGCTTTGATATTCAATGAAGAGAACTGTTCCATATCCAACGCAAAAATAAACTGCTGACT
>n414_u384_AE003802_snoRNA_Drosophila melanogaster (fruit fly)
TGTAAATGATGATTTATTATTATTTGCTACTCTTGAAGGTCATTGATGAATACTTTCACCTTAAAACCTGATG
>n415_u385_AE003802_snoRNA_Drosophila melanogaster (fruit fly)
TTAGTATGATGAAACATTTACCCAGCTCGCTTTGATTTCTATGAAGAGAACTGTTCCATATCCAACGCAAAAATAACTTGCTGACT
>n416_u386_AE003802_snoRNA_Drosophila melanogaster (fruit fly)
TTTGTATGATGAAACATTTACCCAGCTCGCTTTGATTTCTATGAAGAAAACTGTTCCATATCCAACGCAAAAAATTATCTTGCTGACT
>n417_u387_AE003802_snoRNA_Drosophila melanogaster (fruit fly)
TGAAAATGATGATTAATTATTATTTGCTACTCTTGAAGAGCTTTGATGAATACTTACACCTTAGAAACTGAGT
>n418_u388_AE003802_snoRNA_Drosophila melanogaster (fruit fly)
AAAGTATGATGAAACATTTACCCAGCTCGCTTTGATATACAATGAAGAGAACTGTTCCATATCCAACGCAAAACTAAAATGCTGATT
>n419_u389_AE003802_snoRNA_Drosophila melanogaster (fruit fly)
GTTCTGTGATGTCAAACCAATAGACAAGCATATAACCGAACAATCATGTTGATTTTCACACGACTGAGC
>n420_u390_AE003802_snoRNA_Drosophila melanogaster (fruit fly)
GGGCAATGATGAACACTTTATTTAAGCCAAACAGTTATCCCTGTCATAAGAATAATTGATGATAAAAGTTGCTGATT
>n421_u391_AE003802_snoRNA_Drosophila melanogaster (fruit fly)
CCTTTGTGATGAGCATCCTTTTAAAGCCAAACAGTTATCCCTGTCATAAGAATAATTGATGATACAATAATCTGAC
>n422_u392_AE003802_snoRNA_Drosophila melanogaster (fruit fly)
TTTTTATGATGATTTCGTATACCGCCCCAGTCGGAGAAATGATGTCGATTGGAATTATTTACTGATT
>n423_u393_AE003802_snoRNA_Drosophila melanogaster (fruit fly)
TTTTTGTGATGATTTCGTATACCGCCCCAGTCGGAGAAATGATGTCGATTGGAATAATATACTGATA
>n424_u394_AE003802_snoRNA_Drosophila melanogaster (fruit fly)
ATATTATGATGATTAAGGATACCGCCCCAGTCGGAGAAATTATGTCGATTGGTTAAACATACTGACT
>n425_u395_AE003802_snoRNA_Drosophila melanogaster (fruit fly)
TTTTTCTGATGACAAACCAATAGACAAGCATATACCTGAATTCACGTGTGTTGCTAACATTTTTGACTGAAC
>n426_u396_AE003802_snoRNA_Drosophila melanogaster (fruit fly)
ATGATGTGATGAACACCTTATTTAAGCCAAACAGTTATCCCTGTCATAAGAATAATTGATGATATATTCAGCTGACA
>n427_u397_AE003802_snoRNA_Drosophila melanogaster (fruit fly)
TTTTCTTGATGAAAACCTAGACAAGCATATAGCTGAATTTCTCTGTCGACAACTCACGCGACTGATC
>n428_u398_AE003805_miRNA_Drosophila melanogaster (fruit fly)
TAATACTGTCAGGTAAAGATGTC
>n429_u399_AE003824_snoRNA_Drosophila melanogaster (fruit fly)
TAACATGATGATGATTTTTCAGTTCTGCTACTGAAGACAGTTGACGAAAGCAAAAATACCAAAATCACTGAAA
>n430_u400_AE003833_miRNA_Drosophila melanogaster (fruit fly)
TCAGTCTTTTTCTCTCTCCTA
>n431_u401_AE004078_tmRNA_Xylella fastidiosa 9a5c
GGGGGTGCACTGGCTTCGACGGGGGTCACAAAATCACTTGGTGCATGCCGAGGGGGCCGCTTTCCTCGTAAATCCAGCAGCAAACTTATAGTTGCCAACGAAGACAACTTCGCTGTAGCCGCTTAAGGCTTAAGCCTCGAAACTGCTTGTGTCCGTGCTCGCAGCGTAGAGTCATCATCACGGAACCGCTGAGACGTGGCCGTCTGCCCATCCTCGGTTAAATCTAGCAGACTGGTTTCCGGGTGCGCTTTGCCTGTCGTGCTGCCCGGCGACGAGACCTAACGGCGAGGATAAGCATGTAGGGCCGGGGATGGAGTACTTTCGGACGGCGGTTCGATTCCGCCCACCTCCACCA
>n432_u402_AE004517_tmRNA_Pseudomonas aeruginosa PAO1
GGGGCCGATTAGGATTCGACGCCGGTAACAAAACTTGAGGGGCATGCCGAGCTGGTAGCAGAACTCGTAAATTCGCTGCTGCAAACTTATAGTTGCCAACGACGACAACTACGCTCTAGCTGCTTAATGCGGCTAGCAGTCGCTAGGGGATGCCTGTAAACCCGAAACGACTGTCAGATAGAACAGGATCGCCGCCAAGTTCGCTGTAGACGTAACGGCTAAAACTCATACAGCTCGCTCCAAGCACCCTGCCACTCGGGCGGCGCGGAGTTAACTCAGTAGAGCTGGCTAAGCATGTAGAACCGATAGCGGAGAGCTGGCGGACGGGGGTTCAAATCCCCCCGGCTCCACCA
>n433_u403_AE005130_RNase P RNA_Halobacterium sp. NRC-1
GGCAGAGGGAGCCCGGCTCCCGTGCCGTGAGGCATGAGGAAAGTCCCCCCACCCGTTCGGGCACGCGGCCGGACACACGTCCGGGGCGGGAGACCGCCGGCACTGGAACAGACACGACACGTCCCTCCCACACCGATGAGGCGCGCGACCCACCCCGAAAGGGACGGCAGTTAACCCGCCGAGGGCGTGGCCGCCACACCGGCGGCCACGGACCGGTGATCGACACCCCAATGGGAGGGGAGCGATGGAACGGCCAACCCCCGCCGGTGCAAGTCCACGCGCGCATGGTAGCCCGAACCACCCGAAAGGGGCCGCGTGGACGCTCAGCCGAATGCCGGGCCGAACAGAAGGGGGCTTACTCCCCTCAGCTCGTAT
>n434_u404_AE005224_SRP_4.5S RNA_Escherichia coli O157:H7 EDL933
GCGTTGGTTCTCAACGCTCTCAATGGGGGCTCTGTTGGTTCTCCCGCAACGCTACTCTGTTTACCAGGTCAGGTCCGGAAGGAAGCAGCCAAGGCAGATGACGCGTGTGCCGGGATGTAGCTGGCAGGGCCCCCACCC
>n435_u405_AE005287_DicF RNA_Escherichia coli O157:H7 EDL933
TTCTGGTGACATTTGGCGGTATCAGTTTTACTCCGTAACTGCTCTGCCGCCC
>n436_u406_AE005417_DsrA RNA_Escherichia coli O157:H7 EDL933
AAGGTGATGAACACATCAGATTTCCTGGTGTAACGAATTTTTTAAGTGCTTCTTGCTTAAGCAAGTTTCATCCCGACCCCCTCAGGGTCGGGATT
>n437_u407_AE005491_tmRNA_Escherichia coli O157:H7 EDL933
TTAATCGAATAAAAATCAGGCTACATGGGTGCTAAATCTTTAACGATAACGCCATTGAGGCTGGTCATAGCGCTCATAAATCTGGTATACTTGCCGTTACACATTGGGGCTGATTCTGGATTCGACGGGATTTGCGAAACCCAAGGTGCATGCCGAGGGGCGGTTGGCCTCGTAAAAAGCCGCAAAAAATAGTCGCAAACGACGAAAACTACGCTTTAGCAGCTTAATAACCTGCTTAGAGCCCTCTCTCCCTAGCCTCCGCTCTTAGGACGGGGATCAAGAGAGGTCAAACCCAAAAGAGATCGCGTGGAAGCCCTGCCTGGGGTTGAAGCGTTAAAACTTAATCAGGCTAGTTTGTTAGTGGCGTGTCCGTCCGCAGCTGGCAAGCGAATGTAAAGACTGACTAAGCATGTAGTACCGAGGACGTAGGAATTTCGGACGCGGGTTCAACTCCCGCCAGCTCCAC
>n438_u408_AE005521_6S RNA_Escherichia coli O157:H7 EDL933
AATTTCTCTGAGATGTTCGCAAGCGGGCCAGTCCCCTGAGCCGATATTTCATACCACAAGAATGTGGCGCTCCGCGGTTGGTGAGCATGCTCGGTCCGTCCGAGAAGCCTTAAAACTGCGACGACACATTCACCTTGAACCAAGGGTTCAAGGGTTACAGCCTGCGGCGGCATCTCGGAGATTC
>n439_u409_AE005541_RNase P RNA_Escherichia coli O157:H7 EDL933
GAAGCTGACCAGACAGTCGCCGCTTCGTCGTCGTCCTCTTCGGGGGAGACGGGCGGAGGGGAGGAAAGTCCGGGCTCCATAGGGCAGGGTGCCAGGTAACGCCTGGGGGGGAAACCCACGACCAGTGCAACAGAGAGCAAACCGCCGATGGCCCGCGCAAGCGGGATCAGGTAAGGGTGAAAGGGTGCGGTAAGAGCGCACCGCGCGGCTGGTAACAGTCCGTGGCACGGTAAACTCCACCCGGAGCAAGGCCAAATAGGGGTTCATAAGGTACGGCCCGTACTGAACCCGGGTAGGCTGCTTGAGCCAGTGAGCGATTGCTGGCCTAGATGAATGACTGTCCACGACAGAACCCGGCTTATCGGTCAGTTTCACCT
>n440_u410_AE005617_Spot 42 RNA_Escherichia coli O157:H7 EDL933
GTAGGGTACAGAGGTAAGATGTTCTATCTTTCAGACCTTTTACTTCACGTAATCGGATTTGGCTGAATATTTTAGCCGCCCCAGTCAGTAATGACTGGGGCGTTTTTTA
>n441_u411_AE006461_DicF RNA_Escherichia coli O157:H7 EDL933
TTTCTGGTGACGTTTGGCGGTATCAGTTTTACTCCGTGACTGCTCTGCCGCCC
>n442_u412_AE006471_Finp RNA_Salmonella typhimurium LT2
TTGACTGGCGAGTGTTCTTTCTCTACGATCCGTCGGACACATAGGAACCTCCTCAAAGGATTCTATGGACAGTCGATGCAGGGAGTGACAGCTCCCTGTATCGGCGATTTAACTTGTTTTTTTAACGTAGCGTTAACTACAAAGACACTATATTGTTTTCAGCCTTAA
>n443_u413_AE006568_tmRNA_Streptococcus pyogenes M1 GAS
GGGGTTGTTACGGATTCGACAGGCATTATGAGGCATGTTTTGCGTCCCATCGGCAGATGTAAATTGCCAGTTAAATATAACTGCAAAAAATACAAACTCTTACGCTTTAGCTGCCTAAAAACCAGCTAGCGTGACTTCTACAAGATTGCTTGTGTCCTGTTAGAAGTCTCAAAATAGCAAGCTACGGTTACGAAATTGTCTAGTTTCGTGACAAGAGATTGATAGACTCGCAAACTAATGGCTTGAGTTATGTGTCTTTAGTTTGTTAAATGAAGACATAACCTATGGACGTAGACAAATATGTTGGCAGGTGTTTGGACGTGGGTTCGACTCCCACCAGCTCCA
>n444_u414_AE006710_snoRNA_Sulfolobus solfataricus
GGAACAGATGATGAATTCCCGATAGTACGATTGATGAGCTAAACTCCCATGGACTGAT
>n445_u415_AE006716_snoRNA_Sulfolobus solfataricus
ATAGGAGTGATGAAACCCATAAAATTGACTACACATGAAATAACCTGTCTCGGCTGAT
>n446_u416_AE006717_snoRNA_Sulfolobus solfataricus
GCTGTGAAGACCTAGCTAGGTCTGAAGAGTGATGAGGGGCCAAAGCTCGGAGCGTTT
>n447_u417_AE006888_snoRNA_Sulfolobus solfataricus
TATGAAACTCAGGGCAACTTATCTGAGGCTATGAGATATTATTGGGAAGCCATCTTTT
>n448_u418_AE006907_snoRNA_Sulfolobus solfataricus
AAAGCGTATCGACGATATATACAAGATAACTGAAGAGGGAAGAAAACTAATAGAGAG
>n449_u419_AE006910_snoRNA_Sulfolobus solfataricus
ATGTGATGAATTCACAACAATATGATTAGGTGAATTAATGCACCTCAACTGATACTA
>n450_u420_AE007525_SRP_4.5S RNA_Clostridium acetobutylicum
TTTGCTGTGCTAGACGGGGAGTTAGCGGTGCCTTGTACCTGCAATCCGCTGTAGCAGGGTTGAATTCCTTGTTTGAGGCTATAATTTGTGGGGTTTGCCTCATCTTGGTCAATGTTGAGAATTGGGTCCCACGCAACGGAAATTCATGAACTCCGTCAGGTCCGGAAGGAAGCAGCGGTAAGTGAAATCTTCCGTGTGCCG
>n451_u421_AE008386_snmRNA_Streptococcus pneumoniae R6
TGGAGCAACAGTTCTGCGTGAAGCGGGTCAGGGGAGGAATCCAGCAGCCCTAAGCGATTTGAATTGTGTGCTCTTTTTTTCGTGCTTTTTCCGAATAAATAAGATAGAATAATCTAGAATAAATGATAATAGAAAAGAGAAAATTATGAAAATTCGTGGTTTTGAATTGGTTTCGAGTTTTACAG
>n452_u422_AE008414_RNase P RNA_Streptococcus pneumoniae R6
GATGTGCAATTTTTGGATAATCGCGTGAGGAGAATTGCTTCTCATGAGGAAAGTCCATGCTAGCACAGGCTGTGATGCCTGTAGTGTTTGTGCTAGGCGAAACCATAAGCCTAGGGACGAGAAATCGTTACGGCAGTTGAAATGGCTAAGTCCTTGGATAGGCCAGAGTAGGCTTGAAAGTGCCACAGTGACGGAGTCTTTCTGGAAACAGAGAGAGTGGAACGCGGTAAACCCCTCAAGCTAGCAACCCAAATTTTGGTCGGGGCATGGAGTACGCGGAAACGAACGTAGTATTCTGACTGCTATCAGCTAGAGCTGTTAGTGGTAGACAGATGATTATCGAAGGAAGTGGTCCTAGTCACTTCTGGAACAAAACATGGCTTATAGAAAATTGCATATAGGTT
>n453_u423_AE008453_tmRNA_Streptococcus pneumoniae R6
GGGGTCGTTACGGATTCGACAGGCATTATGAGGCATATTTTGCGACTCGTGTGGCGACGTAAACGCTCAGTTAAATATAACTGCAAAAAATAACACTTCTTACGCTCTAGCTGCCTAAAAACCAGCAGGCGTGACCCGATTTGGATTGCTCGTGTTCAATGACAGGTCTTATTATTAGCGAGATACGATTAAGCCTTGTCTAGCGGCTTGATAAGAGATTGATAGACTCGCAGTTTCTAGACTTGAGTTATGTGTCGAGGGGCTGTTAAAATAATACATAACCTATGGTTGTAGACAAATATGTTGGCAGGTGTTTGGACGTGGGTTCGACTCCCACCGGCTCCA
>n454_u424_AE008634_RNase P RNA_Rickettsia conorii
ATCACGAGGAAAGTCCGGACTCTATAGAGGTATGGTGCCGGTTAACCTCCGGCAGAGTATTATTACTTTAGGGACAGTACCACAGAAAATACACCGCCAAGTATGAATACGAAGATCCTTCAAAAAGAGCTAGGAGTTCACAAGACGAGGAACGGAGCGTATACTTAATACGTGAGTACCGTAGTACTTGTGAAATGACGCAGCCAATTTTTGCAGTTGATCGAGTATTTTTGGTAAGGGTGAAAAGGTACGGTAAGAGCGTACCGGTAAGTTGGTAACAAATTACGCATGGTAAACCCCACCAAGAGCAAGATCAAATAGGCGTTACAGAACTTATCAAGTTCCCGGGTTATCTCTAGCCGGCTTGTAATGCGGGTAGATCGCTTGAGGTAAACGGTAACGTTTATCCTAGATAAATAACTGCAATGAATTGATATTCATACAGAATCCGGCTTATA
>n455_u425_AE008661_tmRNA_Rickettsia conorii
GCTAATATAGCTATAGTAATAAACGTAATTTAGAATAGAGGTTGCGGACTCGGGGGCAGTACCCGACGCCTCCACCAAAACTTTCTAAATAACTTGCTCCTAAAGGTAATTTGTACGTCGATCCGGTATTCGAATCCTCACGTTACTTGCGTGTACCCTGCGGTTCTGCGTTCCGTGTTGCCTTCAAATTTCTCTTTATTAGCTACGTCATTTAGAAAAGTTTAAATATGTAATAACTCTTAAAGAGTAGACAATACGAAGTTCATCGAGTATTTTTGGGGGGCGAAATAGGATCGACGTGCCTAATAAAAAGATTGCTTTTACTCGGGATGATTCCGCCGATGGCTTGTGCCATATGGGTCAAAACAAAGAAACGCAAACGATAATAATCGTTCTGTAGGTCATTTAGCTTTAGCAGCTTAATCCTACGCGGCTGGAGGGTGTGCCGGGCAACAGAACAACCCTCACTTATAC
>n456_u426_AE008717_SRP_4.5S RNA_Salmonella typhimurium LT2
GGGGCTCTGTTGGTTCTCCCGCAACGCTACTCTGTTTACCAGGTCAGGTCCGGAAGGAAGCAGCCAAGGCAGATGACGCGTGTGCCGGGATGTAGCTGGCAGGGCCCCCACCCATT
>n457_u427_AE008759_RprA RNA_Salmonella typhimurium LT2
CGGTTATAAATCAACACATTGATTTATAAGCATGGAAATCCCCTGAGTGAAACAACGAATTGCTGTGTGTAGTCTTTGCCCGTCTCCTACGATGGGCTTTTTTTTTA
>n458_u428_AE008778_rtT RNA_Salmonella typhimurium LT2
ATGAGCAATGCAGAAGTTTGCACTTGTCGGGGAAGGGTGAGAACCTTCGATTAAGGTTCGACTCGAGCGAAAGAACGTTGCCAACGGTAACGGCCCGTAGGGTGAGGAGTGAAGCGACGAATAATCCTTCCTCCACCACCATC
>n459_u429_AE008788_DsrA RNA_Salmonella typhimurium LT2
ACATCAGATTTCCTGGTGTAACGAATTTTCAAGTGCTTCTTGCATAAGCAAGTTTGATCCCGACCCGTAGGGCCGGGATTTTTT
>n460_u430_AE008788_dsrB RNA_Salmonella typhimurium LT2
ATGAAGGTGAATGATCGGGTAACCGTTAAAACGGACGGCGGTCCCCGCCGACCGGGCGTGGTACTGGCAGTGGAAGAATTTAGTGAAGGCACAATGTACCTGGTTTCGCTGGAGGATTACCCGCTCGGCATCTGGTTCTTCAATGAGTCAGGTCACCAGGATGGTATTTTTGTCGAGAAGGCGGAGCAGGACTAA
>n461_u431_AE008801_MicF RNA_Salmonella typhimurium LT2
AAAAAAAACCGAATGCGAAGCATCCGGTTGAAATAGGGGTAAACAGACATTCAGAAGTGAATGACGGTAATAAATAAAGTTAATGATGATAGCGGTCACTATTTTAGTTGCGAATGAAGATTCTGTTTTATCATTCAGTGCTATGAATTTCATCAATTTAACCCGTTGATTTTAAA
>n462_u432_AE008823_tmRNA_Salmonella typhimurium LT2
CAGGTGCCAGGCGAATGTAAAGACTGACTAAGCATGTAGTACCGAGGATGTAGGAATTTCGGACGCGGGTTCAACTCCCGCCAGCTCCACCAAAT
>n463_u433_AE008835_csrB RNA_Salmonella typhimurium LT2
GAGTCGTACAACGAAGCGAACGTCAGGATGATGACGCTTCAGCAGGACACGCCAGGATGGTGTTACAAGGAAAGGCTTCAGGATGAAGCAAAGTGGAAAGCGCAGGATGCGTTAAAGGACACCTCCAGGACGGAGAACGAGAGCCGATCAGGATGTTCGGCGGGTCTGGATGACCAGGGACGCTTCAGGAAGAAGCTATCACATCGGGCGATGTGCGCAGGATGCAAACGTTCAGGATGAACAGGCCGTAAGGTCACAGGAAAAGTTGTCACGGATGAGCAGGGAGCACGAAAAGTAGCTGGAATGCTGCGAAACGAACCGGGAGCACTGTTTATACAGTGCTCCCTTTTTTTTG
>n464_u434_AE008849_RNase P RNA_Salmonella typhimurium LT2
AAGTGAAACTGACCGATAAGCCGGGTTCTGTCGTGGACAGTCATTCATCTAGGCCAGCAATCGCTCACTGGCTCAAGCAGCCTACCCGGGTTCAGTACGGGCCGTACCTTATGAACCCCTATTTGGCCTTGCTCCGGGTGGAGTTTACCGTGCCACGGACTGTTACCAGCCGCGCGGTGCGCTCTTACCGCACCCTTTCACCCTTACCTGATCCCACTTACGTGGGCCATCGGCGGTTTGCTCTCTGTTGCACTGGTCGTGGGTTTCCCCCCCAGGCGTTACCTGGCACCCTGCCCTATGGAGCCCGGACTTTCCTCCCCTCCGCCCGTCTCCCCGAAAGGACGACGACGAAGCGGCGACTGTCTGGTCAGCTTCGG
>n465_u435_AE008881_snmRNA_Salmonella typhimurium LT2
GAAGATGTTTTGGCGGTTAAGAGAAGATTTTCAGCACTGATTCAGATTACATCAGAACGTAAAAACGGTCTGATAACAGAATTTGCCTGGCGGCACTAG
>n466_u436_AE009156_tmRNA_Agrobacterium tumefaciens str. C58 (U. Washington)
TGCCGGGGCAACCCGGCTATGGCGATAAACGGTCGGTGTAATAAACCTATTGGACCCGGGGGCGGTACCCGGCGCCTCCACCAAAAACCGGCGGGATCTCAAGATGAGGCCGGCTTTTGATGGGGGCGAAATAGGATCGACAAGGGCGTAAAGATCGAACTTTTGCTCGGCATGATACCGCCGTTATCGGGTCACAAGTGTAGTTGCAAATGACAACAACGCTAAGGAATACGCTCTCGCTGCCTAATGGCGGTGCGGGAATTCCGCTCTAAGTCCTTACGGTTAGCCCCGTAAGGCGGGGTTCGGAGGTACCTGGCAACAGAAACCTCCACCTTC
>n467_u437_AE009161_RNase P RNA_Agrobacterium tumefaciens str. C58 (U. Washington)
CCAGTTGGCCGGGCAGCCGCGCTCTACCAATGTCGAAAGACGGTAAGGTGAGGAAAGTCCGGGCTCCACGGAAATACGGTGCCGGATAACGTCCGGCGGGGGCGACCCCAGGGAAAGTGCCACAGAGAGCAAACCGCCATGCCTTGCATGGTAAGGGTGAAAGGGTGGGGTAAGAGCCCACCGCGCCGCTGGTGACAGTGGTGGCAAGGTAAACCCCACCGGGAGCAAGACCGAATAGGGATGACACGGGGCGGGCGAAAGCCTGTTCACAGCCGGTTTCCGGGCCCGTCATCCGGGTGGGTTGCGAGAGGCGGCATGCAAATGCCGTCCCAGATGAATGGCTGCCACGTTCCGGGTCAAACCGGGGCCATACAGAACCCGGCTTACAGGCCAACTGGCGAA
>n468_u438_AE009753_snoRNA_Pyrobaculum aerophilum str. IM2
TATTTTGATGAGCCTATCCCCTCGCTGAGGCGTGACGACGCGTCGCGTTGCTGAAA
>n469_u439_AE009753_snoRNA_Pyrobaculum aerophilum str. IM2
GGCGATGAGGACGACTTGCCCCCTATCGATTAATGAGATCTATTCCGCGGACTGAGC
>n470_u440_AE009761_snoRNA_Pyrobaculum aerophilum str. IM2
ATACGTGATGAATTCGGCAGGAGTTGATCGGTGAAAGAACTTAGCCCTACCTGATA
>n471_u441_AE009762_snoRNA_Pyrobaculum aerophilum str. IM2
CTAAGTGATGACACGGCCGTGACTTGAAAAGTGAAGAGGTGTTTCTAATCTGATT
>n472_u442_AE009767_snoRNA_Pyrobaculum aerophilum str. IM2
CGGCGTGAGGACTCCCGCCTTCACGTAGTGCATCAGCTCCGCCCCTCTCTGAGC
>n473_u443_AE009773_snoRNA_Pyrobaculum aerophilum str. IM2
AAGTGTGATGTTTCCCAGGGCTCCGAAAGGTGAGGACGGTTTCTGGTCGCTGAGA
>n474_u444_AE009774_snoRNA_Pyrobaculum aerophilum str. IM2
CGACGTGATGAGCCGCCAGTGTCCGAAAATTGACGAGCTCACCCTTTGCTGAAA
>n475_u445_AE009782_snoRNA_Pyrobaculum aerophilum str. IM2
ATGTGTGATGTTAGCTGGTATTGCTGATTCTTGATGACTGACGCCAAGTCTGACT
>n476_u446_AE009784_snoRNA_Pyrobaculum aerophilum str. IM2
ATACGTGATGATGTCAAGAGACTGAAGAGGTGCTGAAGGTCCAAAGCGCTGAAT
>n477_u447_AE009786_snoRNA_Pyrobaculum aerophilum str. IM2
CCACGTGACGAAATGCGCCTCGCCTGATTTGTGACGATCGTCACGGCACACTGAAC
>n478_u448_AE009791_snoRNA_Pyrobaculum aerophilum str. IM2
ATAGATGATGTGCCAATGCAGGCGGCGACTATGTGACCGGTGACCTGCCGGCTGATT
>n479_u449_AE009792_snoRNA_Pyrobaculum aerophilum str. IM2
GTTAGTGATGAGGGGATCGATGGAGGGAAATGTGACGACGGAAGAGACGACCTGATA
>n480_u450_AE009795_snoRNA_Pyrobaculum aerophilum str. IM2
AATTGTGATGTGGCGCGTGAGGGCGGAGTTGTGACGAAATTCTATTTCTGATC
>n481_u451_AE009801_snoRNA_Pyrobaculum aerophilum str. IM2
TTGGGTGATGTATGGAGACCTCGCCTGAACTATGAAGATTTTGCCGAGTGCTGAGC
>n482_u452_AE009805_snoRNA_Pyrobaculum aerophilum str. IM2
TATGGTGATGAAAACACACCCTGTGGAGCGGTGACTTAGGTCTCCCTTGCTGATA
>n483_u453_AE009815_snoRNA_Pyrobaculum aerophilum str. IM2
AGACGTGATGATTCGGTTCTATTCTGAAGATGATGTCTGCCGAGTTCGCTGAAC
>n484_u454_AE009822_snoRNA_Pyrobaculum aerophilum str. IM2
TCTCGTGATGATGGGATTCGACTGAGCGGTGATAACGTCCTCGATCGCTGAAT
>n485_u455_AE009825_snoRNA_Pyrobaculum aerophilum str. IM2
TTAGGTGATGATAGAACTCCCCGGATTGAAGAGTGATAAAAGAACCCCTTGCTGAGT
>n486_u456_AE009825_snoRNA_Pyrobaculum aerophilum str. IM2
CACAGTGATGAGGAACTCGGGTCTGCGGAATTTGAAGAGAACATAGGCCGCTGATT
>n487_u457_AE009826_snoRNA_Pyrobaculum aerophilum str. IM2
TAGCATGACGAATAACTAGACCGCTGAAAAAATGAGGAGCTGACGACGGGCTGACT
>n488_u458_AE009826_snoRNA_Pyrobaculum aerophilum str. IM2
ATGCGTGATGACCCAACCCCGGCATAGAGCTGTGATGTGATATCTCGAGGGCTGAAT
>n489_u459_AE009831_snoRNA_Pyrobaculum aerophilum str. IM2
CGTAGTGATGACGTGGTTCTTCGTAGACATGTGAAGACGCCCCTACCCAGCTGATC
>n490_u460_AE009834_snoRNA_Pyrobaculum aerophilum str. IM2
GTATAGGATGAATGGAGGTTTCCGGGGCGAGGGGTGAGCGGAGCCGTAGTTCTGACT
>n491_u461_AE009840_snoRNA_Pyrobaculum aerophilum str. IM2
AGAGGTGATGAGGGCTGGGTTGCCGAGCGGTGGCGAATTAGGAGCCTACTGACA
>n492_u462_AE009842_snoRNA_Pyrobaculum aerophilum str. IM2
AGACGTGATGACGAGTACCAAAGCCGACATATGACGTGCTCGCGACGGACTGAAC
>n493_u463_AE009852_snoRNA_Pyrobaculum aerophilum str. IM2
AATAGTGATGATCACATCCGATTTTGAAGGGTGAAGCGGCCGTCCCAGGCTGAGT
>n494_u464_AE009854_snoRNA_Pyrobaculum aerophilum str. IM2
CACAGTGATGTCGCCAGGCGCTGCCGAGCCGTGAAGACAGCTCGAGAGGGCTGACA
>n495_u465_AE009855_snoRNA_Pyrobaculum aerophilum str. IM2
TATAGTGATGAAGGCGTCGGGACACTATAGAGGGGTGATAGCCACCTGGAGGGCTGAGG
>n496_u466_AE009855_snoRNA_Pyrobaculum aerophilum str. IM2
AACAGTGATGACCTCTTCGCTGCGCGGATTAATGACCAATCCGGCGGAGCTGACG
>n497_u467_AE009855_snoRNA_Pyrobaculum aerophilum str. IM2
GTACGTGATGAACGTGGGAACGGCGGATAGATGGCGAAGGCTTGATTGGCTGACG
>n498_u468_AE009866_snoRNA_Pyrobaculum aerophilum str. IM2
GTTTAAGATGATGTCGTAGCTCGCGGCTGATTATGATGTGGGGTATACAAGCTGAAT
>n499_u469_AE009867_snoRNA_Pyrobaculum aerophilum str. IM2
TCTGATGATGACTAATAAGTGGGGCCACTGATTTATGAGGAGGGTTTGGAGCGCTGAAT
>n500_u470_AE009873_snoRNA_Pyrobaculum aerophilum str. IM2
ATAAGTGATGACACCCCAATAGCCAGATTATGAAGAGACTCGCATGGGCTGAAA
>n501_u471_AE009903_snoRNA_Pyrobaculum aerophilum str. IM2
TTAAATGTTGAGGCTCGGTCGGCTTGACCTGTGAAGAGGCTAGACGACACTGAGA
>n502_u472_AE009907_snoRNA_Pyrobaculum aerophilum str. IM2
GCCGGTGATGAGTAGAGGTTCAGGCGATTGATGAACGGCCTTCAGCGGCTCTGATA
>n503_u473_AE009908_snoRNA_Pyrobaculum aerophilum str. IM2
ACAGGTGACGAGAGGCGGATGGAGAGCGGTGATCGCGGATTTGAACGCTGACT
>n504_u474_AE009912_snoRNA_Pyrobaculum aerophilum str. IM2
ATTAATGACGACGCTTACAAGGTCGGAAAAGTGAAGAGGGCTGAGCGGCTGATT
>n505_u475_AE009913_snoRNA_Pyrobaculum aerophilum str. IM2
GGCGGTGATGACTGCGTTGGTGGCCGATCGGTGAGCGGCGACGGACGGGCTGATC
>n506_u476_AE009913_snoRNA_Pyrobaculum aerophilum str. IM2
TCTTGTGATGTCAACCCTGGGGCCTGACAGATGAGGACACTGACCTGCCCTGACA
>n507_u477_AE009915_snoRNA_Pyrobaculum aerophilum str. IM2
AAATGTGATGAGGAGGCATTTGCGGCAGTAGATGGCCGGCGCCGGAAAAGCTGATT
>n508_u478_AE009916_snoRNA_Pyrobaculum aerophilum str. IM2
ATAGTTGATGAAGACAAGGGTATGACCGGTGATTACGCTGAGCTACGCTGAAA
>n509_u479_AE009920_snoRNA_Pyrobaculum aerophilum str. IM2
AGCGGTGATGTGCCTCACGGTAGGCGAGGGGTGAGCGCAACGCCCTTCACTGAGC
>n510_u480_AE009922_snoRNA_Pyrobaculum aerophilum str. IM2
TTACATGATGAGGCTAGACTAAGCCGAGTAAATGACGTGGCGTGAAAGGGCTGAGC
>n511_u481_AE009922_snoRNA_Pyrobaculum aerophilum str. IM2
AATAGTGATGAGCCCGACCAAAAACGAGCTGTGAAGCCGCGGCAGCTGTCTGATT
>n512_u482_AE009924_snoRNA_Pyrobaculum aerophilum str. IM2
ATTTGTGATGAGAAAACGGTCTGGCGATATATGACCGAGAGACCGATCGCTGAGT
>n513_u483_AE009926_snoRNA_Pyrobaculum aerophilum str. IM2
GAACGTGATGACGGCTCACAACGGATAACATGTCCGCAGTGGCCAGGGCTGATT
>n514_u484_AE009929_snoRNA_Pyrobaculum aerophilum str. IM2
TGTCATGATGAAAATCATGCCCGAGAGCTAGATGCTCGATCCTAGGGTAGCTGAAT
>n515_u485_AE009934_snoRNA_Pyrobaculum aerophilum str. IM2
CATTGTGATGAAAAACGGCTTATGATCTGTGAATAGTCCTAAACCAGGCTGACT
>n516_u486_AE009934_snoRNA_Pyrobaculum aerophilum str. IM2
TGCGATGAGGAGCCGATGGCTGGCGCAACTCATGGCGTTAAAGCTTGGCGGGTTCTGAGC
>n517_u487_AE009935_snoRNA_Pyrobaculum aerophilum str. IM2
GCGAATGACGAGTTGAACCCACGCCGACGCGGTGGCGAGAGCCTGCCCAGCAGTGGCGGGCGCTGAAA
>n518_u488_AE009942_snoRNA_Pyrobaculum aerophilum str. IM2
GGCGGTGATGACCTAGCGCCGCCGCACTGTAAAGATGAAGAAGGCCGTTTTTCTGAAA
>n519_u489_AE010126_snoRNA_Pyrococcus furiosus DSM 3638
GTCGATGACGAAACCGGCACTATCTGAATGATGATGAGCACTCGGTTGTCTGAGA
>n520_u490_AE010126_SRP_7SL RNA_Pyrococcus furiosus DSM 3638
GGCGGCGGGCTAGGCCGGGGGGTTCGGCGTCCCCTGTAACCGGAAACCGCCGATATGCCGGGGCCGAAGCCCGGGGGGCGGTTCCCAAAGCCGCTCCCAGAAGCCGAGGTCGAACGATGAGTCCTCGTCCCGCGGGGTGCCCGGTGGGGGAGGCACGGCTGAAGGGCCGTGCTAACCCCCTTTGGGCCCCGAACCCCGCAAGGCCCGGAAGGGAGCAGCGGTAGGGGCCACGGAGCACGCTCGCGGGGGTGCGGGGATGAGATAGGCCTCGGTGGATGGGAGCGGTGGAGGGTTCCCACCCTCGGGCGTGCCCGCCGCCGCTA
>n521_u491_AE010137_RNase P RNA_Pyrococcus furiosus DSM 3638
GCGAGGGGGCTGGGGGCTGTCGGGCTCGTGCCCGAGGAAGTTCCGCCCACCGCACCGGGGCCGCGGTGCCGTAAGGCACCGGCCGAGAGGCCGGGCAACGGCACAGAAACGACACGTCCCTCGGGGGATGTGGATGAAAGCGGTGAAGGCTCCCGGTGACGGGAGCCGAGTTAACCCGCAGACAATCCCGAGGGGAGCGGTGAAACGGCCGTCCCGCGGGGTGCAAGGCCGAGTTAGGGCCGATGAGTTCCCGGTGTGAGGCCCGTGGTAGGCCGCTTAGTCGAATGCTCCCGTAGTACAGAAGGCGGGCTATAGCCCCCTCGC
>n522_u492_AE010141_snoRNA_Pyrococcus furiosus DSM 3638
TGGGATGATGACCTTTTGCTTTACTGAACACATGATGACCACGCCCTTCGCTGACC
>n523_u493_AE010169_snoRNA_Pyrococcus furiosus DSM 3638
AGGGATGATGAGATTTGCTACCTCTGAAAATAATGATGAACCCTGCCGTTACTGACC
>n524_u494_AE010179_snoRNA_Pyrococcus furiosus DSM 3638
GGCGATGATGTAGATTAGCCCCGACTGAGCGGTGATGAAGCTGGCCCATCGCTGAGT
>n525_u495_AE010244_snoRNA_Pyrococcus furiosus DSM 3638
TCTGATGATGATCCTTCCCCTCAACTGAGAGGTGATGAGCACACCGGTAGGCTGAGG
>n526_u496_AE010246_snoRNA_Pyrococcus furiosus DSM 3638
TGAGATGATGAGAACTCCCTGATCTGAGCGGTGATGAGGACCGGTGATCTGAAA
>n527_u497_AE010249_snoRNA_Pyrococcus furiosus DSM 3638
AGGGATGATGAAGTTCGCTAGACCTGAGGAGTGATGAGCCCTAGGGTATCTGACC
>n528_u498_AE010249_snoRNA_Pyrococcus furiosus DSM 3638
GTAGATGATGAGGCCATCCCCTCTGATCTGTGATGAGTGGGTGAGCTGGCTGATA
>n529_u499_AE010265_snoRNA_Pyrococcus furiosus DSM 3638
AAAGATGATGAACCCGCGCAGCTCTGAAGGGATGATGAGGATCTTAAGTGCTGATC
>n530_u500_AE010277_snoRNA_Pyrococcus furiosus DSM 3638
GCGGATGATGTGCCTTGCCCAGCCTGAAAGGTGATGATGTCGGTATTAGCTGACG
>n531_u501_AE010277_snoRNA_Pyrococcus furiosus DSM 3638
GAAGAGGATGAAAAAGAAGAAAAGGCTGAATAGATGATGAGAGGGGACCTCTCTGATG
>n532_u502_AE010288_snoRNA_Pyrococcus furiosus DSM 3638
TGAGATGATGAACTCGGCAGGTCCTGAAGGATGATGAGGATCTTGAGTGCTGATC
>n533_u503_AE011707_RNase P RNA_Xanthomonas axonopodis pv. citri str. 306
CAAGGTGCCAGGTAACGCCTGGGCGGCGCAAGCCGACGGAAAGTGCAACAGAAAGATACCGCCTACGTCCCTCGTCACCCCTTTGCCGCCACTGAAACGTGCCAGCGATGCCTCGCATCGCCAAGCGCGCTCGGAGGCCGCAAAGGGGTGGCGAGGGGCCGGTAAGGGTGAAATGGTGCGGTAAGAGCGCACCGCGAGTCCGGTAACGGACCGGCACGGCAAACCCCACCTGGAGCAAGACCAAATAGGGATCCATTGGCGTGGCCCGCGCTGGATCCGGGTAGGTTGCTTGAGCGCCGCGGTGACGTAGCGCCTAGACGAATGACTGTCCACGACAGAACCCGGCTTATCGGCCGGCT
>n534_u504_AE011783_tmRNA_Xanthomonas axonopodis pv. citri str. 306
GGGGGTGCACTGGTTTCGACGGGGGTCGCGAAGTCGCTTGGCGCATGCCGAGGGGGCAGCTTTCCTCGTTAATCCAGCAGCAAACTTTTAGTTGCCAACGATGACAACTACGGTTCGGACTTCGCTATCGCCGCTTAATTGGCTTTAGTTGTAGTTCTACAGCCGCCTAAGGCGAACCCCCGAACCTACTTGTGCCCGTGCTCGTAGGTGTAGGGTCATTATCACGGAACCATCGGTAGTGGCTGCCTGTCAGCTACCGGTCAGATAAAGCAGGCTGGTTTCCAGGTGCGCTTTGCCAACCGTGCTGCCTGGGAACGAGATCTAACGGAGGGCTAAGCATGTAGTGCTGGGGATGGAGTGCTTCCGGACGGCGGTTCGATTCCGCCCACCTCCACCATCT
>n535_u505_AE012170_RNase P RNA_Xanthomonas campestris pv. campestris str. ATCC 33913
AGTCGGCCAGACAGTCGCGTCACTCGCAAGAGTGCCGAGGAAAGTCCGGGCTCCATAGGGCAAGGTGCCAGGTAACGCCTGGGCGGCGCAAGCCGACGGAAAGTGCAACAGAAAGATACCGCCTACGTTCCCTTCGGGGAGCCGGTAAGGGTGAAATGGTGCGGTAAGAGCGCACCGCGAGTCCGGTAACGGACCGGCACGGCAAACCCCACCTGGAGCAAGACCAAATAGGGATCCATTGGCGTGGCCCGCGCTGGATCCGGGTAGGTTGCTTGAGCGCTGCGGTGACGTAGCGCCTAGACGAATGACTGTCCACGACAGAACCCGGCTTATCGGCCGGCT
>n536_u506_AE012247_tmRNA_Xanthomonas campestris pv. campestris str. ATCC 33913
GGGGGTGCACTGGTTTCGACGGGGGTCGCGAAGTCGCTTGGCGCATGCCGAGGGGGCAGCTTTCCTCGTTAATCCAGCAGCAAACTTTTAGTTGCCAACGACGACAACTACGGTTCGGACTTCGCTATCGCCGCTTAATTGGCTTTAGTTGTAGTTCTACAGCCGCCTAAGGCGAACCCCCGAAACTACTTGTGCCCGTGCTCGTAGATGTAGGGTCATTATCACGGAACCGCCGGTAGTGGCTGCCTGTCAGCTATCGGTTAGATCAAGCAGGCTGGTTTTCAGGTGCGCTTTGCCCGCCGTGCTGCCTGGGAACGAGATCTAACGGAGGGATAAGCATGTAGTGCTGGGGATGGAGTGCTTCCGGACGGCGGTTCGATTCCGCCCACCTCCACCA
>n537_u507_AE012554_RNase P RNA_Xylella fastidiosa Temecula1
GCGGTGAAGTCGGCTGGACAGTCGCGTCATCCGAGAGGATGCCGAGGAAAGTCCGGGCTCCATAGGGCAAGGTGCCAGGTAACACCTGGGCGGCGTGAGTCGACGGAAAGTGCAACAGAAAGATACCGCCAATATTCCTTTCTAGGATTCGGTAAGGGTGAAATGGTGCGGTAAGAGCGCACCGCGAGTTCGGTAACGGACCGGCACGGCAAACCCCACCTGGAGCAAGACCAAATAGGGATCCTATGGCGTGGCTCGTGCTGGATCCGGGTAGGTTGCTTGAGCACCGTGGTGACGCGGTGCCTAGATGAATGGCTGTTCATGACAGAACCCGGCTTATAGGCCGACTTCAC
>n538_u508_AE012561_tmRNA_Xylella fastidiosa Temecula1
GGGGGTGCACTGGCTTCGACGGGGGTCACAAAATCACTTGGTGCATGCCGAGGGGGCCGCTTTCCTCGTAAATCCAGCAGCACACTTATAGTTGCCAACGAAGACAACTTCGCTCTAGCCGCTTAAGGCTTAAGCCTCGAAACTGCTTGTGTCCGTGCTCGCAGCGTAGAGTCATCATCACGGAACCGCTGAGACGTGGCCGTCTGCCCACCCTTGGTTAAATCTAGCAGACTGGTTTCCGGGTGCGCTTTGCCTGTCGTGCTGCCCGGCGACGAGACCTAACGGCCAGGATAAGCATGTAGGGCCGGGGACGGAGTACTTTCGGACGGCGGTTCGATTCCGCCCACCTCCACCA
>n539_u509_AE013063_tmRNA_Thermoanaerobacter tengcongensis
GGGGGTGTGTTGGTTTCGACGGGGGCGGTCGAGGTAAAAGTAGCGAGCCGAGTTCTCCACCAGCTCGTAAAAAAGGTGGAAAAAAATAAACGCAGACAGAGAACTCGCTTACGCTGCCTAATTAAAGGCGGCCGTCCAGCCTGAAATGCCCACGTTTCAGGACTGGGCGTCAAAAGAGTGGGGAACTGGTTTTGCCTGCGCCTCGGGGCAAAACCGGAATAATGAGGCTACCGAAGCGGTTATCCTGTCGCTGGGAGAACCGCTGAGGGAAAGCTAAAACAGCGACTGCGCTCGGAGAAGCTTTTACCGGGACGCCTTCGGACCGGGGTTCGAATCCCCGCACCTCCACCA
>n540_u510_AE013612_RNase P RNA_Yersinia pestis KIM
GGAGTTGACTAGACAGTCGCCGCTTCACTGCCGTCCCTTTCGGGGGAGACAGGTGGAGGGGAGGAAAGTCCGGGCTCCATAGGGCAGGGTGCCAGGTAACGCCTGGGAGGCGCAAGCCTACGACAAGTGCAACAGAGAGCAAACCGCCGATGGCCCACGCAAGTGGGATCAGGTAAGGGTGAAAGGGTGCGGTAAGAGCGCACCGCGCGGCTGGCAACAGTTCGTGGCATGGTAAACTCCACCCGGAGCAAGGCCAAATAGGGGTTCGCATGGTACGGCCCGTACTGAACCCGGGTAGGCTGCTTGAGCCAGTGAGCGATTGCTGGCCTAGAGGAATGACTGTCCACGACAGAACCCGGCTTACCGGTCAACTCCAC
>n541_u511_AE013908_tmRNA_Yersinia pestis KIM
GGGGCTGATTCTGGATTCGACGGGATTCGCGAAACCCAAGGTGCATGCCGAGGTGCGGTGGCCTCGTAAAAAACCGCAAAAAAAATAGTTGCAAACGACGAAAACTACGCACTAGCAGCTTAATAACCTGCTTAGAGCCCTCTCTCCCTAGCCTCCGCTCTTAGGACGGGGATCAAGAGAGGTCAAACCTAAAAGAGCTCGTGTGGAAACCTTGCCTGGGGTGGAAGCATTAAAACTAATCAGGATAGTTTGTCAGTAGCGTGTCCATCCGCAGCTGGCCGGCGAATGTAATGATTGGACTAAGCATGTAGTGCCGACGGTGTAGTAATTTCGGACGGGGGTTCAAATCCCCCCAGCTCCACCA
>n542_u512_AE013984_Spot 42 RNA_Yersinia pestis KIM
GTAGGGTACAGAGGTAAGATGTTCTATCTTTCAGACCTTTTACTTCACGTAATCGGATTTGGCTGTATATTAGCCGCCCCAGTCATTTATTGACTGGGGCGTTTTTT
>n543_u513_AE014016_tmRNA_Buchnera aphidicola str. Bp (Baizongia pistaciae)
GGGGCTGATATTGGATTTGACAAAATTATTGAAAACTGATGTGCATGCCGAGGATGGTTTGCCTCGTTAAAAAACCATAAAAAATAGTAGCAAAACAAAATCAATACGCTTTAGCAGCTTAATAATCTGAATAAAGCCCTTCTTTTAAACATATTCTCTTAATGTTTAATTTATATAGAAGGTTAATCTAAAGAGATCGCAACTCAAATCTATTTTGAAAGATTTTTTGTTGCTAAATAAAAACTTCAAAATATATATCTATAATGAGTCTATACATCGATAGATAAGAAAAGATAATAGACTAAGCATGTAGTATCTGAAGTCGTAAAAATTTTGGACGCGGGTTCGAATCCCGCCAGCTCCA
>n544_u514_AE014016_RNase P RNA_Buchnera aphidicola str. Bp (Baizongia pistaciae)
GAGGAAAGTCCGGACTCCAAGAGGCAAAGGTACCAGATAACATCTGGGGAACGTAAGTTCACGACTAGTGCAACAGAAAATAAACCGCTAAAAATTAGAATTAGCAAGGGTGAAAAGGTGTGGTAAAAGCACACCGAATACTTGGTAACAAGTATTGACTAGGTAAACTTCTACCTTGGAGCAAGGCCAAATAAGAGTATTCGCCCAATTTTTAATACTCGGGTAGGCTGCTTGAACTAATGAGTAATTATTAGTCTAGATAAATGACTGTCAAATACTGAACCCGGCTTATAGGTCAGCTTCA
>n545_u515_AE014083_RNase P RNA_Buchnera aphidicola str. Sg (Schizaphis graminum)
GAGGAAAGTCCGGGCTCCATAGAGCAGGGTGCCAGGTAACACCTGGAAAGCGCAAGCTTATGACAAGTGCAACAGAAAAAAAACCACCTTATTTTCTTTTTTTAACTGCAGATAATAGGGAAAGGGTGAAAAGGTGTGGTAAGAGCACACCGCATAATTGGCAACAATTTATGGCAATGTAAACTCCACCTGGAGCAAAGCCAAATATAGGTTATTAATATTGCTCGTATTTTAAAAAACCTGGGTGGGCTGCTTGAATTAGTAAGTAATTACTAATCTAGATGAATGACTGTTAAAACAGAACCCGGCTTATAGGTCAACTTC
>n546_u516_AE014094_tmRNA_Buchnera aphidicola str. Sg (Schizaphis graminum)
GGGGCTGTTTTTGGATTCGACAAAGTTATCAAAAAAGTAAAGTGCATGCCGAGGAACGGTTTGCCTCGATAAAAAACCGTAAAAAAATAGCTGCAAATAATAAACAAAACTACGCTTTAGCAGCTTAAAAAACTGTATAAAGCCCTTTCATCTCTGACTTCTCTCTTGAGAACGAGAAATTTTTAAGAAAGGCCGACATTTAAAGAGAAAAATGTGAGCACTATGCTTGATAGTGACACAAAATTAATTTTTCAAGCTATAAGCTTAAAATGAGTTTTTCCAAATTAAGCAATGAAAAAATAAAGAAAAACTAAGCATGTAGTATCTTTATTTATAGAAATTTTGGACGCGGGTTCAAATCCCGCCAGCTCCAAAA
>n547_u517_AE014155_tmRNA_Streptococcus pyogenes MGAS315
GGGGTTGTTACGGATTCGACAGGCATTATGAGGCATGTTTTGCGTCCCATCGGCAGATGTAAATTGCCAGTTAAATATAACTGCAAAAAATACAAACTCTTACGCTTTAGCTGCCTAAAAACCAGCTAGCGTGACTTCTACAAGATTGCTTGTGTCCTGTTAGAAGTCTCAAAATAGCAAGCTACGGTTACGAAATTGTCTAGTTTCGTGACAAGAGATTGATAGACTCGCAAACTAATGGCTTGAGTTATGTGTCTTTAGTTTGTTAAATGAAGACATAACCTATGGACGTAGACAAATATGTTGGCAGGTGTTTGGACGTGGGTTCGACTCCCACCGGCTCCA
>n548_u518_AE014761_tmRNA_Bifidobacterium longum NCC2705
ATTGGGGGCGATCGGTTTCGACGGTGACCTGTTCGCTGCAGGGAAGCGTGCCGAGAACGCCGGGTCCGCTCGTGGATGACCCCGGCAAAAGAATAAGTGCTAAATCTAACCGCACTGAGTTCGCTCTCGCTGCCTGATTTTTAGTCAGGATTAACCAGTGAGCAGCCGCTCCGTTCACTCCTCCTCGTCTTTGGGAGGATGCTGAGCGTCGTTTAGAAGACTTGCTGATGCAGTTGAGCCTCAGGGCTGCATCGGGACTTTAACTGCGGATATGCTCGCCATCAGTTGTCTGCGACATCGATGGGGGCAGAAAAATCGCCAACTTGGCCAGCAGACTACGCACGTAGAAGACTGTGGGCTCGGTCATCGGAC
>n549_u519_AE015072_SRP_4.5S RNA_Shigella flexneri 2a str. 301
GGGGGCTCTGTTGGTTCTCCCGCAATGCTACTCTGTTTACCAGGTCAGGTCCGGAAGGAAGCAGCCAAGGCAGATGACGCGTGTGCCGGGATGTAGCTGGCAGGGCCCCCACCC
>n550_u520_AE015217_DsrA RNA_Shigella flexneri 2a str. 301
AACACATCAGATTTCCTGGTGTAACGAATTTTTTAAGTGCTTCTTGCTTAAGCAAGTTTCATCCCGACACCCTCAGGGTCGGGATTT
>n551_u521_AE015245_MicF RNA_Shigella flexneri 2a str. 301
GCTATCATCATTAACTTTATTTATTACCGTCATTCATTTCTGAATGTCTGTTTACCCCTATTTCAACCGGATGCCTCGCATTCGGTTTTTTT
>n552_u522_AE015283_tmRNA_Shigella flexneri 2a str. 301
AAAAATCAGGCTACATGGGTGCTAAATCTTTAACGATAACGCCATTGAGGCTGGTCATGGCGCTCATAAATCTGGTATACTTACCTTTACACATTGGGGCTGATTCTGGATTCGACGGGATTTGCGAAACCCAAGGTGCATGCCGAGGGGCGGTTGGCCTCGTAAAAAGCCGCAAAAAATAGTCGCAAACGACGAAAACTACGCTTTAGCAGCTTAATAACCTGCTTAGAGCCCTCTCTCCCTAGCCTCCGCTCTTAGGACGGGGATCAAGAGAGGTCAAACCCAAAAGAGATCGCGTGGAAGCCCTGCCTGGGGTTGAAGCGTTAAAACTTAATCAGGCTAGTTTGTTAGTGGCGTGTCCGTCCGCAGCTGGCAAGCGAATGTAAAGACTGACTAAGCATGTAGTACCGAGGATGTAGGAATTTCGGACGCGGGTTCAACTCCCGCCAGCTCCAC
>n553_u523_AE015294_csrB RNA_Shigella flexneri 2a str. 301
GTCGACAGGGAGTCAGACAACGAAGTGAACATCAGGATGATGACACTTCTGCAGGACACACCAGGATGGTGTTTCAGGGAAAGGCTTCTGGATGAAGCGAAGAGGATGACGCAGGACGCGTTAAAGGACACCTCCAGGATGGAGAATGAGAACCGGTCAGGATGATTCGGTGGGTCAGGAAGGCCAGGGACACTTCAGGATGAAGTATCACATCGGGGTGGTGTGAGCAGGAAGCAATAGTTCAGGATGAACGATTGGCCGCAAGGCCAGAGGAAAAGTTGTCAAGGATGAGCAGGGAGCAACAAAAGTAGCTGGAATGCTGCGAAACGAACCGGGAGCACTGTGAATACAGTGCTCCCTTTTTTTATT
>n554_u524_AE015296_GcvB RNA_Shigella flexneri 2a str. 301
ACTTCCTGAGCCGGAACGAAAAGTTTTATCGGAATGCGTATTCTGGTGAACTTTTGGCTTACGGTTGTGATGTTGTGTTGTTGTGTTTGCAATTGGTCTGCGATTCAGACCAT
>n555_u525_AE015303_6S RNA_Shigella flexneri 2a str. 301
ATTTCTCTGAGATGTTCGCAAGCGGGCCAGTCCCCTGAGCCGATATTTCATACCACAAGAATGTGGCGCTCCGCGGTTGGTGAGCATGCTCGGTTCGTCCGAGAAGCCTTAAAACTGCGACGACACATTCACCTTGAACCAAGGGTTCAAGGGTTACAGCCTGCGGCGGCATCTCGGAGATTCC
>n556_u526_AE015328_RNase P RNA_Shigella flexneri 2a str. 301
GAAGCTGACCAGACAGTCGCCGCTTCGTCGTCGTCCTCTTCGGGGGAGACGGGTGGAGGGGAGGAAAGTCCGGGCTCCATAGGGCAGGGTGCCAGGTAACGCCTGGGGGGGAAACCCACGACCAGTGCAACAGAGAGCAAACCGCCGATGGCCCGTGCAAGCGGGATCAGGTAAGGGTGAAAGGGTGCGGTAAGAGCGCACCGCGCGGCTGGTAACAGTCCGTGGCACGGTAAACTCCACCCGGAGCAAGGCCAAATAGGGGTTCATAAGGTACGGCCCGTACTGAACCCGGGTAGGCTGCTTGAGCCAGTGAGCGATTGCTGGCCTAGATGAATGACTGTCCACGACAGAACCCGGCTTATCGGTCAGTTTCACCT
>n557_u527_AE015400_Spot 42 RNA_Shigella flexneri 2a str. 301
GTAGGGTACAGAGGTAAGATGTTCTATCTTTCAGACCTTTTACTTCACGTAATCGGATTTGGCTGAATATTTTAGCCGCCCCAGTCAGTAATGACTGGGGCGTTTTTTA
>n558_u528_AE015411_OxyS RNA_Shigella flexneri 2a str. 301
GAAACGGAGCGGCACCTCTTTTAACCCTTGAAGTCACTGCCCGTTTCGAGAGTTTCTCAACTCGAATAACTAAAGCCAACGTGAACTTTTGCGGATCTCCAGGATCCGCT
>n559_u529_AE016755_SRP_4.5S RNA_Escherichia coli CFT073
TGCAAAAAAAAGCAGAGGATAATCTTCATGTGATTTACACCGGAGCGTCAATAAAGTACATCGAGTCAATTTTTGGCCCTCCCGTGAAGGAAGAACATTCTGAGGATGGGAGGGTTCATGAGTATATTTACTCTTTCA
>n560_u530_AE016758_DicF RNA_Escherichia coli CFT073
TGCTAACGAGGCCTCGTTACGTGATCTCCAACAACGTTGTCCGGCCAGTGTAA
>n561_u531_AE016761_DsrA RNA_Escherichia coli CFT073
TAAACACCGCCGCAAAGTGTAGGGAGTGAAATTAGTGTTGTGAAACGGTAATATTTGATGATTGGTTTCAAAAATTTTGCAGGCA
>n562_u532_AE016765_6S RNA_Escherichia coli CFT073
CGGTGAGCAAACTGCACATCGGCAACGGGCTGGAGAAAGGCGTCACCATCGGGCCGCTGATCGATGAAAAAGCGGTAGCAAAAGTGGAAGAGCATATTGCCGATGCGCTGGAGAAAGGCGCGCGCGTGGTTTGCGGCGGTAAAGCACATGAACGCGGCGGTAACTTCTTCCAGCCGACCATTC
>n563_u533_AE016766_RNase P RNA_Escherichia coli CFT073
GCCTTGAGCGAGATATATTAAAAAAAGCAACAGCGTATTTTGCACAGGAGTCGCTGAAAAATACGCGTTAATCGAACAATGGCGACAACAATTTCCCATTGAAGCGATGTGTCAGGTATTTGGTGTATCCAGGAGCGGTTATTACAACTGGGTACAGCATGAACCCTCAGACAGAAAACAAAGTGATGAGCGGCTAAAACTGGAGATTAAGGTGGCACATATCCGCACTCGCGAAACATATGGAACCCGGCGGCTCCAGACGGAGCTGGCAGAGAATGGCATCATCGTTGGTCGTGACCGACTGGCACGTCTTCGTAAGGAGCTAAGGCTACGCTGTAAGCAGAAACGCAAGTTCAGAGCGACTACGAACTCGAACC
>n564_u534_AE016769_Spot 42 RNA_Escherichia coli CFT073
CATGCAGAACGCTCACCTCCCAAGATCTTGGTTTTTATAAGGTGTAATGATAATGTAAGCTAATGTTTCACATGCCAAAGGAAACACCATGAGCCACAGGGAATTGTTC
>n565_u535_AE016836_MicF RNA_Salmonella enterica subsp. enterica serovar Typhi Ty2
ACCAGTCGGCAAGTCCATTCTCCGCAAAAATACAGAATAATCCAACACGAATATGATACTAAAACTTTTAAGATGTTACAGTTATCTATATAGATGTTTCAAAATATGAATTTTACGGAACTTTTTTAAAGCAAAAATCAAGTAAAAATAAGCACAAATAGACAAAATATATTCACGAAACTTTTAAAATCAACGGGTTAAATTGATGAAATTCATAGCACTGAATGATAAAACAGAATCTTCATTCGCAACTAAAATAGTGACCGCTATCATCATTAACTTTATTTATTACCGTCATTCACTTCTGAATGTCTGTTTACCCCTATTTCAACCGGATGCTTCGCATTCGGTTTTTTT
>n566_u536_AE016837_DsrA RNA_Salmonella enterica subsp. enterica serovar Typhi Ty2
CACATCAGATTTCCTGGTGTAACGAATTTTCAAGTGCTTCTTGCATAAGCAAGTTTGATCCCGACCCGTAGGGCCGGGATT
>n567_u537_AE016842_SRP_4.5S RNA_Salmonella enterica subsp. enterica serovar Typhi Ty2
GCGTTGGTTCACAACGCTCTCAATGGGGGCTCTGTTGGTTCTCCCGCAACGCTACTCTGTTTACCAGGTCAGGTCCGGAAGGAAGCAGCCAAGGCAGATGACGCGTGTGCCGGGATGTAGCTGGCAGGGCCCCCACCC
>n568_u538_AE016843_csrB RNA_Salmonella enterica subsp. enterica serovar Typhi Ty2
GAGTCGTACAACGAAGCGAACGTCAGGATGATGACGCTTCAGCAGGACACGCCAGGATGGTGTTACAAGGAAAGGCTTCAGGATGAAGCAAAGTGGAAAGCGCAGGATGCGTTAAAGGACACCTCCAGGACGGAGAACGAGAGCCGATCAGGATGTTCGGCGGATCTGGATAACCAGGGACGCTTCAGGATGAAGCTATCACATCGGGCGATGTGCGCAGGATGTAAACGTTCAGGATGAACAGGCCGTAAGGTCACAGGAAAAGTTGTCACGGATGAGCAGGGAGCACGAAAAGTAGCTGGAATGCTGCGAAACGAACCGGGAGCACTGTTTATACAGTGCTCCCTTTTTTTGTT
>n569_u539_AE016843_tmRNA_Salmonella enterica subsp. enterica serovar Typhi Ty2
TTAATCGCGCGAAAGAAGCGCTGCGCGAGCGGTAAATCGCTGAAGATAAGAAGATACGGGGGCTGGTCACGCGTGTCACAAGTCTGTTATACTTACCTTACACATTGGGGCTGATTCTGGATTCGACGGGATTTGCGAAACCCAAGGTGCATGCCGAGGGGCGGTTGGCCTCGTAAAAAGCCGCAAAAAAATAGTCGCAAACGACGAAACCTACGCTTTAGCAGCTTAATAACCTGCTTAGAGCCCTCTCTCCCTAGCCTCCGCTCTTAGGACGGGGATCAAGAGAGGTCAAACCCAAAAGAGATCGCGCGGATGCCCTGCCTGGGGTTGAAGCGTTAAAACGAATCAGGCTAGTCTGGTAGTGGCGTGTCCGTCCGCAGGTGCCAGGCGAATGTAAAGACTGACTAAGCATGTAGTACCGAGGATGTAGGAATTTCGGACGCGGGTTCAACTCCCGCCAGCTCCAC
>n570_u540_AE016844_RNase P RNA_Salmonella enterica subsp. enterica serovar Typhi Ty2
GAAGCTGACCAGACAGTCGCCGCTTCGTCGTCGTCCTTTCGGGGAGACGGGCGGAGGGGAGGAAAGTCCGGGCTCCATAGGGCAGGGTGCCAGGTAACGCCTGGGGGGGGAAACCCACGACCAGTGCAACAGAGAGCAAACCGCCGATGGCCCACGCAAGTGGGATCAGGTAAGGGTGAAAGGGTGCGGTAAGAGCGCACCGCGCGGCTGGTAACAGTCCGTGGCACGGTAAACTCCACCCGGAGCAAGGCCAAATAGGGGTTCATAAGGTACGGCCCGTACTGAACCCGGGTAGGCTGCTTGAGCCAGTGAGCGATTGCTGGCCTAGATGAATGACTGTCCACGACAGAACCCGGCTTATCGGTCAGTTTCACTT
>n571_u541_AE016844_6S RNA_Salmonella enterica subsp. enterica serovar Typhi Ty2
ATTTCTCTGAGATGTTTGCAAGCGGGCCAGTCCCCTGAGCCGATATTTCATACCACAAGAATGTGGCGCTCCGCGGTTGGTGAGCATGCTCGGTTCGTCCGAGAAGCCTTAAAACTGTGACGACACATTCACCTTGAACCAAGGGTTCAAGGGTTACAGCCTGCGGCGGCATCTCGGAGATTC
>n572_u542_AE016845_OxyS RNA_Salmonella enterica subsp. enterica serovar Typhi Ty2
AGCATAGCAACGAACGATTATCCCTATCAACCTTTCTGATTAATAATACATCACAGAACGGAGCGGTTTCTCGTTTAACCCTTGAAGACACCGCCCGTTCAGAGGGTATCTCTCGAACCCGAAATAACTAAAGCCAACGTGAACTTTTGCGGACCTCTGGTCCGCTTTTTTTTGCGTAAAAAA
>n573_u543_AE016846_Spot 42 RNA_Salmonella enterica subsp. enterica serovar Typhi Ty2
GTAGGGTACAGAGGTAAGATGTTCTATCTTTCAGACCTTTTACTTCACGTAATCGGATTTGGCTGAATATTTTAGCCGCCCCAGTCAGTTTATGACTGGGGCGTTTTTTA
>n574_u544_AE016850_GcvB RNA_Tropheryma whipplei str. Twist
ATGCATGAGAGGCATATCGGCCCAAGCCAAGAAGAGATTGATCACATGCTTGGCTTTCTTGGTTATAAGAGCCTTGATGATCTCATGAATGCTGCGCTTCCAAACGGCGTACAGTCGCCACCAGATATCAAGATCCCGTCACACGATGAGCTAACCTGCCTCACCCAGCTAGCAGCGTACGCGAAGATGAATCGGATAAAGACCTCGATGCTTGGCCAGGGGTTCTATAACTGTATTACTCCCGCAGTTATACGCAGAAATATCCTTGAAAATCCGTCTTGGTACACCTCTTACACGCCGTATCAACCTGAGATTTCTCAGGGTCGCCTTGAGATGCTGATCAATTTTCAAACCATGATTTGCGATCTAACCGGCCTGGAAATAGCTAATGCATCAATGTTAGATGAGGCGTCATGCGCCGCAGAGGCGATGCTTCTGGCAAAAAGAGTCTCTAGATCTAGTTCCAATAAGTATCTCGTTCATAACGGCGTATTTCCCCATATCCGAAGGGTTCTTGAAACTCGTGCTGATGCTGTTGGCGTGGAAATTGTGGATCTGCCCGAGGGTCAATCAATAGATTTTGACCATTTCGGTGTTTATGCACAATACCAGTCGGCTTCTGGTAAGTTGCTTGATTTGCGGCACCTGTTTTCTAGGTCGAAACGTGCAGGCGCAATTTGTGTTATCGGGTGTGACCTGCTGATGCTTACACTTTTCACAAGTCCCGGTGAGCTTGGTGCAGACATAGCATTTGGCTCAGCTCAGCGCTTTGGTATTCCGATGAATTTCGGTGGACCCTTGGCATCTTTCCTTGCGGCCCGTAAAGCAATGGAACGCTCTCTTCCGGGTCGGCTTGTTGGTGTTAGCGTTGATGCTGACTCGAACCATGCCTACAGACTGACTTTACAGACAAGAGAGCAACATATTCGCCGCGAGAAGGCAACATCGAATATTTGTACGGCAACCGTTCTAATGGCAATTGCCGCTGTGGCTTTTGCGCAACATCATGGCCCAAAGGGTTTGCGTGCAATAGCTCATAGGATAAACACGGTTGCTGTGGGTTTTGCCCGCCTCTTGAAGCAAACGGCTTTCAGGGTGTCATCCTTGGATATATTCGACACTATCGAAATAAACAATCCAACACAGCTTTGCGTCGAGGCTGAATCAAAACACGATCTCTTGTTCTGGAAAGTCGATGATAATAAACTCAGGATTACCTTTGATGAGGTAACAGCTAGACTGGACGGAGATTTGCCAGAGAGACTGTCAAAAGTCTTCGGCATATCCCCCGACAAGATTAGAGATCTTGGGTGTAATTACGATTCATGTGATTGTTCTTTTTATAGCGATTCGCAGCAGGCCCGCGAAGGCTTGAGTTCAGTTGCATCGCGCAATATTTCTGTTCATTCAGATCTCGCCCGGCATCCACTCAGGCGCTTTTCAGGTTATCTAAAACATCCTGTTTTCAATAACTACACTGGCGAGGTTGCTCTAATGCGGTATTTGAAGGCTTTGTCCGATAAAGACTTTGCCCTTGACAGGGGAATGATACCGCTCGGGTCGTGCACTATGAAGCTAAATGCGGCGTTCCAATTAGAACCGGTATTATGGCCAGAATTTGCAAATCTACATCCCTTCGCACCTCGAGGAGATGCTGACGGGACACTGCAAATAATCGATCAAATAGAAACGTGGCTTGCAAATTTAAGTGGATATGATGCTGTATCTTTACAACCCACCGCCGGCAGTCAAGGCGAACTCGCTGGGCTGTTGGCCATTCGCGGCTACTACAAGTCTTTAAACCTTGATCGGGATGTCTGCCTAATTCCTGCAAGCGCACATGGTACCAACGCGGCCAGTGCGGTTCTCGCTGGCATGCGCGTTGTTGTGGTTGCCTGCGATCAACAGGGCAATATAGATCTTGATGATCTAAGGCTTAAGGCGTCAAAAAACGCACATGCGCTTGCAGCTCTCATGGTAACTTACCCCTCAACACATGGGGTCTATGAGGACAATATTTCCGAGGTATGCTCTGTGGTTCACAAATACGGAGGACAGGTTTATGTTGACGGTGCAAATTCCAATGCCCTGATCGGATATCTGAGGACGGGTGATTTTGGCGGTGATGTGTCACATCTGAATCTTCACAAGACATTTGGCATTCCCCACGGCGGGGGTGGTCCAGGAATTGGCCCCGTCGTTGCCAAAGCACACTTGGCTCCCTTTTTACCCTTCAGGAACCGAGTGCATAAACCATCTACTGACTTACCTGCTGTGAAACATATGGGTGGGCCCATTGCGTCGAGTGATTACGGCTTTGCCGGCGCTTTGTATATCAGCTGGGCCTATATATTTTGCCTCGGCTCGCAGGGAATGAAGCGTTGCACTGCTGTTGCCGTTTTGGTTGCTAATTACATCGCAAAACAGCTTTCCGATACATTTCCGGTTTTATATACAGGGAAAAATAATCTTGTTGCGCATGAGTTCATTATGGACTTTAGGGAAGTAACAAGGGTAAGCGGAATTACGGTTGATGATGTGTGTAAACGACTTATCGATTACGGTTTTCATGCCCCGACAATGTCTTTTCCGGTTCCTGGAACCTTAATGGTTGAGCCAACAGAATCTGAGCCATTTTCTGAAATTCAGCGGTTCATAAAAACTATCCGTTCAATTCGGGCTGAAATCGACCGGGTAATAGACAAGACGTATGATCCAGATAATAACCCCCTGAAGCGCGCCCCACACACTCTGGAGCAGATTGCATCGGATAAATGGGATAGGCCATATTCACGGCGTACAGGCATTGTTTATACCTCGGGAAAGTACTGGCCCGCATCTGCGCGGATTGATAATGCATATGGTGATAGAAATATCTTTTGCACATGCCCTGATTTGCCGGATTAA
>n575_u545_AE016850_tmRNA_Tropheryma whipplei str. Twist
GGGGATGACTGGTTTCGACGCTGTTTGTGTACTCGTGGGAAGCGGGTCGAGGATGCGAGGTTGTCTCGTTAACGATCCTCGCAAAATATAAGTGCCAACTTAAAGCGCACTGATCTAAGTCTTGCTGCTTAAGCGCTTAGATCTGTCGGTATAGGGCTTGTCTTCGGCCCTGTATCCGGCATGGTTTTAGAGGACTTGCCGCGTGTTTGCCGCTTGCGTGAACACCGGGACTTTATTGCAAGCTGGGCCTGTTGATTTAGATTCCGCTGCAAAGAATCAGGGCTGAGTATAACGGTTTTAGCGGATACACCCGTAGAAGTCACGGGCTCCATGCCGCGGACGGGGGTTCGATTCCCCCCATCTCCACTG
>n576_u546_AE016851_RNase P RNA_Tropheryma whipplei str. Twist
AGGGCTTGCGGGCGGTCGCGGTGTCTATTGGTACCGAGGAACGTCCGGGCTCCGTAGAGCAAGGCGGTGGGTAACGCCCACCCGGGGTGACCCGAGAGCTGAGTGCCACAGAAAATAACCGCCGTTACGGTAAGGGTGAAAAGGTGGTGTAAGAGACCACCAGGGATTGGGGTGACCCAATCTGCTGGGTAAACCTCGCCTGGAGCAAGATCAAGCAGGGAACTTAGGCTGCTCGTTTAGTTCCCGGGTAGATCGCTAGAGCCTGTTGGCAACAACAGGTCAAGATGGATGGCCGCCTCGTTGGTTTTTAATCCAACGAACAGAACCCGGCGTATAGCAAGCCCTCGTTCA
>n577_u547_AE016978_sok RNA_Shigella flexneri 2a str. 2457T
GTTCAGCATATAGGAGGCCTCGGGTTGATGGTAAAATATCACTCGGGGCTTTTCT
>n578_u548_AE016979_SRP_4.5S RNA_Shigella flexneri 2a str. 2457T
GGGGGCTCTGTTGGTTCTCCCGCAATGCTACTCTGTTTACCAGGTCAGGTCCGGAAGGAAGCAGCCAAGGCAGATGACGCGTGTGCCGGGATGTAGCTGGCAGGGCCCCCACCC
>n579_u549_AE016984_DsrA RNA_Shigella flexneri 2a str. 2457T
AACACATCAGATTTCCTGGTGTAACGAATTTTTTAAGTGCTTCTTGCTTAAGCAAGTTTCATCCCGACACCCTCAGGGTCGGGATTT
>n580_u550_AE016985_MicF RNA_Shigella flexneri 2a str. 2457T
GCTATCATCATTAACTTTATTTATTACCGTCATTCATTTCTGAATGTCTGTTTACCCCTATTTCAACCGGATGCCTCGCATTCGGTTTTTTT
>n581_u551_AE016987_tmRNA_Shigella flexneri 2a str. 2457T
GGGGCTGATTCTGGATTCGACGGGATTTGCGAAACCCAAGGTGCATGCCGAGGGGCGGTTGGCCTCGTAAAAAGCCGCAAAAAATAGTCGCAAACGACGAAAACTACGCTTTAGCAGCTTAATAACCTGCTTAGAGCCCTCTCTCCCTAGCCTCCGCTCTTAGGACGGGGATCAAGAGAGGTCAAACCCAAAAGAGATCGCGTGGAAGCCCTGCCTGGGGTTGAAGCGTTAAAACTTAATCAGGCTAGTTTGTTAGTGGCGTGTCCGTCCGCAGCTGGCAAGCGAATGTAAAGACTGACTAAGCATGTAGTACCGAGGATGTAGGAATTTCGGACGCGGGTTCAACTCCCGCCAGCTCCACCA
>n582_u552_AE016987_csrB RNA_Shigella flexneri 2a str. 2457T
GTCGACAGGGAGTCAGACAACGAAGTGAACATCAGGATGATGACACTTCTGCAGGACACACCAGGATGGTGTTTCAGGGAAAGGCTTCTGGATGAAGCGAAGAGGATGACGCAGGACGCGTTAAAGGACACCTCCAGGATGGAGAATGAGAACCGGTCAGGATGATTCGGTGGGTCAGGAAGGCCAGGGACACTTCAGGATGAAGTATCACATCGGGGTGGTGTGAGCAGGAAGCAATAGTTCAGGATGAACGATTGGCCGCAAGGCCAGAGGAAAAGTTGTCAAGGATGAGCAGGGAGCAACAAAAGTAGCTGGAATGCTGCGAAACGAACCGGGAGCACTGTGAATACAGTGCTCCCTTTTTTTATT
>n583_u553_AE016988_6S RNA_Shigella flexneri 2a str. 2457T
ATTTCTCTGAGATGTTCGCAAGCGGGCCAGTCCCCTGAGCCGATATTTCATACCACAAGAATGTGGCGCTCCGCGGTTGGTGAGCATGCTCGGTTCGTCCGAGAAGCCTTAAAACTGCGACGACACATTCACCTTGAACCAAGGGTTCAAGGGTTACAGCCTGCGGCGGCATCTCGGAGATTCC
>n584_u554_AE016989_RNase P RNA_Shigella flexneri 2a str. 2457T
GAAGCTGACCAGACAGTCGCCGCTTCGTCGTCGTCCTCTTCGGGGGAGACGGGTGGAGGGGAGGAAAGTCCGGGCTCCATAGGGCAGGGTGCCAGGTAACGCCTGGGGGGGAAACCCACGACCAGTGCAACAGAGAGCAAACCGCCGATGGCCCGTGCAAGCGGGATCAGGTAAGGGTGAAAGGGTGCGGTAAGAGCGCACCGCGCGGCTGGTAACAGTCCGTGGCACGGTAAACTCCACCCGGAGCAAGGCCAAATAGGGGTTCATAAGGTACGGCCCGTACTGAACCCGGGTAGGCTGCTTGAGCCAGTGAGCGATTGCTGGCCTAGATGAATGACTGTCCACGACAGAACCCGGCTTATCGGTCAGTTTCACCT
>n585_u555_AE016990_Spot 42 RNA_Shigella flexneri 2a str. 2457T
GTAGGGTACAGAGGTAAGATGTTCTATCTTTCAGACCTTTTACTTCACGTAATCGGATTTGGCTGAATATTTTAGCCGCCCCAGTCAGTAATGACTGGGGCGTTTTTTA
>n586_u556_AE016990_OxyS RNA_Shigella flexneri 2a str. 2457T
GAAACGGAGCGGCACCTCTTTTAACCCTTGAAGTCACTGCCCGTTTCGAGAGTTTCTCAACTCGAATAACTAAAGCCAACGTGAACTTTTGCGGATCTCCAGGATCCGC
>n587_u557_AE017043_ReplicationControl RNA_Yersinia pestis biovar Medievalis str. 91001
AAGCAAAAACCCCGATAAACTTCCTCATCTTTGGCGAGGCGAGAAGGTTACCGGGGCCCACTTAAAACTGTATAG
>n588_u558_AE017129_SRP_4.5S RNA_Yersinia pestis biovar Medievalis str. 91001
GGTGGAGGCCCTGCCAGCTACATCCCGGCACACACCTCGCCTGCTGCGGCTGCTTCCTTCCGGACCTGACCGAGTTCACAAGTTAGTGTTGCGGGAGAACCAACAGGGCCTCCATTGATA
>n589_u559_AE017130_MicF RNA_Yersinia pestis biovar Medievalis str. 91001
AAAAAAACCGGTCAGAGACCGGTCGTAACATTAACGAACTATCTGACTGTGTTAGCCACAATGATAGGAAAATAATGATGATAGC
>n590_u560_AE017130_tmRNA_Yersinia pestis biovar Medievalis str. 91001
TGGTGGAGCTGGGGGGATTTGAACCCCCGTCCGAAATTACTACACCGTCGGCACTACATGCTTAGTCCAATCATTACATTCGCCGGCCAGCTGCGGATGGACACGCTACTGACAAACTATCCTGATTAGTTTTAATGCTTCCACCCCAGGCAAGGTTTCCACACGAGCTCTTTTAGGTTTGACCTCTCTTGATCCCCGTCCTAAGAGCGGAGGCTAGGGAGAGAGGGCTCTAAGCAGGTTATTAAGCTGCTAGTGCGTAGTTTTCGTCGTTTGCAACTATTTTTTTTGCGGTTTTTTACGAGGCCACCGCACCTCGGCATGCACCTTGGGTTTCGCGAATCCCGTCGAATCCAGAATCAGCCCC
>n591_u561_AE017141_6S RNA_Yersinia pestis biovar Medievalis str. 91001
ATTTCTCTGAGGTGTTTGCCAGCGGGCCAGTCCCCTGAGCCGATATTTAATACCAACAGAATGTAGTGCTCCGTAACCGGTGAGCATGCTCGGTCCGCCGAGAAGCCTTAAGGTTGCGACGCTGCGTTCACCTTGAACCAAGGGTTCAAGGGTTACAGCCTGCGACGGCACCTCGGAGATCC
>n592_u562_AE017161_tmRNA_Prochlorococcus marinus subsp. marinus str. CCMP1375
ACTAGGTGATTCACACCATTATCTCGGACAGCGGTTCGATTCCGCTCAGCTCCATCTATTCTGGGGCTGCAATGGCTTCGACGGGGTTCTAGGAGTTTGACTGAAACCTGCTCGGTTAGAGCAAAACCATAACTGCTAACAAAATCGTTAGTTTCTCCCGTCAAACAGCACCTGTTGCTGCTTGACCTTATAAAGGAGATGGGGTTAGATCAGCCTTATCAACCAAATGATCCATTGGGCTTGGAAGAGCCCTTTTCAT
>n593_u563_AE017165_SRP_4.5S RNA_Prochlorococcus marinus subsp. marinus str. CCMP1375
GACTCGGGCCCATGCGGCTTCGACGCCTAAATCTGGTCAGGACCGGAAGGTAGCAGCCACAAGGGATGCTTGAATCTGGCGTGGATTCCGGGTCACC
>n594_u564_AE017166_RNase P RNA_Prochlorococcus marinus subsp. marinus str. CCMP1375
GAAAGCAGGAGAGGTGATCGCAATCGAGATTTATCGCGTTTCCGCAATAAACTCTCGGTTGAGGAAAGTCCGGGCTCCCAGATGGTCCAACTTGCTGGGTAACTCCCAGTGCGGGTGACCGTGAGGATAGTGCCACAGAAACACACCGCCGATGTCTCATAGAGCACAGGCAAGGGTGCAAAGGTGCGGTAAGAGCGCACCAGCAGTATCGAGAGGTACTGGCTTGGTAAACCCCGGTTGGGTGCAAGGCAAAGGTTTTAGGATGACCATTTTGCCTATTTCCTATTTAAAGCCGCTCGAGGCTGTTGGAGACAACAGTCCCAGATAGATGATCACCCACTAACCAATTTTGGATAGTGAACAGAACCCGGCTTACTTCCTGCTTTC
>n595_u565_AE017170_snRNA_Trypanosoma brucei
CTGGTCCATTGCATCGACGGAGCCCACCCGAATATATAATTACTTATTGAATTTATTCTTCGGTATTTCCTAGCTTGTTGCAGCCTACGGAACTTTTGGATAAGGCGCTGCATATCTTCTCGGCTATTTAGCTAAGATCAAGTTATTAAACTGTTCTTATCAGAGTAACTCCTGATACGGGCCTTTGGCCCAAGGATCAAAACTGTTGGCTGTCCCGCGTTCTTCCGGGGTTCCACTTGTCCGGATGGAGCGCGACGGTCGCAAACGTTTTCCGACAAAACCAACCACTGAACGTTGTAAGGCAGTTATTGGAACGACCCGCATTTCCCATCACTTTATTCTCGCTTGGTGTATACTTTAACGCCTCGGATCC
>n596_u566_AE017213_tmRNA_Geobacter sulfurreducens PCA
GGGGGTGTACAGGTTTCGACGGGGATAGGAAGCTGATGGTTGCATGCCGAGGTCCGGGCTGGCCTCGTTAAAAAGCCCGGGGCGAATTACACGCCGATAATTACGACTACGCTGTAGCAGCTTAATAACCTGCTACCGATCCGCTGAGCCTCTCCCACGGGTGAAGATGGATCGTCATTTTAGTGGGATAGTTGCGGGGAGGGTCCACGGCCCCAAGGCGAAACCTTAGTGGAATCGCTTCCCGGAAATCCCTGCCAGGGGAGAGTCGGGCGGCTAAATCAAATCCTGGTATAAGCATGTAGACGCCTTCGGTGTATGATCTTCGGACGCGGGTTCGACTCCCGCCACCTCCACCA
>n597_u567_AE017218_RNase P RNA_Geobacter sulfurreducens PCA
GAGGAAAGTCCGGGCTCCACAGGGCATGGTGCTGGATAACGTCCAGCGGGGGCGACCCCAGGGATAGTGCCACAGAGAGAAGTCCGCCCGCTCAGGCGGGTAAGGGTGAAAGGGTGAGGTAAGAGCTCACCGGGTTCGGCGGTGACGTCGGATGCCAGGTAAACCCCACCAGGAGCAAGGCCGAATAGGGAAGCGTCAAGGATGGCCCGTCCGTGCTTCCGGGTTGGCTGCTTGAGGCCGTCGGTAACGGCGGTCCCAGAGGAATGGTCATCGCCCGCCAAGGGGTAACCCGCGGCGGGAACAGAACCCGGCTTA
>n598_u568_AE017258_RNase P RNA_Wolbachia endosymbiont of Drosophila melanogaster
GAGGAAAGTCCGGGCTCCAAGGAAAAATAGTGACGGGTAATGCCCGCCGGAGGTAACTCCAGTTATAGGGCTACAGAAAATTACCGCCTAAAATATTTTTAGGTAAGGGTGAAAAGGTGTGGTAAGAGCACACCATGGCAATGGCAACATTGGTAGTCGAGTAACCAACACTAGGAGCAAGATTAAATAGAAGTAGATTTTATGTTTTCCTCATATCTACTCGGGTAAATCGCATGCGGTAAATGGTAACATTTACTCCAGATAAATAGCTACATAAACAGAACTCGGCTTA
>n599_u569_AF001689_snoRNA_Homo sapiens (human)
GGGTAATGATGGAAAAATCATTATTGGAAAAGAATGACATGAACAAAGGAACCACTGAAGTG
>n600_u570_AF004371_RNase P RNA_Pelobates cultripes (western spadefoot toad)
AGATGTGGAGGGAAGCTCAGTGCTGAGGCTACAACCTGAGTGCATTTGTCACTCTCATACATTCCTCAGGGAAGGTCTGAGATTAGAGCCATCTATTGTCTTAACAAGGCATTGCTTGGTTTGAGCAAATGAGTTACCATCAAACCTTGTTCTGTTGTCGCTAGACTGCACAAGTAATAGAAGTGGTTTTCCTCTATGGATGCTGAGGCAACTGATTTGGAAAGTGACTCATGACTAGCAAATTCAAGTTCAATTGCTGAGAGGAAGTCATTACTTCCTAACCCAATTCAGACCACTCTCCGGAATTCCG
>n601_u571_AF004372_RNase P RNA_Discoglossus jeanneae (Spanish painted frog)
GCGGAAGGAAGCTCACTGTAGAGGTTACATACTGAGTGCGTCAATTCTGTGATGTCACTTCATTATTCCCTCCGGGAAGGTCTGAGACAAGAGCCAATAGCCGCCCTTACAGGGCGTCACTTGAGCGGGTGAGTGAGTCCCCAGCAACCCCACGGTGGAGTGGACCGGCCCGCTGTGTGGAGGAGGCTCTGCAGGAGAGGCGGGGTGGGCTTGTGGTGAGAGGGAGTGGTCGCAGATTGAGGCTGCTCCCACCTTACACACGGCTCCACCCGGCTGATGCTGCCTCCTCCCCGGGCCTTGGAAGTGGCTCTCGGCTGGCTGTATGAGTCCAATGGCTGAGGTGGGGCAGCTGCACGGGATGTGTGCGCGCCCCATAACCCAATTCAGACCACTGTCCGGAATTCCG
>n602_u572_AF004373_RNase P RNA_Ascaphus truei (tailed frog)
GCGGAAGGAAGCTCACTGTAGAGGCTACTTGCTGGGTGCTGTTGTTACTCTATCAACCAGCCTTGGGGAAGGTCTGAGATAAGAGCCACTTGTTGCCTTCACAAGGCATTGCTTGGTGTAAGCAAGTGAGTTCCCATCAAAGATGGCTCAGTTGCAAGCTTAATGCAAGAGACATAGCAAAGAAGCCCAATATACTTCTGATATGGATGCAATGCCCAACAGACTGGAAATGACTCACGGCTGGCATGTTCAAGCTCAATGACTGAGGGGAAGCAAGTGATGGCTTCCTAACCCAATTCAGACCACTCTCCGGAATTCCG
>n603_u573_AF004374_RNase P RNA_Alytes obstetricans (midwife toad)
CGGAAGGAAGCTCACTGTAGAGGTCATGTACGGAGTGCGTCACAACTGTGATGTCACTCCATTAATTCCTCCGGGAAGGTCTGAGACAGGAGCCATTAGCTGCCCTCACAGGGCGTCACCTGAGTGGGTGAGTGAGTCCCCAGCAACCCCACGCTGGAGTGGACCGGCTCGACACGTGGAGTGGGCTCTGCAGGAGAGGCGGGGTGGACTGCAGTGAGAGGGTGGAGTTACAGATTGACACTCCCACCCAACTCAGTGAGGCTCCGCCCAGCTGATGCCGCCCCCTCCCCGGGCCTTGGAAGTGGCTCACGGCTGGCTGTGTTAGTCCAATGGCTGAGGTGGAGCAGCTGCACGGGATGTGTGCGCGCCCCATAACCCAATTCAGACCACTCTCCGGAATTCCG
>n604_u574_AF004375_RNase P RNA_Euproctus asper
GCGGAAGGAAGCTCACTGTAGAGGCTACATGCAGAGTGCATATGTCACTCAAGTACCTTGGGGAAGGTCTGAGACAGGAGCCGGTAATTGCCCCAGCAGGGCATCCCCTGAAAAGGGGAGCGAGCTCCCAGAGACCCGGGGCCCAAAGGGGGTGGCATGAGACGCGTGACCGTGTATCTGGTACTCGCTGATGCTTACTCCTTCCGGGCATTGGAAGTGGCTCGCGGCTGGCACTCCCCTGAGTGCAATGGCTGAGGTGAGGTAATGGCGCCTCATAACCCAATTCAGACCACTCTCCGGAATTCCG
>n605_u575_AF004376_RNase P RNA_Lachesis muta (bushmaster)
GCGGAAGGAAGCTCACTGTAGAGGCCACTAGCTTGGGTGTCTATCACCCTACTTCCGCCTCTGGGAAGGTCTGAGGGAAGGGCCAAATTGCCGCCCTAGCAGGGTGCCACCTTCTGAAGGTGGGGTGAGTTCCCACCAATGTGGGTCTCCGATGAAGCCCTAGAATTGAGGCAGGAGAAGTGGAGAGGGGTCGTAGGCTCCTCCCCGCGGATGCCTCTGTGGCTCCGTTCGGGATTTGGGAATGACTCACGGCTGGCAGCTTTGAGTACAATGGGAAGAGGTGAAGCCCGCCAGCTTCATAACCCAATTCAGACCACTCTCCGGAATTCCG
>n606_u576_AF004377_RNase P RNA_Oncorhynchus sp
GGGCGGAGGGAAGCTCATCAGTGGGGTCACATGTAGGGTGCTTGTCACTCAACCAATCACCTTGGGGAAGGTCTGAGACAAGAGCCAATCACTTCCCTAGCAGGGTATCACCTGATCTGGGTGAGTGAGTGCACAGAGAATATGAGCCATTGTGAGTTGTCTTTACGGAAGAAACCAGCCAGTACAGCTCTCCAGCACTACTGGTGGATGTGACCTCACTGGCTTGGAAACACTCATGGCTGGCATATGAGTTTAATGTGTGAGTTGGAGTACACCTCCAGAACCCAATTCAGACCACTCTCCGGAATTCCG
>n607_u577_AF006632_snRNA_Leptomonas collosoma
ACCGGCATCACTGCTTCGACTTTTACTAAGCAGCGCAGCCAACACATATCATGTCAAATTTTGGGAACCCTTGTGGTTTT
>n608_u578_AF006750_SRP_7SL RNA_Leptomonas collosoma
AGCCTTGCTCTGTAACCTTCGGGGGCTTTCACCAGCTGAACAGGGAGCTGTCTGGACCAGCATAGGGTGCTTGCGGCGTTGACGTGGTGCTCTGCTTGGCTGTGTGTCGGAGGCCTCCGGGTGCCCCCTTGCAGAAGGGGCGCGCCCCCTCCGTTAAAGTAGAGGAACTGGGTCAGGCCGGCAACGGAGCAGCCCACCTCGCGCACGTCTGCCGTTGCAGAACCACACCGCGGAGCCTGTCATCACCTGCGCCCCAGGCGATCCTGTGAAGCTTTT
>n609_u579_AF007261_RNase P RNA_mitochondrion Reclinomonas americana
AAAGTTTATTGGATGTCTGATTATAATATATAATAGGAAAGTCTGGACTCATTTAAAAAGTGCAGGATAAATTCCTGCAGAGAAAACTCTAGGGAAAGTGTTAAAGAAATATAAAAACTCTTTTTTAATATTAGAGTTTTTTGAAAAGATATAATCTAATAATTTAAAAAAAAATTATTAAAGAAACCCCACTTTGAGCAAAACCATTAGGTTGCTAAAAACAAATACGTAAGAGATTGTTTCAGAGAAATAGACATACATAAAAATTTTTTTAAATTTTTAGGACAAAATCCAGCTTATAAATAAACTTT
>n610_u580_AF012792_RNase P RNA_Saccharomonospora azurea
GAGGAAAGTCCGGGCTCCACAGGGCAGGGTGGTTGCTAACAGCAACCCGGGGTGACCCGCGGGACAGTGCCACAGAGAACAGACCGCCCGGCCGTCTCGGCCGGGTAAGGGTGAAACGGTGGTGTAAGAGACCACCAGCGCCTCGGGTGACCGGGGCGGCTCGGTAAACCCCACCCGGAGCAAGGCCAAGAGGGAGCCGCGAGGCTCCTGCGCAGGCGTTCGAGGGCGGCCCGTCCGATGCCTGCGGGTAGGCCGCTGGAGCCTGTCGGCGACGGCAGGCCAAGATGGATGGTCGCCCAGCGTCCGCCGCGAGGCGGGCGTGGACAGAACCCGGCGTAG
>n611_u580_AF012793_RNase P RNA_Saccharomonospora azurea
GAGGAAAGTCCGGGCTCCACAGGGCAGGGTGGTTGCTAACAGCAACCCGGGGTGACCCGCGGGACAGTGCCACAGAGAACAGACCGCCCGGCCGTCTCGGCCGGGTAAGGGTGAAACGGTGGTGTAAGAGACCACCAGCGCCTCGGGTGACCGGGGCGGCTCGGTAAACCCCACCCGGAGCAAGGCCAAGAGGGAGCCGCGAGGCTCCTGCGCAGGCGTTCGAGGGCGGCCCGTCCGATGCCTGCGGGTAGGCCGCTGGAGCCTGTCGGCGACGGCAGGCCAAGATGGATGGTCGCCCAGCGTCCGCCGCGAGGCGGGCGTGGACAGAACCCGGCGTAG
>n612_u580_AF012794_RNase P RNA_Saccharomonospora azurea
GAGGAAAGTCCGGGCTCCACAGGGCAGGGTGGTTGCTAACAGCAACCCGGGGTGACCCGCGGGACAGTGCCACAGAGAACAGACCGCCCGGCCGTCTCGGCCGGGTAAGGGTGAAACGGTGGTGTAAGAGACCACCAGCGCCTCGGGTGACCGGGGCGGCTCGGTAAACCCCACCCGGAGCAAGGCCAAGAGGGAGCCGCGAGGCTCCTGCGCAGGCGTTCGAGGGCGGCCCGTCCGATGCCTGCGGGTAGGCCGCTGGAGCCTGTCGGCGACGGCAGGCCAAGATGGATGGTCGCCCAGCGTCCGCCGCGAGGCGGGCGTGGACAGAACCCGGCGTAG
>n613_u580_AF012795_RNase P RNA_Saccharomonospora azurea
GAGGAAAGTCCGGGCTCCACAGGGCAGGGTGGTTGCTAACAGCAACCCGGGGTGACCCGCGGGACAGTGCCACAGAGAACAGACCGCCCGGCCGTCTCGGCCGGGTAAGGGTGAAACGGTGGTGTAAGAGACCACCAGCGCCTCGGGTGACCGGGGCGGCTCGGTAAACCCCACCCGGAGCAAGGCCAAGAGGGAGCCGCGAGGCTCCTGCGCAGGCGTTCGAGGGCGGCCCGTCCGATGCCTGCGGGTAGGCCGCTGGAGCCTGTCGGCGACGGCAGGCCAAGATGGATGGTCGCCCAGCGTCCGCCGCGAGGCGGGCGTGGACAGAACCCGGCGTAG
>n614_u580_AF012796_RNase P RNA_Saccharomonospora azurea
GAGGAAAGTCCGGGCTCCACAGGGCAGGGTGGTTGCTAACAGCAACCCGGGGTGACCCGCGGGACAGTGCCACAGAGAACAGACCGCCCGGCCGTCTCGGCCGGGTAAGGGTGAAACGGTGGTGTAAGAGACCACCAGCGCCTCGGGTGACCGGGGCGGCTCGGTAAACCCCACCCGGAGCAAGGCCAAGAGGGAGCCGCGAGGCTCCTGCGCAGGCGTTCGAGGGCGGCCCGTCCGATGCCTGCGGGTAGGCCGCTGGAGCCTGTCGGCGACGGCAGGCCAAGATGGATGGTCGCCCAGCGTCCGCCGCGAGGCGGGCGTGGACAGAACCCGGCGTAG
>n615_u580_AF012797_RNase P RNA_Saccharomonospora azurea
GAGGAAAGTCCGGGCTCCACAGGGCAGGGTGGTTGCTAACAGCAACCCGGGGTGACCCGCGGGACAGTGCCACAGAGAACAGACCGCCCGGCCGTCTCGGCCGGGTAAGGGTGAAACGGTGGTGTAAGAGACCACCAGCGCCTCGGGTGACCGGGGCGGCTCGGTAAACCCCACCCGGAGCAAGGCCAAGAGGGAGCCGCGAGGCTCCTGCGCAGGCGTTCGAGGGCGGCCCGTCCGATGCCTGCGGGTAGGCCGCTGGAGCCTGTCGGCGACGGCAGGCCAAGATGGATGGTCGCCCAGCGTCCGCCGCGAGGCGGGCGTGGACAGAACCCGGCGTAG
>n616_u581_AF012798_RNase P RNA_Saccharomonospora azurea
GAGGAAAGTCCGGGCTCCACAGGGCAGGGTGGTTGCTAACAGCAACCCGGGGTGACCCGCGGGACAGTGCCACAGAGAACAGACCGCCCGGCCGTCTCGGCCGGGTAAGGGTGAAACGGTGGTGTAAGAGACCACCAGCGCCTCGGGTGACCGGGGCGGCTCGGTAAACCCCACCCGGAGCAAGGCCAAGAGGGGGCCGCGAGGCTCCTGCGCAGGCGTTCGAGGGCGGCCCGTCCGATGCCTGCGGGTAGGCCGCTGGAGCCTGTCGGCGACGGCAGGCCAAGATGGATGGTCGCCCAGCGTCCGCCGCGAGGCGGGCGTGGACAGAACCCGGCGTAG
>n617_u582_AF012799_RNase P RNA_Saccharomonospora glauca
GAGGAAAGTCCGGGCTCCACAGGGCAGGGTGGTTGCTAACGGCAACCCGGGGTGACCCGCGGGACAGTGCCACAGAAAACAGACCGCCCGGCCGACAGCGGCCGGGTAAGGGTGAAACGGTGGTGTAAGAGACCACCAGCGCCTCGGGTGACCGGGGCGGCTCGGTAAACCCCACCCGGAGCAAGGCCAAGAGGAAGCCCTCGGGCTTCTGCGCAGGCGTTCGAGGGCGGCCCGTCCGATGCCTGCGGGTAGGCCGCTAGAGCCTGTCGGCGACGGCAGGCCCAGATGGATGGTCGCCCATCGTCCGCCGCGAGGCGGGCGTGGATAGAACCCGGCGTAG
>n618_u582_AF012800_RNase P RNA_Saccharomonospora glauca
GAGGAAAGTCCGGGCTCCACAGGGCAGGGTGGTTGCTAACGGCAACCCGGGGTGACCCGCGGGACAGTGCCACAGAAAACAGACCGCCCGGCCGACAGCGGCCGGGTAAGGGTGAAACGGTGGTGTAAGAGACCACCAGCGCCTCGGGTGACCGGGGCGGCTCGGTAAACCCCACCCGGAGCAAGGCCAAGAGGAAGCCCTCGGGCTTCTGCGCAGGCGTTCGAGGGCGGCCCGTCCGATGCCTGCGGGTAGGCCGCTAGAGCCTGTCGGCGACGGCAGGCCCAGATGGATGGTCGCCCATCGTCCGCCGCGAGGCGGGCGTGGATAGAACCCGGCGTAG
>n619_u583_AF012801_RNase P RNA_Saccharomonospora glauca
GAGGAAAGTCCGGGCTCCACAGGGCAGGGTGGTTGCTAACGGCAACCCGGGGTGACCCGCGGGACAGTGCCACAGAAAACAGACCGCCCGGCCGACAGCGGCCGGGTAAGGGTGAAACGGTGGTGTAAGAGACCACCAGCGCCTCGGGTGACCGGGGCGGCTCGGTAAACCCCACCCGGAGCAAGGCCAAGAGGAAGCCCTCGGGCTTCTGCGCAGGCGTTCGAGGGCGGCCCGTCCGATGCCCGCGGGTAGGCCGCTAGAGCCTGTCGGCGACGGCAGGCCCAGATGGATGGTCGCCCATCGTCCGCCGCGAGGCGGGCGTGGATAGAACCCGGCGTAG
>n620_u582_AF012802_RNase P RNA_Saccharomonospora glauca
GAGGAAAGTCCGGGCTCCACAGGGCAGGGTGGTTGCTAACGGCAACCCGGGGTGACCCGCGGGACAGTGCCACAGAAAACAGACCGCCCGGCCGACAGCGGCCGGGTAAGGGTGAAACGGTGGTGTAAGAGACCACCAGCGCCTCGGGTGACCGGGGCGGCTCGGTAAACCCCACCCGGAGCAAGGCCAAGAGGAAGCCCTCGGGCTTCTGCGCAGGCGTTCGAGGGCGGCCCGTCCGATGCCTGCGGGTAGGCCGCTAGAGCCTGTCGGCGACGGCAGGCCCAGATGGATGGTCGCCCATCGTCCGCCGCGAGGCGGGCGTGGATAGAACCCGGCGTAG
>n621_u584_AF012803_RNase P RNA_Saccharomonospora sp
GAGGAAAGTCCGGGCTCCACAGGGCAGGGTGGTTGCTAACGGCAACCCGGGGTGACCCGCGGGACAGTGCCACAGAAAACAGACCGCCCGGCCACCGGCCGGGTAAGGGTGAAACGGTGGTGTAAGAGACCACCAGCGCCTCGGGTGACCGGGGCGGCTCGGTAAACCCCACCCGGAGCAAGGCCAAGAGGGAGCCGTGAGGTTCCTGCGCAGGCGTTCGAGGGCTGCCCGCCCGATGCCTGCGGGTAGGCCGCTTGAGCCTGCCGGCGACGGCAGGCCCAGATGGATGGTCGCCCATCGTCCGCCGCGAGGCGGACGTGGACAGAACCCGGCGTAG
>n622_u585_AF012804_RNase P RNA_Saccharomonospora cyanea
GAGGAAAGTCCGGGCTCCACAGGGCAGGGTGGTTGCTAACGGCAACCCGGGGTGACCCGCGGGACAGTGCCACAGAAAACAGACCGCCCGGCCTTAACGGTCGGATAAGGGTGAAACGGTGGTGTAAGAGACCACCAGCGCCTCGGGTGACCGGGGCGGCTCGGTAAACCCCACCCGGAGCAAGGCCAAGAGGGAGCCGCGAGGCTCCTGCGCAGGCGATCGAGGGCGGCCCGTCCGATGCCTGCGGGTAGGTCGCTCGAGCCTGTCGGCGACGGCAGGCCCAGATGGATGGTCGCCCATCGCCCGCCGCGAGGCGGGCGTGGACAGAACCCGGCTTAG
>n623_u586_AF012805_RNase P RNA_Saccharomonospora viridis
GAGGAAAGTCCGGGCTCCACAGGGCAGGGTGGTTGCTAACAGCAACCCGGGGTGACCCGCGGGAAAGTGCCACAGAAAGCAGACCGCCCGGCCACCTCGGCCGGGTAAGGGTGAAAGGGTGGTGTAAGAGACCACCAGCGCCTCGGGTGACCGGGGCGGCTCGGTAAACCCCACCCGGAGCAAGGCCAGAAGGGAGCCGTTGCGGCTCCTGCGCAGGCGTTTGAGGGCGGCCCGTCCGATGCCTGCGGGTAGGCCGCTTGAGCCTGTCGGCGACGGCAGGCCCAGATGGATGGTCGCCCAGCGCTGCGCCGTAAGGCGGGCGTGGACAGAATCCGGCGTAG
>n624_u586_AF012806_RNase P RNA_Saccharomonospora viridis
GAGGAAAGTCCGGGCTCCACAGGGCAGGGTGGTTGCTAACAGCAACCCGGGGTGACCCGCGGGAAAGTGCCACAGAAAGCAGACCGCCCGGCCACCTCGGCCGGGTAAGGGTGAAAGGGTGGTGTAAGAGACCACCAGCGCCTCGGGTGACCGGGGCGGCTCGGTAAACCCCACCCGGAGCAAGGCCAGAAGGGAGCCGTTGCGGCTCCTGCGCAGGCGTTTGAGGGCGGCCCGTCCGATGCCTGCGGGTAGGCCGCTTGAGCCTGTCGGCGACGGCAGGCCCAGATGGATGGTCGCCCAGCGCTGCGCCGTAAGGCGGGCGTGGACAGAATCCGGCGTAG
>n625_u587_AF012807_RNase P RNA_Saccharomonospora viridis
GAGGAAAGTCCGGGCTCCACAGGGCAGGGTGGTTGCTAACAGCAACCCGGGGTGACCCGCGGGAAAGTGCCACAGAAAGCAGACCGCCCGGCCACCTCGGCCGGGTAAGGGTGAAAGGGTGGTGTAAGAGACCACCAGCGCCTCGGGTGACCGGGGCGGCTCGGTAAACCCCACCCGGAGCAAGGCCAGAAGGGAGCCATTGCGGCTCCTGCGCAGGCGTTTGAGGGCGGCCCGTCCGATGCCTGCGGGTAGGCCGCTTGAGCCTGTCGGCGACGGCAGGCCCAGATGGATGGTCGCCCAGCGCTGCGCCGTAAGGCGGGCGTGGACAGAATCCGGCGTAG
>n626_u587_AF012808_RNase P RNA_Saccharomonospora viridis
GAGGAAAGTCCGGGCTCCACAGGGCAGGGTGGTTGCTAACAGCAACCCGGGGTGACCCGCGGGAAAGTGCCACAGAAAGCAGACCGCCCGGCCACCTCGGCCGGGTAAGGGTGAAAGGGTGGTGTAAGAGACCACCAGCGCCTCGGGTGACCGGGGCGGCTCGGTAAACCCCACCCGGAGCAAGGCCAGAAGGGAGCCATTGCGGCTCCTGCGCAGGCGTTTGAGGGCGGCCCGTCCGATGCCTGCGGGTAGGCCGCTTGAGCCTGTCGGCGACGGCAGGCCCAGATGGATGGTCGCCCAGCGCTGCGCCGTAAGGCGGGCGTGGACAGAATCCGGCGTAG
>n627_u588_AF013594_ENOD40 RNA_Lotus corniculatus var. japonicus (Lotus japonicus)
CCCAGAGAGCCATTTGGGGGAAAACCGAACGGACAAGTCTATCCAAGGTGAATCTGTTAGACATGAGATTTTGTTGGCAAAAATCCATCCATGGCTCTTGAAGAAGCATGGAGAGGAATGTGTGAGCGGGTCAGGGTTTTTCACCCCTCACACACAATCCTATGCATCTTACAGTTTGTTTAGGCTTAGCCATTGGCTTCTCTAGTCTTCAAAACTCGTTATGTTGCGGTCGCACTTGCAGTTGTGGATCGCAATTTGAAACCCGAGTTAGTAATCACCGGGCATACCGAGAAGGAGTCTTTATGAGTAGAAGAAGTTGAGAGAGAAGCTTTGGCTACAGCCTGGCGAACCGGCAAGTCACAGAAAGGCAATGGACCCCATTAGGGGTTCTTATGGCTATGTATGAATGACTCTTTTGTAGTTCTTCTTCAAGTAGAATGTAATAAACAAAAATGTTCTTCTTCCTTTGAGGTGGTGTTCATTCATATCACCCAATTTGCAGCTGACTAGACTCCAGTTTGCTCTTCAGTTTCTGCAGATGAGTAGGTAGGTAATTATGATCACCTTGTCTCTTCTTTTTCTGTGTCTGTTTTCCTTTTCTCATGTGTGTATGGTTGTTGTCTTGTGGCCTTATATGCAATAATAGTATTTGAGTGATGTTTTTGTTCCTTCAAGTGTAGGATTGTGTTTTGTAGAAGTTGATCGAGTCGACTCCCTTTAGTGAGGGTTAATTGAGCTCGCGGCCGCGAGCTCTAGAGATCCACTCGTTA
>n628_u589_AF016400_snmRNA_Trypanosoma cruzi
CGCGATCCTGTCACCTCGGGGGCGCTCTCTCAGTGGGCGTACGGCCTCGAGCTCGAGACGGCATGCGCGTGGCTGTCGCGGCCTCGCTGTCCCTTCTGGGCGCGTGCGTTGGACCGTTCCGCTGCGTGTGTGTGCACGGGGGTCGGAGAGCAAGGGCGCGCGCGGTGTGACGCTCGCCCTGTGCGCCTGATCGTCCGCCGCGTGACTATCCCGTTATGCATATCCATATCCGTGTCGCTCTAGCTCCATCGGGGCCC
>n629_u590_AF016400_snmRNA_Trypanosoma cruzi
TGTAGTGCGCTCGTCGCTAAACCAACAGACGCGGTGCACGAAACTGGAGAGCAAGAGA
>n630_u591_AF016400_snoRNA_Trypanosoma cruzi
ATGATGATTGAACGGTAAACATCACAGACTTTGACGAACCCGTGAGAAAGAAACACTGTCGGTAACCAGTCTGAC
>n631_u592_AF016400_snoRNA_Trypanosoma cruzi
TGATCGACAACCAGGCCGATGTGAAGCCGTCGCAGATGGACGTTGACACAGCAATGAAAACAGCGTTATTTCACGCCCCGTCTGATCG
>n632_u593_AF016421_miRNA_Caenorhabditis elegans
CACACCTCACTAACACTGACC
>n633_u594_AF016687_miRNA_Caenorhabditis elegans
GGCAAGACTCTGGCAAAACT
>n634_u595_AF019911_tmRNA_Bacillus megaterium
AGGGAGCGAGCAGGGCGAGCGAGGAGAGGCCCGAAAACACAACGCCAAAAAACGGCAAACAACAAAACCGCAGCGCAAAAGAGCAGCGCCCCCCCACGCCCAGGGAGGGAAGGGACCACAAGGGGCACGCCGGAGCGCCGCGAGGACGAAGGAAGAGAAAACAGACAGCGACGGGACGCCGGGAGGCAGAACAGCCGCGAAGACAAAGCCAACACACCGAGACGCAAGGGCCAACGGACGGG
>n635_u596_AF019999_snmRNA_Oryza sativa (indica cultivar-group)
AGAAGTCGTAACAAGGTTTCCGTAGGTGAACCTGCGGAAGGATCATTGCAGTGACCCTGACCAAAACAGACCGCGAACGCGTCACCCCTGCCCGCCGAGCCTCGCGCGCGAGGCGACCGAGCCCCCGGGCCGCAACAGAACCCACGGCGCCGACGGCGTAAGGAACACACCGATACGCCCCGCGCCGGCCCGGTCGGCCCTGGCCGTCCGGCGGCGCGGCGCGATACCACGAGCTAAATCCACAACGACTCTCGGCAACGGATATCTCGGCTCTCGCATC
>n636_u597_AF020000_snmRNA_Oryza sativa (indica cultivar-group)
AGAAGTCGTAACAAGGTTTCCGTAGGTGAACCTGCGGAAGGATCATTGTCGTGACCCTGACCAAAACAGACCGAGCACGCGTTATCTATTGCTACTGAGTGGCGGCACCGTCGTCGCTCAGCCAAATCCTCGATAACCTCCTCTCCTCGGAGTGGGGGCTTGGGGTAAAAGAACCCACGGCGCCGAAGGCGTCAAGGAACACTGTGCCTAGCTTGGGGACACGACTGGCTTGCTGGCCGCTCCCCTTGCTGCAAAGCTATTTAATCCACAACGACTCTCGGCAACGGATATCTCGGCTCTCGCATC
>n637_u598_AF020057_BC200 RNA_Homo sapiens (human)
GGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCTCTCAGGGAGGCTAAGAGGCGGGAGGATAGCTTGAGCCCAGGAGTTCGAGACCTGCCTGGGCAATATAGCGAGACCCCGTTCTCCAGAAAAAGGAAAAAAAAAAACAAAAGACAAAAAAAAAATAAGCGTAACTTCCCTCAAAGCAACAACCCCCCCCCCCCTTT
>n638_u599_AF020531_snoRNA_Homo sapiens (human)
AAGACTATACTTTCAGGGATCATTTCTATAGTGTGTTACTAGAGAAGTTTCTCTGAACGTGTAGAGCACCGAAAACCACGAGGAAGAGAAGTAGCGTTTTCTCCTGAGCGTGAAGCCGGCTTTCTGGCGTTGCTTGGCTGTAACTGCCGTCAGCCATTGATGATCGTTCTTCTCCCCGTATTGGGGAGTGAGAGGGAGAGAACGCGGTCTGAGTGGT
>n639_u600_AF020534_snoRNA_Homo sapiens (human)
AAGACTATACTTTCAGGGATCAGTTCTATAGTGTGTTACTAGAGAAGTTTCTCTGAACGTGTAGAGCACCGAAAACCACGAGGAAGAGAGGTAGCGTTTTCTCCTGAGCGTGAAGCCGGCTTTTTGGCGTTGCTTCGCTGCAACTGCCGTCAGCCATTGATGATCGTTCTTCTCTCCGTATTGGGGAGTGAGAGGGAGAGAACGCGGTCTGAGTGGT
>n640_u600_AF020535_snoRNA_Homo sapiens (human)
AAGACTATACTTTCAGGGATCAGTTCTATAGTGTGTTACTAGAGAAGTTTCTCTGAACGTGTAGAGCACCGAAAACCACGAGGAAGAGAGGTAGCGTTTTCTCCTGAGCGTGAAGCCGGCTTTTTGGCGTTGCTTCGCTGCAACTGCCGTCAGCCATTGATGATCGTTCTTCTCTCCGTATTGGGGAGTGAGAGGGAGAGAACGCGGTCTGAGTGGT
>n641_u601_AF022787_satellite RNA_Tomato bushy stunt virus satellite RNA B1
NAAATTCTCTGGCTTTGATGCCGATGCCCATCACTGGGGTTGAGGGTTTCTCTCTATGTTCTTTGCACAACTGTGCACTAGATTTAACAGTACCATGTACTTAAACACTCCCACCACACCTGGTGGATTGGGATAGTCATGGCCTAACTTGTTCTGGAGTACATATGTGGCATGATGATTTGCGTACGTGTTATTTCTAGGTGAGTATGGTAACATACATATAACTCTAGTTGAACTCTGAATCCTGAGAACTTAGTTACACTCTCCGGAAGAAGACATAGGGTTTTGAAGGTGGGGCCTACCAATTCTGTTTGGGGGTAAATTGTAACTTCCCACAATTGTGACGATAGCAGGTAATGATCAATAGAGATTGAAGGATGAAGAATCTTGGCGGCGGCGAGGAGCTTAGCTAGCCATTACGGGATTCCTCGGGACTACGGTCTATTCTCTAGGGTCTATCATTGCGCTGTTACCCGGCCATCGTATACTTGAGCAGACGTCCTGTCGGACCTGATATCTACGGATTGACTGAAAGACATGATGGCGAGCCTAACCAAACTTCAAGGAGAAATCTTGTTTGGGTTGCGAGGTGAGCGTATCCTTGTGAATCACTTGTAGAGTGTGGTGAGAAGCCACTAGGACTATAACATAGCCGAATGCGGGTTTTACTCAGTAGGCTAGTCTGAGGGTGTAAGCAAGGGTCAGTAGCGATGTGGCATGGCGGAAGGTTGCCGGGGGGGGGGTCTGTGTGAACAACTAGCACACTAACCGAATTGTTGTTATATCAATTCCTGTCGTTAAATTAATTTTATTAGACAGCCC
>n642_u602_AF022788_satellite RNA_Tomato bushy stunt virus satellite RNA B10
NAAATTCTCTGACTTAAATGTCACTGCGCATGAGGAAGCGTGGAGGGTTTCTCTCGATTTAGTGCTTTCCGCTAAAATCCTAGGTAACCGCAGTAGTGTTAAGAACGAAACTGATTTAGCGATCTAGTATCGACCTGAACCGATGGACTACTCAAACGCGGCTAATTTAGTGGGTATGCATAGCAATTTCCTTTAATGAAATGCTATTGCGCTAGGAAAAATATCCTGTTAGCACATCTCGGGTTTGAAGGCTGGGCGTATCCGTGAGGAGCGTAAATGTAACTTCCAGCAAGTAGGGCTTAGCGGCCTGCCTCAATTCCCATCAATCCAAAAACAGGTGGCCTCTTTCATTAGGAGCTTCCATCTGTTGGTTGTGACGTGAGCTTTGTAGTTGCTATAAACGCAACTGTGGTTCTTTTGTGCGGTACGCCCTCGTTTGAAGGAGAGGAGGATTAAAGGTCGATTCCTACCATTGAGCATGGAATCCACACTTGAACTCTTTGCAATCAGCACATGCGTTCCCAACGTAGTGCTCTCACCACCAGTTACTGGGGGCTTTAGGTGAGAGTGTAAAACAGACAGTGTAAAAGCTGAAATTGTCTTCGGACAGCC
>n643_u603_AF029891_self-splicing ribozyme RNA_mitochondrion Cryphonectria parasitica
TTGAGCCGTATGCCATGAAAGTGGCACGTACGGTTCTGAGGGGGGGAAAGTCTGAGAGGACCTACCTATCCCA
>n644_u604_AF029891_self-splicing ribozyme RNA_mitochondrion Cryphonectria parasitica
TTGAGCCGTATGCGATGAAAGTCGCACGTACGGTTCTTAGAGGGGGAAAGTTCGAGAGGACCTACCTATCTCAAC
>n645_u605_AF031251_csrB RNA_Escherichia coli
GAGTCAGACAACGAAGTGAACATCAGGATGATGACACTTCTGCAGGACACACCAGGATGGTGTTTCAGGGAAAGGCTTCTGGATGAAGCGAAGAGGATGACGCAGGACGCGTTAAAGGACACCTCCAGGATGGAGAATGAGAACCGGTCAGGATGATTCGGTGGGTCAGGAAGGCCAGGGACACTTCAGGATGAAGTATCACATCGGGGTGGTGTGAGCAGGAAGCAATAGTTCAGGATGAACGATTGGCCGCAAGGCCAGAGGAAAAGTTGTCAAGGATGAGCAGGGAGCAACAAAAGTAGCTGGAATGCTGCGAAACGAACCGGGAGCGCTGTGAATACAGTGCTCCCTTTTTTTATT
>n646_u606_AF034624_gRNA_kinetoplast Phytomonas serpens
AATGATTGCAACAAATCATTATTAGCAAGAACAAAACCAAG
>n647_u607_AF034625_gRNA_kinetoplast Phytomonas serpens
ACACGGACGTATAACTTTATACATGGTAAATCGATGA
>n648_u608_AF036389_self-splicing ribozyme RNA_Schistosoma haematobium
ATCCAGCTGACGAGTCCCAAACAGGACGAAACGCGCGTCAAACTGCAT
>n649_u609_AF036390_self-splicing ribozyme RNA_Schistosoma haematobium
ATCCAACTGACGAGTGCCCAATAGGAGGAAACGCGCGTCAAACTGCAT
>n650_u610_AF036391_self-splicing ribozyme RNA_Schistosoma haematobium
ATCCAACTGACGAGTGCCAAATAGGAGGAAACGCGCGTCAAACTGCAT
>n651_u611_AF036392_self-splicing ribozyme RNA_Schistosoma haematobium
ATCCAACTGACGAGCGCCAAATAGGAGGAAACGCGCGTCAAACTGCAT
>n652_u612_AF036393_self-splicing ribozyme RNA_Schistosoma haematobium
ATCCAGCTGACGAGTCCCAAACAGGACGAAACGAGAGTCAAACTGCAT
>n653_u613_AF036394_self-splicing ribozyme RNA_Schistosoma haematobium
ATCCAGCTGACGTGTCCCAAACAGCACGAAACGCGCGTCAAACTGCAT
>n654_u614_AF036395_self-splicing ribozyme RNA_Schistosoma haematobium
CCCTGGCTGACGAGTCCCAAACAGGACGAAACGCGCGTCCTGGAT
>n655_u615_AF036396_self-splicing ribozyme RNA_Schistosoma haematobium
ATCCAACTGACGAGTGCCAAATAGGAGGAAACGCGCGTCAAACTGCAG
>n656_u616_AF036397_self-splicing ribozyme RNA_Schistosoma haematobium
ATCCAGCTGACGAGTCCCAAACAGCACGAAACGCGCGTCAAACTGCAT
>n657_u617_AF036398_self-splicing ribozyme RNA_Schistosoma haematobium
ATCTTTCTGACGAGTTTCAAATAGGACGAAACGCGTGTCATGGAT
>n658_u618_AF036400_self-splicing ribozyme RNA_Schistosomatium douthitti
ATCCAGCTGACGAGTGCCAAATAGGACGAAATGTGCATCCTGGAT
>n659_u619_AF036401_self-splicing ribozyme RNA_Schistosomatium douthitti
ATCCAGCTGACGAGTCCCAAATAGGACGAAATGCGCATCCTGGAT
>n660_u620_AF036402_self-splicing ribozyme RNA_Schistosomatium douthitti
ATCCAGCTGACGAGTGCCAAATACGACGAAATGCGCATCCTGGAT
>n661_u621_AF036404_self-splicing ribozyme RNA_Schistosomatium douthitti
ATCCAGCTGACGAGTGCCAAATAGGACGAAATGCGCATCCTGGAT
>n662_u622_AF036740_self-splicing ribozyme RNA_Schistosoma mansoni
ATCCAGCTCACGAGTCCCAAATAGGACGAAACGCGTCCTCCAT
>n663_u623_AF036741_self-splicing ribozyme RNA_Schistosoma mansoni
ATCCAGCCGACGAGTCCCAAATAAAACGAAACGCGCGTCAAAGTGGAT
>n664_u624_AF036743_self-splicing ribozyme RNA_Schistosoma mansoni
ATTCAGCTGACGAGTCCCAAATAGGACGAAGTGACGCGCGTCCTGGAT
>n665_u625_AF036745_self-splicing ribozyme RNA_Schistosoma mansoni
GTACATCCAACTGACCAGTCGGAAATAGGACGAAACGCGCGTCCAGGAT
>n666_u626_AF036746_self-splicing ribozyme RNA_Schistosoma mansoni
ATCCAGCTGACCAGTCGGAAATAGGACGAAACGCGCGTCCTGGAT
>n667_u627_AF036747_self-splicing ribozyme RNA_Schistosoma mansoni
ATCCAGCTGACGAGTCCCAAATAGGCGAAACGCGCGTCCTGGAT
>n668_u628_AF036748_self-splicing ribozyme RNA_Schistosoma mansoni
ATCCAGCTGACGAGTCCTAAATAGGGTGAAACGCGCGTCCTGGAT
>n669_u629_AF036749_self-splicing ribozyme RNA_Schistosoma mansoni
ATTAACAGACGAGTCCCAAATAGGACGAAGTGACGCGCGTCCTGGAT
>n670_u630_AF036750_self-splicing ribozyme RNA_Schistosoma mansoni
ATCTAGCTGACGAGTCCCAAATAGGACGAAATCGCGTCAAACTGGAT
>n671_u631_AF036751_self-splicing ribozyme RNA_Schistosoma mansoni
ATCCAGCTGACGAGTCCCAAATAGGACGAACGCACTTCCTAGAT
>n672_u632_AF036752_self-splicing ribozyme RNA_Schistosoma mansoni
ATCCAGCTGACGAGTCCCAAATAGGACTTGACGCGCGTCCTGGATTCC
>n673_u633_AF036754_self-splicing ribozyme RNA_Schistosoma mansoni
ATCCAGTTGACGAGTCCCAAATTGGACGAAACGCGCGTCAAACTGGAT
>n674_u634_AF036755_self-splicing ribozyme RNA_Schistosoma mansoni
ATCCNGCTGACGNGTCCCAAATAGGACGGAAGGCGCGTCCCGGAT
>n675_u635_AF036756_self-splicing ribozyme RNA_Schistosoma mansoni
ATCCAGCTGACGAGTCCCAAGTAGGACGAAACGCGCGTCCTGGAT
>n676_u636_AF039050_snoRNA_Caenorhabditis elegans
TATTGAGAGAACATACGTAAAACTAGAGTCAATGCCTTCTTTCTTGTCCTTCTCCATTTTTACAATAAATGCGTCTACAAAATCGTCGCCTTCTTCACTGAGAGTA
>n677_u637_AF039909_self-splicing ribozyme RNA_Rice yellow mottle virus satellite
GGCGAAACCGGTCTGTACACTGATGAGCC
>n678_u638_AF040097_FMR1P binding RNA_Homo sapiens (human)
TTTTTTTTTTTTGGTATTTTTAGTAGGGACGGGATTTCACCGTGTTAGCCAGGGTGGTCTCGATCTCCTGACCTGGTGATCCGCCCACCTCGGCCTCCCAAAGTGCTGGGATTAGAGGCGTAAGCCACCGTACCCAGCAGCTCTCTTGTTCTTTACAGAAGTCTTGCAAACTAGTATCATCCTCATTTTTTAGCTGACAATGGTGAGGGCTAAGAAGTTAAGCCCAACTGCCCCTGAAATGAGCAAGTGCCAGTGCCT
>n679_u639_AF040098_FMR1P binding RNA_Homo sapiens (human)
GCGCAAGCTTTTTTTTTTTTGGCTTAAGATTATCTTGGCAATGTGGGCCCTTTTTCGTTCCACATGAACTTTAAAGTAGCTTTTTCCAANTCTGTGAAGAAAGTCATTGGTAGCTTAATGGGGATGGCATTAAATCTATAAACTACCTTGGGCAGTATGGCCATTTTCATTATATTGATTCTTCCTATCCATGAGCATGGATCAGCCG
>n680_u640_AF040099_FMR1P binding RNA_Homo sapiens (human)
CGGATCGACTCCAAGAAGAAAGCAACATGCTTGGAATGACCCTAGAAACCATTCTCTCCTTTGCAACCCAGTAGCATCAATGACAAAACCTGTGCAGTGGACAGCAAGACTCAAGCGTTTACACTGATACTAGCATCGATGGGATGATTCTTTTTCTACGCATTTCAGGATTTGTTTTTTACTTTTAAGTTTTGCAGATGAGAACATTCTTTATGACAGAAATCCTATGCAGCACATGTTTGGCTTTTGAAGGGACCAAGGAGCTCAATATTCCTCCGTGATGTTAAATTAAATGCTAATCATGAATCCGTATTCCATTGGCAAAAAAAAAAAGCTTGGGC
>n681_u641_AF044325_RNase P RNA_Uta stansburiana
GCGGAAGGAAGCTCACTGTAGAGGTCACTCGCTGGGTGTCTTGATCACCCCCGTTGCTACCTTGGGGAAGGTCTGAGAGAAGGGCCAAGTGTCGTCCTAGCAGGGCGCCATCTTAGGAAGGTGGGTGAGTTCCCAGCAATATGGATCTCCAGTAAAGCCCTACTTTGAGGCAGGAGAAGCAGGGCTGGGGGGGTTCCCTCCTCCCTGCGGATGCCTCCGTGGCTTACTCGGGGTTTGGGAATGACTCACGGCCGGCAACGTTGAGTACAATGGGCAGAGGTGGAGCACCCGCTTCATAACCCAATTCAGACCACTCTCCGGAATTCC
>n682_u642_AF044326_RNase P RNA_Lachesis muta (bushmaster)
GCGGAAGGAAGCTCACTGTAGAGGCCACTAGCTTGGGTGTCTATCACCCTACTTCCGCCTGTGGGAAGGTCTGAGGGAAGGGCCAAATTGCCGCCCTAGCAGGGTGCCACCTTCTGAAGGTGGAGTGAGTTCCCACCAATGTGGGTCTCCGATGAAGCCCTAGAATTGAGGCAGGAGAAGCGGAGAGGGGTCGTGGGTCGTGGGTCGTAGGCATCCTCCCCGCGGATGCCTCTGTGGCTCCGTTCGGGATTTGAGAATGACTTACGGCTGACAGCTTTGAGTACAATGGGAAGAGGTGAAGCACCGCCAGCTTCATATAACCCAATTCAGACCACTCTCCGGAATTCCG
>n683_u643_AF044327_RNase P RNA_Phrynosoma douglassii
GCGGAAGGAAGCTCACTGTAGAGGTCACGCGCTGGGTGTATCGATCACCCTCCTTGCTACCTTTGGGAAGGTCTGAGAGAAGGGCCAAGTGTCGCCTTAGCAGGGCGCCATCTTAGGAAGGTGGGTGAGTTCCCAGCAATAGGGGTCTCCTGTAATGCCCCAGTTTGAGGCAGGAGAAGCGGGGCTGGAGGGGCTACTCCCTCCTTCCTGCGGATGCCTCCGTGGCTTACGCGGGGCTTGGGAATGACTCACGGCCGGCAACGTTGAGTACAATGGGCAGAGGTGAAGCGGCCGCTTCATAACCCAATTCAGACCACTCTCCGGAATTCCG
>n684_u644_AF044328_RNase P RNA_Ensatina eschscholtzii
GCGGAAGGAAGCTCACTGTAGAGGTCATGTGCCGAGTACATTTGTTACTCTCTCACCTTGGGGAAGGTCTGAGACAAGAGCCGTTTCTGTCCTTGCAGGACATCTTCCGAGCCGGGAGAGCGAGCTCCCAGACACTCGGTGCATGGAGGGGTTTGCACAAGATGCTAGTTAGTAGTTGGTGGCTTGATACTGCCTTCCCTGGACTAGTTGATGCCTATTCATCTGGGCATTGGAAGTGGCTTGTGGCTAGCATGGCACTGAGTCCAATGGATGAGGTGAGGCAACTGTGCCTCATAACCCAATTCAGACCACTCTCCGGAATTCCG
>n685_u645_AF044330_RNase P RNA_Xenopus laevis (African clawed frog)
AGATGTGGAGGGAAGCTCAGTGCTGAGGCTACAGACAGAGTGCTGGGGGTCACTCAGTGAGTGTGACTCAGGGAAGGTCTGAGATTAGAGCCCCTTGCTGCTCTCACAGGGCATCACTTGGATGAAGTGAGTGGGTACTCAGAAAGCTTGGCTCTGATTGGCCAGTGAGTGCAAAAGATGCAGTGAGTGCTCCTGGGTTGAGCTCCTGTAGATGCAAAGGCATCAGGCTTGGCACTGCCCACAGCTGGCACATTCAAGCTCAATGGCTGAGAGGGAACTGCCNCAACCCAATTCAGACTACTTTTTTTCCACATTTCA
>n686_u646_AF044331_RNase P RNA_Oncorhynchus sp
GGGCGGAGGGAAGCTCATCAGTGGGGTCACATGCAGGGTGCTTGTCACTCAACCAATCACCTTGGGGAAGGTCTGAGACAAGAGCCAATCACTTCCCTAGCAGGGTATCACCTGATGTGAGTGAGTGCACAGAGAATATGAGCCATTGTGAGCTGTCTTTACAGGAGAAACCAGCCAGTGCAGCTCTCCAGCACTACTGGTGGATGTGACCTCACTGGCTTGGAAACACTCATGGCTGGCATATGAGTGCAATGTGTGAGTTGGAGTACACCTCCAGAACCCAATTCAGACCACTCTCCGGAATTCCG
>n687_u647_AF044737_RNase P RNA_Bufo bufo (European toad)
GCGGAAGGAAGCTCACTGTAGAGGTCACGTGCTGAGTGCGTCACGCTTGTGATGTCATCTCTATCCCACCTCCGGGAAGGTCTGAGACAGGAGCCCCTCGCCGCCCTCACAGGGCGTCACCTGATATTCGGGTGAGTGAGCCCCCAGCAACCCACGTTGGAGTGGACCGGTCCGTTATGTGGGAGAGGCTATGCAAAAGACGCCGAGCAGGGATGTGGTGAGATGGGCGGGTCACTGATTTGAGGCCCGCCTACTCTTCATCTGCGCCTCTGCCTGGTGGATGCCGCCTCCTCCCCGGACCTTGGAAGTGACTCACGGCTGGCTTACTGAGTCCAATGGCTGAGGCGAGGCAGCTGTGCGCCTCGTAACCCAATTCAGACCACTCTCCGGAATTCCG
>n688_u648_AF045143_vault RNA_Homo sapiens (human)
GGCTGGCTTTAGCTCAGCGGTTACTTCGACAGTTCTTTAATTGAAACAAGCAACCTGTCTGGGTTGTTCGAGACCCGCGGGCGCTCTCCAGTCCTTTT
>n689_u649_AF045144_vault RNA_Homo sapiens (human)
GGCTGGCTTTAGCTCAGCGGTTACTTCGAGTACATTGTAACCACCTCTCTGGGTGGTTCGAGACCCGCGGGTGCTTTCCAGCTCTTTT
>n690_u650_AF045145_vault RNA_Homo sapiens (human)
GGCTGGCTTTAGCTCAGCGGTTACTTCGCGTGTCATCAAACCACCTCTCTGGGTTGTTCGAGACCCGCGGGCGCTCTCCAGCCCTCTT
>n691_u651_AF047386_telomerase RNA_Homo sapiens (human)
GGGTTGCGGAGGGTGGGCCTGGGAGGGGTGGTGGCCATTTTTTGTCTAACCCTAACTGAGAAGGGCGTAGGCGCCGTGCTTTTGCTCCCCGCGCGCTGTTTTTCTCGCTGACTTTCAGCGGGCGGAAAAGCCTCGGCCTGCCGCCTTCCACCGTTCATTCTAGAGCAAACAAAAAATGTCAGCTGCTGGCCCGTTCGCCCCTCCCGGGGACCTGCGGCGGGTCGCCTGCCCAGCCCCCGAACCCCGCCTGGAGGCCGCGGTCGGCCCGGGGCTTCTCCGGAGGCACCTACTGCCACCGCGAAGAGTTGGCTCTGTCAGCCGCGGGTCTCTCGGGGGCGAGGGCGAGGTTCAGGCCTTTCAGGCCGCAGGAAGAGGAACGGAGCGAGTCCCCGCGCGCGGCGCGATTCCCTGAGCTGTGGGACGTGCACCCAGGACTCGGCTCACACATGC
>n692_u652_AF047387_telomerase RNA_Mus musculus (house mouse)
GGGGTATTTAAGGTCGAGGGCGGCTAGGCCTCGGCACCTAACCCTGATTTTCATTAGCTGTGGGTTCTGGTCTTTTGTTCTCCGCCCGCTGTTTTTCTCGCTGACTTCCAGCGGGCCAGGAAAGTCCAGACCTGCAGCGGGCCACCGCGCGTTCCCGAGCCTCAAAAACAAACGTCAGCGCAGGAGCTCCAGGTTCGCCGGGAGCTCCGCGGCGCCGGGCCGCCCAGTCCCGTACCCGCCTACAGGCCGCGGCCGGCCTGGGGTCTTAGGACTCCGCTGCCGCCGCGAAGAGCTCGCCTCTGTCAGCCGCGGGGCGCCGGGGGCTGGGGCCAGGCCGGGCGAGCGCCGCGAAGGACAGGAATGGAACTGGTCCCCGTGTTCGGTGTCTTACCTGAGCTGTGGGAAGTGCACCCGGAACTCGGTTCTCAC
>n693_u653_AF047722_snRNA_Trypanosoma brucei rhodesiense
CCGGGCCATTACAGAGCCGGGGCCCGCCCGAATATATAATTACTTATTGAATTTATTCTTTGGTATTTCCTAGCTTGTTGCAGCCTACGGAACTTTTGGACAAGGCACTGCATATCTTCTCGGCTATTTAGCTAAGATCAAGTTATTAAACTGTTCTTATCAGAGTAACTCCTGATACGGGCCTTTGGCCCAAGGATCAAAACTGTTGCCTGTCCCGCGTTCTTCCGGGGTTCCACTTGTCCGGACGGAGCGCGACGGTCGCGAACATTTTCCGACAAAACCAACCACTGAACGTTGTAAGGCAGTTATTGGAACGACCCGCATTTCCCATCACTTTATTCTCGCTTGCTGTATACTTTAACGCCTCGGATCC
>n694_u653_AF047722_snRNA_Trypanosoma brucei rhodesiense
ATATCTTCTCGGCTATTTAGCTAAGATCAAGTTATTAAACTGTTCTTATCAGAGTAACTCCTGATACGGGCCTTTGGCCCAAGGATCAAAACTGTTGCCTGTCCCGCGTTCTTCCGGGGTTCCACTTGTCCGGACGGAGCGCGAC
>n695_u654_AF047723_snmRNA_Trypanosoma brucei rhodesiense
GGATCCTTCTGGAACCGGCTCCTGCCGTTCATCGAACAGCTCTCCGGGCGGAGCCAGCAACCTTCATCATCAGGATTTGGTTGTTGGTTATTTCTCATTTAAGAGGTTGTACTCAAAAAACGATTCTGTTCAGAGTACGGTCTT
>n696_u655_AF047723_SRP_7SL RNA_Trypanosoma brucei rhodesiense
TTGCTCTGTAACCTTCGGGGGCTGATCCCGCTTAGCGGGGACGTCTTGGACAAGCGGGGGTTCTGTTGCGTTGACTTGGTGTTCTGCTTGGTTGCGTGTCGGTGTTGAGGTCGCCACTGTAGAGAGGCGTTCTCGCGCCGTTAAAGTGGGGGGAACGGGTCAGGCCGGTGACGGAGCAGCCCACCTTGCGCACGTTCCCGTTGCAGAAGCACACCGAGGAGCATCTCAGGACTTTGCGCCCCAAGTGTCGTCGCGAGGCGG
>n697_u656_AF049091_H19 RNA_Mus musculus (house mouse)
ACCGGGTGTGGGAGGGGGGTGGGGGGTGGGGGTGGGGGGTATCGGGGAAACTGGGGAAGATGGGAGAGCTGGAGGAGAGTCGTGGGGTCCGAGGAGCACCTCGGCATCTGGAGTCTGGCAGGAATGTTGAAGGACTGAGGGGCTAGCTCAGGCAGAGCAAAGGCATCGCAAAGGCTGGAAAACATCGGAGTGAAGCTGAAGGGCCTGAGCTAGGGTTGGAGAGGAATGGGGAGCCAGACATTCATCCCGGTTACTTTTGGTTACAGGACGTGGCGGCTGGTCGGATAAAGGGGAGCTGCTGGGAAGGGTTCGACCCCAGACCTGGGCAGTGAAGGTATAGCTGGCAGCAGTGGGCAGGTGAGGACCGCCGTCTGCTGGGCAGGTGAGTCTCCTTCTTCTCTCTTGGCCTCGCTCCACTGACCTTCTAAACGAAGGTTTAGAGAGGGGGCCTGGTGAGAAGAAGCGGCTGGCCTCGCAGCAGAATGGCACATAGAAAGGCAGGATAGTTAGCAAAGGAGACATCGTCTCGGGGGGAGCCGAGACAGAAGGAGGCTGGGGGACCATTGGCGACCCCAGGTGGAAAGAGCTCTTAGAGAGAAGAAAGAAGAGGTGCAGGGTTGCCAGTAAAGACTGAGGCCGCTGCCTCCAGGGAGGTGATAGGAGTCCTTGGAGACAGTGGCAGAGACCATGGGATCCAGCAAGAACAGAAGCATTCTAGGCTGGGGTCAAACAGGGCAAGATGGGGTCACAAGACACAGATGGGTCCCCAGCCGCCACAACATCCCACCCACCGTAATTCACTTAGAAGAAGGTTCAAGAGTGGCTCTGGCAAAGTCCCAAGTTTGCCAGAGCCTCAATAACTGGAGAATGGAAAAGAAGGGCAGTGCAGGGTGTCACCAGAAGGGGAGTGGGGGCTGCAGGTATCGGACTCCAGAGGGATTTTACAGCAAGGAGGCTGCAGTGGGTCCAGCCTGCAGACACACCATTCCCATGAGGCACTGCGGCCCAGGGACTGGTGCGGAAAGGGCCCACAGTGGACTTGGTACACTGTATGCCCTAACCGCTCAGTCCCTGGGTCTGGCATGACAGACAGAACATTTCCAGGGGAGTCAAGGGCACAGGATGAAGCCAGACGAGGCGAGGCAGGCGGGGCAGAATGAATGAGTTTCTAGGGAGGGAGGTTGGGTGCAGGTAGAGCGAGTAGCTGGGGTGGTGAGCCAGGGAGGCACTGGCCTCCAGAGTCCGTGGCCAAGGAGGGCCTTGCGGGCGGCGACGGAGCAGTGATCGGTGTCTCGAAGAGCTCGGACTGGAGACTAGGGTAAGTGTCTGTCCCGCTCGTGGTCACCCAGTCTCCTCCCACGCAAGTTCAATTAACTCATGTCTTCATTTCTCCCTATAGCCAGGTCTCCAGCAGAGGTGGATGTGCCTGCCAGTCACTGAAGGCGAGGATGACAGGTGTGGTCAATGTGACAGAAAGACATGACATGGTCCGGTGTGATGGAGAGGACAGAAGGGCAGTCATCCAGCCTTCTTGGTGAGCATACTCCCTGCCACAGGGCTAGTCCGCTCAACCACCTAATTGTCCACCCACTCACTCAGGATTCTGTCCTTTGCAGAACACCATGGGCTGGCGCCTTGTCGTAGAAGCCGTCTGTTCTTTCACTTTTCCCAAAGAGCTAACACTTCTCTGCTGCTCTCTGGATCCTCCTCCCCCTACCTTGAACCCTCAAGATGAAAGGTGAGTTCTCTTCTGCCCCATGTGGGTGGGAGAGGGTGGGATGCCAAGGACAGGGGTCTCATTCTCTCCCACCCATAGAAATGGTGCTACCCAGCTCATGTCTGGGCCTTTGAATCCGGGGACTTCTTTAAGTCCGTCTCGTTCTGAATCAAGAAGATGCTGCAATCAGAACCACTACACTACCTGCCTCAGGAATCTGCTCCAAGGTGAGCTGGGGCACCCTTTGGAAGCTTGCCAAGCCCACTCCCCACCCCACCCCCCGCCCCACCTCATTTGTCTTTATTCTCTTTGCAGGTGAAGCTGAAAGAACAGATGGTGTCAACATTTTGAAAGAGCAGACTCATAGCACCCACCCACCCCTGAGAATCCATCTTCATGGCCAACTCTGCCTGACCCGGGAGACCACCACCCACATCATCCTGGAGCCAAGCCTCTACCCCGGGATGACTTCATCATCTCCCTCCTGTCTTTTTCTTCTTCCTCCTTTCCTGTAATTCTGTTTCTTTCCTTTTGTTCCTTCCTTGCTTGAGAGACTCAAAGCACCCGTGACTCTGTTTCCCCATTTACCCCCTTTTGAATTTGCACTAAGTCGATTGCACTGGTTTGGAGTCCCGGAGATAGCTTTGAGTCTCTCCGTATGAATGTATACAGCGAGTGTGTAAACCTCTTTGGCAATGCTGCCCCAGTACCCACCTGTCGTCCATCTCCGTCTGAGGGCAACTGGGTGTGGCCGTGTGCTTGAGGCCTCGCCTTCCCCTCGCCTAGTCTGGAAGCAGTTCCATCATAAAGTGTTCAACATGCCCTACTTCATCCTTTGCCCCTCCTCACCAGGGCCTCACCAGAGGTCCTGGGTCCATCAATAAATACAGTTACAGTC
>n698_u657_AF049491_tmRNA_chloroplast Thalassiosira weissflogii
GGGGCTGATTTGGTTTCGACATTTAAAACTTCTTTCTATGTGTCAGGTCAAAGTTTGTATTCTTTGTAAAAAAATACTAAAATACTAATAAATGCTAATAATATAATACCGTTTATTTTTAAAGCAGTAAAAACAAAAAAAGAAGCAATGGCTTTAAATTTTGCTGTATAGTTCATTAACTTAGGTTATTAAATATTTTTTCATTATAACTGGACTTTTCTCTAGTTTATAGTTTAGAATAAATTTAAATTTTGCAAAACTCGTTCGAAAATTTTCGGGCTAAACCTGTAAACGCAAATACTAAGAAATTTTAGATGGACATGGGTTCAATTCCCATCAGTTCCA
>n699_u658_AF050095_snoRNA_Leptomonas collosoma
TCAATTGATGATGAACGTTCTGCAATTCTGACCGCGACTGCGCGACGACAAAACCAACGATAACATGACTACCGGCATCTGATGAG
>n700_u659_AF053588_snRNA_Antonospora locustae
GCAGTTTGCTGCGCTATTAGTTTGGAACAACACTGAGAAGATTAGCATGGCCCCTGCGCAAGGACGGCATCTTTCTTTGAGAGGTGTGCTGGGCTCGCCCAGCTTTT
>n701_u660_AF053589_snRNA_Antonospora locustae
ACCTCTCAAAGCTCATAGCTTTGATCAAGTGTAGTATCTGTTCTTGTCAGTGTGACAGCTGACAAACTAGCTCCTTGGAGCTAGAATATGCTGGTGTGTGTGTGGATGCTTTGACAGGCTTGCTTGTAGGGGCCATGCACACACCAGGCAGACTCCCGGAAGTTGTTCCGTCCGGAGCTGCACTTTTT
>n702_u661_AF054814_telomerase RNA_Bos taurus (cow)
GAGGGTGGGCCCCGGGTTGGTGGCAGCCATTTCTCATCTAACCCTAATTGAGACAGGCGTAGGCGCTGTGCTTTTGGTTACCGCGCGCTGTTTTTCTCGCTGACTTTCAGCGGGCGGAAAAGCCTCGGCCTACCGCCATCCACCATCCAGTCTGCAACAAACAAAAAATGTCAGCCGCTGGCTCGCTCACCTCTCCCGGGAACCTGCGGTGGTCCGCCCGCCCAGCCCCAGTGCCCCGCCTGAGGCCGCGGTCGGCCCGGTGCTTCTCCGGAGGTGTCCATTGCCGCCGTGAAGAATTGGGCTCTGTCAGCCGCGGGTCGCTCGGTGGGCCGAGGCATGGCTGTAACCGCAGGGAAAGGAACGGAGTGGGGTCCCCGCGCGCGGTGCGCTTCCCTGAGCTGTGGGACTTGCACCCGGGACTCGGCTCAGACATCC
>n703_u662_AF056376_RNase P RNA_Borrelia hermsii
GAGGAAAGTCCGGGCTCCAATAAGAGTATAATGCTAGGTAATGCCTAGGAGTTTAAAACTTAAGAGAGTGTCACAGAAAATTACCGCCTTAGGGTAAGGGTGAAAAGGTGAGGTAAGAGCTCACCGCTTATTTAGTGATAAATAAGGTCAAGATAAACCTCATTAGGAGCAAAATCAAATAAGCAAGCTTCCTTAGCTCTTAGGGTATGCTTGCGGGTGGATTGCATGATTTTTTCAGTGATGAAAAAACAAGATAGATGATGACATAATACAGAACCCGGCTTA
>n704_u663_AF056377_RNase P RNA_Chloroflexus aurantiacus
GAGGAAAGTCCGGGCTCCATAGAGCAGGGTGGTGGGTAACGCCCACCCGGGGTGACCCGCGGGAAAGTGCCACAGAGAACAGACTGCCGGTTTCGAGCCGGTGAGGGTGAAACGGTGGAGTAAGTGCCCACCGCGTCATCGGTGACGGTGACGGCATGGCAAACCCCACCTGGAGCAAGGCCAAGAAGACCGTGAGGTCGCGGACGCGTTTGAGGGTTGCTCGCTTGAGTGTCTGGGTAGGCTGCGCAGCCGAAAGGCTGGAGGACACCAGCAATGGTGTTCACAGATGGATGATCACCGGCCCGGCGGGGCTACAGAATCCGGCTTA
>n705_u664_AF056378_RNase P RNA_Chlamydophila psittaci
GAGGAAAGTCCGGGCTTCATAAGAAAAGATACTGGAGAAACTCCAGGGGCCGTAAGGCTACGGAAAGTGCAACAGAAAACATTCCGCTATAAAAGGGTCTTTTTATAGACAGGCTGAAAATTCCTATTTTAAGAATAGGAGCTATTAAGGTGACTTAGGTAGACGTGCAAACCCTATCTGAAGCAAGAGAAAAAGTTTTTGTTTCTGCATAATGAGGAATGGTATTCCTCATGAACTTTTTCATAATCGCTTGAGGGATATAGTAATATATCCCCTAGATGAATGGTTGCCCTCAAGATGGGTTTTCTCATCTTGTAGACAGAACCCGGCTTA
>n706_u665_AF056379_RNase P RNA_Chlamydia trachomatis
TCGGAGAGTAAGGCAACCGCTGAAACCAGCTTTTTAAAAAAGATGAGTACCAGAGGAAAGTCCGGACTTTATAAGAAAAGATGCTGGAGAAATTCCAGGGGCCGTAAGGCTACGGAAAGTGCAACAGAAAACACTCCGCTATAAATTGTATAATTTATAGACAGGCTGAAAAATCTTACTTTAGGAGTAAGAGCTGCTAGGGAAACCTAGCAGACTTGTAAACCCCATCTGAAGCAAGAGAAAAAGTTATTTGTTTCTGCAAACAACCTTTCTAACGAAAGGCACAGGCTTTTTCATAATCGCTTGAGGAGTACAGTAATGTGCTCCCTAGATGAATGGTTGCCCGCAAGCAAGAACTTCCGTTCGTGCTTGTCGACAGAATCCGGCTTACTCGCTCTTCCGAGCTT
>n707_u666_AF056380_RNase P RNA_Herpetosiphon aurantiacus
GAGGAAAGTCCGGGCTCCATAGGGCGAAGTGCCAGGTAATGCCTGGGAGGCGTGAGCCTACGGAAAGTGCCACAGAGAACAGACTGTCGGTTTCGAGCCGGTGAGGGTGAAACGGCGGGGTAAGAGCCCACCGCGTCATCGGTGACGGTGACGGCATGGCAAACCCCACCTGGAGCAGGGCCAAGAAGACCGTGAGGTCGCGGACGCGTTTGAGGGTTGCTCGCTTGAGTGTTCGGGTAGGCTGCGCAGCCGAAAGGCTGGAGGACACCAGCAATGGTGTTCACAGATGGATGATCACCGGCCCGGCGGGGCTACAGAATCCGGCTTA
>n708_u667_AF056381_RNase P RNA_Leptospira borgpetersenii
GAGGAAAGTCCGGGCACCAGGAAACACGGGACCGGGTAATCCCCGGAGTTTTTTCTTTGAGAGAAATTTTAGGGAAAAAATATGGAAAGTGCAACAGAAAGGATACCGCCTCGTCGAAGAAATTCGGCGCGGTAAGGGTGAAATGGCGGGGTAAGAGCCCACCTTCGATTTCGAGAGAGATCGGGAACGGTAAACCCTCCCGGGTGCAATCTCAAATAGGCAGCCTTTTTGTCGTTTCCGCAGGGCTGTGGGTAGAGAGCAAAGACTCCGATCGGTAACTTTCGGAGCAAGATAAATGATCATCCATCTCTTCAGGAGAGGACAGAACCCGGCTTA
>n709_u668_AF056382_RNase P RNA_Leptospira weilii
GAGGAAAGTCCGGGCACCAGGAAACACGGGACCGGGTAATTCCCGGAATTTTTTCTTTGAGAGAAATTTTAGAGAAAGAATATGGAAAGTGCAACAGAAAGGATACCGCCTCGTCGGAGAAATTCGGCGCGGTAAGGGTGAAATGGCGGGGTAAGAGCCCACCTTCGATTTCGAGAGAGATCGGGAACGGTAAACCCTCCCGGGTGCAATCTCAAATAGGCAGCCTTTTTGCCGTTTCCGCAGGGCTGCGGGTAGAGAGCAAAGACTCCGATCGGTAACTTTCGGAGCAAGATAAATGATCATCCATCTCTTCAGGAGAGGACAGAACCCGGCTTA
>n710_u669_AF056383_RNase P RNA_Myxococcus xanthus
GAGGAAAGTCCGGGCTCCAGAGGGCAGGGTGCTGGCTAACGGCCAGTCGAGGCGACTCGCAGGAAAGTGCCACAGAAAACAGACCGCCCGTTCCGAAAGGGGCGGGTAAGGGTGAAACGGTGCGGTAAGAGCGCACCGCGTCCGGGGTGACTCGGACGGCTCGGTAAACCCCGCCTGGAGCAAGAGCCAATAGGAGCGCGTCCTCGCCGTACGGAGGACAGGGATGGCCCGTCCCATGCGTTCGGGTTGCTCGCTGATGAGGCCCCTGGGCAACCAGGGCCCTTAGATGAATGTTCACCGCCCATCCCGAAAGGGGTGGGAACAGAATCCGGCTTA
>n711_u670_AF056384_RNase P RNA_Planctomyces maris
GAGGAAAGTCCGGGCTCCACAGGGCACGGTGGTGGGTAACGCCCACCGTCCGCGAGGACAGGGAAAGTGCAACAGAAAGTAAACCGCCGGGCCAGTTCGCTGGCCAGGTAAGGGTGAAACGGTGCGGTAAGAGCGCACCAGCAGACCGGGTGACCGGTCTGGCTAGGTAAACCCCACCGGGTGCAAGACCAAGCAGGGAGCAGTTCTGGTTCGCCAGAACACGGATCGGCCCGATCCGTTACGACTTCCGGGTCGGTCGCGCGAGGCTGCAGGCAACTGCGGTCCCAGATAAATGGCCACTCTCGACAGAACCCGGCTTA
>n712_u671_AF056385_RNase P RNA_Pirellula staleyi
GAGGAAAGTCCGGGCTCCACAGGACAGGGTGGTCGATAACGTCGACCGGTCGTGAGATCAGGGACAGTGCCACAGAAAACAGACCGCCGCTGCGGGCATGAGCCCCCGTCAAGGTTTGATTGTCTGCATGCGGTAAGGGTGAAACGGTGCGGTAAGAGCGCACCAGCAGTCGAGGCGACTCGGCTGGCTAGGTAAACCCCGCCCGGAGCAAGACCAAGCAGAGAGCATGTTGTCGGTGTCACAGCCGACAGCCGGAATCGGTTCGGTTTCGTATGACTCTCGGGTAGGTTGCCGGAGCTAGCGAGCAATTGCTAGCCTAGAGAAATGGTCGTCAGACGTTTTCGATCCGTCGAAGAGCCCAACAGAACCCGGCTTA
>n713_u672_AF056386_RNase P RNA_Comamonas testosteroni
GAGGAAAGTCCGGGCTGCATAGGGCGGCGTAGCAGCTAACAGCTGTCCACCGTGAGGTGAGGATCAGAGCAACAGAGACGAGTCTGGCAGGAGTGCCGCAAGGCAGACCAACCAGGGTGAAACGGGCAATCTCTACGCGCAGCAATACCAAGTAGGCACACGTTGACGGGGCCCCCGGAGTGTGCGGGTAGGTAGCACCGAGCCATCAGGCGACTGATGGCCAAGATTAATGGCGGTCACATGGCGGGCAACCGTTGTGCACAGAATCCGGCTTA
>n714_u673_AF056387_RNase P RNA_Synechococcus elongatus PCC 7942
GAGGAAAGTCCGGGCTCCCAAAAGACCAGACTTGCTGGGTAACGCCCAGTGCGGGTGACCGTGAGGAGAGTGCCACAGAAACATACCGCCGATGGCCTGCTTGCAGGCACAGGTAAGGGTGCAAGGGTGCGGTAAGAGCGCACCAGCAACATCGAGAGGTGTTGGCTCGGTAAACCCCGGTTGGGAGCAAGGTGGAGGGACAACGGTTGGTCTTTTACCTGTTCCGTTTATGGACCGCTAGAGGTGGCTAGTAATAGCCATCCCAGAGAGATAACTGCCCTCTGTCTTCGACAGAGAACAGAACCCGGCTTA
>n715_u674_AF056388_RNase P RNA_Thermoleophilum album
GAGGAAAGTCCGGGCACCGCAGGGCAGGGTGGTCGGGAAACCGACCCGGGGAAACCCGCGGGAAAGTGCCACAGAAACGACACCGCCTAAGCGGCGGGACCGCACGTGAGTCTCGCCGCCGGCAAGGGTGAAATGGTGCGGTAAGAGCGCACCGGCAGCGTGGTGACACGCTGGCCGGGCAAACCCCACCCGGTGCAAGGCCAAGCAGGGGCGATGACGCTGCCCGCCGAGCCCCAGGTAGGCCGCAGGGCTCCTCGGAGCCCCGTCCGCGGTGGTCCCCAGGGACTCGGCGCGGGCGAGATGGATGGCTGCTCTCGACAGAACCCGGCTTA
>n716_u675_AF056389_RNase P RNA_Thermomicrobium roseum
ATACCGGGCAGGGCGGTCGCTGGTGCGGTAAGCACCAGAGGAAAGTCCGAGCTGCACAGAGCGGGGTGCCTGGGGTCAACCCAGGGCAGCGGAGACCGGCGCCGCTGACAGTCCAGATCGGCGCGCTGGATAACCCAGCGTGAGAGCAACAGAGACGATGACCGGGCTCGTCCCGGGGTGAAAAGGGCAATCCTCCCTGCAGCAATCTCCGAGCGGGCCGCTATCAGGTTGCTCGCCGAGGCCCGAGGATGAGAGCAGTCGCGGAGGTGACGAAGCGACCGTCCGTGCAAGACACGGGCGAGAGAGATGACCGCCTAGAACAGAACTCGGCTTACTCGCTCGGTATCGCT
>n717_u676_AF056390_RNase P RNA_Thiobacillus thioparus
GAGGAAAGTCCGGGCTCCACAGAGCAGGATGCCGGCTAACGGCCGGACGCCGCGAGGCGAGGAATAGGGCCACAGAGACGAGCGTATTCAGTTACGGTGAAACGCGGTAACCTCCATCCGGAGCAACACCAAATAGGCAGGCGATGAAGCGGCTCGCTGAGTCTGCGGGTAGGTGGCTTGAGCCGGTCAGCAATGGCCGGCCTAGAGGAATGGTTGCCACCGACAGAACCCGGCTTAC
>n718_u677_AF056391_RNase P RNA_Heliobacterium chlorum
GGGGAGGAAAGTCCGGGCTCGCACATCCTGCGATGGATGTAGTGTTCGTGCCCGTTCGTAATGGCGGGGCAGTCAGCTTTTTAGCAGATTGACGGCGGGGAAAGCATCCTACAGCCAACTTGGCCATGGTGCAAGTACCCTGAAAGTGGATAGAGACGAGTCGTCGGGGAAACTCGACGAGTGGAACGACTAAACCCCACGAGCGAGCAACTCAGTGTGTAGAGGCACCTGGCTGAGAGAAATGAATCAATGCCGGGACGATCGACATATGATCGTAGAAAAATGATTGCCCCTTCTGTGGGAGGCTGGGAAGCCTAGAACCACATTGGAACAGAATCCGGCTTAT
>n719_u678_AF058926_vault RNA_Homo sapiens (human)
GGYCAGCWWYAGCTCAGCGGTTACTTCGAGTACATTGTAACCACCTCTCTGGGTGGTTCGARACCCGCGGSCGCYMYCTGRC
>n720_u679_AF058927_vault RNA_Homo sapiens (human)
GGYCAGCTTYAGCTCAGCGGTTACTTCGACAGTTCTTTAATTGAAACAAGCAACCTGTCTGGGTGGTTCGARACCCGCGGCCGCTMYCTGGC
>n721_u680_AF060882_gRNA_kinetoplast Crithidia oncopelti
AGATATATTTTTTCATATTAAATTTTTATTATTTTTTTTGTTATTCAAA
>n722_u681_AF061108_telomerase RNA_Moneuplotes crassus
AAATCTGATAAAATTATTACGAATAGAATTTTAAGACCTGCTTATTGTTTTCGCGTAATTTTTGACCCATAATAATTAACAGAAGCAATGACTAGTTGTTTATAACCTAATAGGAGGATATAGGGTAGTTCTCCATTGA
>n723_u682_AF061109_telomerase RNA_Moneuplotes crassus
CCTCCATTATATTCAATTTGGGAAGGATTGAAA
>n724_u683_AF061818_ENOD40 RNA_Vigna radiata
AAAGAAGAGCATGGAGAAAAAGGAGTGTGAGAGGGTCCTTACCCTTCACACTCCTCCACTTTCAACAGTTTGCTTGTGCTTAGCTTTGGCTTCTCTAATCAACAAGGGATGTGTTTAAACATTCTGTGAGTGGCAGAAGCAGATATGCATTCTCCAAAGGAGGAGAGGCTATGGCTACAGTCAGGCAAACCGGCAAGTCACAAAAAGGCAATGGACTCCATTGGGGTCTCTATGGCTGTGTATTGCTCATCTATGTAGTTCTTCTTGCTGTAGAATGTAATAAACAAGGTTGACCTTCCTTTAAGAAGGTACCAACTTTGCTGTCGCATTT
>n725_u684_AF064261_snoRNA_Saccharomyces cerevisiae (baker's yeast)
TCATAATGATGATTTCACTTATACCTATATGTTTTTTCTGGCATCTCTAATGTTAGGATGTGAAGTTTAAGTACTCTCCATTCAATGAATACAATTTTTGACAATATCTGATT
>n726_u685_AF064262_snoRNA_Saccharomyces cerevisiae (baker's yeast)
TTAGAATGATGAAAGAGGTAGCAATTTGCAGCAGATTTTTCGTGATTGAATCAAACAAAGATTAACCTTTACAGAACCGCTACACTGATA
>n727_u686_AF064263_snoRNA_Saccharomyces cerevisiae (baker's yeast)
TATTATGATGATTTTTTTATATTCACACTGTACTAGATTGGTCTCTTTAACGAAGGGGCTAATTGATGACTACAAAATAAAAAATAACTGATTTAATGACTCTGAAA
>n728_u687_AF064264_snoRNA_Saccharomyces cerevisiae (baker's yeast)
TACTATGATGAATGACATTAGCGTGAACAATCTCTGATACAAAATCGAAAGATTTTAGGATTAGAAAAACTTATGTTGCCTTCCTTCTGAAA
>n729_u688_AF064265_snoRNA_Saccharomyces cerevisiae (baker's yeast)
TTTGATGATGATTACACTCCATGCTAATCATGAACGTGTTCGATGTAAATTTGAATACGATGATTAAAATTGTTGTTTACGCTTTCTGAAA
>n730_u689_AF064266_snoRNA_Saccharomyces cerevisiae (baker's yeast)
TAAGATGATGATCAACTTTTTATATCAATAACTTTCGTTCTACTGACTGTGATCAAACGATCTTGTAGAGAACTTTTACTCTGAAT
>n731_u690_AF064267_snoRNA_Saccharomyces cerevisiae (baker's yeast)
TTATTTGATGAATAGACACCACAATCGTCTTTTTTTTATCCGGCGATGATTCCTTTGGAATATGTGCCATGGATTACATCATGCATCACCATCTGATT
>n732_u691_AF064268_snoRNA_Saccharomyces cerevisiae (baker's yeast)
TTAACATGATGAAAAAATATATTAACACAGACCTGTACTGAACTTTTCGAAGTTTTGCAGATAACAATATTGCTTTTTTTCTCTGACT
>n733_u692_AF064269_snoRNA_Saccharomyces cerevisiae (baker's yeast)
AAGCGTGATTATAAAAAATGATTTAAATATTTTTCTGAGGAAGTATATGCAGGACATATTGTGAATTAGGAATTCTTCGTTTATGATC
>n734_u693_AF064270_snoRNA_Saccharomyces cerevisiae (baker's yeast)
CTTTATGATGATATTCTTTACGAACTTTTAGACGTTAGACTTCTGAAGGAGATTAGACCCTCCTATGGAAGAGAAACTCGTTAAACTTATCTGAGT
>n735_u694_AF064271_snoRNA_Saccharomyces cerevisiae (baker's yeast)
CTTAATGATGAAAACTATTCCTTATTCTCGACTAGTCTTTGACAATGCTGTCGTTTAATCACCATCTTTCGGCTGACT
>n736_u695_AF064272_snoRNA_Saccharomyces cerevisiae (baker's yeast)
TGTTAATGATGATAACCAAAGATGCATAGTTCAACTGATTGAACATACTATCGAAATGAAGATAAAAATTTCCATCGAAATTAGTCTTTCGCTCCTATCTGAAC
>n737_u696_AF064273_snoRNA_Saccharomyces cerevisiae (baker's yeast)
CTACAATGATGATAAAATTTACTATTCAGTTCTGCTTCTGAACCAAAATAATAGGAAGATAACCAATTTTACCAAAGCTCAAATCTGATT
>n738_u697_AF064274_snoRNA_Saccharomyces cerevisiae (baker's yeast)
TTTTATGATGAATTTATGTTTTCAATCTTATCTACATTATCTGAATTAATAGCTAACAATAGTTATAATGGAAGATATACGACTATCAACAATTCTGAAA
>n739_u698_AF064275_snoRNA_Saccharomyces cerevisiae (baker's yeast)
TTTAATGATGAAGATTTTAATTTTCCGTTGGTCTATTAAGAACAGAAGTACTTCAAAACTACTTTTTAAGACCATCCTTTTACAGTATTTTTTCAATATTGTAAAACTTCTCATTTACTTTGTGTCTTTATGATCTCATCGTTCTGGTGGACCATAATCAGACGCACGGTATACTTCGTTTCTGTTGGAGAATATTGGGAGTCTTTTAATGTGATGAGTGGCCAACATAACCTTATAGTCATAGTTACACTGATT
>n740_u699_AF064276_snoRNA_Saccharomyces cerevisiae (baker's yeast)
TTGTATGATGAGGAACCAGATAGGGACAACAGATTCTCAAGTGACGAGGAACATCTTTTAAAGCCCAGTTTTTAGTAGAGCTTAGGGCGCCTTTACTGACT
>n741_u700_AF064277_snoRNA_Saccharomyces cerevisiae (baker's yeast)
TAAAATGATGATTTTTTTAAACACAATTTATGCTAGATAGTATCTGAAAGCATTCAAACTTTATGATTACAGTGTTTTCGACAGTTTTAAATCTCTGAAC
>n742_u701_AF064278_snoRNA_Saccharomyces cerevisiae (baker's yeast)
ATCAAATGATGAAATACCAATGCAACAGAGTCAAGCTCTGAGTTTCAAAAAGAAACATGGACGAGATTGCTTTTTTATTACTGACC
>n743_u702_AF064279_snoRNA_Saccharomyces cerevisiae (baker's yeast)
TAACATGATGACTAAGTTGTCGCCCCAAGCGGATCTTTGAAATGACTGATTTTACAAACAACAAACACTGAAAATTCTGAAA
>n744_u703_AF064280_snoRNA_Saccharomyces cerevisiae (baker's yeast)
TATCATGATGAGCATTTATTTTACTGCGTTATCGTATTGACGGGGGCTGTTTAAGTACAGTCTGTTTTATAATCTATATTCATTTATATTTTATATTTCTTACCGAGGAAATTGACTCTTAACAGATTTGCTGAAA
>n745_u704_AF064281_snoRNA_Saccharomyces cerevisiae (baker's yeast)
GTTTATGATGAGACCACGTCCTTAGTGACAATGCTATAAACCCAGCTCTTCGATTCGTTTTTAATGAAAGGGAGAAGATTTTTTTGTCAAACGCTCTGAGT
>n746_u705_AF064282_snoRNA_Saccharomyces cerevisiae (baker's yeast)
TGATATGATGATTTGTTGTCGACCGGGCGGACATATTAGTATCTGTTAAAGGGTCGCCGTCTACTCTCATCGTTCTTTTGTGTACAAATTTTTTAAAGGAGCGATGTTGATGGCATTATGGTTCTTTAGTGGAGAATTGATGATTGGTCACAAGACATCTGATT
>n747_u706_AF064283_snoRNA_Saccharomyces cerevisiae (baker's yeast)
GTTATATGATGATAACCTTCTCAGCTCACTCAGATCTTTTGATATGATTGATAAAAATTTCCTATCCAACATTCATCAATTTATCTGACC
>n748_u707_AF067219_snmRNA_Caenorhabditis elegans
GGTTTTAACCCAGTTACTCAAGGTACGCTGGAGTTCTGACCTTTCGAAAGAAAGTGTCAAACGACTTTAATTTTTGGAACCGCTCTGCTGGGGTCATCCGGTAGAGCAAA
>n749_u708_AF067617_miRNA_Caenorhabditis elegans
TCTTTGGTTGTACAAAGTGGTATG
>n750_u709_AF067623_miRNA_Caenorhabditis elegans
GGCATGATGTAGCAGTGGAG
>n751_u710_AF067778_BC200 RNA_Pan paniscus (pygmy chimpanzee)
GGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCTCTCAGGGAGGCTAAGAGGCGGGAGGATAGCTTGAGCCCAGGAGTTCGAGACCTGCCTGGGCAATATAGCGAGACCCCGTTCTCCAGAAAAAGGAAAAAAAAAAAAAAAAAAAAAGACAAAAAAAAAATAAGCGTAACTTCCCTCAAAGCAACAACCCCCCCCCCCCTTT
>n752_u711_AF067779_BC200 RNA_Gorilla gorilla (gorilla)
GGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCTCTCAGGGAGGCTAAGAGGCGGGAGGATAGCTTGAGCCCTGGAGTTCGAGACCTACCCGGGCAATATAGTGAGACCCCGTTCTCCAGAAAAATGAAAAAGAAAAAAAACAAAAGACAAAAAAAAAATAAGCGTAACTTCCCTCAAAGCAACAACCCCCCCCCCCCCTTT
>n753_u712_AF067780_BC200 RNA_Pongo pygmaeus (orangutan)
GGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCTCTCAGGGAGGCAAGAGGCGGGAGGATAGCTTGAGCCCAGGAGTTCGAGACCTGCCTGGGCAATATAGCGAGACCCCGTTCTCCAGAAAAAGGAAAAAAAAAAAAAAAGACAAAAAAAAAATAAGCGTAACTTCCCTCAAAGCAACAACCCCCCCCCCCCTTT
>n754_u713_AF067781_BC200 RNA_Hylobates lar (common gibbon)
GGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCTCTCAGGGAGGCAAGAGGCGGGAGGATAGCTTGAGCCCAGGAGTTCGAGACCTGCCTGGGCAATATAGCGAGACCCCGTTCTCCCGAAAAAGAAAAAAAAAAAAAAAAAAAAAAGACAAAAAAAAAATAAGCGTAACTCCCCTCAAAGCAACAACCCCCCCCCCCTTT
>n755_u714_AF067782_BC200 RNA_Papio hamadryas (hamadryas baboon)
GGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCTCTCAGGGAGGCAGAGGCGGGAGGATAGCTTGAGCCCAGGAGTTCGAGACCTGCCTGGGTAATATAGCGAGACCCCGTTCTCCACAAAAAGGAAAAAAAAAAAAAAAAAGACAAAAAAAAAATAAGCGCAACTCCCCTTAAAGCAACAACCCCCCCCCCTTT
>n756_u715_AF067783_BC200 RNA_Cercopithecus aethiops (African green monkey)
GGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCTCTCAGGGAGGCAGAGGCGGGAGGATAGCTTGAGCCCAGGAGTTCGAGACCTGCCTGGGTAATATAGCGAGACCCCGTTCTCCACAAAAAGGAAAAAAAAAAAAAAAAAAAAAGACAAAAAAAAAATAAGCGCAACTCCCCTTAAAGCAACAACCCCTCCCCCCCCCTTT
>n757_u716_AF067784_BC200 RNA_Macaca mulatta (rhesus monkey)
GGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCTCTCAGGGAGGCAGAGGCGGGAGGATAGCTTGAGCCCAGGAGTTCGAGACCTGCCTGGGTAATATAGCGAGACCCCGTTCTCCACAAAAAGGAAAAAAAAAAAAAAAAAAGACAAAAAAAAAATAAGCGCAACTCCCCTTAAAGCAACAACCCCCCCCCCCCTTT
>n758_u717_AF067785_BC200 RNA_Macaca fascicularis (crab-eating macaque)
GGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCTCTCAGGGAGGCAGAGGCGGGAGGATAGCTTGAGCCCAGGAGTTCGAGACCTGCCTGGGTAATATAGCGAGACCCCGTTCTCCACAAAAAGGAAAAAAAAAAAAAAAAAAAGACAAAAAAAAAATAAGCGCAACTCCCCTTAAAGCAACAACCCCCCCCCCCTTT
>n759_u718_AF067786_BC200 RNA_Aotus trivirgatus (douroucouli)
GGCCGGGCGCTGTGGCTCACGCCTGTAATCCCAGCTCTTAGGGAGGCAGAGGCGGGAGGATAGCTTGAGCCCAGGAGTTCGAGACCTGCCTGGGCAATATAGTGAGACCCCGTTCTCCACAAAAAGGAAAAAAACAAAAAGACAAAAAAAAAAATAAGCGTAACTTCCCTCAAAGCAACAACCCCCACCCCCCCTTT
>n760_u719_AF067787_BC200 RNA_Saguinus imperator (tamarin)
GGCCGGGCGCTGTGGCTCACGCCTGTAATCCCAGCTCTTAGGGAGGCAGAGGCGGGAGGATAGCTTGAGCCCAGGAGTTCGAGACCTGCCTGGGCAATATAGCGAGACCCCGTTCTCCACAAAAAGGAAAAAAACAAAAAGACAAAAAAAAATAAGCGTAACTTCCCCCAAAGCAACAACCCCCACCCCCCCTTT
>n761_u720_AF067788_BC200 RNA_Saguinus oedipus (cotton-top tamarin)
GGCCGGGCGCTGTGGCTCACGCCTGTAATCCCAGCTCTTAGGGAGGCAGAGGCGGGAGGATAGCTTGAGCCCAGGAGTTCGAGACCTGCCTGGGCAATATAGCGAGACCCCGTTCTCCACAAAAAGGAAAAAAACAAAAAGACAAAAAAAAATAAGCGTAACTTCCCTCAAAGCAACAACCCCCACCCCCCCCTTT
>n762_u721_AF067949_miRNA_Caenorhabditis elegans
TAATACGTCGTTGGTGTTTC
>n763_u722_AF071165_Hoxa 11-AS RNA_Homo sapiens (human)
GAGGTCCAACAGCCGAGCTTAGCCCACCGGGCTCTGGGAAAGACCCGACTGAGGCTAAAGCCGCCCCGGAAGGCCAAGTCCGAGTTCCATTTCTTGAAGAGGCCGGCGCGCGTAAGGCTGTGACATTGGCCCTGGCGACTGGCTTCCCAGGAGCTGTTCTTTCTCAGGAGCTCCACAGCGCGGGCCATCTCCAGAAAACTGTCTTCTAGACAGACCTGCGGTTTTATAGCAGTTTTGGCAGTCAACTTCAGCTTGTGCCTGAGCAGACGGGGTTGTGGTGGCCCGCCAGCGGGGGATGCCAGGCCACCTCCCCCAGCGGCACGCAGCCCCTCTCTTAATTAGATCGGTTTTCCCCTGGTGTCCGGGAGAGCGGTCCCGGCAGAAAGTCAGAGTGTATTTCCTTTTATCGTCAACCCAGAGCCCCACCGCGGCTAATGCAAGAGGCCAAAAAATGTTTGGAGGAAGAAAAACAAAGGCAGGAAGTGGCGGCGGCCTGACGGTGCGTGTGTGTCTGCAGAGAAGGGAGGGAGCCGGCTCAGTCTCTTCTTGTTTTTCCAAACTTCAAGGTCCAGGCAGCCCTCTGCAGGGCCGGGCCCCATTGCTCCCCGCGCGGCATTGGAGGTGGCCGCCCGGAGAGGAGAAGGCCAACGCCTGCGCCAGGCTTGTCAGGCGGAAACGGCTAACAAGGAGATTTGGTCAGCAAAACAGACCCAGCCTTTCCGAGGCTTCGTCTGACTTGGCCCGAAAGGTTGGGGAGGGGGGGCTTGCGCAGAGCCTCAGGGACCCTCCTCTCTGGGGACTACCATCCCTGAGCCTTACGCTTCTTTCCACAGCCTTTGCAGGCGGAATATCGGAATAAAGTGGGTCCAGGCGCC
>n764_u723_AF071166_Hoxa 11-AS RNA_Homo sapiens (human)
CCGCCAACAGCCAGAACGGCTTCTCCCCGCGGTTTGTCACTGATCCGCAGGGCCCGGAAGGGCCTTCGTCTTACCCGGGATCCACCTCTCCCCTCATCTTCCCTGCCTACCTCTTCATCCCACCTTCTGTCCTTGGAGAAACTCCCTCCTCCTCGCTGCCTGCCGGGCTTCGGAGTGACTCGGCAGAGACAGAGGCACAGGGGCTGCCCTGCTGCTCACCGGTCCACCCATCTGCCTGGTCTTCTGGAGCTGAGGACTCGGGAAACCATGCAATTGAGGCAAGCCTTGGGCTGCTTTAGAGGCGCTGACATCCGAGGAGACTTCTCCTGGGAGGTCCAACAGCCGAGCTTAGCCCACCGGGCTCTGGGAAAGACCCGACTGAGGCTAAAGCCGCCCCGGAAGGCCAAGTCCGAGTTCCATTTCTTGAAGAGGCCGGCGCGCGTAAGGCTGTGACATTGGCCCTGGCGACTGGCTTCCCAGGAGCTGTTCTTTCTCAGGAGCTCCACAGCGCGGGCCATCTCCAGAAAACTGTCTTCAGAGTGTATTTCCTTTTATCGTCAACCCAGAGCCCCACCGCGGCTAATGCAAGAGGCCAAAAAATGTTTGGAGGAAGAAAAACAAAGGCAGGAAGTGGCGGCGGCCTGACGGTGCGTGTGTGTCTGCAGAGAAGGGAGGGAGCCGGCTCAGTCTCTTCTTGTTTTTCCAAACTTCAAGGTCCAGGCAGCCCTCTGCAGGGCCGGGCCCCATTGCTCCCCGCGCGGCATTGGAGGTGGCCGCCCGGAGAGGAGAAGGCCAACGCCTGCGCCAGGCTTGTCAGGCGGAAACGGCTAACAAGGAGATTTGGTCAGCAAAACAGACCCAGCCTTTCCGAGGCTTCGTCTGACTTGGCCCGAAAGGTTGGGGAGGGGGGGCTTGCGCAGAGCCTCAGGGACCCTCCTCTCTGGGGACTACCATCCCTGAGCCTTACGCTTCTTTCCACAGCCTTTGCAGGCGGAATATCGGAATAAAGTGGGTCCAGGCGCC
>n765_u724_AF071167_Hoxa 11-AS RNA_Homo sapiens (human)
CCCACGGGTGTCCGCAGGAGACAAAGGCGAATTCCGGAGAAAAGGCTGGGGCTGAGAAAGGCGCTCCGGGAGCGGCTGGCAGGGCAATTCGGCAGGCTGCACCGAAGCCGAGTGCCCGGAGGGACTTGCCGCCCGGAAGGGGGTGTGTGGGGGCGCTGCCGTGAAGATGGATGAGGGAAAAGGTTTTTGATATCAGCAGAAGGGAAAACGCCTGGAGTGGCCGAACACTTTTAGTTGCCCAGCAGGAATAGGAGACGGGTACTCAGCTCCCCAAGGCTGCGCAATATCCCAGCTTTGCCCGCTCCTGCCCTCGTGTTCGGAATATGCTGGCGGTGTGAATGTGAAGGTTTCTCCAGGCAGGCGGCTGGGGCGAGGGGTGGGCGCAGCTCTGAGGATCAGACCAAATCTAGGGGAAAAAGGGGAGGCAGACCTTCGGGTCCTTGGTTTTGACTTTGCTCTGAGCCTATGATTGACTCTTCCGCTTTGCAGGAGGTCCAACAGCCGAGCTTAGCCCACCGGGCTCTGGGAAAGACCCGACTGAGGCTAAAGCCGCCCCGGAAGGCCAAGTCCGAGTTCCATTTCTTGAAGAGGCCGGCGCGCGTAAGGCTGTGACATTGGCCCTGGCGACTGGCTTCCCAGGAGCTGTTCTTTCTCAGGAGCTCCACAGCGCGGGCCATCTCCAGAAAACTGTCTTCAGAGTGTATTTCCTTTTATCGTCAACCCAGAGCCCCACCGCGGCTAATGCAAGAGGCCAAAAAATGTTTGGAGGAAGAAAAACAAAGGCAGGAAGTGGCGGCGGCCTGACGGTGCGTGTGTGTCTGCAGAGAAGGGAGGGAGCCGGCTCAGTCTCTTCTTGTTTTTCCAAACTTCAAGGTCCAGGCAGCCCTCTGCAGGGCCGGGCCCCATTGCTCCCCGCGCGGCATTGGAGGTGGCCGCCCGGAGAGGAGAAGGCCAACGCCTGCGCCAGGCTTGTCAGGCGGAAACGGCTAACAAGGAGATTTGGTCAGCAAAACAGACCCAGCCTTTCCGAGGCTTCGTCTGACTTGGCCCGAAAGGTTGGGGAGGGGGGGCTTGCGCAGAGCCTCAGGGACCCTCCTCTCTGGGGACTACCATCCCTGAGCCTTACGCTTCTTTCCACAGCCTTTGCAGGCGGAATATCGGAATAAAGTGGGTCCAGGCGCC
>n766_u723_AF071168_Hoxa 11-AS RNA_Homo sapiens (human)
GGAGTGACTCGGCAGAGACAGAGGCACAGGGGCTGCCCTGCTGCTCACCGGTCCACCCATCTGCCTGGTCTTCTGGAGCTGAGGACTCGGGAAACCATGCAATTGAGGCAAGCCTTGGGCTGCTTTAGAGGCGCTGACATCCGAGGAGACTTCTCCTGGGAGGTCCAACAGCCGAGCTTAGCCCACCGGGCTCTGGGAAAGACCCGACTGAGGCTAAAGCCGCCCCGGAAGGCCAAGTCCGAGTTCCATTTCTTGAAGAGGCCGGCGCGCGTAAGGCTGTGACATTGGCCCTGGCGACTGGCTTCCCAGGAGCTGTTCTTTCTCAGGAGCTCCACAGCGCGGGCCATCTCCAGAAAACTGTCTTCAGAGTGTATTTCCTTTTATCGTCAACCCAGAGCCCCACCGCGGCTAATGCAAGAGGCCAAAAAATGTTTGGAGGAAGAAAAACAAAGGCAGGAAGTGGCGGCGGCCTGACGGTGCGTGTGTGTCTGCAGAGAAGGGAGGGAGCCGGCTCAGTCTCTTCTTGTTTTTCCAAACTTCAAGGTCCAGGCAGCCCTCTGCAGGGCCGGGCCCCATTGCTCCCCGCGCGGCATTGGAGGTGGCCGCCCGGAGAGGAGAAGGCCAACGCCTGCGCCAGGCTTGTCAGGCGGAAACGGCTAACAAGGAGATTTGGTCAGCAAAACAGACCCAGCCTTTCCGAGGCTTCGTCTGACTTGGCCCGAAAGGTTGGGGAGGGGGGGCTTGCGCAGAGCCTCAGGGACCCTCCTCTCTGGGGACTACCATCCCTGAGCCTTACGCTTCTTTCCACAGCCTTTGCAGGCGGAATATCGGAATAAAGTGGGTCCAGGCGCC
>n767_u725_AF071169_Hoxa 11-AS RNA_Homo sapiens (human)
GAGGTCCAACAGCCGAGCTTAGCCCACCGGGCTCTGGGAAAGACCCGACTGAGGCTAAAGCCGCCCCGGAAGGCCAAGTCCGAGTTCCATTTCTTGAAGAGGCCGGCGCGCGTAAGGCTGTGACATTGGCCCTGGCGACTGGCTTCCCAGGAGCTGTTCTTTCTCAGGAGCTCCACAGCGCGGGCCATCTCCAGAAAACTGTCTTTCAGCTTGTGCCTGAGCAGACGGGGTTGTGGTGGCCCGCCAGCGGGGGATGCCAGGCCACCTCCCCCAGCGGCACGCAGCCCCTCTCTTAATTAGATCGGTTTTCCCCTGGTGTCCGGGAGAGCGGTCCCGGCAGAAAGTCAGAGTGTATTTCCTTTTATCGTCAACCCAGAGCCCCACCGCGGCTAATGCAAGAGGCCAAAAAATGTTTGGAGGAAGAAAAACAAAGGCAGGAAGTGGCGGCGGCCTGACGGTGCGTGTGTGTCTGCAGAGAAGGGAGGGAGCCGGCTCAGTCTCTTCTTGTTTTTCCAAACTTCAAGGTCCAGGCAGCCCTCTGCAGGGCCGGGCCCCATTGCTCCCCGCGCGGCATTGGAGGTGGCCGCCCGGAGAGGAGAAGGCCAACGCCTGCGCCAGGCTTGTCAGGCGGAAACGGCTAACAAGGAGATTTGGTCAGCAAAACAGACCCAGCCTTTCCGAGGCTTCGTCTGACTTGGCCCGAAAGGTTGGGGAGGGGGGGCTTGCGCAGAGCCTCAGGGACCCTCCTCTCTGGGGACTACCATCCCTGAGCCTTACGCTTCTTTCCACAGCCTTTGCAGGCGGAATATCGGAATAAAGTGGGTCCAGGCGCC
>n768_u724_AF071170_Hoxa 11-AS RNA_Homo sapiens (human)
TCGAGGGCCGAACCGAGAGGGTGCTGGCAGGGCTGGATCCCACGGGTGTCCGCAGGAGACAAAGGCGAATTCCGGAGAAAAGGCTGGGGCTGAGAAAGGCGCTCCGGGAGCGGCTGGCAGGGCAATTCGGCAGGCTGCACCGAAGCCGAGTGCCCGGAGGGACTTGCCGCCCGGAAGGGGGTGTGTGGGGGCGCTGCCGTGAAGATGGATGAGGGAAAAGGTTTTTGATATCAGCAGAAGGGAAAACGCCTGGAGTGGCCGAACACTTTTAGTTGCCCAGCAGGAATAGGAGACGGGTACTCAGCTCCCCAAGGCTGCGCAATATCCCAGCTTTGCCCGCTCCTGCCCTCGTGTTCGGAATATGCTGGCGGTGTGAATGTGAAGGTTTCTCCAGGCAGGCGGCTGGGGCGAGGGGTGGGCGCAGCTCTGAGGATCAGACCAAATCTAGGGGAAAAAGGGGAGGCAGACCTTCGGGTCCTTGGTTTTGACTTTGCTCTGAGCCTATGATTGACTCTTCCGCTTTGCAGGAGGTCCAACAGCCGAGCTTAGCCCACCGGGCTCTGGGAAAGACCCGACTGAGGCTAAAGCCGCCCCGGAAGGCCAAGTCCGAGTTCCATTTCTTGAAGAGGCCGGCGCGCGTAAGGCTGTGACATTGGCCCTGGCGACTGGCTTCCCAGGAGCTGTTCTTTCTCAGGAGCTCCACAGCGCGGGCCATCTCCAGAAAACTGTCTTCAGAGTGTATTTCCTTTTATCGTCAACCCAGAGCCCCACCGCGGCTAATGCAAGAGGCCAAAAAATGTTTGGAGGAAGAAAAACAAAGGCAGGAAGTGGCGGCGGCCTGACGGTGCGTGTGTGTCTGCAGAGAAGGGAGGGAGCCGGCTCAGTCTCTTCTTGTTTTTCCAAACTTCAAGGTCCAGGCAGCCCTCTGCAGGGCCGGGCCCCATTGCTCCCCGCGCGGCATTGGAGGTGGCCGCCCGGAGAGGAGAAGGCCAACGCCTGCGCCAGGCTTGTCAGGCGGAAACGGCTAACAAGGAGATTTGGTCAGCAAAACAGACCCAGCCTTTCCGAGGCTTCGTCTGACTTGGCCCGAAAGGTTGGGGAGGGGGGGCTTGCGCAGAGCCTCAGGGACCCTCCTCTCTGGGGACTACCATCCCTGAGCCTTACGCTTCTTTCCACAGCCTTTGCAGGCGGAATATCGGAATAAAGTGGGTCCAGGCGCC
>n769_u726_AF071171_Hoxa 11-AS RNA_Homo sapiens (human)
GGGGGTGTGCGCTGTTCCGCATAACCACTGCCTCCCATGTCCTCCTCGAGGGCCGAACCGAGAGGGTGCTGGCAGGGCTGGATCCCACGGGTGTCCGCAGGAGACAAAGGCGAATTCCGGAGAAAAGGCTGGGGCTGAGAAAGGCGCTCCGGGAGCGGCTGGCAGGGCAATTCGGCAGGCTGCACCGAAGCCGAGTGCCCGGAGGGACTTGCCGCCCGGAAGGGGGAGGTCCAACAGCCGAGCTTAGCCCACCGGGCTCTGGGAAAGACCCGACTGAGGCTAAAGCCGCCCCGGAAGGCCAAGTCCGAGTTCCATTTCTTGAAGAGGCCGGCGCGCGTAAGGCTGTGACATTGGCCCTGGCGACTGGCTTCCCAGGAGCTGTTCTTTCTCAGGAGCTCCACAGCGCGGGCCATCTCCAGAAAACTGTCTTCAGAGTGTATTTCCTTTTATCGTCAACCCAGAGCCCCACCGCGGCTAATGCAAGAGGCCAAAAAATGTTTGGAGGAAGAAAAACAAAGGCAGGAAGTGGCGGCGGCCTGACGGTGCGTGTGTGTCTGCAGAGAAGGGAGGGAGCCGGCTCAGTCTCTTCTTGTTTTTCCAAACTTCAAGGTCCAGGCAGCCCTCTGCAGGGCCGGGCCCCATTGCTCCCCGCGCGGCATTGGAGGTGGCCGCCCGGAGAGGAGAAGGCCAACGCCTGCGCCAGGCTTGTCAGGCGGAAACGGCTAACAAGGAGATTTGGTCAGCAAAACAGACCCAGCCTTTCCGAGGCTTCGTCTGACTTGGCCCGAAAGGTTGGGGAGGGGGGGCTTGCGCAGAGCCTCAGGGACCCTCCTCTCTGGGGACTACCATCCCTGAGCCTTACGCTTCTTTCCACAGCCTTTGCAGGCGGAATATCGGAATAAAGTGGGTCCAGGCGCC
>n770_u727_AF074612_ReplicationControl RNA_Yersinia pestis KIM
ATAGAGCAACAGCTTCTATACAGTTTTAAGTGGGCCCCGGTAACCTTCTCGCCTCGCCAAAGATGAGGAAGTTTATCGGGGTTTTTGCTT
>n771_u728_AF074613_flmB RNA_Escherichia coli O157:H7
TGCCTCATGACGTGAAGGTGGTTTGTTACCGTGTTGTGTGGCAGAAGGACAAAAGCCCCGTAGTTAATTTTTCATTAACCCACGAGGCCCCTGCATGCTTAGAC
>n772_u729_AF076153_csrB RNA_Salmonella typhimurium
GTCGACAGGGAGTCGTACAACGAAGCGAACGTCAGGATGATGACGCTTCAGCAGGACACGCCAGGATGGTGTTACAAGGAAAGGCTTCAGGATGAAGCAAAGTGGAAAGCGCAGGATGCGTTAAAGGACACCTCCAGGACGGAGAACGAGAGCCGATCAGGATGTTCGGCGGGTCTGGATGACCAGGGACGCTTCAGGAAGAAGCTATCACATCGGGCGATGTGCGCAGGATGCAAACGTTCAGGATGAACAGGCCGTAAGGTCACAGGAAAAGTTGTCACGGATGAGCAGGGAGCACGAAAAGTAGCTGGAATGCTGCGAAACGAACCGGGAGCACTGTTTATACAGTGCTCCCTTTTTTTT
>n773_u730_AF077370_RNase P RNA_Bufo calamita
GCGGAAGGAAGCTCACTGTAGAGGTCACGTGCTGAGTGCGTCACTCTTGTGATGTCATCTCTATCCCACCTCCGGGAAGGTCTGAGACAGGAGCCCCTCGCCGCCCTCACAGGGCGTCACCTGATGTCGGGTGAGTGAGCCCCCAGCAACCCCACGTTGGAGTGGACCGGTCCGTTATGTGGGAGTGGCTATGCAAAAGACACCGGGTAGGGGTGTGGTGAGATGGGCGGGTCACTGATTTGAGGTCCGCCCACTCTTCATCTGCACCTCTGCCTAGTGGATGCCGCCACCTCCCCGGACCTTGGAAGCGACTCACGGCTGGCTTGCTGAGTCCAATGGCTGAGGCGAGGCAGCTGTGCGCCTCGTAACCCAATTCAGACCACTCTCCGGAATTCCG
>n774_u731_AF077541_snmRNA_Caenorhabditis elegans
GATGTTCGAAGTGATAATAAAGAAGATTCAGCAACAATCAAGTGCGCTGGAAGAAGCCATGAAGGCTCAGAAGCCAAAGGTCGACTGCTCAATGAGTCGAGAGATGTGCTCTCCGAGTGGCTTGATCATAATCATGGAAAGGATGTGAGGGATCATAGTGTGTTTGATGATCTCGCGAAGACCTACGAAAAGGAGTTCCTAGCCGATATGGCTCGTCTCAACGTTCTCCCGGTCGACGTGCTCACCAGAGTCTCCGCTCAAGACTCGATTGCCACTGA
>n775_u732_AF078790_snmRNA_Caenorhabditis elegans
GGTTTTAACCCAGTTAATTGAGGTTAGCAATAATTTCGACCTTTCGAAAGATTGTGTTGAATAACAATAATTTTTGGAACAGCTTCTTCGGGGATATCCGATGAAGCAAA
>n776_u733_AF079515_snmRNA_mitochondrion Homo sapiens (human)
CCGCTTGTAGTACATAAAAACCCAATCCACATCAAAACCCCCTCCTCATGCTTACAAGCAAGTACAGCAATCAACCCTCAACTATCACACATCAACTGCAACTCCAAAGTCACCCCTCACCCATTAGGATACCAACAAACCTACCCACCCTTAACAGTACATAGTACATAAAGCCATTTACCGTACATAGCACATTGCAGTCAAATCCCTTCTCGTCCCCATGGATGACACCCCTCAGATAGGGGTCCCTTGGCCACCGTCCTCCGTGAAATCAATATCCCGCACAAGAGTGCTACTCTCCTCGCTCCG
>n777_u734_AF080083_self-splicing ribozyme RNA_mitochondrion Carpinus caroliniana (American hornbeam)
GAGAGCCGTGTGATGGGTGACTATCCAGCACGGTTCGGAGAGCACTTTTAGTCTGCGTTGGTGAATGAAAGCCCCCCCCCATCAAGCAAGAAAGAAGCGGCTCTTCCCACGGCGGAGTCACCATTGACTCTAT
>n778_u735_AF080092_TSU RNA_Homo sapiens (human)
AAGCGGCGAGGTGCCTTTACTACATGTGTGATCTGAAAACCCTGCTTGGTTCTGAGCTGCGTCTATTGAATTGGTAAAGTAATACCAATGGCTTTTTATCATTTCCTTCTTCCCTTTAAGTTTCACTTGAAATTTTAAAAATCATGGTTATTTTTATCGTTGGGATCTTTCTGTCTTCTGGGTTCCATTTTTTAAATGTTTAAAAATATGTTGACATGGTAGTTCAGTTCTTAACCAATGACTTGGGGATGATGCAAACAATTACTGTCGTTGGGATTTAGAGTGTATTAGTCACGCATGTATGGGGAAGTAGTCTCGGGTATGCTGTTGTGAAATTGAAACTGTAAAAGTAGATGGTTGAAAGTACTGGTATGTTGCTCTGTATGGTAAGAACTAATTCTGTTACGTCATGTACATAATTACTAATCACTTTTCTTCCCCTTTACAGCACAAATAAAGTTTGAGTTCTAAACTCATTAAA
>n779_u736_AF083031_snRNA_nucleomorph Guillardia theta
TCCATCATAAATTTAATACAATACAGAGAAGATTAGCATGGCCCCTGCGTAAGGATGACATGAAAATCTACTGGTAGTATTTT
>n780_u737_AF083031_snmRNA_nucleomorph Guillardia theta
ATAAATGATGATAGTTTGACGGTCTAATGATATCAATGAAAATCAATTCACCTGAAC
>n781_u738_AF083031_snoRNA_nucleomorph Guillardia theta
TAAAATGATGCAGACTAGAGTCTTTGATATATTTGACAATAATTATTACTGAAA
>n782_u739_AF083424_snmRNA_Ateline herpesvirus 3
ACACTACATATTTATTGAAAATGCTGCTATAACACTGTGACACCCGCAATCCAACTTATCTGAGTTTCTATTTTAGCTAATTTTTGCAGGCGCTGTGTGTAAATAGTTTTTCGCAGTGCCA
>n783_u740_AF083424_snmRNA_Ateline herpesvirus 3
ACACTACATATTTATTTGTCATAATGCTGCTTTATTAACAGTGCCGCTTTGGACTTGTATTCCTATTCTTAATTTTTGAAGGCGGTGGGTGTACATAGCTAAAAACCATCGCCA
>n784_u741_AF084536_snRNA_Xenopus laevis (African clawed frog)
AGTTAGTGATGAAATCCCATGCGTGTCATCTGACTTCCACGTCTCGCTCTGCCTTCGCTCTGCGCTGTCTGCGTTCTGCAGCTTGGGTTTGGCTAGGGCAGAGGATTCTGGGAAATGATCAGACCCGTTTATCTGAAAACT
>n785_u742_AF084930_RNase P RNA_Proteus vulgaris
GGATCCGGGGAGGAAAGTCCGGGCTCCACAGGGCAGGGTGCCAGATAACGTCTGGGAGGCGCGAGCCTACGACAAGTGCAGCAGAGAGTAAACCGCCGATGGCCTGTTTACAGGATCAGGTAAGGGTGAAAGGGTGCGGTAAGAGCGCACCGCACAGCTGGTAACAGTTTGTGGCAAGGTAAACTCCACCCGGAGCAAGACCAAATAGGGGTTCTTATGGTGCGGCCCGCATTGAACCCGGGTAGGTTGCTGGAGCCAGCGCGCAAGTTCTGGCCTAGATGAATGGTTGTCCACGACAGAACACGGCTTAT
>n786_u743_AF084931_RNase P RNA_proteobacterium 'purpleX'
GGATCCGGGGAGGAAAGTCCGGGCTCCACAGGGCAGGGTGCCAGATAACGTCTGGGAGGCGCGAGCCTACGACCAGTGCAACAGAGAGCAAACCGCCGATGGTCCGTAAGGGCACAGGTAAGGGTGAAAGGGTGCGGTAAGAGCGCACCGCGCGGCTGGTAACAGTCGGTGGCACGGTAAACTCCACCCGGAGCAAGGCCAAATAGGGGTTCATATGGTGCGGCCCGCACTGAACCCGGGTAGGCTGCTTGAGCCAGTGCGTGAGTGCTGGCCCAGAGGAATGATTGTCCACGACAGAACCCGGCTTAC
>n787_u744_AF085328_snoRNA_Saccharomyces cerevisiae (baker's yeast)
ACTTTATCTCCATGACTATGCCATTTCTAGGTAGCCTATGGTAAACGAATCCCGTAGATTATTCACACGTTTGTTGTCTTTGTTGACAACAACACAGAGTAAGAAAAAGCAAAAGATTTATCTCTTTTGTCCATCTTTTTTTTATTTTGAAGGCGTGTAACATTT
>n788_u745_AF087017_H19 RNA_Homo sapiens (human)
AGCAGGGTGAGGGAGGGGGTGGGATGGGTGGGGGGTAACGGGGGAAACTGGGGAAGTGGGGAACCGAGGGGCAACCAGGGGAAGATGGGGTGCTGGAGGAGAGCTTGTGGGAGCCAAGGAGCACCTTGGACATCTGGAGTCTGGCAGGAGTGATGACGGGTGGAGGGGCTAGCTCGAGGCAGGGCTGGTGGGGCCTGAGGCCAGTGAGGAGTGTGGAGTAGGCGCCCAGGCATCGTGCAGACAGGGCGACATCAGCTGGGGACGATGGGCCTGAGCTAGGGCTGGAAAGAAGGGGGAGCCAGGCATTCATCCCGGTCACTTTTGGTTACAGGACGTGGCAGCTGGTTGGACGAGGGGAGCTGGTGGGCAGGGTTTGATCCCAGGGCCTGGGCAACGGAGGTGTAGCTGGCAGCAGCGGGCAGGTGAGGACCCCATCTGCCGGGCAGGTGAGTCCCTTCCCTCCCCAGGCCTCGCTTCCCCAGCCTTCTGAAAGAAGGAGGTTTAGGGGATCGAGGGCTGGCGGGGAGAAGCAGACACCCTCCCAGCAGAGGGGCAGGATGGGGGCAGGAGAGTTAGCAAAGGTGACATCTTCTCGGGGGGAGCCGAGACTGCGCAAGGCTGGGGGGTTATGGGCCCGTTCCAGGCAGAAAGAGCAAGAGGGCAGGGAGGGAGCACAGGGGTGGCCAGCGTAGGGTCCAGCACGTGGGGTGGTACCCCAGGCCTGGGTCAGACAGGGACATGGCAGGGGACACAGGACAGAGGGGTCCCCAGCTGCCACCTCACCCACCGCAATTCATTTAGTAGCAGGCACAGGGGCAGCTCCGGCACGGCTTTCTCAGGCCTATGCCGGAGCCTCGAGGGCTGGAGAGCGGGAAGACAGGCAGTGCTCGGGGAGTTGCAGCAGGACGTCACCAGGAGGGCGAACGGCCACGGGAGGGGGGCCCCGGGACATTGCGCACAAGGAGGCTGCAGGGGCTCGGCCTGCGGGCGCCGGTCCCACGAGGCACTGCGGCCCAGGGTCTGGTGCGGAGAGGGCCCACAGTGGACTTGGTGACGCTGTATGCCCTCACCGCTCAGCCCCTGGGGCTGGCTTGGCAGACAGTACAGCATCCAGGGGAGTCAAGGGCATGGGGCGAGACCAGACTAGGCGAGGCGGGCGGGGCGGAGTGAATGAGCTCTCAGGAGGGAGGATGGTGCAGGCAGGGGTGAGGAGCGCAGCGGGCGGCGAGCGGGAGGCACTGGCCTCCAGAGCCCGTGGCCAAGGCGGGCCTCGCGGGCGGCGACGGAGCCGGGATCGGTGCCTCAGCGTTCGGGCTGGAGACGAGGCCAGGTCTCCAGCTGGGGTGGACGTGCCCACCAGCTGCCGAAGGCCAAGACGCCAGGTCCGGTGGACGTGACAAGCAGGACATGACATGGTCCGGTGTGACGGCGAGGACAGAGGAGGCGCGTCCGGCCTTCCTGAACACCTTAGGCTGGTGGGGCTGCGGCAAGAAGCGGGTCTGTTTCTTTACTTCCTCCACGGAGTCGGCACACTATGGCTGCCCTCTGGGCTCCCAGAACCCACAACATGAAAGAAATGGTGCTACCCAGCTCAAGCCTGGGCCTTTGAATCCGGACACAAAACCCTCTAGCTTGGAAATGAATATGCTGCACTTTACAACCACTGCACTACCTGACTCAGGAATCGGCTCTGGAAGGTGAAGCTAGAGGAACCAGACCTCATCAGCCCAACATCAAAGACACCATCGGAACAGCAGCGCCCGCAGCACCCACCCCGCACCGGCGACTCCATCTTCATGGCCACCCCCTGCGGTGGACGGTTGACCACCAGCCACCACATCATCCCAGAGCTGAGCTCCTCCAGCGGGATGACGCCGTCCCCACCACCTCCCTCTTCTTCTTTTTCATCCTTCTGTCTCTTTGTTTCTGAGCTTTCCTGTCTTTCCTTTTTTCTGAGAGATTCAAAGCCTCCACGACTCTGTTTCCCCCGTCCCTTCTGAATTTAATTTGCACTAAGTCATTTGCACTGGTTGGAGTTGTGGAGACGGCCTTGAGTCTCAGTACGAGTGTGCGTGAGTGTGAGCCACCTTGGCAAGTGCCTGTGCAGGGCCCGGCCGCCCTCCATCTGGGCCGGGTGACTGGGCGCCGGCTGTGTGCCCGAGGCCTCACCCTGCCCTCGCCTAGTCTGGAAGCTCCGACCGACATCACGGAGCAGCCTTCAAGCATTCCATTACGCCCCATCTCGCTCTGTGCCCCTCCCCACCAGGGCTTCAGCAGGAGCCCTGGACTCATCATCAATAAACACTGTTAC
>n789_u746_AF087656_self-splicing ribozyme RNA_mitochondrion Agrocybe aegerita
TTGAGCTGTATGCGATGAAAGTCGCACGTACAGTTCTTAGAGGATGTTAATATAGTAATATTTAACGTAGCCTCAACAG
>n790_u330_AF089836_snoRNA_Drosophila melanogaster (fruit fly)
ACCCCATGATATTAAGCCGGCAGGTGCCTGCAATCCCCACGGGCACCTGTGACTATGATTGGGAACAGCAAAGCTGCTGATGTGTGTATGTTGGGCAGCGCTCTTATCCTGCGCGCTCGACAAAGAATATTCGGTCGACA
>n791_u747_AF090431_DsrA RNA_Salmonella typhimurium
ACATCAGATTTCCTGGTGTAACGAATTTTCAAGTGCTTCTTGCATAAGCAAGTTTGATCCCGACCCGTAGGGCCGGGATTTT
>n792_u748_AF092038_SRA RNA_Homo sapiens (human)
CGCTTGGCGGAGCTGTACGTGAAGCCGGGCAACAAGGAACGCGGCTGGAACGACCCGCCGCAGTTCTCATACGGGCTGCAGACCCAGGCCGGCGGACCCAGGCGCTCGCTGCTTACCAAGAGGGTAGCCGCACCCCAGGATGGATCCCCCAGAGTCCCCGCATCAGAGACTTCTCCTGGGCCTCCCCCAATGGGGCCTCCACCTCCTTCAAGTAAGGCTCCCAGGTCCCCACCTGTGGGGAGTGGTCCTGCCTCTGGCGTGGAGCCCACAAGTTTCCCAGTCGAGTCTGAGGCTGTGATGGAGGATGTGCTGAGACCTTTGGAACAGGCATTGGAAGACTGCCGTGGCCACACAAGGAAGCAGGTATGTGATGACATCAGCCGACGCCTGGCACTGCTGCAGGAACAGTGGGCTGGAGGAAAGTTGTCAATACCTGTAAAGAAGAGAATGGCTCTACTGGTGCAAGAGCTTTCAAGCCACCGGTGGGACGCAGCAGATGACATCCACCGCTCCCTCATGGTTGACCATGTGACTGAGGTCAGTCAGTGGATGGTAGGAGTTAAAAGATTAATTGCAGAAAAGAGGAGTCTGTTTTCAGAGGAGGCAGCCAATGAAGAGAAATCTGCAGCCACAGCTGAGAAGAACCATACCATACCAGGCTTCCAGCAGGCTTCATAATCCTCGGTTCCCCAGACTCACCGGACACCATCTCCTATGCCTTGGAGACCTTCTGTCACTTGGCTCCCTTCTTACCACCACCAAGACTGTCCCACTGGGCCTGACCCACCTATGAGGGAAGAAGTCCCACCTGGGCCAGAGGGAGTTCATGTGTTACTCATAACATGCATTTCAATAAAAACATCTCTGCGGTGGTG
>n793_u749_AF092039_SRA RNA_Mus musculus (house mouse)
CAATTCTCCTACGGGCTCCAGACTCAGACTGGTGGACCCAAACGCACTCCCCTTACTAAGAGGGTCGCGGCCCCACAGGATGGATCCCCTAGAGCCCCAGAAACTTCTGGACCACCTCCAGTGGATCATCCACCTCCTTCAAGTAAGGCTTCCAGGCCTCCGCCCATGGGGAGCTGTCCTGCTACTGGTGTGGAGCCCCCAAGTTCCCCAGTCATTGAGTCTGAAACTCTGATAGAAGACGTGCTGAGACCTCTGGAACAGGCATTGGAGGACTGCCATGGTCACACAAAGAAACAGGTATGTGATGATATCAGCCGACGCTTGGCGCTGCTTCAAGAACAGTGGGCTGGAGGGAAGTTGTCAAAACCTGTAAAGGAGGGGATGGCATTGCTAGTGCAAGGAATTTTAANATTCACCCAGTGGGATGCAGCAGATGACATTCACCGATCATTCATGGTTGACCATGTGACTGAGGTCAGTCAGTGGATGGTGGGAGTAAAAAGATTAATTGCAGAAAAGGAAGAGTCTATCTTCAGAGGAGACCAAAGAAGAGAAATTTACAGTGGAACCTGAGAACCAGACAATACCAGGCTTCCAACAGCCATCATAATGCCTGTGGCTCCCCAGACTCACTTCACCTGACTTCCTATGCCTTAGTGTGGAAGGCTTCTTNTTCCTTTTTACCACCAGGGAGACTATTGGTCTTGTGGGTCTTGACCAAAGATCCTATNTAGACCACTGCAAGATCACTTGTTATGTACATTTCAATAAACATCTCAATAAAATCTCAATGGTGGGAAGTGGGTAGGAAAGATGAAAAAAAAAAAAG
>n794_u750_AF095839_snRNA_Entosiphon sulcatum
AACATACCTGGTTGGGTGGTGACCGTGACCAAGCAGGCGGTCCCACTATCCGGCTGCCCTTTCTTGCACTTCAAAGGCTGGCTGGGTAGTGCTGTGCCCCCAGTGGGCGCAGCACACAGCATAATTTTTGGTAGCGGTGGGGAGATGCGCTTCGGTGTGTC
>n795_u751_AF095839_snRNA_Entosiphon sulcatum
ATACCTTCTCGGCCTTTTGGCTAAGATCAAGTGTAGTATCTGTTCTTATCAGCTTAATTTCTGATATATCGGACACTGTCCGATTGAGAAATTAAACTAATTTTTTGATGGGGGCAAGGGGTTCCCCTCGTGCTTGCGCGAGTCCCTTGCCACGGGTTGCCCTGCTATTGCACTACCGGCAGGCGCGGCCCAACCCAC
>n796_u752_AF095839_snRNA_Entosiphon sulcatum
CATACCCAGCACCGCCTGCTACTTACATCGCATTTATCTTTCGCCTTTTACTAAAGATAGCCGTGAGTGAGCAGGCACTGCGGTGCATTGACCCAATTTTTGGAGCCCCCTCAAAAGGGCAAA
>n797_u753_AF095841_snRNA_Entosiphon sulcatum
GTGCTCGCTTTGGCAGCACTTACACTAAAATTGGAATGATACAGAGAAGATTAGCACGGTCCCTGGGCAAGGATGACACACAAGTTCGTGAAGCGTTCCATATTT
>n798_u330_AF097634_snoRNA_Drosophila melanogaster (fruit fly)
ACCCCATGATATTAAGCCGGCAGGTGCCTGCAATCCCCACGGGCACCTGTGACTATGATTGGGAACAGCAAAGCTGCTGATGTGTGTATGTTGGGCAGCGCTCTTATCCTGCGCGCTCGACAAAGAATATTCGGTCGACA
>n799_u754_AF103907_DD3 RNA_Homo sapiens (human)
ACAGAAGAAATAGCAAGTGCCGAGAAGCTGGCATCAGAAAAACAGAGGGGAGATTTGTGTGGCTGCAGCCGAGGGAGACCAGGAAGATCTGCATGGTGGGAAGGACCTGATGATACAGAGGAATTACAACACATATACTTAGTGTTTCAATGAACACCAAGATAAATAAGTGAAGAGCTAGTCCGCTGTGAGTCTCCTCAGTGACACAGGGCTGGATCACCATCGACGGCACTTTCTGAGTACTCAGTGCAGCAAAGAAAGACTACAGACATCTCAATGGCAGGGGTGAGAAATAAGAAAGGCTGCTGACTTTACCATCTGAGGCCACACATCTGCTGAAATGGAGATAATTAACATCACTAGAAACAGCAAGATGACAATATAATGTCTAAGTAGTGACATGTTTTTGCACATTTCCAGCCCCTTTAAATATCCACACACACAGGAAGCACAAAAGGAAGCACAGAGATCCCTGGGAGAAATGCCCGGCCGCCATCTTGGGTCATCGATGAGCCTCGCCCTGTGCCTGGTCCCGCTTGTGAGGGAAGGACATTAGAAAATGAATTGATGTGTTCCTTAAAGGATGGGCAGGAAAACAGATCCTGTTGTGGATATTTATTTGAACGGGATTACAGATTTGAAATGAAGTCACAAAGTGAGCATTACCAATGAGAGGAAAACAGACGAGAAAATCTTGATGGCTTCACAAGACATGCAACAAACAAAATGGAATACTGTGATGACATGAGGCAGCCAAGCTGGGGAGGAGATAACCACGGGGCAGAGGGTCAGGATTCTGGCCCTGCTGCCTAAACTGTGCGTTCATAACCAAATCATTTCATATTTCTAACCCTCAAAACAAAGCTGTTGTAATATCTGATCTCTACGGTTCCTTCTGGGCCCAACATTCTCCATATATCCAGCCACACTCATTTTTAATATTTAGTTCCCAGATCTGTACTGTGACCTTTCTACACTGTAGAATAACATTACTCATTTTGTTCAAAGACCCTTCGTGTTGCTGCCTAATATGTAGCTGACTGTTTTTCCTAAGGAGTGTTCTGGCCCAGGGGATCTGTGAACAGGCTGGGAAGCATCTCAAGATCTTTCCAGGGTTATACTTACTAGCACACAGCATGATCATTACGGAGTGAATTATCTAATCAACATCATCCTCAGTGTCTTTGCCCATACTGAAATTCATTTCCCACTTTTGTGCCCATTCTCAAGACCTCAAAATGTCATTCCATTAATATCACAGGATTAACTTTTTTTTTTAACCTGGAAGAATTCAATGTTACATGCAGCTATGGGAATTTAATTACATATTTTGTTTTCCAGTGCAAAGATGACTAAGTCCTTTATCCCTCCCCTTTGTTTGATTTTTTTTCCAGTATAAAGTTAAAATGCTTAGCCTTGTACTGAGGCTGTATACAGCACAGCCTCTCCCCATCCCTCCAGCCTTATCTGTCATCACCATCAACCCCTCCCATACCACCTAAACAAAATCTAACTTGTAATTCCTTGAACATGTCAGGACATACATTATTCCTTCTGCCTGAGAAGCTCTTCCTTGTCTCTTAAATCTAGAATGATGTAAAGTTTTGAATAAGTTGACTATCTTACTTCATGCAAAGAAGGGACACATATGAGATTCATCATCACATGAGACAGCAAATACTAAAAGTGTAATTTGATTATAAGAGTTTAGATAAATATATGAAATGCAAGAGCCACAGAGGGAATGTTTATGGGGCACGTTTGTAAGCCTGGGATGTGAAGCAAAGGCAGGGAACCTCATAGTATCTTATATAATATACTTCATTTCTCTATCTCTATCACAATATCCAACAAGCTTTTCACAGAATTCATGCAGTGCAAATCCCCAAAGGTAACCTTTATCCATTTCATGGTGAGTGCGCTTTAGAATTTTGGCAAATCATACTGGTCACTTATCTCAACTTTGAGATGTGTTTGTCCTTGTAGTTAATTGAAAGAAATAGGGCACTCTTGTGAGCCACTTTAGGGTTCACTCCTGGCAATAAAGAATTTACAAAGAGCTACTCAGGACCAGTTGTTAAGAGCTCTGTGTGTGTGTGTGTGTGTGTGTGAGTGTACATGCCAAAGTGTGCCTCTCTCTCTTGACCCATTATTTCAGACTTAAAACAAGCATGTTTTCAAATGGCACTATGAGCTGCCAATGATGTATCACCACCATATCTCATTATTCTCCAGTAAATGTGATAATAATGTCATCTGTTAACATAAAAAAAGTTTGACTTCACAAAAGCAGCTGGAAATGGACAACCACAATATGCATAAATCTAACTCCTACCATCAGCTACACACTGCTTGACATATATTGTTAGAAGCACCTCGCATTTGTGGGTTCTCTTAAGCAAAATACTTGCATTAGGTCTCAGCTGGGGCTGTGCATCAGGCGGTTTGAGAAATATTCAATTCTCAGCAGAAGCCAGAATTTGAATTCCCTCATCTTTTAGGAATCATTTACCAGGTTTGGAGAGGATTCAGACAGCTCAGGTGCTTTCACTAATGTCTCTGAACTTCTGTCCCTCTTTGTGTTCATGGATAGTCCAATAAATAATGTTATCTTTGAACTGATGCTCATAGGAGAGAATATAAGAACTCTGAGTGATATCAACATTAGGGATTCAAAGAAATATTAGATTTAAGCTCACACTGGTCAAAAGGAACCAAGATACAAAGAACTCTGAGCTGTCATCGTCCCCATCTCTGTGAGCCACAACCAACAGCAGGACCCAACGCATGTCTGAGATCCTTAAATCAAGGAAACCAGTGTCATGAGTTGAATTCTCCTATTATGGATGCTAGCTTCTGGCCATCTCTGGCTCTCCTCTTGACACATATTAGCTTCTAGCCTTTGCTTCCACGACTTTTATCTTTTCTCCAACACATCGCTTACCAATCCTCTCTCTGCTCTGTTGCTTTGGACTTCCCCACAAGAATTTCAACGACTCTCAAGTCTTTTCTTCCATCCCCACCACTAACCTGAATGCCTAGACCCTTATTTTTATTAATTTCCAATAGATGCTGCCTATGGGCTATATTGCTTTAGATGAACATTAGATATTTAAAGCTCAAGAGGTTCAAAATCCAACTCATTATCTTCTCTTTCTTTCACCTCCCTGCTCCTCTCCCTATATTACTGATTGCACTGAACAGCATGGTCCCCAATGTAGCCATGCAAATGAGAAACCCAGTGGCTCCTTGTGGTACATGCATGCAAGACTGCTGAAGCCAGAAGGATGACTGATTACGCCTCATGGGTGGAGGGGACCACTCCTGGGCCTTCGTGATTGTCAGGAGCAAGACCTGAGATGCTCCCTGCCTTCAGTGTCCTCTGCATCTCCCCTTTCTAATGAAGATCCATAGAATTTGCTACATTTGAGAATTCCAATTAGGAACTCACATGTTTTATCTGCCCTATCAATTTTTTAAACTTGCTGAAAATTAAGTTTTTTCAAAATCTGTCCTTGTAAATTACTTTTTCTTACAGTGTCTTGGCATACTATATCAACTTTGATTCTTTGTTACAACTTTTCTTACTCTTTTATCACCAAAGTGGCTTTTATTCTCTTTATTATTATTATTTTCTTTTACTACTATATTACGTTGTTATTATTTTGTTCTCTATAGTATCAATTTATTTGATTTAGTTTCAATTTATTTTTATTGCTGACTTTTAAAATAAGTGATTCGGGGGGTGGGAGAACAGGGGAGGGAGAGCATTAGGACAAATACCTAATGCATGTGGGACTTAAAACCTAGATGATGGGTTGATAGGTGCAGCAAACCACTATGGCACACGTATACCTGTGTAACAAACCTACACATTCTGCACATGTATCCCAGAACGTAAAGTAAAATTTAAAAAAAAGTGA
>n800_u755_AF104263_self-splicing ribozyme RNA_Hepatitis delta virus
ATGGCCGGCATGGTCCCAGCCTCCCCGGTGGCGCCGGCTGGGCAACATTCCGAAGGGGACCGTCCCTCGGTAATGGCGAATGGGACCCA
>n801_u756_AF104264_self-splicing ribozyme RNA_Hepatitis delta virus
GTGGCCGGCATGGTCCCAGCCTCCCCCGTGGCGCCGGCTGGGCAACATTCCGAGGGGACCGTCCCTCGGTAATGGCGAATGGGACCCA
>n802_u757_AF104906_XIST RNA_Bos taurus (cow)
TTCTTAAAGCGCTGCAATTTGCTGCGACCGCCATATTTCTTCTTTTCCCGAGATGGAAGCTTATTAATATTGGATTTCTTTGCCTGTGTGGTTCTTTCTGGAACATTTTCCAGACCCCAACCATGCCTTATGGCATATTTCTTGGAAAAAATTACACCAAAAATTCATAAAATATTTTTAAAAACCTGAACTTTCTTCTAGTATTTTCTTGACACCTTCTCAGTATTTTACAGATACTTGGGGATATTTTTAGGCAATTTTCCATTTTAAAGGACGTTTTCTTTGGAATGATTTTTGGTTGCCTCCTCTGGGTTTTTTGTGGTTTCTTTTTCTTTTTCTCCTCCTTTTCTATATTATTTGCCCATCGCGGCTGTGGATACCTGGTTTTAGTGTGTATATAGATAGGTAGATAGATATATTATTATTGTATTATTTTTTACCCAACGGGGTCATGGATACCTGCCTTTTATTTTATTTTTTTTTAATTTGCCCATCGGGGCCACGGATACCTGCTTTTAATTTTTTTTTTCCCCCTTAGCCCATCGGGGCCTCGGATACCTGCTGTGTACCCCCTCTCTCCCTAACCTGGCCCATCGGGGCAATGGATACCTGCCTCTTTTTTAAATGTGTTGTTTTTTTTTTTTTTTCCTTGCCCATCGGGGCCTCGGATACCTGCTTTAATTTTTTTTTTCTTGCCCATCGGGGCCTCGGATACCTACTTTAATTTTTTTTCCTTGCCCATCGGGACCGCGGACACCTGCTTAGATTTTTGTTTTACACCACCCATCGGGGCTTTATATGGTTGGAAAAGTGTTGGGTTTTGTGGTTCGTTGTACTATCTGGAATGTCTACAAAATTTTGCTGCTAATCGTTTGTGTTGTGTGAGTGGACCTACGGCTTTGGCTGGGAGATGACTTTGCAGTTAGGCTAGAGGGTTGGTTAGGCTGGGGAGGAAAGATGGCGGCCACTTCAGATTTGCCGCCCAGCTTGGCTGAGGGGTAACTGTGCTAAGTATCACTAGGAAGGTAAGATGAATAATGCGACAGGCAAAGGAAATGGTATGCATTGCATGAGTTAAATGTTTTGAATAAGCTGACTTGGATCATGTTAGGAGCTTGGCATGAATTGTGGTATCATGAGGTGGGAAAACATAGGATCATCCTATGTCATATTACAAGGGTCTAATGGAAAATGAGCGGGAGAAGAATTAGGCGCAGTGTTCAAAATGGCGATTTTGACCTTGCAGCATTGCTTAGCATGGCTCTCTGCTTTGTTAGAGTGTTCAAAATGGCGGATCCATTTTGCCGCAGTGTTCCAATGGCGGGAAGCCACATCATGGGTGTCTTTGTTCTAGTGTGCAGCATGGCGGTAGAAATATTCTGTTACATAGTAAAAGATGGCCGCTTAAGTACTTGCCGCAGTCTAAAACATGGCGGGCTTTTGTCTCTGCCGTGTGCATTTCCTGATAGGTTTTGCTGCAGGGACAATATGGCTGACCTTGTCATGTGGATATCATGGCAGTTTGTCACGTGGATATCGTGGCAGGGGTGTTTGACCGTTACATTCTTGGCGGGCTTTGCATCAGGAGGGCCTGCCGCATTGTTAAAGATGGCGTGCTTTGCCGCGGACAAAGTGAAAGGAGGGATTGGCAATGTTAGATTGCCGCGTGTCCCACCCAATCAGAAAGGGTGGTAGAATCGGTCACAGCCAGTTAGTGGAGGATGGAATTAGATGAGTTAGCATAGCACCTCGCTACCGTCTCTATTCAGCCAGTCAGGATTGGCCACATTTGTACTAATCTCAGTGGGTGGTACCAAAGTCTTTCCAAGGACATTTGGCCTTTCCACCTCCTCCCTCCCCTCTCACTGGCTCCCTCCCCTCCCTCATTGCCACTTGCAGTGCTGGATATTAGGTTGTGCAGGCAGAACCTCACGCCATTCCTCTGCATTGGTGCCGTGGCCGAAGCCCTTCCCCACTTCCCCCTTCCCCGCCCCCTGCTCTTCTGCGTTGTGGCCAGGGGCAGTGCGCCATGCCTGCTAAGTGTGAACTTGGCGGTGAGTCGTGGCAAGGACCAGAATGGATCGCAGATGATCGTTGGCCAACTGTTGGCAGAAGAGGAATCCCTGCCTTCCTCAAGAGGAACACCTACCCCGTGGCTAATGCTGGGGTCGGATTTTTGATA
>n803_u758_AF105429_H19 RNA_Ovis aries (sheep)
AGAAATGGTGCTACCCAGCTCATGCCTGGGACTTGGAACTTGGACTTCTTCAAGTCTTTCTAGCTCTGACTCGAGAATATGCTGCATTTTGGAACCACTACACACCTTAACTCAGGAATCAGCTCTGGAAGGTTGACCTAAAGGAACGGAAGACCCACACCATCGGAAGAGCGGCGCCCGCGGCGATACCCACCCCGGCCCGACGACACCATCTCTGCGGCCACCCCCTGCCCCAGCCCCGAGACCACCAACAGCCTCCCTCCCTCCTTTCCCTCTTTTTCTGTCTCTATCTTCTGATCTTCTCTCTGCTGTCCTTTGCTCAGGAGACTCAGAGCGTCCAGAGCCCCGTTCCCCCCGTCCCCCTTGAATTAATTTGCACTAAGTCGTTTGCACTGGT
>n804_u759_AF105430_H19 RNA_Ovis aries (sheep)
AAATGGTGCTACCCAGCTCATGCCTGGGACTTGGAACTTGGACTTCTTCAAGTCTTTCTAGCTCTGACTCGAGAATATGCTGCATCTTGGAACCACTACACACCTTAACTCAGGAATCAGCTCTGGAAGGTTGACCTAAAGGAACGGAAGACCCACACCATCGGAAGAGCGGCGCCCGCGGCGACACCCACCCCGGCCCGACGACACCATCTCTGCGGCCACCCCCTGCCCCAGCCCCGAGACCACCAACAGCCTCCCCCCCTCCTTTCCCTCTTTTTCTGTCTCTATCTTCTGATCTTCTCTCTGCTGTCCTTTGCTCAGGAGACTCAGAGCGTCCAGAGCCCCGTTCCCCCCGTCCCCCTTGAATTAATTTGCACTAAGTCAATTGCACTGGT
>n805_u760_AF106329_flmB RNA_Escherichia coli
GTCTAAGCATGCAGGGGCCTCGTGGGTTAATGAAAAATTAACTACGGGGCTTTTGTCCTTCTGCCACACAACACGGCAACAAACCACCTTCACGTCATGAGGCA
>n806_u761_AF106845_snRNA_Oryza sativa (indica cultivar-group)
ATACCTTTCTCGGCCTTTTGGCTAAGATCAAGTGTAGTATCTGTTCTTATCAGTTTAATATCTGATATGTGGGCCATGTGTCTACTTTGATATTAAATTTATTTTTCGTGGGGGAGAGTCCACCATAGTGGCTTGCCACTAGGGCCCTCATGTGTCGCCTAGGCGTTGCACTACAGCCTTGGCTGGTGCACCCCATC
>n807_u762_AF106845_snRNA_Oryza sativa (indica cultivar-group)
ATACCTTTCTCGGCCTTTTGGCTAAGATCAAGTGTGATATCTGTTCTTATCAGTTTAATATCTGATATGTGGCCATGTGCCCACTTTGATATTAAATTTATTTTTTGTGGGGGAGGGTCCACCATAGTGGCTTGCCACTAGGGCCTTCGTGTGTCGCCTAGGCGTTGCACTACAGCCTTGGCTGGCGCACCCCAAC
>n808_u763_AF106847_snRNA_Oryza sativa (indica cultivar-group)
ATACCTTTCTCGGCCTTTTGGCTAAGATCAAGTGTAGTATCTGTTCTTATCAGTTTAATATCTGATATGTGGGCCATGTGCTCACTACGATATTAAATTTATTTTTTGTGGGGAGGGTCCACCACAGTGGCTTGCCACTGGGGCCCTCACGCGTTGCCCAGGCGTTGCACTGCTGCCCGGGCCTGGCGCACCCCA
>n809_u764_AF108105_VA RNA_Human adenovirus type 17
GGCTCTTCCTCCGTAGCCTGGCGGAACGCAAACGGGTTAGGCCGCGCGTGTACCCCGGTTCGAGTCCCCTCGAATCAGGCTGGAGCCGCGACTAACGTGGTATTGGCACTCCCGTCTCGACCCGAGCCCGATAGCCGCCAGGATACGCGGGAAGAGCCCT
>n810_u765_AF109908_snmRNA_Saimiriine herpesvirus 2
ACACTACATATTTATTAACAATGGTTTACAAGAACTTAAAAAAACTGTGAAAATTCAACCCAACCGAGACACACCATAGGCAACGCAGTAACTTGCTGAACCATTCTGTGAACTAATTTTTTGAGGCACTGGGTGTAAATATGAATTAACCAGTGCCA
>n811_u766_AF109908_snmRNA_Saimiriine herpesvirus 2
ACACTACATATTTATTGTGCTGCTATAAGTCACACTCAATGTATTGCTAGCTAATTTTTGAAAGCACTGGGTGTACATAGTTAAAAACCAGTGCT
>n812_u767_AF109908_snmRNA_Saimiriine herpesvirus 2
ACACACCCTAAAGATAATTTTTGAAGGCTCTGAGTATTTAGGTCCAAACCAGTGCCCCATTTCTAAG
>n813_u768_AF109908_snmRNA_Saimiriine herpesvirus 2
ACAAGACTATTTTAACATTAACTAAAAATTCAGTTTTTAAACCAACACGCCAGTTTCATCACATTCAGTTAATTTTTGAAGGCTCTGGGGTAGCCCCAACCAGTGCCA
>n814_u769_AF109908_snmRNA_Saimiriine herpesvirus 2
ACAAAGACAGCAGCGCTTACACAGAGCATTCAGAGAATTTTTGGAGGCTCTGGTAATGTAAGTATAAACCAGTGCCA
>n815_u770_AF109908_snmRNA_Saimiriine herpesvirus 2
TCCACAAGATGCTTATGTAACCTTTCATTGTTCAAATTTTTGGAGGCACTAGGTAGTAGGCAAATTTAGGAAAACTAGTGCCA
>n816_u771_AF110036_RNase P RNA_Nocardioides albus
CACAGGACAGGGTGGTGGCTAACGGCCACCCGGGGTGACCCGCGGGACAGTGCCACAGAGAACAGACCGCCGCTACCCTCCAGGTAGCGGTAAGGGTGAAACGGTGGGGTAAGAGCCCACCAGTCCTCGTGGTGACACGAGGAGCTAGGTAAACCCCACCCGGAGCAAGACCAGACAGCGTACGACGGTGTTAGTTCACTGGGAGGGCGGTCCGCCCGAGTGCGCGGGTAGGTTGCTAGAGGCCATCGGCAACGATGGTCCGAGATGGATGGTCGCCGACT
>n817_u772_AF110037_RNase P RNA_Nocardioides luteus
CACAGGACAGGGTGGTGGCTAACGGCCACCCGGGGTGACCCGCGGGACAGTGCCACAGAGAACAGACCGCCGCTGCCTTCCAGGTAGCGGTAAGGGTGAAACGGTGGGGTAAGAGCCCACCAGTCCTCGTGGTGACACGAGGAGCTAGGTAAACCCCACCCGGAGCAAGGCCAGACAGCATGCGCCCGAGGGCTGTCCGCCCGAGCATGCGGGTAGGTTGCTAGAGACCATCGGCAACGATGGCCCGAGATGGATGATCGCCGATC
>n818_u773_AF110038_RNase P RNA_Nocardioides jensenii
CGCAGAGCAAGGTGGTGGGCAACACCCACCCGGGGCAACCCGCGGGAAAGTGCCACAGAGAACAGACCGCCGCTCTCTCCGTTCATTCGGGAAGAGGGGTAAGGGTGAAACGGTGGTGTAAGAGACCACCAGCGTGTCGGGTGACCGGGGCGGCTAGGTAAACCCCACCTGGAGCAAGATCAAGAAGCCGTTCCTCTTCGGAGGAACGGTGCGCACACGTTCGAGGGCTGCTCGCCCGAGTGTGCGGGTAGATCGCCCGAGGCTGTCGGCAACGGCAGCCCTAGATGGATGGTCGCCAACCGGGGCCACGCAAGAAACCCCGGCGA
>n819_u774_AF110039_RNase P RNA_Nocardioides plantarum
CACAGAGCAGGGCGGTGGGTAACACCCACCCGGGGCAACCCGCGGGACAGTGCCACAGAGAACAGACCGCCTCCCGAATCCAGCGCCACCGGACGACGGAGGTAAGGGTGAAACGGTGGAGCAAGAGACCACCAGCATGCCGGGCGACCGGCGTGGCTAGGCAAACCCCGCCCGGAGCAAGATCAGACAGCACACGCAGGTTCCGACCGGAAGGGCTGCTCGCCCGAGTGTGCGGGTAGATCGCTGGAGGCCGTCGGCAACGGCGGTCGTAGATGGATGGTCGCCCCTCCTCCCGCAAGGGCGGAGG
>n820_u775_AF110040_RNase P RNA_Pimelobacter simplex
CACAGAGCAGGGTGGTGGGTAACACCCACCCGGGGTGACCCGCGGGACAGTGCCACAGAGAACAGACCGCCTCCGGCTCGCCGGAGGTAAGGGTGAAACGGTGGGGCAAGAGCCCACCAGTGCGCCGGGTGACCGGCGCAGCTCGGCAAACCCCACCCGGAGCAAGACCAGACAGCACACGACGGCCTCGGCCGAGAGGGTGACTCGCCCGAGTGTGCGGGTAGGTCGCTGGAGGCTGCCGGCAACGGCAGTCCTAGATGGATGGTCGCCACG
>n821_u776_AF110041_RNase P RNA_Nocardioides pyridinolyticus
CACAGGGCAAGGTGGTGGGTAACACCCACCCGGGGCAACCCGCGGGACAGTGCCACAGAGAACAGACCGCCCCTGCGTGCAGGGGTAAGGGTGAAACGGCGGTGTAAGAGACCACCAGCGACCGGGGCGACCCGGCCGGCTCGGCAAACCCCACCTGGAGCAAGGTCAAGAAGTCCGGTGCTCTCACCGGACGCGCGCACGACTGAGGGCGGCCCGCCCGAGTGCGCGGGTAGACCGCTGGAGGGCGTCGGCAACGGCGCTCGTAGATGGATGGTCGCCACGCTTCGGCGTT
>n822_u777_AF110042_RNase P RNA_Nocardioides nitrophenolicus
CACAGAGCAGGGTGGTGGGTAACACCCACCCGGGGTGACCCGCGGGACAGTGCCACAGAGAACAGACCGCCTCGCCCCTCGTGGGCGGGGTAAGGGTGAAACGGTGGGGCAAGAGCCCACCAGTGCGCCGGGTGACCGGCGCAGCTCGGCAAACCCCACCCGGAGCAAGACCAGACAGCACACGTTCGAGGGCGGCTCGTCCGAGTGTGCGGGTAGGTCGCTCGAGGCTGTCGGCAACGGCAGCCCTAGATGGATGGTCGCCCCCTCGGAGACGAGGG
>n823_u778_AF110043_RNase P RNA_Nocardioides flavus
CACAGGACAGGGTGGTGGCTAACGGCCACCCGGGGTGACCCGCGGGACAGTGCCACAGAGAACAGACCGCCGCTGCCTTCCAGGTAGCGGTAAGGGTGAAACGGTGGGGTAAGAGCCCACCAGTCCTCGTGGTGACACGAGGAGCTAGGTAAACCCCACCCGGAGCAAGGCCAGACAGCATGCGCCCGAGGGCTGTCCGCCCGAGCATGCGGGTAGGTTGCTAGAGACCATCGGCAACGATGGCCCGAGATGGATGATCGCCGATC
>n824_u779_AF110044_RNase P RNA_Nocardioides fulvus
CACAGGACAGGGTGGTGGCTAACGGCCACCCGGGGTGACCCGCGGGACAGTGCCACAGAGAACAGACCGCCGCTGCCTTCCAGGTAGCGGTAAGGGTGAAACGGTGGGGTAAGAGCCCACCAGTCCTCGTGGTGACACGAGGAGCTAGGTAAACCCCACCCGGAGCAAGACCAGACAGCATGCGCCCGAGGGCTGTCCGCCCGAGCATGCGGGTAGGTTGCTAGAGACCATCGGCAACGATGGCCCGAGATGGATGATCGCCGATC
>n825_u780_AF110045_RNase P RNA_Nocardioides fulvus
CGAAGGGCAGCGTGGTGGGTAACGCCCACCCGGGGCAACCCGCGGGACAGTGCCACAGAGAACAGACCGCCAGCGGCCTGAGCGAATTCCGGTTCGCCTCAGGTGCGGGTGAGGGTGAAACGGTGGTGTAAGAGACCACCAGCTCCGCAGGTGACTGCGGAGGCTCGGTAAACCCCACGTGGAGCAAGGCCAAGAAGGACGGCGGGCAACCACCGTCCGCGCGAGCGTTCGAGGGCTGCCCGCCCGAGCTCGCGGGTAGGCCGCTGGAGGCTGCCGGCAACGGCAGCCCTAGATAGATGATCGCCAGC
>n826_u781_AF110046_RNase P RNA_Kribbella sandramycini
CACAGGGCAGCGTGGTGGGTAACGCCCACCCGGGGCAACCCGCGGGACAGTGCCACAGAGAACAGACCGCCAGCGGCCTGGATGAACCCCGTGGTTCATCCAGGTGCGGGTGAGGGTGAAACGGTGGTGTAAGAGACCACCAGCTCCCCAGGTGACTGGGGAGGCTCGGTAAACCCCACGTGGAGCAAGGCCAAGAAGGACGGCGGGCAACCGTCGTCCGCGCGAGCGTTCGAGGGCTGCCCGCCCGAGCTCGCGGGTAGGCTGCTGGAGGCGGCTGGTAACAGCCGCCGTAGATGGATGGTCGCCGACA
>n827_u782_AF110047_RNase P RNA_Aeromicrobium erythreum
CACAGAGCACGGTGGTGGCCAACAGCCACCCACGGCGACGTGCGGGACAGTGCCACAGAGAACAGACCGCCAGCGGCCCCGCGGCCTTCGGGCCACGGGGTGCGGGCAAGGGTGAAACGGTGAGGTAAGAGCTCACCAGCGACGTCGGCGACGGCGTCGGCTCGGTAAACCCCACCGGGAGCAAGACCAAGAGGGCGCTCCGGCGCCTGCGCTGACGGGCTGCTCGTCCGACGTCAGCGGGTAGGTCGCTCGAGGCACGCAGCAATGCGTGACCCAGATGGATGGTCGCCCCCCAGCCCTCGGGCCGGGG
>n828_u783_AF110048_RNase P RNA_Aeromicrobium fastidiosum
CACAGAGCAACGGTGGTGGCTAACGGCCACCCACGGCGACGTGCGGGACAGTGCCACAGAAATCAGACCGCCAGCGGCCGCCGCTCCTCGGAGCAGCGGTGCGGGTAAGGGTGAAACGGTGAGGTAAGAGCTCACCAGCGCTCCGGGTGACCGGGGCGGCTAGGTAAACCCCACCGGGAGCAAGACCAAGAGAGTCGCGTGGCGCTTCGGCGGTGCACGGCTTGCGCTGACGGGCTGCTCGTCCGATGTCAGCGGGTAGGTTGCACGAGGCGTCCAGCAATGGGCGTCCCAGATGGATGGTCGCCCACG
>n829_u784_AF110049_RNase P RNA_Terrabacter tumescens
CACAGGGCAGGGTGGTGGCCAACAGCCACCCGGGGTGACCCGCGGGACAGTGCCACAGAGAACAGACCGCCGGCTGCTCGGCAGCCGGTAAGGGTGAAACGGTGGTGTAAGAGACCACCAGCGCTCCAGGTGACTGGAGCGGCTCGGTAAACCCCACCCGGAGCAAGTCCAGACAGCGTGTGCACGGCGCCTTCGGGCGTCGAGGAGACCGGCCCGGTCGAGCGCGCGGGTAGGACGCTAGAGCCGGCCAGCAATGGTCGGCCCAGATGGATGGCCGTCGCCGCGCCACCGGTAACGGGGGCGCGGA
>n830_u785_AF110050_RNase P RNA_Terracoccus luteus
CATAGGGCAGGGTGGTGGCCAACAGCCACCCGGGGTGACCCGCGGGACAGTGCCACAGAGAACAGACCGCCGGCTGCTTGCAGCCGGTAAGGGTGAAACGGTGGTGTAAGAGACCACCAGCGCTCCGGGCGACCGGAGCGGCTCGGTAAACCCCACCCGGAGCAAGTCCAGACAGCGCATGCACGACGCCTCGGCGTCAGGGAGACCGGCCCGGTCGAGTGCGCGGGTAGGACGCTGGAGCCGGTCAGCAATGGCCGGCCGAGATGGATGACCGTCACTGCACCAACGTCGGCAACGACGGTGCGGG
>n831_u786_AF110051_RNase P RNA_Intrasporangium calvum
CACAGGGCAGGGTGGTGGCCAACAGCCACCCGGGGTGACCCGCGGGACAGTGCCACAGAAAACAAACCGCCAACTGCTTCGGCAGTCGGTAAGGGTGAAACGGTGGTGTAAGAGACCACCAGCGCGCCAGGTGACTGGAGCGGCTCGGTAAACCCCACCCGGAGCAAGCCCAGACAGCGCACGTTCGAGACCGGCCCGGTCGAGTGCGCGGGTAGGGCGCTGGAGCCGGTCAGCAATGGCCGGCCGAGATGGATGGCCGTCGCCGCGTCACCGGCAACGGAGATGCGGA
>n832_u787_AF110052_RNase P RNA_Friedmanniella antarctica
CGAAGAGCACGGTGGTGGGTAACGCCCACCCGGGGTGACCCGCGGGACAGTGCCACAGAAAGCAGACCGCCCACCCGCCTCGGCGGCGTGGGTAAGGGTGAAACGGTGGTGCAAGAGACCACCAGCACCCCCGGTGACGGGGGTGGCTAGGCAAACCCCACCGGGAGCAAGACCAAGAAGGCGCCCTCCTGCAGAGGAGGACGCCGCGGGAGCGTTCGAGGGCTGCTCGCCCGAGCTCCCGGGTAGGTCGCACCAGGCCGCTGGCAACAGCGGTCGCAGATGGATGATCGCCCCCTCCGCTCCGGCGGGGGG
>n833_u788_AF110053_RNase P RNA_Microlunatus phosphovorus
CACCGAGCAGGGTGGTGGGTAACACCCACCCGGGGTGACCCGCGGGAAAGTGCCACAGAAAGCAAACCGCCCCGAGCCGTACGCGGCACGGGGTAAGGGTGAAACGGCGGTGTAAGAGACCACCAGCATCCCGGGTGACCGGGATGGCTAGGCAAACCCCACCCGGAGCAAGATCAAGAAGGATGCCCCCGGGCATCCGCGGGAGCGTTCGAGGGCTGCTCGTCCGAGGCTCCCGGGTAGATCGCACCAGGCGGTCGGCAACGGCCGTCGCAGATGGATGATCGTCACTCGGGCTCCGGCCCGAG
>n834_u789_AF110054_RNase P RNA_Microlunatus phosphovorus
CACCGAGCAGGGTGGTGGGTAACACCCACCCGGGGCGACCCGCGGGAAAGTGCCACAGAAAGCAAACCGCCCCGAGCCGTACGCGGCACGGGGTAAGGGTGAAACGGCGGTGTAAGAGACCACCAGCATCCCGGGTGACCGGGATGGCTAGGCAAACCCCACCCGGAGCAAGATCAAGAAGGATGCCCCCGGGCATCCGCGGGAGCGTTCGAGGGCTGCTCGTCCGAGGCTCCCGGGTAGATCGCACCAGGCGGTCGGCAACGGCCGTCGCAGATGGATGATCGCCACTCGGGCTTCGGCCCGAGC
>n835_u790_AF110055_RNase P RNA_Propioniferax innocua
CACAGAGCAGGGTGGTGGGTAACGCCCACCCGGGGTGACCCGCGGGCCAGTGCCACAGAGAACAGACCGCCCCGATGCGCCGGTTCGCCGACGTGCCGGGGTAAGGGTGAAACGGCGGTGTAAGAGACCACCGGCACCGTGAGCGATCACGGTGGCCAGGTAAACCCCACCCGGAGCAAGACCAGACAGCAGGCGGGTTGCTCGCCCTTGCCTGCGGGTAGGTCGCTGGAGGCCGTCAGCAATGACGGTCCGAGATGGATGACCGTCCCACG
>n836_u791_AF110056_RNase P RNA_Luteococcus japonicus
CGCAGAGCAAGGTGGTGGGCAACACCCACCCGGGGCAACCCGCGGGAAAGTGCCACAGAGAACAGACCGCCGCTCTCTCCGTTCATTCGGGAAGAGGGGTAAGGGTGAAACGGTGGTGTAAGAGACCACCAGCGTGCCGGGTGACCGGGGCGGCTAGGTAAACCCCACCTGGAGCAAGATCAAGAAGCCGTTCCTCTTCGGAGGAACGGTGCGCACACGTTCGAGGGCTGCTCGCCCGAGTGTGCGGGTAGATCGCCCGAGGCTGTCGGCAACGGCAGCCCTAGATGGATGGTCGCCAACCGGGGCCACGCAAGAAACCCCGGCGA
>n837_u791_AF110057_RNase P RNA_Luteococcus japonicus
CGCAGAGCAAGGTGGTGGGCAACACCCACCCGGGGCAACCCGCGGGAAAGTGCCACAGAGAACAGACCGCCGCTCTCTCCGTTCATTCGGGAAGAGGGGTAAGGGTGAAACGGTGGTGTAAGAGACCACCAGCGTGCCGGGTGACCGGGGCGGCTAGGTAAACCCCACCTGGAGCAAGATCAAGAAGCCGTTCCTCTTCGGAGGAACGGTGCGCACACGTTCGAGGGCTGCTCGCCCGAGTGTGCGGGTAGATCGCCCGAGGCTGTCGGCAACGGCAGCCCTAGATGGATGGTCGCCAACCGGGGCCACGCAAGAAACCCCGGCGA
>n838_u792_AF110058_RNase P RNA_Sporichthya polymorpha
CACGGAAACCACGGTGCCGGATAACGTCCGGCGGCTTCGGGAAACCGGAGTCAGGGAAAGTGCCACAGAGAGCAGACCGCCAAAGGCTTCGGCCCGGCGAAAGGTGAAAGGGTGCGGTAAGAGCGCACCGCGCGGACGGCAACGGACGCGGCACGGCAAACCCCACCGGGAGCAAGGTCGAATAGGGATGGCAAGAGGTGACTCAGGGCTGGTTCCGGCCCCGCCGTCCGGGTTGACTGCTTGAGCGTCCGGGCAACCGGCCGCCTAGAGGAATGATCGCCCATCCCCTGTCAAAAGGGGTGG
>n839_u793_AF110138_RNase P RNA_mitochondrion Nephroselmis olivacea
TTTCAGAGAATTTGATGCTCATTTACATTTAACAGAATAATGTAAAAGGAAAGTCTGGGCTCCAATAGAATAAAAATATACTTTATTAAAATAAAGTGATAATTAATTATTATCGAGAAAAATCTTAGTGAAAGTATTTTAGAAAATAAAAAAACTCGATCCCGAAGGGATCAAAGAGCTAGTATGAAATAGAATGTATTCATAAAAACCACACTTGGTGCAAGAATTTAATTCGCTAAAAATCTGAAGCTCCTTGATATATCAAGAGTTTATAAGATTTCAGATAAATGAGCATCCATTAAACAAAAAAATACAGTTTAAAGACAAAACCCAGCTTAGAAATTCTCTGAAT
>n840_u794_AF110878_snRNA_Tasmanipatus barretti
GATCAAAGTGTAGTATCTGTTCTTATCAGCTTAATATCTGATACGCCCGCAATTGTGGGCCAGAATATTAAACTGATTTTTGGAATTGGGTGGAGAGCTCGGGGCTTGCTCCACCTCCACCACGGGTTGGC
>n841_u795_AF110879_snRNA_Oroperipatus corrodai
GATCAAAGTGTAGTATCTGTTCTTATCAGCTTAATATCTGATACGCTCCCTAATGGGGGCCAGAATATTAAACTGATTTTTGGAATTGGGTGGAGAGCTAGGGGCTTGCTCCCCCTCCGCCACCGGTTTAC
>n842_u796_AF110880_snRNA_Euperipatoides leuckartii
GATCAAAGTGTAGTATCTGTTCTTATCAGCTTAATATCTGATACGCCTGCAATTGTGGGCCAGAATATTAAACTGATTTTTGGAATTGGGTGGAGAGCTCGGGGCTTGCTCCACCTCCACCACGGGTTGGC
>n843_u797_AF110881_snRNA_Macrobiotus sp
GATCAAAGNGNAGGATNTGNTNTTATCAGNNTAATATCTGATACGTCCNTCATTGAGGGACCAGAATATTAAACTGATTTTTGGAAGTAGGCGGATTGTTCGGGGCTTGCCCCACCTCTGCCACGGTTTGGC
>n844_u798_AF110882_snRNA_Craterostigmus tasmanianus
GATCAAAGTGTAGTATCTGTTCTTATCAGCTTAATATCTGATACGGTCCCCATTGGGGGCCCAGAATATTAAACTGATTTTTGGAATCAGGCGGGGTGTTTAGGGGCTTGCTCCACCCCCGCCACTGGTTGGC
>n845_u799_AF110883_snRNA_Schizoribautia sp
GATCAAAGTGTAGTATCTGTTCTTATCAGCTTAATATCTGATACGGTCCTCATTGAGGGCCCAGAATATTAAACTGATTTTTGGAAACAGGTGGGGTGCTCGGGGCTTGCTCCACCCCCGCCACGGGTTGGC
>n846_u800_AF110884_snRNA_Allothereua maculata
GATCAAAGTGTAGTATCTGTTCTTATCAGCTTAATATCTGATACAGTCCCNATTGGGGACCCAGAATATTAAACTGATTTTTGGCATTCGGCGGGGTGCTAGGGGCTTGCTCCACCCCCGCCACGAGTTGGC
>n847_u801_AF110885_snRNA_Cormocephalus sp
GATCAAAGTGTAGTATCTGTTCTTATCAGCTTAATATCTGATACGGCCTCCATTGGGGGCCCAGAATATTAAACTGATTTTTGGAAATTGGCGGGGTGCTCGGGGCTTGCTCCACCCCTGCCACGGGTTGGC
>n848_u802_AF110886_snRNA_Hanseniella sp. AM-1999
GATCAAAGTGTAGTATCTGTTCTTATCAGCTTAATATCTGATACAGTCCTCATAGAGGGCTCAGTATATTAACCTGATTTTTGAACTCTGGCGGAGTGAAAGGGGCTTGCTCCACCTCTGCCGCGGGTTGGC
>n849_u803_AF110887_snRNA_Pauropodinae gen. sp
GATCAAAGTGTAGTATCTGTTCTTATCAGCTTAATATCTGATACGTCCCTCATTGAGGGACCAGAATATTAAACTGATTTTTGGAACTAGGCGGAATGTTCGGGGCTTGCTCCACCTCTGCCGCGGGTTGGC
>n850_u804_AF110888_snRNA_Epicyliosoma sp. AMcL-1999
GATCAAAGTGTAGTATCTGTTCTTATCAGCTTAATATCTGATACGTCCCTCATTGAGGGACCAGAATATTAAACTGATTTTTGGAACTAGGCGGAGTGTTCGGGGCTTGCTCCACCTCTGCCACGGGTTGGC
>n851_u805_AF110889_snRNA_Unixenus mjobergi
GATCAAAGTGTAGTATCTGTTCTTATCAGCTTAATCTCTGATACGCCCCCCATTGGGGGGCCAGATGATTAAACTGGTTTTTGGAACAGGGCGGAGTGCTAGGGGCTTGCTCCACCTCTGCCACGGGTTGGC
>n852_u806_AF110890_snRNA_Nipponentomon sp
AGGGACCAGATATTAAACTGNTTTCTGGAACNAGGCGGAGTGTNCGGGGCTTGNTCCACCTCTGCNACGGG
>n853_u807_AF110891_snRNA_Archisotoma sp
GATCAAAGTGTAGTATCTGTTCTTATCAGCTTAATCTCTGNTACGGGGCTTACNAAGCCCCTCCGTGATTAAACGTATTTTTGGAACAGGAATGGGTCTTNNTAGCTTGCTAAAGCCCGTTCACGGGTTGTT
>n854_u808_AF110892_snRNA_Tricholepidion gertschi
GATCAAAGTGTAGTATCTGTTCTTATCAGCTTAATATCTGATACGATGTGCATTGCACATCCAGAATATTAAACTGATTTTTGGATTTTGGCGGAGTGTTAGGGGCTTGCTCCACCTCTGCCGCGGGTTGGC
>n855_u809_AF110893_snRNA_Allomachilis froggarti
GATCAAAGTGTAGTATCTGTTCTTATCAGCTTAATATCTGATACGATCCTCATCGAGGATCCAGAATATTAAACTTATTTTTGGAGAATGACGGAGTGTTAGGGGCTTGCTCCACCTCTGTCGCGGGTTGGC
>n856_u810_AF110894_snRNA_Atalophlebia sp
GATCAAAGTGTAGTATCTGTTCTTATCAGCTTAATATCTGATACGTCCCTCATTGCTGGACCAGAATATTAAACTGATTTTTGGAAACAGCTGGAGTGCTAGGAGCTTGCTCCACCTCCGGCACGGGTTGGC
>n857_u811_AF110895_snRNA_Lasionectes exleyi
GATCAAAGTGTAGTATCTGTTCTTATCAGCTTAATATCTGATACGCTCCGCATCGCGGAGCCAGAATATTAAACTGATTTTTGAAACTAGGTGGGGTGTTCGGGGCTTGCTCCACCCCTGCCACGGGTTGGC
>n858_u812_AF110896_snRNA_Derocheilocaris remanei
GATCAAAGTGTAGTATCTGTTCTTATCAGCTTAATATCTGATACACTCCCCATTGGGGAGTCAGAATATTAAACTGATTTTTGTAACCTGACGGAGTGCTCGGGGCTTGCTCCACCTCTGTCGCGGGTTGGC
>n859_u813_AF110897_snRNA_Nebalia sp
GATCAAAGTGTAGTATCTGTTCTTATCAGCTTAATATCTGATACGATCCCCATGCGGGATCAACGATATTAAACTGATTTTTGGCCTTTGGCGAAGTGCTAGGAGCTTGCTCCACCTTTGCCGCGGATCAGC
>n860_u814_AF110898_snRNA_Triops australiensis
GATCAAAGTGTAGTATCTGTTCTTATCAGCTTAATATCTGATACGATTCCCATNGTGGATCCAGAATATTAAACTGATTTTTGGAAACTGGCGGAGTGCTGGGGCTTGCTCCACCTCCGCCGCGGGTTGGC
>n861_u815_AF110899_snRNA_Branchinella sp. 2
GATCAAAGTGTAGTATCTGTTCTTATCAGCTTAATATCTGATACGGTCCCTATATGGGGCCCAGAATATTAAACTGATTTTTGGAAACCGGGGGGATGTCGGGGCTTGCTCCGCTCCCTCCACGCGTTGGC
>n862_u816_AF110900_snRNA_Branchinella sp. 3
GATCAAAGTGTAGTATCTGTTCTTATCAGCTTAATATCTGATACGGTCCCTATATGGGGCCCAGAATATTAAACTGATTTTTGGAAACCGGGGGGATGTCGGGGCTTGCTCCGCTCCCTCCACGCGTTGGC
>n863_u817_AF110901_snRNA_Kempina mikado
GATCAAAGTGTAGTATCTGTTCTTATCAGCTTAATATCTGATACGGTCCCCATGTGGGGCCTACGATATTAATCTGATTTTTGTACTTAGGCGAAGTGCTCGGGGCTTGCTCCACCTTTGCCACGGATTGGC
>n864_u818_AF110902_snRNA_Limulus polyphemus (Atlantic horseshoe crab)
GATCAAAGTGTAGTATCTGTTCTTATCAGCTTAATATCTGATACGGTTCCCATTGGGGACCATGATATTAAACTTATTTTTGTGAGGCGGCGGGGTGCTTGGAGCTTGCTCCACTCCTGCCACGGGTTGGC
>n865_u819_AF110903_snRNA_Ammothella biunguiculata
GATCAAAGTGTAGTATCTGTTCTTATCAGCTTAATATCTGATACGCATCCGATNAGGAGCCAGAATATTAAACTTATTTTTGGGAACTGGCGGAGTGCTAGGAGCTTGCTCCACCTCTGCCGCGGGTTGGC
>n866_u820_AF110904_snRNA_Equitius sp
GATCAAAGTGTAGTATCTGTTCTTATCAGCTTAATATCTGATACGGCCCCCATCGGGGGCCAAGATATTAATCTTATTTTTGTCATGCGGCGGAGAGCTTGAGGCTTGCTTCACCTCCGCCACGGGCTGGC
>n867_u821_AF110905_snRNA_Lychas marmoreus
GATCAAAGTGTAGTATCTGTTCTTATCAGCTTAATATCTGATACGGTCTCCATCGGGGGCCATGATATTAAACTGATTTTTGGAAGGCGGCGGAGTGCTTGGAGCTTGCTCCACCTCTGCCACGGGTTGAC
>n868_u822_AF110906_snRNA_Atrax sp. EBU-1999
GATCAAAGTGTAGTATCTGTTCTTATCAGCTAAATATCTGATACGGTCCCTATATGGGCCCAGAATATTAAACTGATTTTTGGAAACCGGGGGGATGTCTGGGGCTTGCTCCGCTCCCTCCACGCGTTGGC
>n869_u823_AF117242_BM1 RNA_Bombyx mori (domestic silkworm)
TCGTGAACATTTTTTGAGTACATATTTCATTAGAAAAATTGGTACCCGCCTGCGAGATTCGAACACCGGTGCATCGCTCGATACGAATGCACCGGACGTCTTATCC
>n870_u824_AF117243_BM1 RNA_Bombyx mori (domestic silkworm)
TCGTGAACAATCGTTAAGTACGTATTTCATTAGAAAAATTGGTACCCGCCTGCGGGATCCGAACACCGGTGCATCGCTAGATCACGAATGCACCGGACGTCTTATCC
>n871_u825_AF117244_BM1 RNA_Bombyx mori (domestic silkworm)
TCGTGATCCTTTGTTGAGTACGTATTTCATTAGAAAAATTGGTACCCGCCTGCGGGATTCGGACACCGTTGCATCGCTTCAACAAGAATGCACCGGACGTCTTATCC
>n872_u826_AF117245_BM1 RNA_Bombyx mori (domestic silkworm)
TCGTGAACATTTGTTGAGTACGTATTTCATTAGAAAAATTGGTACCCGCCTGAGATTCGAACATCGGTGCATCGCTCAATACGAATGCACCAGACGTCTTATCC
>n873_u827_AF117246_BM1 RNA_Bombyx mori (domestic silkworm)
TTGTTAACATTTGTTAAGTACGTATTTCATTAGAAAAATTGGTACACGCCGGCGGGATTCGAACACCGGTGCATAGTTTTGTACAGAATGCACCGGGCGTCTTATCC
>n874_u828_AF117247_BM1 RNA_Bombyx mori (domestic silkworm)
TCGTAAACATTTGTTAAGTACGTATTTCATTAGAAAAATTGGTACCCGCCTCCGGGATTCGAACATCTGTGCATCGCTCAACACGAATGCACCGAACGTCTTATCC
>n875_u829_AF117248_BM1 RNA_Bombyx mori (domestic silkworm)
GGATAAGACGTCCGGTGTATTCGTATATAGCGATGCAACGGTGTTCGAATCCCGCAGGCGGGTACCAATTTTTCTAATGAAATACGTACTTAACAATTGTTCACGA
>n876_u830_AF117249_BM1 RNA_Bombyx mori (domestic silkworm)
GGATGAAGTCGTCGTGGCCTAAAGGATAAGACGTTCGGTGCATTCGTTTTGAGGGATGCACCAGTGTTCGAATCTCAGGCGACTGCCAATTTTTCTAATGAAATATGCACTCAATAAATGTTCACGA
>n877_u831_AF117250_BM1 RNA_Bombyx mori (domestic silkworm)
GGATAAGACGTCCGGTGCATTCGTATCGAGCGATGCACTGGTGTTCGAATCCCGCCGGCAGGTACCAATTTATCCAATGAAATACGTACTCAACAAATGTTCACAA
>n878_u832_AF117251_BM1 RNA_Bombyx mori (domestic silkworm)
GGATAGTACTGAAGTCGTCGTGGCCTAAAGTCGTCGTGGCCCGAAGTCGTCGTGGCCTAAAGGATAAGACGTCCGGTGCATTCGTATCGAGCGATGCACCGGTGTTCGAATCTCGCAGGCGGGTACCAATTTTTCTAATGAAATATGTACTCAAAAAATGTTCACGA
>n879_u833_AF119385_KvLQT1-AS RNA_Mus musculus (house mouse)
CTGCAGGAACAGGATCCAAGGAAAATGCCTGGCCTTCTAGGCCAGAGGAGGCAAACAAAGGCTTAGGCCTCAGAGCTAAGCTGGGACAGTGCTTAGAGTAAGGAAGAGCAGGGTTTCAAATCAGAGCCCCATGGCCCCTTCACATTCTCTTGGTGCCTGGCTTAGCAGCTTCATGGGGTTCAGCAGCAGCATCTCTAGTAGACAGATGGGAAACAAGACAGAGAGGGTTCCCTGATCTCAGCCAAGGGGAGCAGATAACCACGTTTACCATGTGGCCCTGATGCCCTTCTTAGAGGTCAATTGGAAGGCTGGCAATGGCAGGAAGCAGGTGCCTAGTCACTTATGCTGGGGAAGTGGAAGGGGCCATTTGTGGCAAAAGATCCCAGGCTTCACTTCCAAGATGCAAGCTCAAAGCTAATATGATGAATTTAAAGATGGTGACAGGTTCTTGAGGGACCCCATTAACTGCACATCTGCTCTGGGATAGGCAGAAAAGAAAACCACCCATCAGGTAGGAGGGTAGGACTGGCCCTTTGAATCAAATGCAGCATGTTCCAGACGGGCCCAAAAGGAATTGGCAAAGCAGATGTGTGGCCTGGTAGGAGGTGGGGTACCAAGCTAGGAGTAGCTTCTGAGGGTAAAAAGGAACTGTCTGTTGCTAGAGGATGACACCAGTTTCTCTTTTCTCCAGCTAAATAACAACAGGAGAAAAAAAGAGAAAAAGAACAGAAAAGAAAAAGAAAAAGAAAAAAAACCCAAACCTAAAAACCGTGCCTTCCCCTCCTTCCCCCACATATACTCAGTCATCTTTGGCAAGAGAGCTTCCTGGCTGTTTTTGTAGACATATATTTTCAGCAAAAGCAGTTAAGATGTATGGCTTCCTTGCGTGCTTTAGATGACCACACCCTGGCCTGTTCACAGGACTGGCTCTCCCTCCCCTTCCCCTAAATCCTGTTTGAAGTCAATTCTGGGTAGGGGTGGTTTGGAGAATATACCCAGAGTTCCACATGCTAAAACTATAGTTTGCACAGAAATCTGCATTCCCCCCCCTCGCCCCAGGCTTGCTTATGAATCCTGGGCAAGTGGATTGTCCCCCAAATCTGGCATTTTGTCAAGTTTCTCCAGGCTTTAGGTCAATGCTAGATACAGGGTGGTGCGTAGACAGTGTTAGTCAAATAAATGCATGGATAAGTAAGTGGACAGAGTGGAAACGATCCTGAACACTCCAGTGACAGGGCCAGGAACCAAGAGAATCTGGAGGATGGGTCGAGTGGCTGGGGTCTAACCTCAGGACTATCATTACCTAGTTTTATAACATGGGCAGACCCAGGGCCCCCTCCTTTTCATAAGTAAGATAGCCCCAAGACTTTCCTTACTTGGTGATTAAAAAAAAAAAAACAAGCAGGGTGGCCTCCTTGTGTGCTTTAGATGACCACACCCTGGCCTGCACAGTAGGATTCCATGGGACAGCTGAGAGGGTGGATTGCTTTTTTGCATCCCAAGGTCAGGCCAGAGCCAGGGGCATACTCATCTTTGGCCATGAAACCGTTTAGGTACATTGGCTGCCTCAGGTATCTGCCCTGTACTGCATTGAGGTTGGTCTCACACTTATTCAGAGTTAAGAACCCCAGGTTCAGCTAGGAAGGGATGAGGAAGGTAGGCCTTAAGGGGTGGTGGACCCAGCAGGCTAGGTCGTACAATCCTGTACAAGCTCACCCAATCCAAATGCTGGAGACATCAGGCTGTTTCCTCTTGGCCAATAAAAATAGTCAGCACAGAGCTATCTGTATCCAGCCTATCATGAGGAAAAGCTCCCTAGTCATTATTCACCATCTGTCCAATCAACAGTGTCGTGGCTGCCACGTCACCAAGGTCTTGGTAGGTGGCCTACCCGTTGTCGCTAGGAGGAACAGTTGCCTCAGCACGTCTGCGCAGCTTTCCTTGCGGCGCCCCTCCGCGTGGTCTATGATGGTGCATTTTGGTCCAGTCAGGCCCGGTGTGGTCGGCCTCATTTTGGATTACTTCGGTGGGCTTCTCCTCGGCGTGGTTACGGTCTAGTACACCTTAGTGTGCTTTTCTCTGCATGGTCCTTCCCAGCGTGGCTCGTCTCAGCAGCGTGGTTTTCATCCGTGTGATCGTCCTCTGCATGGTTTTTCACGGTGAGGTCATATCAGCCAGCCACCAGCCTCAGCATATTTGTCCACAGTTCTTTTGGAGCTGCCTCTGCTCGGATCACTTGAGCACTACACCTCAGTCCCGACTAGCCATCCTCAGTGTGCTTTGCTCAACGCGATCCTCCTCAGTGTTTGTCCTGAGCCTAGACCTCCATGGTGAGGTCTTATCTTGTTTCGTCATGGTGGTCGGCGATATGGTCCGATCTGCCTCAGCAATTGGGTCACTTCCGTGTGGATCGTTTCAGCACGGATCACTCCAGCGCGGTCGGCTGCCTTGGCGCGATCCACTTGGCTTCTCAGCATTTTTTTTTAGCCTGCTGGGTTCTCTCAGTTTTTCTTCAACACCCTTCTTTTCCCTCTGTGTGATTCTACTTGGAGAGCTTTTCTGTTCAGCTTGGTTCCCAGCGCTTCTTTTTCTCGGCATGGTTCTCCTAGGTATGGTTTTTTTCTCAGCGCGGGTTTCTTCTCTGAGTCAGCACGGCACAAGTCGCAAGTCCGCGTGGCCGCGCTCATCATAGCCTCCCCCTCCTCGCGGCAAGCACTCACGGCCAGAAGCAGAGGTGATTCGTGCCGCGCTTTCGCGGCTGGGCTCCATCTTCGTTTTGCCGCAGTGGCTCCGTATTCGTTTTGCAGTTACGGCTCGGTCCTCGTTTCACGGCCGGTCCTCGTTTCACGGCCGTGGCTCAGTTCTCGTATTTTGCGTCCACGTCCCCATCTTTGTGGCCCAGGCTTACAGAAGCAGGGGTGGTCTTGAGGCCCTTTGAGCCCCGAGGTCGGTCGAGTCCCAAGGTGAGTGGCCTAGGACACCGGCTCAGGCCTTCGGATTCTAAACCCCGGGCCGAGTCAGAACGCACTGGAGCTGAAACCGAATCGGGTCTGGAGACCCCTGAGCTTTGTAGCCCGGTGTGGCCAGCACCAAGGTAGTGAGTGGAGTACGTGTTGTTATGTGGTAGCTGTTTTAATGCTGAGAGTGAGGGGCTCCGTTCGGAATGTTCGCGCATGGTGGGGGAAGGGTATCGTGGAACTGAGGCTGGGGAGGCTGCTTATTCGGAGTTTTGAACCGAGTTGTGATCTAGCTCTTGGATCCGAGTTGGGTGTGTGTATGTGTGGGTCTACAGTGGTTCCGAGTCTAGAGTGGAGTCACGATTGGAATCGGGTAGAGATTCGGGTCTGGAGCCGACTCGGAATTCAGGTGTGGGGGATTGGGAACTTGGGGTGGAAGCCGCAGTGGTTGCAGTGGGTTCTTAACCTTCCTTGTGCTTTGACCCTTTAATACAGTTACTCATGTTGTGGTGACCTCCAACCATAAAATTAATTTCATTGCTACCTCATAACTGCAATGTTGCTACTGTTATGAGTCATTATGTAAATACCTGTGTTTTCCGATGGTCTTMGGCGATCCCTATGAAAGGGTTGTTCAAGCCTAAAGGGGTCACGACCCACACGTTGAGACCTGCAGAGTCAGAATCAGGTCTGAATTGGGGGAATAGCAGAACTGGGAGTTACCTCCAGATTTTCAGTTGGGATTTGATTCTTTTCTGTGGTTTTAAATTGAGATCCCAGAGGCTCAGGTCTCTGTTGGGGACCAGACTGAGGGTTTCTAGTTATATTCAGGACCTGACTGGGCAGTACAGTAAGAATTAAAGTTGGTTTTGAGTGTGAGCATAATGGTCTGAGGTAGGGATCAGGACTGAAGTATAAAGAGTCTGGTTTTTAACAAGTGGGAATCACATTTTGAGACATGGGGTCCCATGTGGGTCAGAGTTGATTTAAAGGACCAAGGCCAGGGCCCAAACCTTAGTCCTCCATTTTGTTGTTCTTGTTGGTCACATTCCCTTTTCTGTAAAATGGGGAGGAGTGCTTTCCGCTGTAACCTTTCTGGGCATAAAAGGGAGTAAGTAATTCATAGAGGTAAAAATAGTCTTATCTTAAATGATTAAAAAGTGTAAAATATTTCTCAATAGTAATAAGGACAAATAATATGCATTTAACAATCTTTTCTCATACCGTGTGCCCTTTGTTAGGCACTACCAAAAAGGAACCTTTTCTGTTCTGTTCCCTAGAGCTTGCCCCACCCAGCCATGGGCCTAATACACAGCCATCCTCAGGCAATACTTGCTGAAGGAAAGCAGGCAGGCAGGATTAACCAGATTTCTATGGTGTCTTAAATGATCCATTTCTGCACCTGTTTTCCAGATACTAGGAGAAAAATTTAAAGGATTGGATTGCTTGATTATAGTTCTATTTTAATGTGTTACCAAACACACTGAAGAAAAAAAGTGGATCTGTTTTGGGATTTGTGCTCCAGCTAGAAGGATCTTTTAAAATTTCGAATCAGAGCATGTCCAAATTCAAATAAGGAGAGCACAAATAAAGAAAATTATGAGGCACTTCCCTGGTGAACATAGATGAAGGTCCACTTACAGTATTAACTAACTGAATCCAAGAGAATTTTGAACAACAGTTCTTAGACAAGTAGGATTTCTCCTTGGGATATAAAGATGATCCAATATCAGAAACTCTATCCGTGTAAGTCACAGTATTAAGAGACTGCAG
>n880_u834_AF121226_telomerase RNA_Bos taurus (cow)
CCGTACCTGGCTTTTAAGAGGTGGAAAACAGCGCTCAGAAGCACTCAAGTTAATTTTCAAGTCACAAGGTCAGACGTCGGAAGTAAAATATTCAAATCTGCGGATAAAAAACGTGAGGTAGGGCGGCGACTATCCTTTTGGCCGGAAACAGAACTTTTGAGAAAAAAAAAAAATTGCGAGACCGGTTATCGCGAGAGCCGCTGTGGACAGGCTCGGCCAATCAGCGTAGGCGCCGGCTGCTGCATTCATAAGGAGACGCACCCAGCGGCGCGGC
>n881_u835_AF121773_RNase P RNA_Metallosphaera sedula
TAGGGGAGCCTAACAGGGGGCCACGGGAAACTGGGGAAACTCCAGCCTCTCGCCCAGGGGGAGTCCCGCGAGGGACGGGGTTAGGTGCTCCGACAACTGCACAGAAACGAGACCTGCGGTGGGCCAGATGAAAATGATCATTTACCCCATCTGGCGACGGATGGGAGGGTGTGAGAGACCTATCGTGGGTTGAAACGGCAGATCTCCCCTTGAGCAAGTAGGGGAGGATAGGGCAAAATGACTCCCCTGATACGCAGAGCCTAATCCCCCAAGTACAGAAGCTGGGTTATTGTTAGGCTCCCC
>n882_u836_AF121774_RNase P RNA_Methanobacterium formicicum
ACCGGGCAAGCCGAAGGGCAGCTACCGGTTTCTATAGATTTAATGTCTGTAGTTAAACTGAGGAAACTCCACCCATCGTACAGAACCGTGATGTCCTAAGACATCTGCTGAGAAGCAGGACTCTGGAGCAGAAACGACACGTCTTCTGGTGGATGAACATGAAGATCCGTCTGATTGACACCAGGAGGAACGGTGAAACGGCCAATCCACGGGATGCAAGGGTAAACACTGCCAGTGAATCCTGTATGAGGCAGAGGTAACTCGCATAGATGAATGCTGCCACCAACAGAAGGTGGGTTACTCTCGGCATGCCCGGT
>n883_u837_AF125183_H19 RNA_Homo sapiens (human)
AGCAGGGTGAGGGAGGGGGTGGGATGGGTGGGGGGTAACGGGGGAAACTGGGGAAGTGGGGAACCGAGGGGCAACCAGGGGAAGATGGGGTGCTGGAGGAGAGCTTGTGGGAGCCAAGGAGCACCTTGGACATCTGGAGTCTGGCAGGAGTGATGACGGGTGGAGGGGCTAGCTCGAGGCAGGGCTGGTGGGGCCTGAGGCCAGTGAGGAGTGTGGAGTAGGCGCCCAGGCATCGTGCAGACAGGGCGACATCAGCTGGGGACGATGGGCCTGAGCTAGGGCTGGAAAGAAGGGGGAGCCAGGCATTCATCCCGGTCACTTTTGGTTACAGGACGTGGCAGCTGGTTGGACGAGGGGAGCTGGTGGGCAGGGTTTGATCCCAGGGCCTGGGCAACGGAGGTGTAGCTGGCAGCAGCGGGCAGGTGAGGACCCCATCTGCCGGGCAGGTGAGTCCCTTCCCTCCCCAGGCCTCGCTTCCCCAGCCTTCTGAAAGAAGGAGGTTTAGGGGATCGAGGGCTGGCGGGGAGAAGCAGACACCCTCCCAGCAGAGGGGCAGGATGGGGGCAGGAGAGTTAGCAAAGGTGACATCTTCTCGGGGGGAGCCGAGACTGCGCAAGGCTGGGGGGTTATGGGCCCGTTCCAGGCAGAAAGAGCAAGAGGGCAGGGAGGGAGCACAGGGGTGGCCAGCGTAGGGTCCAGCACGTGGGGTGGTACCCCAGGCCTGGGTCAGACAGGGACATGGCAGGGGACACAGGACAGAGGGGTCCCCAGCTGCCACCTCACCCACCGCAATTCATTTAGTAGCAGGCACAGGGGCAGCTCCGGCACGGCTTTCTCAGGCCTATGCCGGAGCCTCGAGGGCTGGAGAGCGGGAAGACAGGCAGTGCTCGGGGAGTTGCAGCAGGACGTCACCAGGAGGGCGAAGCGGCCACGGGAGGGGGGCCCCGGGACATTGCGCAGCAAGGAGGCTGCAGGGGCTCGGCCTGCGGGCGCCGGTCCCACGAGGCACTGCGGCCCAGGGTCTGGTGCGGAGAGGGCCCACAGTGGACTTGGTGACGCTGTATGCCCTCACCGCTCAGCCCCTGGGGCTGGCTTGGCAGACAGTACAGCATCCAGGGGAGTCAAGGGCATGGGGCGAGACCAGACTAGGCGAGGCGGGCGGGGCGGAGTGAATGAGCTCTCAGGAGGGAGGATGGTGCAGGCAGGGGTGAGGAGCGCAGCGGGCGGCGAGCGGGAGGCACTGGCCTCCAGAGCCCGTGGCCAAGGCGGGCCTCGCGGGCGGCGACGGAGCCGGGATCGGTGCCTCAGCGTTCGGGCTGGAGACGAGGCCAGGTCTCCAGCTGGGGTGGACGTGCCCACCAGCTGCCGAAGGCCAAGACGCCAGGTCCGGTGGACGTGACAAGCAGGACATGACATGGTCCGGTGTGACGGCGAGGACAGAGGAGGCGCGTCCGGCCTTCCTGAACACCTTAGGCTGGTGGGGCTGCGGCAAGAAGCGGGTCTGTTTCTTTACTTCCTCCACGGAGTCGGCACACTATGGCTGCCCTCTGGGCTCCCAGAACCCACAACATGAAAGAAATGGTGCTACCCAGCTCAAGCCTGGGCCTTTGAATCCGGACACAAAACCCTCTAGCTTGGAAATGAATATGCTGCACTTTACAACCACTGCACTACCTGACTCAGGAATCGGCTCTGGAAGGTGAAGCTAGAGGAACCAGACCTCATCAGCCCAACATCAAAGACACCATCGGAACAGCAGCGCCCGCAGCACCCACCCCGCACCGGCGACTCCATCTTCATGGCCACCCCCTGCGGCGGACGGTTGACCACCAGCCACCACATCATCCCAGAGCTGAGCTCCTCCAGCGGGATGACGCCGTCCCCACCACCTCCCTCTTCTTCTTTTTCATCCTTCTGTCTCTTTGTTTCTGAGCTTTCCTGTCTTTCCTTTTTTCTGAGAGATTCAAAGCCTCCACGACTCTGTTTCCCCCGTCCCTTCTGAATTTAATTTGCACTAAGTCATTTGCACTGGTTGGAGTTGTGGAGACGGCCTTGAGTCTCAGTACGAGTGTGCGTGAGTGTGAGCCACCTTGGCAAGTGCCTGTGCAGGGCCCGGCCGCCCTCCATCTGGGCCGGGTGACTGGGCGCCGGCTGTGTGCCCGAGGCCTCACCCTGCCCTCGCCTAGTCTGGAAGCTCCGACCGACATCACGGAGCAGCCTTCAAGCATTCCATTACGCCCCATCTCGCTCTGTGCCCCTCCCCACCAGGGCTTCAGCAGGAGCCCTGGACTCATCATCAATAAACACTGTTAC
>n884_u838_AF125520_sok RNA_Bacteriophage 933W
GTTCAGCATGGATTGAGCCTCAGATTAATGTTAAGCGTCTTGCCGGACGCGTAATGTTAACTGGGGCTTTT
>n885_u839_AF137379_RNase P RNA_chloroplast Nephroselmis olivacea
CTATCTCAAGCAAAGCGATTGCAGAGCAACTAGAAGATGCTCTGAGGAAAGTCCGGGCTCCCTAACTATTCCAGCTGCTGGATAATTTCCAGTGTGATATAATCACGAGGAAAGTGCCACAGAAAGAAACCAATCAAATCTCCATCGAATGGCTCACAAGCTCTAGGAGATCTTGGATTGGGTGCAAATGTATTCTTGACGTGAGTTAAGCGTCTGGTATACCCCAGTCGGGAGCAAGATGAGGTTAGTTTATAGAGAATAGACCATAGACTAATCTATTCCATTGCTCGAGAGGGTTCATACAGAACTCTCCAATCAGATAATCTCCACACCTCTCAGGACCAAGCTAGAAACCAGTTTGAGCCTCTCGAGATTTGTACCGAACCCGGCTTATTTCTTGAGTAGTTGC
>n886_u840_AF138745_Tsix RNA_Mus musculus domesticus (western European house mouse)
GTGTGTTCATGCGTGCGCACGTGTACCCGTGCGTCCACACTCCGCCAGCACGTGTGCTAGCTTGCAAGTTTTCAGTTTGAGTACAGACACCAGGCCATAGCCCAATGGCAGCAGTGACAGGGAGGACCGTGGCAGCATGTTACAATCAGAAGACAACTTCCGGATTTTCACTCTGTCCTAAAAAGGTGGTCAAGTGTGCTAACCACACCCTCTCAGCAGGATCCCGCGCCTCAAGAGCCTTAGGTCCCGCCCCACACTCCCTCAAACCCTCAGTGCAGCGCTTGTGTCAGGCGCAATCTCGCAAGATCCGGTGAGGCGCTACGTCGTGCTCCACTCGGTCCCAAAAGTACCTGCAAGCGCTACACACTTGCGCTCGGCGCCCTTGCTCTGTTCTCACTTTCCGAGATATCCACGCATCTTGAGTCCTGCATCCACTCCCGGGAGGCGGCTGCGGCAAGCGCGTGATGGAAGAAGAGCGTGATAGCCAGCTAGACAGGTGGCCAGAGCGGAGCGGACAGTGGAGCGATGGCTACGTGCTTGCGGGACAGCGGAAGAGATGGTTAAAGTGATTGCCAAGCAGCAGAAAGATTCCTAAAATGCTTGCCAGCTATGCGGAGATGAAGGTGAGGTTTCAATGATTTACATCGACCAAGAACCCGCAGCCTCGGTCTCTCGAATCGGATCCGACATCATCCAACACTTCAGTGTTAGAATTGCAAGCATGCGCTCTCCCGACCTGGGCAGGCACTTCGAAAAAATGATGACTAAAGACACACGTGAAGTACCAAGCGAAACTCACGTCCTTATGGGACAGTGACTCATCACAGTCTAATTCCATCCTGGCCACCAAGCAATAATGCACATTTCTAACTGGAAGTCAAGCAAACACCAACACTTTCACACTTGTGCCCATTTCTGACGAGTTACGTCAAGTGGCAACCAACACTTCCACTTAGCCTTGCCTCAGCTTCGAGTGGCACAAGGTAGGACCAACCACACCCTACCATAATGCACCAAGTGTACCCTCGGGCAAAGCCCGCCAAGTAGCTAAAGCCCGCCAAAAAAAAAATCACTGAAAGAAACCACTAGAGGGCAGGTCACATGACTTCCGCCATCTTAGACACATTCAAGAGCATGTGCCACCTCTCCAGGCTAACTCAGACATGAAGCTGACATGTGACACACAAAGCCCTTTGCGTTATACCGCACCAAGAACTTGAGCCGCCATCTTTTCCTGTACGACCTAAATGTCCTATAATCCATTGCTACACACCAGAACAAAGATTGGGCTGTCGAGCCTCGGGTGGAGCCCCCGAGCCGCCATTTTATAGACTTCTGAGCAGCCCTTAAAGCCACGGGGGACCGCGCCAGGGGTCCATATGCACACACACCCTGCCCAATCCCCACACCCACGCTGAGCCCTATCCCCTAGTCCTCTGCGGCTTCCGCGCAACACCGCACACTAATACGAGCACTCCTTGGCTTTCTCTTCCGGCTAGCACAACCCCGCAAATGCTACCACAAATCAAGGCGAATCCCGCAACCCCGCACATATAAAGAAAGCCTTTAGCTAGCGCAGCGCAATTGGTTGCTTTTATCCAGTCCGCTGTGCTCCTCGGTGTCCTAATTCTTGGCGTAACTGGCTCGAGAATAGCCGTATCACGCAGAAGCCATAATGGCGGACGCGGGCTCTCCACGCCCTGAACACCCACTCAGTTTAAGAGCAAAGTCGTTTTTCTAAGCCATAGGTTCACTCACACAGCACCAAACGATCAGCAGCAACAGTACACGCAAATAAGAGGCATAGATATTCCAGGTAGTGCAATAACTCACAAAACCATATTTCCATCCACCAAGCCCCGTTGGGCCTGTAAAAAAAAAATTTAAAGCAGGTATCCACAGCCCCGATGGGCAAAAGAAAAAGAAAAAAAAATAATAACAGCAGGTATCCGAGGCCCCGTTGGGCATGGGAAAAAAAGACTAAACGCAGGTATCCGAGGTCCCGATGGACCGAGAAAGGTTTTTTTTTTTTTTTTTTTTTTTACAAAAAGCAGGTATCCATGGCCCCGATGGGCTAAGGAGAAGAAAAAAAGAATAAAAGCAGGTATCCACAGCCCAGATGGGCAAGTTTAGAAAAAAAAATAATAAGAAAAAAAAAGAATGAAAAGGCAGGTAAGTATCCAAAACCCCGTTGGGCATGGAATGGCGGGGAGGACACACAGGTATCCGTGGCCCCGATGGGCAAGATTATATAAACAATGAAAGAAAGGTAAGTCCACCATACACACACAAGTATCAACCAAAAGGCACAACAAAGAAATATTCCTTAAAAATGAAAAATTGACTGAAAATATTACAAATATCAAAAAGTATGGAGGACATGTCAAAAAAAAAATCTTACCAGAACATATCAAAACGTCAAAAATCTCGTGGAATTTTGATATGTTTTCTTAAATAAGCCATAAGGCTTGGTGGTAGGGGAACTAAAAATGTTCCCCCAAAGCTCCTTAGATGGAGAGAAACCACGGAAGAACCGCACATCCACGGGAAACGAGCAAACATGGCTGGAGCAAGCCGTTGCACGCCTTTAACTGATCCGCGGCGCTGAAGGCGGAGAGACCAGAAGAGGAGTGGCCACAAAGATTGCAATTCTGACATCTTATTGGACCTTTAGGTCTAACTATATTATAAAAAAATTAAAATGAATAAAGATGGAGGTACGTAAGCTCAGTGACATGACGCGTGAATTTCATTATTTTGCGCGATAATGAAGGATTATCCTATTTTACAGCTAAAAACGTTTATGTAGAACTTCACATAAACATTTGGGTGTGTACATTTAGCACACACCTGTCTATGCAAAATTTCAATATATCTTCTACTTGGACAAACCATGTGTCGCTCCGGTCTTGGACACTAGAAGTTCTTCTGCATTAGTTGGCGACCTCAGATGAGGAGAGGAAAGGGTAGAAATGCCTCACAAAATGGCTCCTTGGTTCCTAAATTATCAGAGTATTAGTTGTGACCGATTTGGAGGGCTTACGCTCATAGTTTTGGGTCATTGGCATCTTAGTCTTTCTCTGGGAACCTGGTGACTCCATACCTTGGGACAAAAACGCACTGAAGACGTTACTAGCTAGCAGTAATGAAAAATAATTCCTAAATGCCAAAGCAAAGCCTTAGGGAATAATAGCTCATTGGTATCTTACTCGCCCCAGAGACACTGCTAACTTAAAAGAACTGTCAAATTTTGTTAACTGTCAAACTATGAATATCCACATGAAAGAGATCAGACACCCTGGGTATTAGAAAATCAAAGGATATGTTGTCTCGTTGATCACGCTGACAAATAATTCACAGTCTGTTCTAAGTTCCCTTTAGGCGTCCCATGAATAATAAAGGACACAAAATTGGTTTGCTTATGGACGATCAAAGTGCCAGCAATTCAGTAATCTTACTATTGAGGTGGTTCAGGTAGGGATGGAAAAATATCTGCTACAAAATAAACAGTTTCAACCAAAAGAAAAACAAATTAACAAGGTAAATAAATGATGCACACAGACTGAATAAACCAGCAGGTGGCAGCATGAATCTTTCCAAGGCATCTGAAGCCAAACTTGGAGTGCAAAAGGATTCCTATCTGAATTGAGAAGTAAAGGTTACTTTGTCTAACTTTAGTTGACAGAGCGATCAGGATCAGAGTAACAAGCACACCAAAAGCATCACCAGTGAGAAGTCACATAGGACATATTAGGGAAAAAAGACCCAAGGAAGGGCTCTTCACAGCTAAGAGCACCTGGCTCCACGATGGATATGGCTTTGTATAAACGAGAACTTCTAAATGAGCTGTACAAAGAGAATTTAGAACTTGCGAGGTACTGGTCACAGATTATGCAAGCCAGTGTATCATTTTTGTGGGGATGCTAGAGAGAATCATCAAATTAAAGAGTTAAATTTAGTCTCTGTGTTTTACTTAGTCCCAATTCTTGCAAAGGTCATCATTCTTTCTCACACCGTGTACATCAAGGTATGTCAGGTTTCGGGGACACTTTTTAGTCTTATCACAAGAAAGCATGAAGGGATATGTGCTAAAACTCAGTTCCTGGGCTGGAGAGATAGCTCAGTGGTTAGGAGTGCTGACTGCTCTTCCAGAGGGCCTGAGTTCAATTCTCAACAACTTCGTTGTGGCTCACAGTCATCTGTAGTGGGGGATCCGATATCTAACCTTCTTCTGATGTATCTGAACAGTGACCGACAGTGTACTCACATTAAATAAATATTTTTCTAAAAAACACCTCCA
>n887_u841_AF141346_snoRNA_Homo sapiens (human)
AGCCTGTGATGCTTTAAGAGTAGTGGACAGAAGGGATTTCTGAAATTCTATTCTGAGGCT
>n888_u842_AF141346_snoRNA_Homo sapiens (human)
TGCCACAATGATGACAGTTTATTTGCTACTCTTGAGTGCTAGAATGATGAGGATCTTAACCACCATTATCTTAACTGAGGC
>n889_u843_AF141346_snoRNA_Homo sapiens (human)
CAGATACTATGATGGTTGCATAGTTCAGCAGATTTAATCATGAAGAGATGTACTATCTGTC
>n890_u844_AF141346_snoRNA_Homo sapiens (human)
CTGGATGATGATAGCAAATGCTGACTGAACATGAAGGTCTTAATTAGCTCTAACTGACTAA
>n891_u845_AF141346_snoRNA_Homo sapiens (human)
GTGTAATGATGTTGATCAAATGTCTGACCTGAAATGAGCATGTAGACAAAGGTA
>n892_u846_AF141346_snoRNA_Homo sapiens (human)
CTGCCTCTGATGAAGCCTGTGTTGGTAGGGACATCTGACAGTAATGATGAATGCCAACCGCTCTGATGGTGG
>n893_u847_AF141346_snoRNA_Homo sapiens (human)
CTGTTAGTGATGATTTTAAAATTAAAGCAGATGGGAATCCCTCTGAGAAAGAAAATGGAGATTAATCTTAAACTGAAACAG
>n894_u848_AF141346_snoRNA_Homo sapiens (human)
ACAATGATGATAACATAGTTCAGCAGACTAACGCTGATGAGCAATATTAAGTCTTTCGCTCCTATCTGATG
>n895_u849_AF141346_snoRNA_Homo sapiens (human)
TAATGATTCTGCCAAATGAAATATAATGATATCACTGTAAAACCGTTCCATTTTGATTCTGAGGT
>n896_u850_AF141346_snoRNA_Homo sapiens (human)
TACATGATGATCTCAATCCAACTTGAACTCTCTCACTGATTAC
>n897_u851_AF147270_snRNA_Papio anubis (olive baboon)
AGGCGAGCGGATCGCTTCTCGGCCTTTTGGCTAAGATCAAGTGTAGTATCTGTTCTTATCAGTTTAATATCTGATACGTCCTCTATCCGAGGACAATATATTAAATGGATTTTTGGAGCAGGGAGATGGAATAGGAGCTTGCTCCGTCCACTCCACGCATCGACCTGGTATTGCAGTACCTCCAGGAACGGTGCACC
>n898_u852_AF151218_RNase P RNA_Staphylococcus aureus
TGATATTTCGGGTAATCGCTATATTATATAGAGGAAAGTCCATGCTCACACAGTCTGAGATGATTGTAGTGTTCGTGCTTGATGAAACAATAAATCAAGGCATTAATTTGACGGCAATGAAATATCCTAAGTCTTTCGATATGGATAGAGTAATTTGAAAGTGCCACAGTGACGTAGCTTTTATAGAAATATAAAAGGTGGAACGCGGTAAACCCCTCGAGTGAGCAATCCAAATTTGGTAGGAGCACTTGTTTAACGGAATTCAACGTATAAACGAGACACACTTCGCGAAATGAAGTGGTGTAGACAGATGGTTATCACCTGAGTACCAGTGTGACTAGTGCACGTGATGAGTACGATGGAACAGAACATGGCTTATAGAAATATCACTACTAGT
>n899_u853_AF156893_ReplicationControl RNA_Klebsiella pneumoniae
GAACGAATTTGGTTACTGCGCTCCTCCAAGCCAGTTACCTCGGTTCAAAGAGCGCCAACTCCTCGAACCTTCGAAAAAACCGCCCGCCAAGGCGGTTTTTTCGTTT
>n900_u854_AF157481_snRNA_Crithidia fasciculata
AACTCACCTGCAGCGTGTCATCAAGAAAGCACCAAGTCGCAGCATATTTTGAGGGGTCGMCGACCCACT
>n901_u855_AF158101_snmRNA_Enterobacteria phage T4 (T4)
TCGATTCGAGGAAATATCTTTGCCGTAAGCCGAGTAGCGTTTTTGACGGAACGTTCGGATATGGTTGAGATATGGCCTTTTAAAAATATTGAGTAGCGTCAACTACTTAATAACCGGGTTCGAATCCCGGCGTTTCGTA
>n902_u856_AF158101_snmRNA_Enterobacteria phage T4 (T4)
ATGAGAAACCGGGTCGCTACCGGTAAGTCGTCGGACTGATGGTTCCCTGAGTAAGGAATTGCGTTAATAATCTTTGCGTTTATTGATGCCCTCTTACATCACAGCAGAAACGGCGCACC
>n903_u857_AF160198_RNase P RNA_bacterium EF
GGGGAGGAAAGTCCGGGCTCCATAGGGCGGAGTGCCAGGTAATGCCTGGGGGGCGTGAGCCTACGGAAAGTGCCACAGAAAATAACCGCCTAAGCACTTCGGTGCCGGTAAGGGTGAAAAGGTGCGGTAAGAGCGCACCGCACGTCTGGTAACAGTTCGTGGCTAGGTAAACCCCACTCGGAGCAAGACCAAATAGGGTTCCAAGGCGTGGCCCGCGCTGGAACCGGGTAGGTTGCTAAAGATGTCCAGTGATGGCCATCGTAGAGGAATGACTGTCCTCGACAGAACCCGGCTTA
>n904_u858_AF160199_RNase P RNA_bacterium VSDW
GGGGAGGAAAGTCCGGGCTCCATAGGGCAGGGTGCCAGGTAACGCCTGGGGGGGAAACCCACGACCAGTGCAACAGAGAGCAAACCGCCGATGGCCCACGCAAGTGGGATCAGGTAAGGGTGAAAGGGTGCGGTAAGAGCGCACCGCGCGGCTGGTAACAGTCCGTGGCACGGTAAACTCCACCCGGAGCAAGGCCAAATAGGGGTTCACAAGGTACGGCCCGTACTGAACCCGGGTAGGCTGCTTGAGCCAGTGAGCGATTGCTGGCCTAGATGAATGACTGTCCACGACAGAACCCGGCTTA
>n905_u859_AF165818_snoRNA_nucleomorph Guillardia theta
TGCTATGATGATTTGCTCCTCAACTGTTCGCTTATAAATTCTTGAAAAATTCTACTATAAGAATTATTCGTAAGTAATCCTTGGATGTCTGAGC
>n906_u860_AF168720_snoRNA_Trypanosoma brucei rhodesiense
GCCCATGACGATAAACCACTTACGACGGTCTTATGACACACACCCGAACATGGATTGAGCACGAGTGTTACGATAGTTTCTGGGGCGCCGCACAACATTCCAGCCGCGTGCGTCCTGCGTCCGAGGCGT
>n907_u861_AF168721_snoRNA_Trypanosoma brucei rhodesiense
CCAATGATGTTGTTATTTAATTATACACCTGATCATGTTGTTGATGAGAGGAAACGCTGAGGTG
>n908_u862_AF168722_snoRNA_Trypanosoma brucei rhodesiense
CTTATGATGAGAAGACACGTTTACCTGACACCTCTTCTGATTTAACATTGACGAGTAACGACTGCTAACAGTTATCCCTATCTGAC
>n909_u863_AF168723_snoRNA_Trypanosoma brucei rhodesiense
CTGCATGATGTGCTCAACTGGAATTACCATCTGAACGCGGGATACCGCAAGTCGATGAATTAATGCTACGTGCATTACCTCCGCTGTTACTCGTATCACTGAC
>n910_u864_AF168724_snoRNA_Trypanosoma brucei rhodesiense
GATGATGCTAACAATCGAGGCATTTGTATGATTTTCAAATGAATTAGGCATCCGTGCACTAAGCTACCTATCATAAGCACGGGACTGAT
>n911_u865_AF168725_snoRNA_Trypanosoma brucei rhodesiense
CACATGATGTCATTTCGTATTCTGCAATACTGACAATAACTTGAGCGAGACAAGACATATTTGACTACTGGCAACTGAAAC
>n912_u866_AF168726_snoRNA_Trypanosoma brucei rhodesiense
CCCCTTGATGATTGTGGCAACTCTCCACGGAACTTATCTGACAAAATTTGCCTACGAACCTATTACCAAGGCTGAGGT
>n913_u867_AF168727_snoRNA_Trypanosoma brucei rhodesiense
AGCATGATGATCATACGTGCAATTCCTGTGGTATCTGAAAAATGCAATGACAGAAGAACTGCGACGATGCCTTCATACAAGGATCTACTGACT
>n914_u868_AF168728_snoRNA_Trypanosoma brucei rhodesiense
CGCGACAAGGTCAGCCTGAGGGCACACCTTCAGTGTGTGTACGGCCTCGGGAGGGCGTATATCCGCTCGAGTCGCAGAGCGAGGGAAATGGTGGCGTGAAGCTCTGCCACTGGTGCATCAGTAGCTCGGCATTACTGTGTTCGATGCTCTGCGCTCAGTGGACATGATGCTCCGCCGCCCATATATCCCGCTATGTATATCCTGTGTGCGCTCTAGTTCCGTTGGGACCCTGAAGAGTAAGCACACTAAACCATGCATTATACATGACC
>n915_u869_AF168729_snoRNA_Trypanosoma brucei rhodesiense
CGCGTGATGAGGTGCAGAAGGCATGTCGCCGCTACGGCGGTGGCTCGCGTAGCCGTCTGGCTGTGCGCGTACTGTGAGCTACTGTACTCCATGGGTGAACAATCTCTGATG
>n916_u870_AF168730_snoRNA_Trypanosoma brucei rhodesiense
AACGTGACGAAAAACCTTTCATGCTGTGTGACGTACTCCCTTATGAGGGCAGGCACAAGCTGCTTGCGGCCTAGTGTCATGCAATTGATTATAGACGGCATTCTGAA
>n917_u871_AF168731_snoRNA_Trypanosoma brucei rhodesiense
CGGTGATTAGCAGTGCGTCTTCCACCTAACGACCCTTGATGATTATGATACGATGCCTGGTCAACAGAACTATACTACACCAAATTTAGTAAATGAGAC
>n918_u872_AF168732_snoRNA_Trypanosoma brucei rhodesiense
GAAGTGATTGACACCTAGGCCGATGTAAAGCCGTCGCAGATGGACGTTGATATCTTGTGAAAACAGTACTATTTTATGCCCTGACTGATC
>n919_u873_AF168733_snoRNA_Trypanosoma brucei rhodesiense
CGCGTGATGACATACAAAGTTGTTTGCACATTTTCCGACACACCGTGAGCGAGTTACAATATTACAAGAACACCATCTGAAT
>n920_u874_AF168734_snoRNA_Trypanosoma brucei rhodesiense
TGAATGATGACTGACAAAACATCACAGACTTTGATGACCCCATGAACAAGAAAAATTGTTGCCCCAGACTGAATT
>n921_u875_AF168735_snoRNA_Trypanosoma brucei rhodesiense
GTGACGATGTACAATATGTTCAAATTGCACCGAGAACCTGTGAGGACACCATAACACAGACCTGCACTGAACC
>n922_u876_AF168736_snoRNA_Trypanosoma brucei rhodesiense
CGCTGATGAAGTTGATATGGTCCGTGTTTCAGATCGTTGAATTGACGCACAATAGCATATCTTCTGAGTT
>n923_u877_AF169625_tmRNA_chloroplast Pylaiella littoralis
ATTTAAAATTATAATAGTTACTAAGCAGATTTAAGTCTTAGAATATAAAATAATTGCAAACAACATTATGAGCTTTAATAAAAACCAAGTTTTTGCATAAAATACTTGAGTTTTAATATCAATCAATTTTATAATTGTTGATTGAAATAGGTAGAAGATTATTTTTTCTCTTAAATTTTAGTTTTGGTAATTTTACTATCAGTAAAATATAATATTTATAAAATAAATATAAATCGATCCATATTTTTGCTACCAATCTGTTTTTAATAGTTTTAAGCTTATTTTAGCTAAGCAGATTGATAACTAAATCTGTGATTTTAGTACTTAGTTTGATAATTTTTTAAATGGACGTGG
>n924_u878_AF169626_tmRNA_chloroplast Bolidomonas sp. OLI46SE
ATTATAAAAATTTTAAATTATGATGCAAGTCGAAAAATATTATTTCGTTAAAAAATATACCTTTAAAATAAATGCAAATAACATTTTAGCTTTTAACCGTAAATCTTTAAGTTTCGCTTAAAATTATTTATGGAAATTTTTAAGAGTGTCCATCTCTTAAAAATTTGAAAACTTTATGGACATTATAAAACTAGACTTTTCTAGATCTTTTAAGTTAAATTATTACTTAATTCCTTTTAATTTGTTCATTTTAAATGAACTAAACTTGTGAACGATTAATTTATCACTTTTATAATGGACGTGG
>n925_u879_AF170503_self-splicing ribozyme RNA_Peach latent mosaic viroid
GAAAGGTCTGTGCTTAGCACACTGACGAGTTCCTGAAATGGAACGAAACCTTTT
>n926_u880_AF170503_self-splicing ribozyme RNA_Peach latent mosaic viroid
CATAAGTTTCGCCGTATCCCAGCGACTCGTCAGTGGCTAAGCCCAGACTTATG
>n927_u881_AF170504_self-splicing ribozyme RNA_Peach latent mosaic viroid
GATAAGTCTGTGCTAAGCACACTGATGAGTCTCTGAAATGAGACGAAACTTATC
>n928_u882_AF170509_self-splicing ribozyme RNA_Peach latent mosaic viroid
CATAAGTTTCGCCGTATCTCAACGGCTCATCAGTGGGCTAAGCCTAGACTTATG
>n929_u883_AF170510_self-splicing ribozyme RNA_Peach latent mosaic viroid
GTCTACCCGGGATTCAAACCCGGTCCCCTCCAGAAGTGATTCTGGAAG
>n930_u884_AF170510_self-splicing ribozyme RNA_Peach latent mosaic viroid
CATAAGTTTCGCCGTATCTCAACGGCTCATCAGTGGGCTAAGCCCAGACTTATG
>n931_u885_AF170515_self-splicing ribozyme RNA_Peach latent mosaic viroid
ATGAGTCTGTGCTAAGCACACTGATGAGTCTCTGAAATGAGACGAAACTCAT
>n932_u886_AF170515_self-splicing ribozyme RNA_Peach latent mosaic viroid
CAAAAGTTTCGCCGCATTTCAGCGGCTCATCAGTGGGCTTAGCCCAGACTTTTG
>n933_u887_AF170517_self-splicing ribozyme RNA_Peach latent mosaic viroid
GAAGAGTCGTGCTTAGCACACTGATGAGTCTCTGAAATGAGACGAAACTCTTT
>n934_u888_AF170517_self-splicing ribozyme RNA_Peach latent mosaic viroid
CATAAGTTTCGCCGTATCTCAACGGCTCATCAGTGGTCTAAGCCCAGACTTATG
>n935_u889_AF170520_self-splicing ribozyme RNA_Peach latent mosaic viroid
GATAAGTCTGTGCTTAGCACACTGATGAGTCTCTGAAATGAGACGAAACTTATC
>n936_u890_AF170520_self-splicing ribozyme RNA_Peach latent mosaic viroid
CAAAAGTTTCGCCGTATCTCAACGGCTCATCAGTGGCTAAGCCCAGACTTTTG
>n937_u891_AF173359_GNAS1-as RNA_Mus musculus (house mouse)
TTAGTGACGCCGGATGGGGATGGGCCCCTTTCTGGGAGGGGACTCCGGGGACTGGTCGCGACGGCGGGCTGGCCTCCTGGTCTTGCAGCGGCGGGGCTGCCTGTTTTCCTCCTTGCGCTCCTCTGGCTCCTCCTCGGGGTCCCGAGGATCCTGATCTAAGGGCCCTCGCTGGGGCTCCTCCCCCTCGCTTGCGCTCTCAGGCTCCTGAGTGGTGGGCTGCGCACGTCTCGGGGAGGCGTCGGCGCTCTGCAACTTCAGAGCGTGCAGACGCTGAGTGAGTGACTGGTTGAAGGTGGCACCCCGGGGGCCGCGCTCGTCCTCTGGCTCGGTCTCTGGCTCGGTTTCTGGCTCGGTCTCTGGCTCGGTCTCGATTTCGGTCTCGGATTCGATATCGGACTCAGGCTCGGTCTCAGAATCGGTCTCGGTCTCGTAGTCGTCCTGATCGTACTCTAGGCACTCGGGGCGGGCCAGCTCAGGCTCAACCTCCTCGTGCTCGTGATCAGACTCAGATTCAGAGGACTCAGGGAGTACCTGTGCGGCAGCTGCAGCGGCAGCGGAGCGGTGGTGGGCGTTAAGGAAGCTCCGGCGATGGGCAGCACGCTGCTGGGCGCGGGCGTTGGAAGAGGCTAGGGCGCGGAGGAGAGCAATGGAGCAGGAGAGCCAGAGGAGAGCGGTGGCAGCCCGGCGGCCTATGGGCGGGCACAGGTCGTTGTAATTATGGCGAGCTCGGCGCCACTGCTGAGCCCGGGACCTGCGATCCATTCTCTTAGGTGCTCACCGAGAAGCCGACTCACCCTCTGGCTCTGCAGAGAGTGGCCCCACTGCGCAAGGACTGTTGGGGCCGAAAAGGATTAACCTTATGAGGAGAGAAGCTGGGGTCTGAAGACCCCAATCTCGCCTCGGGGCAAAAAGAAGGGATGTACCTACCTTCAAACCACTGCGAACTTTCTAAAGCTCCGCGCCTCAGCTTGAGGCTGTAAGTAAAAGAAAGGGATGGGTAAAGAAGAGAGAAGGAGTCTCCTCGAGGCTCCTCTCGCTAAGTCTCAGACTCTGAAGTCTAAGACTCCGAGAGGTGCCTCCACT
>n938_u661_AF176663_telomerase RNA_Bos taurus (cow)
GAGGGTGGGCCCCGGGTTGGTGGCAGCCATTTCTCATCT
>n939_u892_AF176810_snoRNA_Bos taurus (cow)
AAGACTATACTTTCAGGGATCATTTCTATAGTTCGTTACTAGAGAAGTTTCTCTGAACGTGTAGAGCACCCGAAACCACGAGGAGGAGATAAAGCGTTCTCTTCTGAGCGTGAAGTCGGCTTTGGGTGTTGCTTCTGCAGCTGCCGTTAGCCATTGATGATCGTTCTTCTTTTCCTTTTAGGAGATGAAGAGGGAGAGAACGTAATCTGAGTGG
>n940_u893_AF177241_gRNA_mitochondrion Bodo saltans
CAAACACAAATAAACACAATCCGAATTAGAAAGATAAAAGAACAGACAATT
>n941_u894_AF177243_gRNA_mitochondrion Bodo saltans
TCTTCTTGATTTTGCGTCTTCATATGTGGTTTTTTGTTGTTTTT
>n942_u895_AF177244_gRNA_mitochondrion Bodo saltans
ATTATGCCACAAACAACAAGTGTTTCTGACATAATATACATTTTTTTTTTTTTTTT
>n943_u896_AF177245_gRNA_mitochondrion Bodo saltans
AGAGCAATTACAAAACAAACCATTAGCAGACAAAGAAACAGTAATTTTTTTTTTTTTTTT
>n944_u897_AF177246_gRNA_mitochondrion Bodo saltans
AGACCTATAACACAACATCCAAGATGATAGAACAAAACAACAGACAACTCCCCCCCTAAGATTTTTTTTTTTTTTTT
>n945_u898_AF177247_gRNA_mitochondrion Bodo saltans
CCAACACCAACACAAAACCAAAGAAGAAAGACAAGTTACCAGATTTTTTTTTTTTTTTT
>n946_u899_AF177248_gRNA_mitochondrion Bodo saltans
CAACCGGTATGAGACCTTCCAAGCATTGAGCAGTTAAAGAAGACCCCCTATAAAGTTTTTTTTTTTTTTTT
>n947_u900_AF177249_gRNA_mitochondrion Bodo saltans
CAACCAAAACACAAAACACACAATAGCAGACAAAGATCACAACACCTGCTATTTTTTTTTTTTTTTT
>n948_u901_AF177250_gRNA_mitochondrion Bodo saltans
ACCTGCGGTGCAAAACATCATAATCTAGAAGAAACAAACTAATTTCTTCCAGATAATCTATTATGCTTTTTTTTTTTTTTTT
>n949_u902_AF177251_gRNA_mitochondrion Bodo saltans
CGCTATGCTCATTACAACAAATGCTGATGTAATCTAATAACAAGATTCCATCTTTTTTTTTTTTTTTT
>n950_u903_AF177252_gRNA_mitochondrion Bodo saltans
CACAAAAACAACAACAGCATTGAAGCTATCAACGAAAACAATTTTTTTTTTTTTTTT
>n951_u904_AF177253_gRNA_mitochondrion Bodo saltans
TCACGAACAACTAACAAACAGTAAGTCTGTGATATAAAGAACCAATTTTTTTTTTTTTTTT
>n952_u905_AF177254_gRNA_mitochondrion Bodo saltans
CTACTCGCAAACAAACATCCAATGAGCAGATGTACAAAAAATCAGATTTTTTTTTTTTTTTT
>n953_u906_AF177255_gRNA_mitochondrion Bodo saltans
ACCTATCGGCAAAAAACACAAGCAGTTGTACTAACATCAAACAGATTTTTTTTTTTTTTTT
>n954_u907_AF177256_gRNA_mitochondrion Bodo saltans
CAGCAAATCAAACAACAAATCAATTGATATGACAACAAAAATCATCTCAATTTTTTTTTTTTTTTT
>n955_u908_AF177257_gRNA_mitochondrion Bodo saltans
AATCAATAAACAGACCGCAACAAGAAGAACTAAATAGCATCAACACTGCCATTTAGTAGCGTTTTTTTTTTTTTTTT
>n956_u895_AF177258_gRNA_mitochondrion Bodo saltans
ATTATGCCACAAACAACAAGTGTTTCTGACATAATATACA
>n957_u896_AF177259_gRNA_mitochondrion Bodo saltans
AATTACAAAACAAACCATTAGCAGACAAAGAAACAGTAA
>n958_u897_AF177260_gRNA_mitochondrion Bodo saltans
ACCTATAACACAACATCCAAGATGATAGAAC
>n959_u898_AF177261_gRNA_mitochondrion Bodo saltans
ACCAACACAAAACCAAAGAAGAAAGACAAGTTACCAGA
>n960_u899_AF177262_gRNA_mitochondrion Bodo saltans
CCAAGCATTGAGCAGTTAAAGAAGACCCCCTATAAAG
>n961_u900_AF177263_gRNA_mitochondrion Bodo saltans
AACCAAAACACAAAACACACAATAGCAGACAAAGATCACAACACCTGCTA
>n962_u901_AF177264_gRNA_mitochondrion Bodo saltans
CGGTGCAAAACATCATAATCTAGAAGAAACAAACTAATTTCTTCCAGATAATCTATTATGC
>n963_u902_AF177265_gRNA_mitochondrion Bodo saltans
TGCTCATTACAACAAATGCTGATGTAATCTAATAACAAGATTCCATC
>n964_u903_AF177266_gRNA_mitochondrion Bodo saltans
AACAACAACAGCATTGAAGCTATCAACGAAAACAA
>n965_u904_AF177267_gRNA_mitochondrion Bodo saltans
CGAACAACTAACAAACAGTAAGTCTGTGATATAAAGAACCAA
>n966_u905_AF177268_gRNA_mitochondrion Bodo saltans
CGCAAACAAACATCCAATGAGCAGATGTACAAAAAATCAGA
>n967_u906_AF177269_gRNA_mitochondrion Bodo saltans
ACACAAGCAGTTGTACTAACATCAAACAGA
>n968_u909_AF177270_gRNA_mitochondrion Bodo saltans
TCAAACAACAAATCAATTGATATGACAACAAAAATCATCTCAATCAATTTGTC
>n969_u908_AF177271_gRNA_mitochondrion Bodo saltans
AATAAACAGACCGCAACAAGAAGAACTAAATAGCATCAACACTGCCATTTAGTAGCG
>n970_u910_AF179402_snRNA_Trypanosoma brucei brucei
GCATCGCCGTCTCGACTTTTACTAGGCGGCGCAGCCGATTAGCGTTTAAACTTTGGGGTGTC
>n971_u911_AF181879_RNase P RNA_Helicobacter pylori
GCATTAGAAGATGGTCGCTATTTTAGAATAGAGGAAAGTCCGGGCTACATTAGACAAAATTCCATCTAACGGATGGCTAGCGCAAGCTAAGGGAAAGTGCCACAGAAAGCAAACCGCCTTTTTAAGGTAAGGGTGAAAGGGTGGGGTAAGAGCCCACCAGAGCTAAAGCAATTTAGCTTGTTTGGGCAAACCCAATTTGTAGCAAGAAGTGCATGGTAAGTCTAAATTGATACGCGCTTCGCTTGAGGAATATTGCAAAATATTTCCCAGATAAATGGCCATCCATTGACAGAACCCGGCTTATTCTAATGCTCAACT
>n972_u912_AF182285_mRNAlike RNA_Antheraea pernyi (Chinese oak silkmoth)
CAGGCATTGTGCATTTTGTAAATTGACATGCCGACTTAACGTTATGGGTTTCATAATTTTTAAACTCTCATAGAACTCAAACCACATTTCTTTTAGGTTACCTGTAAGCTTAGAATCCCAACTAATGCGGGATTTCCATAGTTTTTGCATGAAAACCTTGGCAATTACTATGAATGGTCCGGCTAAACCGAGTGGATCATAAATTACTAATGAAACTTATACTTCTCTTTTGTATTTGGCACTTTACTAGATAAATTTGGAGCAGACAAAATGAAGGAGTCAGATTTAATATTGTAATTTATACCTAGTGTTTTTATGAATAAGTTATCTTTTAAGACCTTATATAGTCGACCTTTTATAGTTTCATTATAGTCGACTGGACTTTCGAGAACTTTCGACAGCTCGGCTGTGTCAAAATAAAAAAATTCAAGAAGCGTGTTAATCATTGTATTTGTACTTAGAGACAGCAACAACCCGACATCTCGACAAGGAACTACTAAACGAAATGAGAAGTCAAATATAGGGTGCCATGCATTATAAATGCTCACCTATATGTCTTTGAACGAGTCACGTTTCCCTCCTTAACGAGTGACCCATAGATCTCCTGTAGGTAACCTAGGTCACCTGGATGATATAACAACAGTGCGTCCCTGTTAGTTATATCCTGAGGTAGATATCCCAGATACGGCACTGACTCAGCATCGATATACTCTAAGTTTCCGTCAGCACTATGACGTATTACAAACGACACCGTTTTGGCAAGAACTTCGTTAGATGCTAAAAATAAAATTAAAATGTACTTTCTATTTAAATATTATGGTGTACGTGGCGAGGTTTGCGTGTTTTTTCGCAACTTAACGTAATGTTACGAAGCCTTTTAAAATGTTCATAAAGTTACAAGCATAATTGTTCGTTAACACTTCAGTTCGAAAAAAAAAAAAAAAGCTATTGATAGTACTCTAAAAAGTCCTATGTCTGCCAGTGAAAGTCCCATCAAGATCGGTGTAATGATTTCGGTAGATTAGCTCCATCAAATTTATCCTTTATTTGTCCATGAAAAAATATAAATCTCTATAGTACGTGTAATGCGAAACCGTAACTTTAAAATCTCTACTTTGACATATATATAATTATTTATTATCGACTGATACTTTCTATGATTTAATATTCCGATTGTGTATTTTATAATATCACTATTTTACTTGTTATTATTTTTAAATCGAGAGACTGTAATGTTATCTTTTTGTTTATACGTTCTTCGTAGTTTGTAAGCGTTGTACAAAAAAAACTTGATATCAAAATAAACTTTTTATCAAAAAAA
>n973_u913_AF182318_bic RNA_Gallus gallus (chicken)
TTTCTTCACCTAACTCGTGCTGCAGGGATATCGGGCGACCAGCCAGACCAGCAGACCTCTGCGGCAACTGCTGATGCCTCAATGGCTTTTTTTTTCATTTTTGTTTGCCTTATTTCTCTCTCTATCTCTCTCAGAAAAAAAAAAAAAAAAGAATACAGCCCAGGCTAAGTGATCATGGTTAACATGTGAGATGGAACAAAGGAAGTCTGTGGCCTCCTTGCTGCATTGGTTTTGCTTGCATCTCTGTGTAAAGAAACTGCCTCGTAGCAGGTATCTCAAGGGGGAAAAAAACAGAGGTTTCAGTTCTGTATGTCTCAGACTCCAGTCTCTAGAGTTCTTCTGTAGGCTGTATGTTGTTAATGCTAATCGTGATAGGGGTTTTTACCTCTGAATGACTCCTACATGTTAGCATTAACACTGTACCATGCCTCTCATCAGAACTCACAAGGAACAAACTGCTGCTGTGGGAGGAGGACAGAAATCATGAATCAGTCAATGCCACGCTGAGAAGACCTCCATGTGACATGTAAAAAGATGGCTTGTTCTGCAAACAGACGCACTTGGTAGAATGTGGTCTAAGTTAAGGGCACTGGGAAAAAGCAGCTTCATGTATCAGTAAATCCTTAGTAGGACATAGAATCTGTAATATTCTTAGCTCAGCAACTTGGTTGTCTTCTTTTTTTCTAACTGCTTTTCAGGTCTTCTGGCTTTACTTCTTGCGTAAATGTTTCATTACATTATTTCATTTAAGAAAGTGATTAATTAAAATTTTGGCATGCATAAGTGTGCATTCTTTTCTATAATTTCATTATATTTAAGACAAAAACTAACAAAAAAATGCTTCTCTGAGATTGTAACTTTAGTTAACACATTTTATCGTTAAGAGAAAATGAAAATATATTAATTTTACTCTGAAATTAGAGTACTTTCCAAAATTTTACAAAAATCTCAGGATATTCCCAAGAGATAGGTAAATACTGTTATAACTGTTTTGTGGAAGGTCAAAATAGATAGATAGTAAATACTCATAAAAATTGAGACAGCGAGGCTTTGAAATATTTGATCTTACGCTCTAATTAAAACTGCTTAATGAGTAGTCATGGGCGAACATAAGGAGAAAATAAAGACCCAAAGGATAGATTATTAAGTAAGAAAAGAAACAAGGTCAACGTCTGTGCTCTTCCAATATGTATATCCTGTCTACAGTGTTTTGACTGTGAACCCCCAGAGTGTTTTGACTGTGAACCCCCAAGCACCTTGGTTACAGAGCACCTTGGTTACAGAGCACCTTGACACCACAAACACTTATGAATCAATGGCCTCATCTATAAAACAGTCTCACATATCAACAGTCTCACTGAATACCACTTTTCCACTCAGGTAGGACTGCTGCAGGGCATGACTCTTCCAAAACAGGTTGTGAGATCAGAAGCTCCACTGGGAACATAAGCAATAAGAGGTTGTGCCCACCTGAACACAAGAGCCAGCTCACTCCTTCCAAAGTCAGAGCCAAAAAATAAAAAAAAAACATATTTCTATTAATTTCACTGGATAATTAACTCTGAAAGTGGGAAGGAAATTATGGTGGGAGAGAAGAGTCAATGGAAATTCTCATTTTTTTGAGCCTAGGGTGAAATGGCACAGCACAGCCTGATTCCACTGCCAACTTGAGGCAAAGTTTGGAGGTATCAGTTCTCTTTGTGAAGTTGAGGTGGTCCTGAGACCCTAGAAGTGGGCAGCCATTCCCATGTTAGCAGCTCACTGCTGTTCTTCTTCTTGGCAGCACTGTTGCCAGAGGGCTGGCAGCAGGTCCCAAGCTGCCCTGGTACAGCTGCACTACATGGTGGCAAAGAAGAGTCCTGGCTGAACCATGGGCTTGGAACGTCTCTTTTAACACAAAGACTTCTGTGAAATGAAGAAAACTGAAGATATTATTGTGTTTATCTCTGTAAGCTAAATTCTCACATGGGTTGTACAGATTAAAAAGGAGCATTAATTAAGTGATGATGTTTATTATATACTCCCAAAAGGAAAATATTACTCGATACACTCCTTGGATCCTCACTCTATTCAGTAAGTCTCATTTACTGTGTGGCATCAGTAAGGGATTTTTGTCTCTTCTTCAGAGCCTTAAAGCAACAACGGAGCTCTGTACATGGCATACACTACTGACCTCAGTGATCATGAGTTGCATGCTACTCAAATAATGACATCCTCATTTCACCCCATCTATTCACTCTCCAACCTGCATTCCCCATTTCTGTCCTATATACACTCATGGCAATAGAAGTTATGCTTCCAAGGAAGAGAATGGGTCTCGATTCTCACTGTCATGCTGTAAAAATCATATGCATGTTCTCATACATTTTCTCCCTTTAAAATGTAAATGAAAAGTGACTTGTGAACTTAAGAAATAAATAGCACATAAAAATAAAAAAAAAAAAAAAAAAAAAAAAAAA
>n974_u914_AF182356_snRNA_Crithidia fasciculata
GAAACGCTGCTTCGACTTTTACTAAGCAGCGCTCCCAAACTGCTACATATTTTGAGGCCCAGAAGGGCAT
>n975_u915_AF185197_snRNA_Idanthyrsus pennatus
GATCAAAGTGTAGTATCTGTTCTTATCAGCTTAATATCTGATACGTCCCCCATTGGGGGACATCGATATTAAACTGATTTTTGGCACTGGGAGAAGATGCAGGAGCTTGCTCCGACTTCTCCACGGGTTGGCC
>n976_u916_AF185198_snRNA_Amphiglena terebro
GATCAAAGTGTAGTATCTGTTCTTATCAGCTTAATATCTGATACGTGGCCCATTGNGTCACTACGATATTAAACTGATTTTTAGAACTAGGAGGGGATGCAGGAGCTTGCTCCGACCCCTCCACGGGTTGGCC
>n977_u917_AF185199_snRNA_Galeolaria caespitosa
GATCAAAGTGTAGTATCTGTTCTTATCAGCTTAATATCTGATACGAGGCTCATCGAGTCTCTACGATATTAAACTGATTTTTGGACTTAGGAGGGGTTTCTGGAGCTTGCTCCGAACCCTCCACGGGTTGGCC
>n978_u918_AF185200_snRNA_Owenia fusiformis
GATCAAAGTGTAGTATCTGTTCTTATCAGCTTAATATCTGATACGATGTCCATTGGACATCTTCGATATTAAACTGATTTTTGTACCTGGGCGAAGTGTAAGGGGCTTGCTCCACCTTTGCCATGGGTTGGCC
>n979_u919_AF185201_snRNA_Lamellibrachia satsuma
GATCAAAGTGTAGTATCTGTTCTTATCAGCTTAATATCTGATACGTTCCCCACTGGGGAACTTCGATATTAAACTGATTTTTGGAACTGGGAGAAGATGCAGGAGCTTGCTCCGACTTCTCCACGGGNTGGCC
>n980_u920_AF185202_snRNA_Glycera sp. AMW196835
GATCAAAGTGTAGTATCTGTTCTTATCAGCTTAATATCTGATACGTACCCCACTGGGGNACATCGATATTAAACTGATTTTTGGNCTTCGGCGAAGTGTCAGGAGCTTGCTCCGCCTTTGCCACGGGNTGGCC
>n981_u921_AF185203_snRNA_Dodecaceria sp. AMW23009
GATCAAAGTGTAGTATCTGTTCTTATCAGCTTAATATCTGATACGATCCTCACTGAGGATCTACGATATTAAACTGATTTTTGGAACTGGGGGAAGATGCAGGAGCTTGCTCCGACTTCCCCACGGGTTGGCC
>n982_u922_AF185204_snRNA_Cirratulus sp. AMW24391
GATCAAAGTGTAGTATCTGTTCTTATCAGCTTAATATCTGATACGTCCCCCATTGGGGGACAACGATATTAAACTGATTTTTGGAACTGGGGGAAGATGCAGGAGCTTGCTCCGACTTCCCCACGGGTTGGCC
>n983_u923_AF185205_snRNA_Pectinaria sp. AMW24389
GATCAAAGTGTAGTATCTGTTCTTATCAGCTTAATATCTGATACGTGGCCCACTGGGTCACTTCGATATTAAACTGATTTTTGGAACTGGGAGGAGACACAGGGGCTTGCTCCGGCTCTTCCACGGGTTGGCC
>n984_u924_AF185206_snRNA_Amphitritides sp. AMW24400
GATCAAAGTGTAGTATCTGTTCTTATCAGCTTAATATCTGATACGCACCCCACGTGGGTGCTTCGATATTAAACTGATTTTTGGAACTGGGAGGAGACACAGGGGCTTGCTCCGGCTCCTCCGCGGGTTGGCC
>n985_u925_AF185207_snRNA_Amphitritides harpa
GATCAAAGTGTAGTATCTGTTCTTATCAGCTTAATATCTGATACGTGGCCCACTGGGTCACTTCGATATTAAACTGATTTTTGGAACTGGGAGGAGACACAGGGGCTTGCTCCGGCTCTTCCACGGGTTGGCC
>n986_u926_AF185208_snRNA_Pista australis
GATCAAAGTGTAGTATCTGTTCTTATCAGCTTAATATCTGATACGTACCCCACTGGGGTACTTCGATATTAAACTGATTTTTGGACATGGGAGTTGACTCAGGAGCTTGCTCCGGCTTCTCCACGGGTTGGCC
>n987_u927_AF185209_snRNA_Fauveliopsis banyuls
GATCAAAGTGTAGTATCTGTTCTTATCAGCTTAATATCTGATACGTGGCCCATTGGGTCACTTCGATATTAAACTGATTTTTGGAAGGGGGAGAAGATGCAGGAGCTTGCTCCGACTTCTCCACGGGTTGGCC
>n988_u928_AF185210_snRNA_Sternaspis sp
GATCAAAGTGTAGTATCTGTTCTTATCAGCTTAATATCTGATATTTCCCCCATTGGGGGATTTCGATATTAAACTGATTTTTGGAACTGGGAGAAGATGCTGGGGCTTGCTCCGACTTCTCCACGGGTTGGCC
>n989_u929_AF185211_snRNA_Malacoceros sp. AMW8671
GATCAAAGTGTAGTATCTGTTCTTATCAGCTTAATATCTGATACGATGCTCATCGAGTCTCTACGATATTAAACTGATTTTTGGACTGAGGAGGGGTTTCTGGAGCTTGCTCCGAACCCTCCACGGGNTGGCC
>n990_u930_AF185212_snRNA_Mesochaetopterus sp. AMW22402
GATCAAAGTGTAGTATCTGTTCTTATCAGCTTAATATCTGATACGTTCTCCATAGGAGAACTACGATATTAAACTGATTTTTGGACATGGNCAGAGCGCTAGGGGCTTGCTCCGCCTCCGTCACGGGTCTGCC
>n991_u931_AF185213_snRNA_Paralepidonotus ampulliferus
GATCAAAGTGTAGTATCTGTTCTTATCAGCTTAATATCTGATACGCGGTGCATGCACCGCTACGATATTAAACTGATTTTTGGAACTAGGCGGTGGCTCTGGGNTTTACCTACCCACCGCCACGGGTTGGCC
>n992_u932_AF185214_snRNA_Sigalion bandaensis
GATCAAAGTGTAGTATCTGTTCTTATCAGCTTAATATCTGATATGTGGTGCATGCACCACTTCGATATTAAACTGATTTTTGGAACCAGGTGGTAGCTAAGGGGTTTACTCCTCTACCACCATGGGTTGGCC
>n993_u933_AF185215_snRNA_Glycera tridactyla
GATCAAAGTGTAGTATCTGTTCTTATCAGCTTAATATCTGATACGTACCCCACTGGGGTACATCGATATTAAACTGATTTTTGGACTTCGGCGAAGTGTCAGGAGCTTGCTCCGCCTTTGCCACGGGTTGGCC
>n994_u934_AF185216_snRNA_Nephtys australiensis
GATCAAAGTGTAGTATCTGTTCTTATCAGCTTAATATCTGATACGTCCTCCATTGGGGGACTTCGATATTAAACTGATTTTTGGAACTAGGCGAAGTGTCAGGAGCTTGCTCCGCCTTTGCCACGGGTTGGCC
>n995_u935_AF185217_snRNA_Ceratonereis longiceratophora
GATCAAAGTGTAGTATCTGTTCTTATCAGCTTAATATCTGATACGTGGCANACTGCNNCACTATGATATTAAACTGATTTTTGGACATAGGCGTTGTGTTCGGAGGCTTGCTCCAACCTTTGCCACGGGTTGGCC
>n996_u936_AF185218_snRNA_Eurythoe sp. AMW4444
GATCAAAGTGTAGTATCTGTTCTTATCAGCTTAATATCTGATACGTGCCCCATCGGGGTACTTCGATATTAAACTGATTTTTGGAACTGGGCGAAGAGTCAGGAGCTTGCTCCGCCTTTGCCACGGGTTGGCC
>n997_u937_AF185219_snRNA_Lumbrineris latreilli
GATCAAAGTGTAGTATCTGTTCTTATCAGCTTAATATCTGATACGTCCCCCACTGGGGGACATCGATATTAAACTGATTTTTGGACTTGGGAGAAGATCCTGGGGCTTGCTCCGACTTCTCCACGGGTTGGCC
>n998_u938_AF185220_snRNA_Marphysa macintoshi
GATCAAAGTGTAGTATCTGTTCTTATCAGCTTAATATCTGATACGTCCCCCATTGGGGGACATCGATATTAAACTGATTTTTGTGCCTGGGAGAAGATGCTGGGGCTTGCTCCGACTTCTCCACGGGTTGGCC
>n999_u939_AF185221_snRNA_Eunice australis
GATCAAAGTGTAGTATCTGTTCTTATCAGCTTAATATCTGATAGCTCCCCCATTGGGGGACCTCGATATTAAACTGATTTTTGAACCTGGGAGAAGATGCTGGGGCTTGCTCCGACTTCTCCACGGGTTGGCC
>n1000_u940_AF185222_snRNA_Euclymene trinalis
GATCAAAGTGTAGTATCTGTTCTTATCAGCTTAATATCTGATACGTGGCCCACTGGGTCACTTCGATATTAAACTGATTTTTGGACATGGGCGAGGTGTCAGGAGCTTGCTCCGCCCTTGCCACGGGTTGACC
>n1001_u941_AF185223_snRNA_Mediomastus australiensis
GATCAAAGTGTAGTATCTGTTCTTATCAGCTTAATATCTGATATGACCCCCATCGGGGGTCTTTGATATTAAACTGATTTTTGNACTTGGGGGAAGATACAGGGGCTTGCTCCGACTTCCCCACGGGTTGGCC
>n1002_u942_AF185224_snRNA_Notomastus torquatus
GATCAAAGTGTAGTATCTGTTCTTATCAGCTTAATATCTGATACGACCCCCATTGGGGGTCTATGATATTAAACTGATTTTTGAACCTGGGGGAAGATACAGGGGCTTGCTCCGACTTCCCCACGGGTTGGCC
>n1003_u943_AF185225_snRNA_Polyophthalmus pictus
GATCAAAGTGTAGTATCTGTTCTTATCAGCTTAATATCTGATACGTTGTACATTGTACAACTATGATATTAAACTGATTTTTGGAACTGGGAGAAGATTCAGGGGCTTGCTCCGACTTCTCCACGGGTTGGCC
>n1004_u944_AF185226_snRNA_Phylo felix
GATCAAAGTGTAGTATCTGTTCTTATCAGCTTAATATCTGATATGTGGCCCATTGGGTCACTTCGATATTAAACTGATTTTTGGACATGGGCGAAGTGTTTGGAGCTTGCTCCGCCTTTGCCACGGGTTGGCC
>n1005_u945_AF185227_snRNA_Scoloplos simplex
GATCAAAGTGTAGTATCTGTTCTTATCAGCTTAATATCTGATATGTGACCCATAGGGTCACTTCGATATTAAACTGATTTTTGGACATGGACGAAGTGTTTGGAGCTTGCTCCGCCTTTGTCACGGGTTGGCC
>n1006_u946_AF185228_snRNA_Lumbricus terrestris (common earthworm)
GATCAAAGTGTAGTATCTGTTCTTATCAGCTTAATATCTGATACGTCCCCTATCCGGGGACATCGATATTAAACTGATTTTTGGACTTAGGAGAAGATGCAGGGGCTTGCTCCGGCTTCTCCACGGGTTGGCC
>n1007_u947_AF185229_snRNA_Bonellia sp
GATCAAAGTGTAGTATCTGTTCTTATCAGCTTAATATCTGATATGGCCTCCATTGGAGGCTTACGATATTAAACTGATTTTTGTGAACGGGGGAAGACGCGGGAGCTTGCTCCGACTTCCCCGCGGGTTGGCC
>n1008_u948_AF185230_snRNA_Sipuncula sp. 105045
GATCAAAGTGTAGTATCTGTTCTTATCAGCTTAATATCTGATACGTGGCTCATTGAGTCACTACGATATTAAACTGATTTTTGAATTCGGACTATGTGAACGGGGTTTACTCCGCCATAGTCACGGGTTGGCC
>n1009_u949_AF186214_RNase P RNA_Kazachstania telluris
AAACGCAGAGGACCAGAACTTTGGGACGGGAGGCGGGGGTTTTGTTCGCAGGCTCCTTCTTCCCGCTCCTGGTTCTACGCGGCGTGCGCTGTACCACCATCGGTGGTTATGGCGCTTACCCCGTGAGGGGGGCTTGGGGAACCGAGTCTAGCGTTGTTATAAGAAATCAATCTTTTGGATCCAGCCAGGGTCCTCTAGCAGAAAAGGGGGATGGGGCTCTCTTGGGCTCTCCCCTCCACGCCTGCGGGATTCTGATGGGAATGACAACGGTCGGTCCATTTGACTTTATCATTACGATGGTTCTAGTCGTGTTATGGTAAAGGTCTGTTGAGTGCAATTGTAGAGCAAATTGATTCAATTTGAA
>n1010_u950_AF186215_RNase P RNA_Clavispora lusitaniae
GTTCGCCCCATCCCTCCCCGTGCGTCTTTCGGGGCGCGCGGGGCGAAAGAATGCTCCTGAGAGCTTCCTGGGCGGAAATATTTCCGCCGGGCGTCGCCATCAGAAATTCAGCAGGCTATGCTTGCATGGGAGGCGGCGCGGATGGTTGGTCTCTCACAATGTGGAGAGGCTGTTGAGTGCAATTTGCGGCCCTGGCA
>n1011_u951_AF186216_RNase P RNA_Clavispora opuntiae
GTTCTCCCCATCCCTCTCTGGGTGCTTCTGCATTCAGAGCGATATAATGCTCTTGAGAGCTTCCTGGGCGTAGATAGTTACGCCGGGCGTCGCCATCAGAAAAACAGCAGAGCTACGCTTTGCATGGGAGGCGGCGCGGATGGTTGGTCTTTCAATACGAGGAAAGGCTGTTGAGTGCAATTTGCGGCCTTTGGCA
>n1012_u952_AF186217_RNase P RNA_Kluyveromyces polysporus
GAATACAGCAGTTCTCTCTTCGTAAGAAGAGAGATTGTGTTACCCTTCGTAACACATTACCCGTGAGGGAACTATTAGGTGGAAACCTAGTTAGCTTTGTCGTCATAAGTGATCAACGTCTTTCCCCTCGATTTATTTTCGGCGGGCGAATGACGGATGGGAACGGCGATAGTTACAATGTTTGACGTATCACGTGATATTATCACAAGGTATGGTCTGTTGAGTGCAATCGTAGGACCCCGGTTGTTATCTACAACCGGTTGAA
>n1013_u953_AF186218_RNase P RNA_Kluyveromyces thermotolerans
GAACACAGCGAGACAACAATCGCCAGGGGCTTCGGCCCTGATTCTCGTGAGAGAAGCCGCTGGAAAGCGGTTGTGGGCGCTGTCATCAGAAATACACATGTTGGCCGGCGCTATCGCCGCACCAATGTGATGGGAAAGGCAGCGGATGTCTCGTTTGACTTTGCCTTAGGGTAAAGGTCTGTTGAGTGCAATGGTAGGAGGCCGCTTTATGGTGGCCAA
>n1014_u954_AF186219_RNase P RNA_Pichia canadensis
TTCCCTCCAAAGTCTGTATTTTACCTGCCTACAAAAGGAGGAGTCCCCGGCGGACTTCCTCAGTATTCGCAGGTGGGAAATTCGGTGAAATCGCTCTGCCCACCAGGGAAAAGGTAAAACTCTCCCTGGTCCTTGGAAGGACTTGTCCTTCTGAGTCTCGTGAGAGATGCCAAGCGTGGAGACGCTAGGGTGGTCGCCATAAGAAACTTCAACAGGTCACACTGTTATGGGAGGCGCCACGGGCAGTTGGTCCCTTTGCATCCAGAAGGAAGCTTTGGGGCTGTTGAGTGCAATATACAGAGCGCTAGAAGGAGTCCTTCCTTCTACGCGTAA
>n1015_u955_AF186220_RNase P RNA_Pichia guilliermondii
GTTCTCTCCGTCCACGGAGGCAGGTTTCTGCCTTCGCACAAAATGCTCCTGAGAGCGTCCTGGCGCGAAAGCGCCGGGCAGGGCCATCAGAAATCAGTCGAGTTTACTTGGCATGGGAGGCTCTGCGGACGGTTGGTCATGTGTATGAACATGGCTATTGAGTGCAATATGCGAACCTTGAAAAAGGCA
>n1016_u956_AF186221_RNase P RNA_Pichia mississippiensis
TGGACCTGCCCACAAAAGGAGCTCCGTGCTCAGAATTACGCAGGTGGGAAATTCGGTGGTTCACGCTGTCCAACATTACCCTTTCTCTTGAGAGATCCTGGCGAGGAATCGCTGGGTGCGGCCATAAGAAATCAGCCCCCTAAAAAGGGCATGGGAGGCTGCACGGACAGTTGGTCCTTGGAAAGAGGGCTATTGAGTGCAATATACAGACTGGGGGCTTTGGCCCCTGGAA
>n1017_u957_AF186222_RNase P RNA_Pichia strasburgensis
TTCTCATCAAAGTCTGTATTTACCTGCCTACACAAGGGGCCCTCTTCCCCCAGAGGGACCCAGCAGGAGCAGGTGGGAAATTCGGTGGTACACGCCGCCCATTAATTTCTCTCTTGAGAGAGTCCAGGCGAGGAATCGCTAGGGTGTTGCCATAAGAAATTCAGTCCGCCTAGCGGGCATGGGAGGCTTCACGGGCGGTTGGTCCCTAGTGCAAAACTTTCGCGCTAGGAGGCTTTTGAGTGCAATATACAGACCGCCTAGTGGTTCCTTGGGATCATCTGGGCGGAACGCGATACCGATTATTTTGGTGAGAA
>n1018_u958_AF186223_RNase P RNA_Saccharomyces pastorianus
ATTAAGAAACCTGTTTGCAAAAGGGCCTGCCCACGCGGGTCATCTTATTTATCAGGTGGGAAATTCGGTGGAACACAGTGGAGCCTTGCCTTCCGGGCCATTGTCTCTGGCAGTGGCCCCTGCTCGTGAGAGAAGAAACTTGCTGGGGAACCAGTCTTTACCGACCGTTGCTATCAGAAATTGAACGGGGCCCGGTCCCGCCGGGCCTCGATGGGAACGGCAACGGTTGTTCCGTTTGACTTGTCGCCCGCCACGGCGCGCTGCAAGGTCTGTTGAGTGCAATCGTAGGACGCCATTCGTGGCGAACCCGATA
>n1019_u959_AF186224_RNase P RNA_Saccharomyces dairenensis
ACTAAACAGTGATGATTCCTACGTTTTAAGAACCTGTTTACAGAAGGAGGATAACACTTTAGTGCTTTTCTCATATAAGTTCAGGTGGGAAATTCGGTGAAACACAGCGGAACCAACAACATCTACCAAGGTGTCGTTGCCCTCCCCAAGCCTAGACGGTGTCTTCTTCTAGGAGGAGCTTAAGTCCAGGTCCTTCCCGTGAGGGCAGTTTTCTTTGCAATTTTAAATTTTACTGGGGAACCGGTCTGCCTAAAAATTGCCATTGAAGAATTTATTGGGACGTCGTTAGCAGAAATTCACAGAGACCTCTTTCAAAGAAATTGGTCCCTGATGGGAACAGCGACGGTAGTTCCATTTGACTTGTGGTGTGAAATAATATCGACCATAAGGTCTGTTGAGTGCAATCGTAGGACAGATTTGATTTGAAAATCTGAACCCGATCCCGACCACTGCGGCCGCTGCAGG
>n1020_u960_AF186225_RNase P RNA_Saccharomyces servazzii
GAACACAGAGGATCGATAATGACCAGGAACTGTAACAGGTTCTGTTTCCTCGTGAGAGGGGCTTGGGGAACCGAGTCTGGCGTTGCTATAAGAAATCTACAGCGTTGTTCGTTACTTGTAACGTGGCAACCCTGATGGGAATGGTAACGGATGATCCATTTGACGTACTGCTACCACTTGTGATAGCGGTAAGGTCTGTTGAGTGCAATCGTAGAGCAAATGTTCGCATTTGAA
>n1021_u961_AF186226_RNase P RNA_Saccharomyces unisporus
GAACACAGAGGATCAATTATCAAAGACCAGGAACTGTAAAGGGTTCTGTTTCCTCGTGAGAGGGGCTTGGGGAACCGAGTTTGGCGTTGTTATAAGAAATCAACAGGGTTTGGTTTGGCATTTTTCGAAGTGGTTGGCCGAACTCTGATGGGAATGGCAACGGATGATCCATTTGACGTATCACTATTAACAAGTGATAAGGTCTGTTGAGTGCAATCGTAGAGCAAATGGTAACACATTTGAA
>n1022_u962_AF186227_RNase P RNA_Naumovia castellii
AGTTGGAACAGCGACGACTCCTACGACTTAGAGACCTGTTTACACAAGGAGGGTACCCTCCCTCAACCAACAGGTGGGAAATTCGGTGAAACACAGTGGAATCATTCCTTCCAGCCTGGGCTCGCTTCCTTCGGGAAGCTAGGCTCAGGTCTTTCCGTGAGGACAGCCTAGCCGGGGACCGGTCTGCCTGGACGTTGTTATCAGAAATTCACACGGGTAACCGTGATGGGAAAGCAACGAGTGTTTTATTTGACGGGCTTCTGTTTACACAGTGGTCCAGTCTGTTGAGTGCAATCGTAGGACATGCCCTAGGGCTTGAACCCGATACCGATTACCGTCCTTGTCCCAACCCTC
>n1023_u963_AF186228_RNase P RNA_Saccharomycopsis fibuligera
GATCTCTGTCCTGTTCTGGTATCCTACGGGATAGTCCAGGACTATTGGATTTAATTCCAAATGCTCCTGAGAGCTCCATAGAGCGGAAGCTCTGGACGAAGCCATCAGAAAAATCGCTTACTTGTGAAGTGATGGGCCACTCTACTTCGGAGTGGCTCAATGGAAGCGGCTTCGTGGACAGTTGGCTTAGGCCGCCCTCAGGGGCGGTTTGAGCTGTTAAGTGCAATACACAGACATTGTGCA
>n1024_u964_AF186229_RNase P RNA_Torulaspora delbrueckii
TCCTACGATTTAGAAACCTGTTTGCTAACGGAGTCTCAGGGCTCACACTAATAGCAGGTGGGAAATTCGGTGAATCACTGCGGAACCCGACAGAGCCTAACAAGCTTTGTCGACCGGTTGCCTTGGCGACTTTTCCGTGAGGAGGGCCTGGGGAACCAGGCTCATATGGTCATTGTCACAAGAAATCAACTCGGTAGTCCTGTACTATCGAGGATGGGAAGGCAATGGACGTTCCGTTTAACTTGATCTCATCAAGGTTTGTTGAGTGCAATCGTAGGACGGTCTTAGACCTGAA
>n1025_u965_AF186230_RNase P RNA_Wickerhamia fluorescens
GTTCTCTCCATCCAGACTTATAGATTGAAACTTTCCTTGAAAGTTTCGGCTTATGAGTTACAAACTGCTCTTGAGAGCGTCCTTAGCGTGCAAACGCTGGGCGGTGCTATCAGAAATTTACCAGTCCTTACTTCGTATTGGGACTGGATGGGAATGGCACTGCGGATGGTTGGCCCTCTGAATGAGAGAGAGGGCTTTTGAGTGCAATATGCGAACTTGGATATTCCAAGAA
>n1026_u966_AF186231_RNase P RNA_Zygosaccharomyces bailii
GAACACTGTGGGACACTATGCCGACCCGCTGACTTTCTCGGTCAACGGGCCGTTTCCGTGAGGAAAGTCTGGGGAACTAGGCTTGCAGCTGCTGTCACAAGAAATCAACGCTCACAGTAGCGGATGGGAAGACAGCAGAGTTCCATTTAGCTTGAACACAACGTTGATTGTTTAAGGCTTGTTGAGTGCAATCGTAGGACAAGAA
>n1027_u967_AF186232_RNase P RNA_Zygosaccharomyces florentinus
GAATTCAGCGGGACGGCAATGGGTTAGTCGTCATGACTAATTCGGCGCATAACCGGTCGCCTCTGCAGCGTAAGCTACATTGGGGACTTTTCCGTGAGGAGGGATCTTGGGGAACCAAGACCATATGGTTGTTGTCATCAGAAATCAACCAGGTTACGTAAGTTACCTGGTATGGGAAGGCAACTGTAAGTTCCGTTTGACTTGTGCTAATTAGTATAAGGTCTGTTGAGTGCAATCGAAGGACAAGTCTTATAGATTTGAA
>n1028_u968_AF186233_RNase P RNA_Zygosaccharomyces rouxii
TCCTACGCAATTTTACCTGCCTTCATAAGGAACTCAAAGGGTTCAGTTAGTACTTAACTTACTATATAAGCAGGTGGGAAATTCGGTGGAACTCTAAGAGACAATCAGCCGGATCTTTAGCTTAATTGTTAAAGAACTGTTTCCGTGAGGAAAGTCTGGGGAACTGGACTTGCAGCTGCTGTCACAAGAAATCAACGCCCTTTGTTGGTGGATGGGAAGGCAGTAGAGGTCTCTTTTGGCTTGGATGCAAATTTGGACGTCCAAGGCTTGCTGAGTGCAATCGTGGGACAAAGAA
>n1029_u969_AF188753_Y RNA_Rattus norvegicus (Norway rat)
TTGGAAATATATTTTTCTTATAAATTAAATAATTTTCCGTGTTTTTATTCTTACGTGTGAGGCTCATATTTGGAATACGTACACATATTTTTAAGTTTGTTTCCGTAATCCACCATGACTTATAAAGGATCAATATTGTAAAGCTTATATATCTACAACCACAAGAACAACTTTCGGTTGGTCCGCGAGTAGTGGTGTTTACAACTAATTGATCACAACCAGTTACAGATTTCTTTGTTCCTTCTCCACTCCCACTGCT
>n1030_u970_AF190054_H19 RNA_Elephantidae gen. sp
AGGAGACATCTTCTCGGGGGGAGCCGAGACGGGCAGGCTGGGGGGCTAGGTGGCCGCCCCAGGTGGAAAGGGTACTTTAGAGGGCAGGATGGGCTGCAGCCCCCAGGGAGGTGACAGGTGCCCTGGGGATGGCAGTGCAGCAAGAAGCAGGGATCCAGCAAGTGCGGGAGCAGGCGGGCCCGGGCTGGACAGTAGAAAGGGGACGAAGGGCACAGCGGGGTCCCCAGCCGTCACAGCATCTCACCCACTGCATTCACCCAAGTGGCAGGATCAGGAGTGGCTCTGTGGTGGGCAAGGCCTGCTCAGAGCATCTGAGGGCAGGAGAGCGAGACAGAGGGCGCAGTGCGCAGGGACACCTGCAAAATGGCACCACCGGGAGGGAGGGTCGCCTGGGTGCTGGGCTCCAGCACACCCGGCCAATGCTCTCCACGCGGCACTGCGGCCCAGGGGCTGGTGCGGGAAGGGCCCACAGTGTGCTTGGTGACACTGTATGCCTTAACCGCCCAGTCCCTGGGGCTGGCATGAAGACAGTGCAGTTCCAGGGGAGTCAAGGGCACGAGCGAGGCCAGGCTAGGTGAGCGGGCGGGCGGAGTGATTGTGAGCTCTCGGGGGAGGGGGCGTAGAGCATGGCAGGGCAGGAGCAGAGCTGGCGGGCACAGCGGGCACGGCCTGCGCGCCAGGGCCAAGGCGGGCCTTGGCAGGGACAGAGCAAGACCGGCCGCCGTGTGTAGACTGGAGACGAGGGAGGTCTCCAGCGGGTGGACACAACAGCCAGCCACCATGGAAGGCCAGGCCCCACGTCCGGCAGATGTGCTGAGAAGGACATGACATGGTCCGGTGTGACGGCGAGGACAGA
>n1031_u971_AF190055_H19 RNA_Thomomys monticola (mountain pocket gopher)
AGGAGACATCTTCTCGGGGGGAGCCGAGACAGCAGAAGGCTGGGGGGGCTGTGGGCTGCCCCAGACAGAAAGAGCATCTCCAGAGGGCGTGGGGGGGAGTCGCAGGGCTGCCAGCGGGGACCTCGGAGGGATCCAGCCAGTGCGGGAGCATCCCAGGTCGGGGCCGGACAGGGTCGGGGCGTGGGCACAGGACAGAGATGGGTCCCCAGCCGCCACCACATCACCCACCGCAATTCACTTAGGAGGAGGCTCCTGGGCGCCCCTGGCGGGCCCTCTCACGGGCCATGCCAGAGCGTCGAGGACAGGAGAACGGGAAAGAAGGGCAGTGCACAGCAGGACGTCACCAGAGGGGGATAGGTGGCCGCGGGTGGCGGGCTCCTGAGGGATTTTCGCATCAAGGATGCTGCATCGGGCCCGGCCTGCGGTCACAGCGCTCCCTCGCGGCACTGCAGCCCAGGGCTGGCGCGGAAAGGCCACAGTGGACTTGTTCACGCTGTATGCCTAACCGCTCAGCCCCTGGGTCTGGCATTGCAGACAGGACAGCACCACGGGATTCAAGGGCACGGGGCAAATCCAGACAAGCAAGCAGCGGGCCGAATGAGTGCGATATATAGGGAGAGAGGTGGGGGGCAGTCAGGGCGAGGCCAAGGAACAGGTGGCGAGCCGAGGTACCGACCTCCAGAGCGTGCGACCAAGGCGGGCCATGCGGGCGGCGACACAGGAGCGATCGGTCGCGTCTCGACGCTGGGAGCTGGAGACGAGGCCAGGTCTTCAGCGGGGGTGGACGGGCCAGTCAGTCAGTTTTAAAGGCCAGGACGTCAGTGCAAGAATCTACTTTAAGACATGACATGGTCCGGTGTGATGGCGAGGACAGA
>n1032_u972_AF190056_H19 RNA_Lynx lynx (Eurasian lynx)
AGGTGACATCTTCTCGGGGGGAGCCGAGACCGTGCGGGCTGGGGGGGGCCGCGTGCCTTTCCCAGGTAGAAAGAGCATTTCGGGAGAGCAGGCAGGAGATGAGGCAGGGCTGCCGGCAGAGAGGTGACAGGTAGCTGTGGGGATCCAGCACGTGCGGGGTGGGGGGGGGGGCACCAGGCCCGGGTCGGACAGGATGAGGTGGGGACTCAGGACGCAGCAGGGGTCCCCAGCCGCCACCACATCTCACCCACTGAAATTCATTTAGTAGCAGGTACAGGAGCGGCTCTGGCCAGGCCAGACGTTCGAGGGCTGGGGAGCGGGAAAGAAGGGGCAGTGCGCGGGGTGTCCCGAACAGGACGTCACCGGAGGAGCGGCGGCCGAGTACCGGCTCCGGAGAGATTTCTGCAGCGAGGAGCTGCTGCGGGCCCAGCCTGCGGACGCGCCGTTCCCACGTGGCACTGCGGCCCAGGGTCTGGCGCGGAGAGGCCCACAGCGTACTTGGTGACACTGTATGCCTTCACCGCTCAGCCCCCGGTCTGGCATGACAGACAGGACAGCACCAGGGAGTCAAGGGCACTGGCGAGACCCGACTAGGCGAGGCGGGTGGGGTGGAGTGAATGAGAACTCTGGTGGGGGGCCGGGGCGCAGGCAGGGGCGAAGGGCGGGACGTGCGCGAGTCCGCCGGGGCGCTGGCCTCCAGAGCCCGTGGCCGAGGTGGGCTCCGCGGGCGACGACGGAGCAGGGATCGGTGCCTCTGGACTCGGGACTGGAGACGAGGCCAGGTCTCCAGATCGGGTGACGTGCTGCTGCCTCCGAAGGCCGGGCGCGAGCGTGCGCTCAGAGAGGCATGACATGGTCCGGTGTCACGGTGAGGACAGA
>n1033_u973_AF190057_H19 RNA_Felis catus (cat)
AGGAGACATCTTCTCGGGGGGAGCCGAGACAGTGGGGGCTGGGGAGCTGGGGGTCCTTCCCAGGTAGAAAGAGTATTTCAGGAGGGTGGGCAGGAGACGAGGCAGGGCTGCCAGCGAGGAAGGTGCTGAGGCGACCACCTCTATGGAGGTGACAGGTGGCCGTGGGGATCCAGCATGTGCGGGGGCACCAGGCCCGGGTCGGACAGGAGGAGGTGGGGACTCAGGACATAACAGGGTCCCCAGCCGCCACCACATCTCACCCACCGAAATTCATTTAGTAGCAGGTTACAGGAAGCGGCTCCGGCTCAGGCCTCCCAAGGCCAGTGCTGGAGCTTCGAGGGCTGGAGAACAGGAACGAAGGAGCAGTGCGCGGGGCGGCCCGCAGCAAGGTGTCACCCGGAGGGAGCGGCGGCCACACGGATCGGGCTCTGGAGAGATTTCTGCAGCGAGGAAGCTGCCGTGGGCCCGGCCTGCCGGTTGGCCGTTCCCACGTTGCACTGCGGCCCAAGGGCCGGCGCGGAAAAGGCCACAATTGCCTCGGTTACCTTGTATGCCCTCACCGCTCAGCCCCTGGGTCTGGCTTACGACAGGACAGCTCCAGGGGAGTCAAGGTCACAGGCGAGACCAGATTAGGCGAGGAGTGTGGGGCGGAGTGAGTGAGACTTCTTGGCGGGGGGGTCGGGGCGCAGGCAGGGGCGAAGAGCAGGAGCCTGGCGGCGAGCCAGGGGAGGCACTGGCCTCCAGAGCCCGGGCCAAGGCGGGCCTCTGCGGGCGTCGACGGAGCAGGGATCGGTGCCTCTGGGCTCGGACTGGAGATGAGGCCAGGTCTCCAGTTCGGGTGGTGAGCCCGCCAGCCACCGAAGGCCAGGCGCGAGGCTGCGCTCAGAGGGACAGGACATGGTCCGGTGTGATGGCGAGGACAGACGTGATGCCGTCCGGCCTTCCTGAACATTCTAGGCTGGCACCGCGGGGAGTCAGAACAGCCACGGCTCTCGTTCCTTTGCGTTCCTGAAGGAGTCAACACACTGCTGCTCTCTGGACCCCTATAACCCTCAAACTGAAAGAAATGGTGCTACCCAGCTCATGCCTGGGCCTTGGAAACCGGACTTCTTCAAGTCCTTCTAGCTCTGACGCAAGAAGATGCTGCATTCTGGAACCACTACACTACTTGACCCAAGAATCGGTTCTGGAAGGTGACGCAAAAGAACAAGAGCAACTTGACCACAACACCTTTGCAGGAGCAAGCCCCCGTGGCAGCCGCCACCCACCCTTCCTGGCAATGTATCCCCGTGGCCACCCTGCCATGGCAGGCGACCACCAGCCGCCACGCCCCACGCCCCTCGCCCTCTTTCTCTTCTTCCTTTCCTATGTTCTCTCATTTCCTTTCTTTCCCTTCCTTTTTGCTCGGGAGACTTAAAGCCCCCATGACTCTGTTTCCCCGTCCCTCCTGAATTTAATTTGCACTAAGTCGTTTGCACTGGTTTGGAGTCTTGGATCTGGCCTTGAGTTCCCGAGCGTGTGTGCAAGCAAGCTGCTGAGTGCACCTGGCCTCCTGTGGCCCACAGCGCCCGGCACCCACCTTCCGTCCATCTCTGTGTGGGGGTGCCCGGGTGCGGCTGAGAGCGTGAGGCCCCACCCCCCCTTGCCTAGTCTGGAAGCTCCTAACACCGAGCAGACCTTGAAGCATTCCATTGTAGCATGACTCGCTCTGTGCCCCTCCCCACCAGGGCTCCAACAGAGGTCCTGG
>n1034_u974_AF190058_H19 RNA_Pongo pygmaeus (orangutan)
AGGAGACATCTTCTCGGGGGGAGCCGAGACTGCGCAAGGCTGGGGGGCTGTGGGCCCATCCCAGGCAGAAAGAGCAAGAGGGCAGGGAGGGAGCACAGGGGTGGCCAGCGTAGGGTCCAGCACGTGGGGTGGTACCCCAGGCCTGGGTCAGACAGGGACAAGGCAGGGGACACAGGACAGAGGGGTCCCCAGCTGCCACCTCACCCACCGCAATTCATTTAGTAGCAGGCACAGGGGCAGCTCCGGCACGGCTTTCTCAGGCCTATGCCGGAGCCTCGAGGGCTGGAGAGCGGGAAGACAGGCAGTGCTCGGGGAGTCGCAGCGTGACGTCATCAGGAGGGTGAAGCGCCCACGGGAGGGGGGCCCCGGGACATTGCGCAGCAAGGAGGCTGCAGGGGCTCGGCCTGCGGCGCCGGTCCCACGAGGCACTGCGGCCCAGGGTCTGGTGCGGAGAGGCCCACAGTGGACTTGGTGACGCTGTATGCCCTCACCGCTCACCCCTGGGGCTGGCTTGCAGACAGTACAGCATCCAGGGGAGTCAAGGGCATGGGGCGAGACCAGACTAGCGAGCGGCGGGGCGGAGTGAATGAGCTTTCAGGAGGAGGCTGGTGCAGGCAGGGGTAGGAGCCAACGACGGCGAACGGGAGGCACTGGCCTCCAGAGCCGTGGCCAAGGTGGGCCTCGCGGGCGGCGGCGGACCGGGATCGGTGCCTCAGCGTTCGGGCTGGAGACGAGGCCAGGTCTCCAGCTGGGGTGGATGTGCCCACCAGCTGCCGAAGGCCAGGACGCCAGGTCCGGTGGACGTGCCAAGTGGGACATGACATGGTCCGGTGTGATGGTGAGGACAGAGGAGGCGCGTCTGGCCTTCCTGGAACACCTTAGGCTGGTGGGGCTGCGGCGAGAAGCGGGTCTGTTTCTTTACTTCCTCCACGGAGTCGGCACACTACGGCTGCCTCTGGGCTCCCAGAACCCACAACATGAAAGAAATGGTGCTACCCAGCTCAAGCCTGGGCCTTTGAATCCGGACACAAAACCCTCTAGCTTGGAAGGAATATGCTGACTTTACAACCACTGCACTACCTGACTCAAGAATCGGCTCTGGAAGGTGGAGGGGAACAGCAGCGGCCGCAGACCACCCCCACGGCAATTCCATTCTTCATGGCCACCCCTGCGGCGGACGGTTGCCACCAGCCACCACGTCATCCCAGAGATGAGCTCTCCAGCGGGATGACCCCGTCCCCACCACCTCCCTCTTCTTCTTTTTCATCCTTCTGTCTCTTTGTTTCTGAGCTTTCCTGTCTTTCCTTTTTCTGAGAGATTCAAAGCCTCCACGACTCTGTTTCCCCCGTCCCTTCTGAATTTAATTTGCACTAAGTCATTTGCACTGGTTGGAGTTGTGGAGACGGCCTTGAGTCTCGGTGTGAGCGTGCGTGAGTGTGAGCCACCTTGGCAAGTGCCCGCCCAGAGACCGGCCGCCCTCCATCTGGGCCGGGTGACTGGGCGCCGGCTGTGTGCCCGAGGCCTCACCCTGCCCTCGCCTAGTCTGGAAGCTCCGACCGGCATCACGGAGCAGCCTTCAAGCATTCCATTACGCCCCATCTCGCTCTGTGCCCCTCCCCACCAGGGCTGCAGCAGAGGTCCTGG
>n1035_u975_AF191547_RNase P RNA_Mus musculus (house mouse)
AGTGGGCGGAGGAAGCTCATCAGCGGGGCCACGTGCTGAGTGCTCGTCACTCTTCGGCCCCTGGGAAGGTCTGAGACTGGGGCCTCCCGCGGCCCTAACCGGGCTCTCCCCGAGCGGGGAGGTGAGTTCCCAGAGAGCAGGGCTCTACGCTTGGGCAGACTGGGCAGGAGAAGCCCCGAGTCGGGGCGGATGCCTCCCTCGCCGGAGCTTGGAACAGACTCACGGCCAGCAGTGCGAGTTCAATGGCTGAGGTGAGGCACCTCCCGGGCCTCATAACCCAATTCAGACTACTCTCCCCCGCCCT
>n1036_u976_AF192349_RNase P RNA_Acidianus ambivalens
GAGGAAAGTCCCGCCTCCAGATCAAGGGAAGTCCCGCGAGGGACAAGGGTAGTACCCTTGGCAACTGCACAGAAAACTTACCCCTAAATATTCAATGAGGATTTGATTCGACTCTTACCTTGGCGACAAGGTAAGATAGATGAAGAGAATATTTAGGGGTTGAAACGCAGTCCTTCCCGGAGCAAGTAGGGGGGTCAATGAGAATGATCTGAAGACCTCCCTTGACGCATAGTCGAATCCCCCAAATACAGAAGCGGGCTTA
>n1037_u977_AF192350_RNase P RNA_Acidianus brierleyi
GAGGAAAGTCCCGCCTCCTGGCCTAAAGGAGTCTCTATAGAGACAAGGGCAACACCCTTGGCAACTATACAGAAACAAGTACCTTGAAAGCTACATGTGAAAATGATTGTGCCCCTTCCTCTGGTAACGGAGGAAGAAACATGAGAGTAGCTTTCAAGGATGAAAAGATAGACCTCCTAGGAGCAAGTAGAGGGAAAGATGAGACTAGGCCCGATTTCCCTCTAGGACGCATAGCCAAATCCCCCAACCATTACAAAAGCGGGCTTA
>n1038_u978_AF192351_RNase P RNA_uncultured archaeon E1b
GAGGAAAGTCCAGCCACCACTGGACACACAGACATTCCCCCAAGGATGTAGGGCGAGAGCTCTGGCTCTGGCACAGAAACGAGACCGCGCCGCGTAAAGCGATGATGCCGCAAGGCTGAGGTCGCGCGGGAGGCGGATGAAACGGCGAAACCCTGTGGGTGCAAGCCAAAATAGAGCTGAGAACGCGGACGTCCAGCCGAGCTCGGGTATGGCGCTAAGCTGAATGCCGTCAAAGACAGAAGGGGGCTTA
>n1039_u979_AF192352_RNase P RNA_uncultured archaeon ER-E
ACCGGGCAAGCCGAAGGGCAGCTACCGGTTTCTATAGATTTAATGTCTGTAGTTAAACTGAGGAAACTCCACCCATCATGCAGAGCCGTGGTGCCGTAGCATCAGCTGAGAGGCTGGACCCTGGAGCAGAAACGACACGTCTCCTGGTGGATGATAATGAAGCTTCACCCTCAAGGAGCAGACTGACATCAGGAGGACCGGTGAAACGGCCATTCCACGGGATGCAAGGACAAATGCTGCCTGTGATTACTGTAGGAGGCAGAGGTAGTCCGCCCAGATGAATGCTGCCGAACAGAAGGTGGGTTACTCTCGGCATGCCCGGT
>n1040_u980_AF192353_RNase P RNA_uncultured archaeon ER-H
ACCGGGCAAGCCGAAGGGCAGCTACCGGTTTCTATAGATTTAATGTCTGTAGTTAAACTGAGGAAACTCCACCCATCGTACAGAACCGTGATGTCTAAGACATCTGCTGAGAGGCAGGACTCTGGAGCAGAAACGACACGTCTTCTGGTGGATGAACATGAAGATCCGTTCTGATTGACACCAGGAGGAACGGTGAAACGGCCAATCCACGGGATGCAAGGGTAAACACTGCCAGTGAATCCTGTATGAGGCAGAGGTAACTCGCATAGATGAATGCTGCCACCAACAGAAGGTGGGTTACTCTCGGCATGCCCGGT
>n1041_u981_AF192354_RNase P RNA_Methanococcus maripaludis
GGGTAAGGGGGCTGGTGACTATCCACTGGGAGGAAGCTCTGCCCACCCAATTGTGTAGATTTCCTGAGAAGGAATGAATAGGGTATAGAAACGACACGGTTCTAAGAAATATGACTATGATATTTTCAAAATTGAGGATTCTTAGAAAATCGATGAAACGACCTTATTTTACACGGGTGCAAGCATATGTGCTAAGCTGAATGTCACCGAAATTACAGAAGGCAGGCTATAGCCCCCATACCC
>n1042_u982_AF192355_RNase P RNA_Methanothermococcus thermolithotrophicus
GGGTAAGGGGGCTGGTGACTATCCAATTGGGAGGAAGCTCCGCCCACCCATTATGTGCAACAATCCCGAGAGGGATTGAATGGGGCATAGAAACGACACGGCCTTAAAACAGATGACGATGATATCCGAAAATTGAGGAGTTTTAAGGAATCGGTGAAACGGCCCCATTCTGCACGGGTGCAAGCATTAGCGTTTAGCTGAATGTCGCCGAAATTACAGAAGGCGGGCTATAGCCCCCATACC
>n1043_u983_AF192356_RNase P RNA_Methanothermobacter thermautotrophicus
ACCGGGCAAGCCGAAGGGCAGCTGACGGCCCATTTTTGGGCTGAGGAAACTCCACCCATCATACAGAACCGCGGTGCCGTGAGGCATCAGCTGAGAGGCTGGACCCTGGAGCAGAAACGACACGTCTTCTGGTGGATGATAATGAAGCTTCACCCTTAAAGGAGCAGACTGACACCAGGAGGACCGGTGAAACGGCCATTCCGCGGGATGCAAGGACAAATACTGCCTGTGATTACTGTAGGAGGCAGAGGTAGTCCGCCGAGATGAATGCTGCCGAAACAGAAGGTGGGTTACTCTCGGCATGCCCGGT
>n1044_u984_AF192357_RNase P RNA_Methanococcus vannielii
GGGTAAGGGGGCTGGTGACTATCCAACTGGGAGGAAGCTCTGCCCACTCAATTACGTAGATTTCCTGAGAAGGAATAAACAAAGTATAGAAACGACACGGTTCCAAAAAATATGACTATGATATTTTAAAATTGAGGATTTTTGGAAAATCGATGAAACGACTTTGTTTTGCGTGAGTGCAAGCATTATGCGCTAAGCTGAATGTCACCGAAATTACAGAAGGCAGGCTATAGCCCCCATACCC
>n1045_u985_AF192358_RNase P RNA_Pyrococcus furiosus
TAGGCGAGGGGGCTGGGGGCTGCCGGGCTTTATGCCCGAGGAAGTTCCGCCCACCGCACCGGGGCCGCGGTGCCGTAAGGCACCTCCCGAGAGGGAGGGCAACGGCGCAGAAACGACACGTCCTCCGAGGGATGGGAATGAAAGCGGTGAAGGGGGCTGGTGACAGCTCCCGAGCTAACCCGCAGACGACCTCGGGGGGATCGGTGAAACGGCCGTCCCGCGGGGTGCAAGGCCGAAAGAGGGACGATGAGTTCCCGGTGTGAGTCCCGTGGTTGGCCGCTTAGTCGAATGCTCCCTTAATACAGAAGGCGGGCTATAGCCCCCTCGCCTA
>n1046_u986_AF192359_RNase P RNA_uncultured archaeon SL1-1
GAGGAAAGTCCACCCACCACTGGACACACAGACATTTCCCCAAGGATGTAGGGCGAGAGCTCTGGCTCTGGCACAGAAACAAGACCGCACCGCGTCAAAGCGATGATGCCGTAAGGCTGAGGTCGCGCGGGAGGCGGATGAAACGGCGAAACCCTGTGGGTGCAAGCCAAAATAGAGCTGAGAACGCGGACGTCCAGCCGAGCTCGGGTATGGCGCTAAGCTGAATGCCGTCAAAGAACAGAAGCGGGCTTA
>n1047_u987_AF192360_RNase P RNA_uncultured archaeon SL2-d
GAGGAAAGTCCACCCACCTGCTGAGCGCGCAGCCGTATGCAAGTACGGGTGGCGAGAGTCACGGCTATGGCACAGAAACGACACGGCCTGCCCCCAGCCATGATGCGATCGAGTCCATTCGTGGGCAATGCGTCCGCTCCCAACAAGCGCGGATGTCTCGCTGATGCATAAGGGTAGGTAGCGACGAAACGGTGAATCCTGCGGGTGCAAGCCAAAACAGGGCAACAAGGCTGCTCAGTGCCTGCCCGGGTATGGCGCGTAGCTGAATTGCCGCACCGACAGAAGCGGGCTTA
>n1048_u988_AF192361_RNase P RNA_uncultured archaeon SL-C
GAGGAAACTCCACCCATCATACAGAACCGTGATGCCAGCAGGCATCTGCTGAGAAGCAGGACACTGGAGCAGAAACGATATGTTTTCTAATGGACGAACATGATGCTTAAATGCTGATGGACATTAGAAAAATACAGTGAAACGGCTATTCCACGGGATGCAAGGACAAATACTGTTTATGGATCCTGTATGAAACAGAGGTAGTCCGCAAAGATGAATGCTGCTAAAACAGAAGGTGGGTTA
>n1049_u989_AF192362_RNase P RNA_Sulfolobus shibatae
GAGGAAAGTCCAGCCTCCAACCCTTACAAGAACCCCGTAAGGGGTAGGGATAGAATCCCTGGCTACTACACAGAAACGAAGCCCTAATACTAGATAGATGATTGGACCTACTAGCAAGTAATTGCTAGTAGTACGATAATGATGAAAGTATTAGGGCTTGAAACGGTAGACCTCTTGGGAGCAAGTTGAAGGGGGATGAGCAAAGGGTTGACTCCTTATAGTACGCTTAGTCGAATCCCCTCAGTACAAAAGCTGGCTTA
>n1050_u990_AF192363_RNase P RNA_Sulfolobus solfataricus
GAGGAAACTGCAGCCTCCAACCCTTACAAGAACCCCGTAAGGGGTAGGGATAGAATCCCTGGCTACTACACAGAAACGAAGCCCTAATACTAGATAGATGATTGGACCTACTAGCAAGTAATTGCTAGTAGTACATGATAGATGAAAGTATTAGGACTTGAAACGGTAGACCTCTTGGGAGCAAGTTGAAGGGGGATGAGCAAAGGGTTAGCTCCATATGTACGCTTAGTCGAATCCCCTCAGTACAAAAGCTGGCTTA
>n1051_u991_AF192364_RNase P RNA_Thermococcus celer
TAGGCGAGGGGGCTGGGGGCTGTCGGGCTCGTACCCGAGGAAGTTCCGCCCACCGCACCGGGGCCGCGGTGCCGCAAGGCACCTCCCGAGAGGGAGGGCAACGGCACAGAAACGACACGTCCCTCGGGGGATGTGGATGAAAGCGGAGAAGGCTCCTGGCGACAGGAGCCGAGCTAACCCGCAGACAATCCCGAGGGGAGCGGTGAAACGGCCGTCCCGCGGGGTGCAAGGCCGAGTTAGGGCCAATGAGTTCCCGGTGTGAGGCCCGTGGTAGGCCGCTTAGTCGAATGCCCCCGCAGGTACAGAAGGCGGGCTATAGCCCCCTCGCCTA
>n1052_u992_AF192365_RNase P RNA_Thermococcus litoralis
GGGGGCTGGGGCCCTCGGGTATTTGACCCGAGGAAGTTCCGCCCACCGCACCGGGGCCGCGGTGCCGCAAGGCACCTCCCGGAAGGGAGGGCAACGGCGCAGAAACGACACGTCCCTCGGGAAATGTGGATGAAAGCGGTGAAGGCTCCCGGCGACGGGAGCTGAGTTAACCCGCAGACAATCCCGAGGGGAGCGGTGAAACGGCCGTCCCGCGGGGTGCAAGGCCGAGATAGGGGCTATGAGTTCCCGGTGTGAGCCCCGTGGTAGGCCGCTCAGTCGAATGCCCCATTAATACAGAAGGCGGGCTATAGCCCCCT
>n1053_u993_AF195095_snoRNA_Sulfolobus acidocaldarius
CAGTTGATGAGAAGTTAAAAAAGCGATGGATGAGCTTAACTCCCATGGTCTGATAAC
>n1054_u994_AF195096_snoRNA_Sulfolobus acidocaldarius
GAGTGATGAGACGAGCGCTAACAGAGAGAGTGAAGAGGTCACTGCGAACTGAAGAAA
>n1055_u995_AF195097_snoRNA_Sulfolobus acidocaldarius
AGGATGACGAGACCCAAAATATTGAACGATGATATAACCTGTCTCGGCTGATCAGT
>n1056_u996_AF195098_snoRNA_Sulfolobus acidocaldarius
GTTGATGAGCACATTCTTTTCTGATTTAATGAAGAAAGTGGCCAGGTCTGAGGTAG
>n1057_u997_AF195099_snoRNA_Sulfolobus acidocaldarius
GAAATGATGAATGGTCGACGGAACGGACCTATGAAGAATTGTTGCCGGACTGACAAAC
>n1058_u998_AF195100_snoRNA_Sulfolobus acidocaldarius
GGATGATGACCAAATAGACTGAAAGATGAAGAAATGCACCTCAACTGACTAAA
>n1059_u999_AF195101_snoRNA_Sulfolobus acidocaldarius
GATGATGACAAAGAGCCGAATGGATTAGTGACATCTAATTTTGTGGGCAGCCACTGATAGAG
>n1060_u1000_AF195102_snoRNA_Sulfolobus acidocaldarius
GATGATGAAGCCCGCCATCAACAGATAAGTGAAGAGGGAACCCGAGGCTGAGAAT
>n1061_u1001_AF195103_snoRNA_Sulfolobus acidocaldarius
GTTAAAATAATGATGACTAACTCCAATACTGACCAATGATGTCGTAACCCGAAACTGAATAAA
>n1062_u1002_AF195104_snoRNA_Sulfolobus acidocaldarius
GAATGATGTGGAATCCGGGATCTGAGAATGATGACAAAAAGCGCGAGCGCTGATTATA
>n1063_u1003_AF195105_snoRNA_Sulfolobus acidocaldarius
GAATGTGATGATGGGTCGATGTTACTGATTAGTTGATGAGATTATCTCCGGCTGAGAAT
>n1064_u1004_AF195106_snoRNA_Sulfolobus acidocaldarius
GAATGAAGAACCCAACCTTATCTGAGGTTATGATGACAGGTTGTTCGTCAGATCGATGTGAG
>n1065_u1005_AF195107_snoRNA_Sulfolobus acidocaldarius
AGGATGATGTACTTTCACCCTCACTGAAAGGTGAGGATGAGTCCGACTACTGACGCAA
>n1066_u1006_AF195108_snoRNA_Sulfolobus acidocaldarius
GCTGTGAAGACGCTAGACTTAGACTGACTCATGATGAAGGGCCAAAGCTCAGAGCAAAC
>n1067_u1007_AF195109_snoRNA_Sulfolobus acidocaldarius
AGTGATGAGGAACCAACGAGAGCTAGTTTGATGGCTTCGACGCTCTGCTCTGAAA
>n1068_u1008_AF195110_snoRNA_Sulfolobus acidocaldarius
GAATGAAGACGTTCCACCCGAGCGAGTGATGAGCGAAACGGTTAATACTGATGATG
>n1069_u1009_AF195111_snoRNA_Sulfolobus acidocaldarius
AGAAATGAAGACTAAAAAACCGGCTGAGATAAGTGATGACGACGTCTCGCACTGATC
>n1070_u1010_AF195112_snoRNA_Sulfolobus acidocaldarius
AAGTGATGACAGAACCCCGGCTTGAAAGATGATAGAGCCGTGTGAGAACTGATCAAT
>n1071_u1011_AF195878_roX RNA_Drosophila melanogaster (fruit fly)
TGTTGCGGCATTCGCGGCCTGGTCACACTAAGCTAGGGCTACTTTTTATATCATAAGTCGAGCGTTTAGGTAGCTCGGATGGCCATCGAAAGGGTAAATTGGTGTTACATATAGCTTTAGAGATCGTTTCGAATCACATTGATAATCGTTCGAAACGTTCTCCGAAGCAAAATCAAGCAAGAGTAACGATTTCCGCATAGTCGAAAATGTTTAAGTTGAATTGTCTTACGGACAGTGAGATGAGTACGACTATTTGGAAATCACAAACGAATTGTTTTCATGGTTGACGCGCTTGTCAAGCTACAAAACAAAATGAATGATATACAATATACAATATACAATATGCAATACAATACAATACAAGACAAAAAAATGTGTCTTGGAACGCAACATTGTACAAGTCGCAATGCAAACTGAAGTCTTAAAAGACGTGTAAAATGTTGCAAATTAAGCAAATATATATGCATATATGGGTAACGTTTTACGCGCCTTAACCAGTCAAAATACAAAATAAATTGGTAAATTTCATATAACTAGTGAAATGTTATACGAAACTTAACAATTAAAAAAAAAAAAAAAAA
>n1072_u1012_AF204671_snRNA_Leptomonas collosoma
AAGCCTTGCGCAGGGAGATGTGAACGCAAGAACCTCAGTGATTGTTCATTTAGTGCTATACTAAAAACTCCAGTACTCCTATACGGGAATATTTGCATCCACCAAGGGTGGGGAA
>n1073_u1013_AF209859_self-splicing ribozyme RNA_Hepatitis delta virus
TGGCCGGCATGGTCCCAGCCTCCTCGTCGGCGCCGGCCGGGCAACATTCCGAGGGGACCGTCCCTCGGTAATGGCGAATGGGACCCA
>n1074_u1014_AF210457_vault RNA_Mus musculus (house mouse)
GGGCCAGCTTTAGCTCAGCGGTTACTTCGACAGTGGTTCAGTTCATTACCAGCTATTCGTAGCAGGTTCGAACAACACAACCAACCACTTACCTAACCCGTGAGTGTTTGGTTCGAGACCCGCGGGCGCTCCCTGGCCCTT
>n1075_u1015_AF210771_miRNA_Caenorhabditis briggsae
TGAGGTAGTAGGTTGTATAGT
>n1076_u1016_AF211853_RNase P RNA_Escherichia coli
GAAGCTGACCAGACAGTCGCCGCTTCGTCGTCGTCCTCTTCGGGGGAGACGGGCGGAGGGGAGGAAAGTCCGGGCTCCATAGGGCAGGGTGCCAGATAACGCCTGGGGGGGAAACCCACGACCAGTGCAACAGAGAGCAAACCGCCGATGGCCCGCGCAAGCGGGATCAGGTAAGGGTGAAAGGGTGCGGTAAGAGCGCACCGCGCGGCTGGTAACAGTCCGTGGCACGGTAAACTCCACCCGGAGCAAGGCCAAATAGGGGTTCATAAGGTACGGCCCGTACTGAACCCGGGTAGGCTGCTTGAGCCAGTGAGCGATTGCTGGCCTAGATGAATGACTGTCCACGACAGAACCCGGCTTATCGGTCAGTTTCACCT
>n1077_u1017_AF213692_self-splicing ribozyme RNA_Schistosoma japonicum
ATCCAGCCGATGAGTTCCAAACAGGACTAAACGCGCTTCTTGGAT
>n1078_u1018_AF213693_self-splicing ribozyme RNA_Schistosoma japonicum
ATCCAACCGATGAGTCCCAAATAGAACGAAACCTGCGTCCTGGAT
>n1079_u1019_AF214115_H19 RNA_Peromyscus maniculatus bairdii (prairie deer mouse)
ATGGGGACCAGACATTCATCCCGGTCACTTTTGGTTACGGACGTGGCGGCTGGTCGGATACAGGGGCTGCTGGGAAGGGTTCGACCCCAGACCTGGCAGTGGACGTGTAGCTGGCAGCAGTGGCACGTGAGGATCGCCGTCTGCTGGGCAGGTGAGTCTCCTTCTTCTCTCTGGGCCTCGCTTGCTCTGACCTTTTAAAAGAAGGTTTAGAGAGCGAGGCCGGTGAGAAGAAGTGGCTTGGCTTCCCAGCAGAATGGCACATGAGAGGCAGGACAGTTAGCAAAGGAGACATTGTCTCGGGGGGAGCCGAGACAGAACAAGGCCGGGGGACCATTGGCCACCCCGGAGTGGACAGAGCATTTAGAGGGAAGGAGAAGAGGGCGCAGGGCTGCCAGTCAAGACTGAGGCTGCTGACTCCAGGGAGGTGATAGGTGACCTTGGAGACAGTGGCAGAGGCCATGGGATCCAGCAAGAATAGAAGCATTCCAGGCTGGGGTCAAACAGGGCAGGACGGGGGTCACAAGACACAGATGGGTCCCCAGCCGCCACCACATCCCACCCACCGTAATTCATTTAGAAGAAGGTTCAAGAGTGGCTCTGGCAGGGCCGTCCAAGGCCTTTGCCAGAGATTCGAGGGCCGGAGAGCGGGAAAGAAAGGCAGTGCGCAGGTCTACATAGCAGGGTGTCACCAGGAGAGGGGTGGGGGCTGCAGGTGTTGGACTCCAGGGGATTTYACAGCAAGGAGGCTGCAGTGGGTCCAGCCTGCAGACACCACTCCCACGAGGCACTGCGGCCCAAGGACTGGCGCGGAAAGGGCCCACAGTGGACGCTTGTGCACTGTATGCCCTAACCGCTCAGCCCCTGGGTCTGGCATGGCAGACAGAATATTTCCAGGGGAGTCAAGGGCACAGGATGAAGCCAGACAAGGCGAGGCAGGTGGGGCAGAATGAGTGAGTTTTCTAGGAAGGGAGGTTGAGGCGCAGGTAGAGAGAGGCAAAGCAAATGGGGTGATGAGCCAGCGAGGCACTGGCCTCCAGAGTCCGTGGCCAAGGAGGGCCTTGCGGGCGGCGACGGAGCAGTGATCGGTGCCTCTGAGAGCTCGGACYGGAGATTAGGCCAGGTCTCCAGCAGAAGTGGGTGTGCCAGCCAGGCACTAAAGGCCAGGRTGGCAGGTGTTGGTCAATACAGACAGAAAGACATGACATGGTCCGGTGTGAYGGAGAGGACAGAAGGACGGCCATCCAGCCTTCCTGAACATCATGGGCTGGCGCCGTGGGACACTGCCACCATACAAGCCGTCTGTTCTTTTAGTTTTCCCGAAGAGCTAACACATCTCTGCTGCTCTCTGGATCCTCCTCCCCCTACTTTGAACCCTCAAGATGAAAGAAATGGTGCTACCCAGCTCATGTCTGGGCCTTTGAATCCGGGGACTCCTGGAAGTCCGTCTAGTTCTGAATCAAGAATATGTTGTGCAATCRGAACCACTACACTACCTGCCTCAGGAATCGGCTCGAAGGTGAAGCTGAAGGAACAGACGGTAGCGGCACTTAAACGGCAGACCCACAGCACCCACCCAACCCACCCCTGAAATTCCATCTTCATGGCCAACTCTGCCTCGCCTGGGAGACCACCACCCACAGCATCCCAGAGCCAAGCCTCTGCTCTGGGATGGATCCATCACTATCATCTCCCTCCTGTCTTTTTCTTCTTCGTCCTTTCCTGCAACCTTATGTTTCTTTCCTTTTGTTTTTTCTTTGCTTTGAGAGACTCAAAAGCGTCCGTGACTCTGTTTCCCCCGCCTATCCCCTTTGAATTCAATTTGCACTAAGTCGTTTGCACTGGTTGGAGTTGCGGAGACAGCCTTGTGTCTCTCCGTGTGAATGTAAACAGCGAATGTGCGGGCCCCTTTGGCCATGCCGCCCCAGTGCCTGCCTGTCATCCACCTCTGTCTGGGGGCGACTGGGTGTGGCCGCGTGCTTGAGGCCTCGCCTTCCCCTCGCCTAGTCTGGAARCAGTTCCATCATAAGTGTTCAACATGCCCTACTTCATCCTTTGTCCCTTCCCTGCCAGGGCCTCACCAGAGGTCCTGGGTCC
>n1080_u1020_AF221906_telomerase RNA_Dasypus novemcinctus (nine-banded armadillo)
GGGTTGCGGAGGGAGGGCCCGGGAGGGGTGAGCGTCCATTATCGTCTAACCCTAACTGAGATGGGCGTAGGCGCCGCGCTTTTGCTTCCCGCGCGCTGTTTTTCTCGCTGACTTTCAGCGGGCGGAAAAGCCTCGGCCTACTGCCGTCTACTGTCGTATCTGGAGCAAACAAAAAATGTCAGCCGCTGGTCCGCTCGCCCCATCCGGGAACCTGCGGTGGCTCGTCCGCCCTGCCCCCGCGCTCCGCCTAGAGGCCGCGGTCCGCCCGGGGCTTCTCCGGAGGCACCCAATGCAGCCGCGAAGAGTTAGGCTCTGTCAGCCGCGGATCCCGCGGGGGCCAAGGGTGAGGCTTAGGCCGCGGGCCGCAGGAAGAAAAACCGAGCGAGTTCTCACGCGCGGTGCGCTTCCCTGAGCTGTGGGTCGTGCGCCTGGGACTCGGCTCAGACACGT
>n1081_u1021_AF221907_telomerase RNA_Homo sapiens (human)
GGGTTGCGGAGGGTGGGCCTGGGAGGGGTGGTGGCCATTTTTTGTCTAACCCTAACTGAGAAGGGCGTAGGCGCCGTGCTTTTGCTCCCCGCGCGCTGTTTTTCTCGCTGACTTTCAGCGGGCGGAAAAGCCTCGGCCTGCCGCCTTCCACCGTTCATTCTAGAGCAAACAAAAAATGTCAGCTGCTGGCCCGTTCGCCCCTCCCGGGGACCTGCGGCGGGTCGCCTGCCCAGCCCCCGAACCCCGCCTGGAGGCCGCGGTCGGCCCGGGGCTTCTCCGGAGGCACCCACTGCCACCGCGAAGAGTTGGGCTCTGTCAGCCGCGGGTCTCTCGGGGGCGAGGGCGAGGTTCAGGCCTTTCAGGCCGCAGGAAGAGGAACGGAGCGAGTCCCCGCGCGCGGCGCGATTCCCTGAGCTGTGGGACGTGCACCCAGGACTCGGCTCACACATGC
>n1082_u1022_AF221908_telomerase RNA_Xenopus laevis (African clawed frog)
AATCAGCGTTTAAAGCTCAATGTGGACGGAGGTCTCTGTTTCGCTAACCCTAATACACTGGCTTCAGGGCGATGGCTCTTCGCGGCGGTGCCTGTTGTTTTACTTGCTGACTTTCAGCGGGCACGGAGAGCAAGCGTAGACGACGACTAAAAAACGTCAGCTGGGAGACTCCTCCGTTCGCACAGCCCGACCTGCTCCATTGCCCAAGAGCCCCGGGTTTTCTCTGTGGAATGTATCAGGCGCTCCCCGGTCTGTCTGTCTGGGGCCGCGGTCGGCATCATCTGCTGTCGCGAAGAGTTCGTCTCTGTTAGCCCTTGGGGGCCCTGGTGCGGAGTGGAGAGTCCGGGTCTGGGGGGTCGGGAGAACAAAAGGGGGCGCGCTGGTGCTCAGGCTCAGTCATGCTTTCCCTTAGTTGTGGGATATGCGTGTTCAGCCAGTCCCCGACATGT
>n1083_u1023_AF221909_telomerase RNA_Microtus ochrogaster (prairie vole)
GACGCGCGCCTCTTCTAACCCTAAAAACTGGAGCTGTAGGTGTTGCTCTTTCAGCGTCGCCCGCTGTTTTTCTCGCTGGCTTTCAGCGGGCCAGAAAGTTCAGACCTCTCAGCAGATCGTCGCGTCGTTCTCAACCACAAAAAATGCCAGCGCAAAGCGCGTCAGCCTAGAACCTTGCGGCCCCGGGCCGCCCAGCCCCGCACCCGCCTTGAGGCCGCGGTTGGCCTGGAGTTCTCCGGACTCCGCTGCCGCCGCGAAGAGTTCGTCTCTGTCAGCCGCGGAGTATCAGGGGCTGGGGCCAGGCCCGGACAGCGTCGCAAGTACAGTAACGGAGCTGGTCCTTGTTCGGTGGCTTCCCTGAGCTGTAGGAAGTACACCCAGAGCTCGGCTCCTACAACC
>n1084_u1024_AF221910_telomerase RNA_Typhlonectes natans (Rio Cauca caecilian)
TGTCATTCCGGAGAGGGGCGTTTTCTTCTTTCTCTAACCCTAATGTATTGCTTGGGCAGCAGCTCTCTCGGTATGCTCGCTGTTTTGCTGGCTAACTTTCAGCGAGCAGAGGGCGAAGTCGAATTTCGGACAAGGGAGAAAAAATGTTAGCCGGGGAACGCCCCTTTCCCGAATGCCCGTGCCGTCCTTCCTCTCCTCTGGGCCCGTTGGCGATAGCCCCCGGCCTCCCTCGCTCCTTAGGCCGCGGTCAGTCCGGGCCCTTGCTCTGGCATGAGGTCCATTGCTGCCGCGAAGAGTTCGTCTCTGTCAGCCTTGAGGTGGCCAGCATGGAATTGGCGGGCTTGTGGCGGCGCGCGGGAAAAAGCAAATGGTGAACTAGGTGCGTGTTGTGGTCGTGTTCCTGAAGCGTGGAATGTGCGATCTGTGCGCTAGTTCATACACAC
>n1085_u1025_AF221911_telomerase RNA_Chelydra serpentina (snapping turtle)
CCGCTGCGGCGGCAGGTGGGGGCTCAGTCTTTCTAACCCTAAGCGAAATGTGACCCCTCCCCGCTGCAGCCGTCCGCTGTTTTACTCGCTGACTTTCAGCGGACGGGGGGAGCGGGTGGAGACGCCAACCAAAAAACGTCAGCGAGGGGCCCTCCCCTCCCACGCCGACCTGGGCCTGTGGTGGGGCCCGCCAGCGAAGTCCCCGCCGCCCCGCCCCGGTGAGGCCGCGGTCAGCCGGCTCGCGCCACTGCTGCCGCGAAGAGTTCGTCTCTGTCAGCCTCGGGGGCGGCCGGGGTGGAAGGGCGGGTCCCGAGCCCGTCGGCCGGGAGAGCAAACGTGAGCGGCAGCCCCTGCGCCACCGCCCTCCCCTAAGCTGTGGGGCCCGCGGTCGGGGCTGCGCTCAGACACGC
>n1086_u1026_AF221912_telomerase RNA_Tupaia belangeri (northern tree shrew)
GGGAGTGGAGGGTGGGCCCGGGACGGGCGCGGACCCGGTAATCTAACCCTGACTCACAAGAGGCGTAGGCGCCGTGCTTTTGCTCCCCGCGCGCTGTTTTTCTCGCTGACTTTCAGCGTTCGGAAAAGCCCTGTGGCCTATCGCCATCCACCATCCTTTCTGGAACAAACAGACAAAAAAAAAAATGTCAGCTGCTGGTCCGTTCGCTCCTCCCGGGCCCTGCGGTGGCCGCCAGCCCGCCCTCTCATCCCCCGCGTCCCGCCTAGAGGCCGCGGTCGGCCCGGGGCTTCTCCGGAGGTGCCCATTGCCGCCGCGAAGAGTTAGGCTCTGTCAGCCGCGGGCTCTCGGGGGGCCCAGGGCGAGGTTTAGGCCTCGTGGCCGCAGGGACAGCAACGGAGCGGGTCCCCGCGAGCCTGTGCGCGTCCCTGAGCCGTGGGACTTGCACCGGGGACTTTGCTCGGACAATC
>n1087_u1027_AF221913_telomerase RNA_Bufo japonicus (Japanese toad)
TTAATTAGAGGGATTGGAAGGTTCCGCTTATGCTAACCCTAATATTGGGGGTCTGTTGAAAACCTCTTTAAGATATGCGTGTTGTTTTATTGGCTGACTTTCAGCGCGCATTGAGAGGAGTTGCTGCCCAGGACTAAAAAATGTCAGCTGGGAGTCCTTCCTCTCCCTTATTTCTGCCTCACAACCTGGACTCTTTATTTAGCGGTGCCCCATTTGTCGAGGCCGCAGTCAGTCTTGTTCTTATACGCTGCTGTTGCGAAGAGTTCGTCTCTGTCAGCCTCCGGGGCAACGCCTTGAATTTGGAGAGCCTGGGAATGTAACAAGGGGTAGGGAAAATAACGAGAGCTGAGTTGGCTTCTCCTGTGCTGTTCCTGAGCTGTGGAACTTGCAATCGCAGTCGGCTCTGACACTT
>n1088_u1028_AF221914_telomerase RNA_Dasyatis sabina (Atlantic stingray)
GTCCAGCTGCGGGGGAGACAGTGTCGCTCTCTAACCCTAATGTGGGGGCAACGCGGGCCCTTTGTTTAAAGTCCCGCTGTCGGGAGCCCTCGCTGTTTTCTTGGCTAACTTTCAGCGATGGCGAAAGGGCCCAGCAAAGGTTGGGAAGCGTGATTTATTGTTGGTGGGCAGAGAGAAAAAAGTTTAAGCCGCGGCCTCCTCCCCGGCGGCCCAGGACCCCCTGTTGCAACGTGCGGAATGGCGGCCTCGGCCCCCCTGCTGCACGCCCAGCCGTTTAGGCCGCGGTCAGCGCCGGTTTCCACGCCAGTGTGGGGCTTGATGCTGTCGCGAAGAGTTCGTCTCTGTTAGCCTGGCAGGGTGTGCTACGCAGGGTCGGGGTGCGGAGGGCAGGGAGATTAAATAGCTTGACCAGACGCTATGGCCTGTACTGCATTTCCCAGAGCTGTGGGACCTGCAAATCTGCGCTGGTCATACATTT
>n1089_u1029_AF221915_telomerase RNA_Rhizoprionodon porosus (Caribbean sharpnose shark)
TCACATTGCTGCGGGGTGGAGGCGTTTTTAACTAACCCTAATGCAGAGTAAGTGGCTGGGCCTTCCTCACACTGCCTCCCGCTGCGTGAAACCTCGCTGTTTTCTTGGCTAACTTTCAGCGAGGTGAGGCAAGGCGGCAAAAAAAAGTTGGGAGCAGCAACGGCAAGCAAAAAAAAAGTTCCAGCCGAGGCCTCCTCACCACGCGGCCTGGGTCTGAGGGTAACATGGCCCTGCGGGAGAGAGCCAACACGGGGGGGCCCCGGTCCGGCTAACAGGGCAGGAGGTCGGCCCCAATTGCCTCAGGCCCAGCCACTCCGGGCCGCGATCAGCCCGGGCTTTCCCTACTTTGGGGCCCAATGCTGTCGCGAAGAGTTCGGCTCTGTCAGCCCGGCTGGGTCCGGGTGGGGGCCGGCACAGAGGGACACACCGGGCCGGGGCGCCGAGGATAGCTACCGCCCGCAGGGATAGTAAATATCCGTGACCAGTGGCCTCGGTGGCTGCGTCTCCCGGAGCAATGGGACCCGCAAGGCTGCCCTGGTCATACACGC
>n1090_u1030_AF221916_telomerase RNA_Rattus norvegicus (Norway rat)
GTCTAACCCTATTGTTATAGCTGTGGGTTCTGTTCTTTTGTTCTCCGCCCGCTGTTTTTCTCGCTGACTTTCAGCGGGCCTGGAAAGTTCAGACCTGCAGCGGGTCACCGCGCATTCTGGAACCTCAAAAAATGTCAGCGTAGGAGCTCTGGTGCCAGAGCTCCGCGGCGCTGGGCCGCCCAGCCCGGTACCCGCCTGGAGGCCGCGGACGGCCTGGGGTCTTAGAACTCCGCTGCCGCCGTGAAGAGCTAGTCTCTGTTAGCTACGGGGCACCGGGCGCTGGGGTCAGGCCGGGAGAGCGCCGCAAGGACAGTAACGGAACTGGTCCCTGAGTTCGGTGGCTTTCCTGAGATGTGGGAAGTGCACCTGGAACTCAGTTCCTACAACC
>n1091_u1031_AF221917_telomerase RNA_Procyon lotor (raccoon)
GGGTTGCGGAGGGTGGGCCTGGGAGGGGTGGCGGTCGTTTTATGTCTAACCCTAACTGAGAAGGGCATAGGCGCTGCGCTTTTGTTCCCCGCACGCTGTTTTTCTCGCTGACTTTCAGCGGGCGGAAAAGCCTCGGCCTACTGCCATCCACCATCCAGTTTGGAGCAAACAAAAAATGTCAGCCGCCGGCCTGCTCGCCCCTCCCGGGATCCTGCGGTGGCTCGCCCGCTTAGCCCCCGCGTCCCGCCTGGAGGCCGCGGTCGGCCCGGGGCTTCTCCGGAGGCACCCATTGCCGTCGCGAAGAGTTGGGCTCTGTCAGCCGCGGGACCTTTGGGGGCCAAGGGCGAGGCTCTGGCCGCAGGGAGAGAAAACGGAGCGGGTCCCCTTGCGCGGTGCGCTTCCCTGAGCTGTGGGACTTGCACCCGGGACTAGGCTCACACACAT
>n1092_u1032_AF221918_telomerase RNA_Oryctolagus cuniculus (rabbit)
GGGCTGAGGAGGGTGGGCTCGGGAGGGGCCCGGTCATTTCTCATCTAACCCTAACTGAGCAGGGCGTAGGCGCCGCGCTTTTGTTTCCCCGCGCGCTGTTTTTCTCGCTGACTTTCAGCGCGTGGGAAAAGCCTTGGCCTACCGCCGTCCACCGTTCATTTCGCAGTAAACAAAAAATGTCAGCCGCTGGCCGGTTCGCCCTTCCCGGGGACCTGCGGTGGCTCGCCCGCCCGGCCCCCGTGCCCCGCCTGAGGCCGCGGTCGGCCCGGGGCTTCTCCGGAGGTGCCCAATGCCGCCGCGAAGAGTTAGGCTCTGTCAGCCGCGGGTCCCTCGGGGGCCAAGGGCGAGGCGCAGGCCGTCTGGCCGCAGGGAGAGGAACGGAGCGGGTCCCCCAGCGTGGTGCGCTTCCCTGAGCTGTGGGACTTGCACCCGGGACTCGGCTCAAACACGC
>n1093_u1033_AF221919_telomerase RNA_Dasyurus hallucatus (northern quoll)
GTGCGGACGGGCTGCGTGGGCGGGTCGGTCCGTCCTGGCACATCTAACCCTAAATGCGCGCTGGTTGAAGTGGCTTCTCCTGGGCGATCGCTCGCTGTTTTTGTGGCTGGCTTTCAGCGGGCTGGAGGAGCCGGGAGCGGAGGCGGAGGACCGAGCCAAAAACGTCAGCCGAGGCCGGGCGGCCCCGCTCGTGGCCCGTCCGCACTGTCCGGGCCAGGCCCCGGCCCGAACCCCCTGGAGACAACTCCCGCAGGGTCTGCGCTGCGCCGCGGAGCCCCGGCTGCCCACGTAGAGGCGGCGGCCGTCTCGGGGCCCCTGCGTGCGGGGCGCCCACTGCGGCCGCCAAGAGCTCGTCTCTGTCAGCCTCGGGTGCACGTGGGCCCGCGGTCGAGCCCTAAGGCCGGGCGTGGGGCTGGGGTCGCAGGGAGAGTAACCGTGAGCCGGCGCCCAGCCTTCAGGGCGCTCCCTCGAGCTATGGGAGCTGCCCCCGGGCACGGCTCGGACACCC
>n1094_u1034_AF221920_telomerase RNA_Sus scrofa (pig)
GGGTTGCGGAGGGTGGGCCCAGGAGCGGTGGCGGCCATTTTTTAAGTCTAACCCTAACTGAAAGAGGCGTAGGCGCTGCGCTTTTGCTTCACGCGCGCTGTTTTTCTCGCTGACTTTCAGCGGGCGGAAAAGCCTCGGCCTACCGCCATCCACCATCCAGTCTGAAACAAACAAAAAATGTCAGCCTCTGGCTCGCTCACTGCTCCCGGGAACCTGCGGTGGTTCGCCCGCCCAGCCCCCGCGCCCCGCCTGAGGCCGCGGTCGGCCCGGGGCTTCTCCGGAGGCGCCCATTGCCGCCGCGAAGAGTTGGGCTCTGTCAGCCGCGGGTCCCTCGGGGGCCAAGGCGAGGCTCTGACCGCAGGGAAAGGAACGGAGTTGGTCCCCGCGCGCTGTGCGCTTCCCTAAGCTGTGGGCTGTGCACCTGGGACTCGGCTCAGACACTT
>n1095_u1035_AF221921_telomerase RNA_Suncus murinus (house shrew)
GGCGGGTTGCGGGAGCTGCGAGCGGCCGTCTCGTCTAACCCTAAAGAGAAAGGCGTAGGTGCTTGGCCTTGGCGACTCGCCCGCTGTTTTTTGGCTGGCTTTCAGCGGGTGAAGAGGCCCAAGACCTACCGCCACCCACCGTCTAGTGTCTTAAGGGCACAAAGTCCTGCCCGCCACCCTTCGAGGAGCGAAACCCAAAAAAGTCAGCCCCTGGCCGCCTCTCGCCCTCTCGCAACCCGCCTCCGTCCCAGCCTCCATCCCCGCCCCAGGCCGCGGTCGGTCCGGGCTTCTTCGGAAGTCCCGTTGCCGTCGCGAAGAGTTCGCCTCTGTCAGCCGCGGGGCTTGGGGCCAGGGACGGGACCCTGTCCGCAGGGAGAGAAACTGGAGCCGGGCCCTCCACGGTGCCTCCCCGAGCTGTGGGATCTGCACCCGGGACTCGAACCCTACACTT
>n1096_u1036_AF221922_telomerase RNA_Mus musculus (house mouse)
ACCTAACCCTGATTTTCATTAGCTGTGGGTTCTGGTCTTTTGTTCTCCGCCCGCTGTTTTTCTCGCTGACTTCCAGCGGGCCAGGAAAGTCCAGACCTGCAGCGGGCCACCGCGCGTTCCCGAGCCTCAAAAACAAACGTCAGCGCAGGAGCTCCAGGTTCGCCGGGAGCTCCGCGGCGCCGGGCCGCCCAGTCCCGTACCCGCCTACAGGCCGCGGCCGGCCTGGGGTCTTAGGACTCCGCTGCCGCCGCGAAGAGCTCGCCTCTGTCAGCCGCGGGGCGCCGGGGGCTGGGGCCAGGCCGGGCGAGCGCCGCGAGGACAGGAATGGAACTGGTCCCCGTGTTCGGTGTCTTACCTGAGCTGTGGGAAGTGCACCCGGAACTCGGTTCTCACAACC
>n1097_u1037_AF221923_telomerase RNA_Trichechus manatus (Caribbean manatee)
GCGCGCGAGGCTTGGCGTGGAGGGTTGAGGATGGCGCCCCCGGGTCGGGCAGTGGTCTTTTTTGTTCTAACCCTAACTGGCAAGGGCGTAGGTGCTGTGCTTTTGTTCCCCGCGCGTTGTTTTTCTCGCTGACTTTCAGCGGGCGGGAAAAGCCCTGGCCTACCGCCGTCTACCGATAGTTTGGAGCAAACAAAAAAATGTCAGCCGCTGGCCGCTCACCCCTCCCGGGAACCTGTGGTGGCTCGCCCGCCCAGCCCCGCGCCCCGCCTGGAGGCCGCGGTCGGCCTGGGGCTTCTCCGGAGGTTCCCATTGCCGCCGCGAAGAGTTAGGCTCTGTCAGCCGCGGGTCCTGCGGGAACCAAGGGCGAGGCTTAGGCCTCCTGAACGCAGGGAGAGAAATGGAGCGATTCCCCGAGTACGTGTGCTTCCCTGAGTTGTGGGATGTGCGTCCGGGACTCAGCTCCGACAGGT
>n1098_u1038_AF221924_telomerase RNA_Anodorhynchus hyacinthinus
CGCGTGGCGGATGGGGAGGCTCCAGTCTCACTAACCCTAATGGCTGCCGCCGTGCTCCCCGCACCCGTCCGCTGTTTTATTCGCTGACTTTCAGCGGACGGGGGGAGCCGCCTGGGGGGGAAGGGGTTTGCAATCAAAAAACGTCAGCGACGGGTCTCCCCAGCCCAGCCCGCCCTGGGGTCTCCGTCCCCCCACGCAGCCGGGGGCCTGCCGCGGAGGCTCCCTCCGCCGCACTTCACGGAGGCCGCGGTCGGCCGGTGTCCGCCACTGCCGCCGCGAAGAGTTCGTCTCTGTCAGCCTCGGCGGCGGTGGGGAGCGAGAGGGCTCGTCCCCGCGCCGGGGACCCCAGCAGAGCAAAACGGAGCGGCGTCCTCGGCACAGCCGCCGCGCTTCCCTCAACCGTGGGATGCGCGGACGGCGCCGCTTCGACACCC
>n1099_u1039_AF221925_telomerase RNA_Equus caballus (horse)
GGGTGGGGGAGAGTGGGTCTGGGCGGGGCGGCGGTCACGTTTTGTCTAACCCTAACTGAGCTGGGCGGAGGCGCCGCGCTTTTGCTCCCCGCGCGCTGTTTTTCTCGCTGACTTTCAGCGGGCGGAAAAGCCTCGGTCTACCGCCACTTACCATCCAGTCTGGAGTAAACAAAAAATGTCAGCCGCTGGCTCGCTCGCCCCTCCCGGGACCCTGCGACGGCTCGCCCGCCCAGCCCCCGCGCCCCGCCTGGAGGCCGCGGTCGGCCCGGGGCTTCTCCGGAGGCGCCCAATGCCGCCGCGAAGAGTTGGGCTCTGTCAGCCGCGGGTGCCTCGGGGGCCAGGGACGAGGCTCTGGCCGCAGGGAGAGGAACGGAGCGGGTCCCCGCGCGCGGTGCGCTTCCCTGAGCTGTGGGACGTGCACCCGGGACTCGGCTCAAACACGT
>n1100_u1040_AF221926_telomerase RNA_Ceratophrys ornata (ornate horned frog)
ACAGTGGGAATAGGAGGGAGTCTATATTTCTAACCCTAATATACCCGGTTCAGGGCTCTTATGTGGCGCTCGTTGTTTTGCCGGTTGCCTTTCAGCGGGCGAAAGAGCTCAGAGAAGCGAGGACCAAAAAACGGCAGCCGCGGGCCCTCCTGTTCCCACCATCCCAGCTTTTCCACACTGCGCCTGGGTTCTCACTCAAGTGTTCGGCAGCTTCCACTTACGAGGCCGCGGTCTACCGCTGTCACTGGTAGTCGCGAAGAGTTCGTCTCTGTCAGCCTTGGGAGCCGCGGACGGAGTATGAGGTCCAGTAATGAGAGCAGGGAAGAGTAAAGCGAGCCGCGCTACTTGTCCTATCTGCCGCTCCTAAGCTGTGGGGCGTGTAGGGTACACAAGGCTCCGACATTC
>n1101_u1041_AF221927_telomerase RNA_Herpele squalostoma
TCTCTCTGGAGCGGGGCGATTTCTCTTCCTTCTAACCCTAATGCGGTGCTTAGGCGACAGTTCTCCGGGTGCGCTCGCTGTTTTTCTGGCTAACTTTCAGCGAGCGGAGAGAGCGAAGCCGTGGTTTACGACGATAGAGGAGAAAAAATGTTAGCTGGGGAACGTCCCTTTCCCGAGAGCCCGCGCCATCCTCTTCCTCGGGCCCATTGGCGATAGCCCCCGGCCTCCCTCGCTCACCAGGCCGCGGTCAGCCCGGGCCCTGGCTCTGCTAGGGCGTCCAATGCTGCCGCGAAGAGTTCGTCTCTGATTGCCTTGAGGTAGCCGGGCTCGAATAGGTGGGCTCGCGGCGATGCGCAGGAAAGAGCAAAACAGTGAACTGGGCGTGTGCTGGGGTCGCGTCCCTGAAGTGTGGGATGTGCGATCTGTCCGCTTGTTCAGACATTG
>n1102_u1042_AF221928_telomerase RNA_Cricetulus griseus (Chinese hamster)
GTCTAACCCTGAATTCTGAGAGCTGTGGGTACTGTGCTTTCGTCTCCGCCCGCTGTTTTTCTCGCTGACTTCCAGCGGGCGGGAAAGTCCAGACCTGCAGCGGGCCATCGCGCGTTTTCCACCACAAAAAAATGTCAGCGCTGGGCTCATGTGCCTGGAGCCTTGCGGCCGGCCGCCCAGCCCCGCACCCGCCTGAGGCCGCGGTCGGCCTGGAGTCCTCGGGCTCCGCTGCCGCCGCGAAGAGCTAGACTCTGTCAGCCGCGGGGCGTCAGGGGCTGGGGCGAGCCCCGGCAGCGCCGCAAGCAGAGAAACGGAGCTGGTCCCGTGAACGGTGACTTCCCTGAGTTGTGGGAAATGCACCAGGAACTCGGTTCCCACAACC
>n1103_u1043_AF221929_telomerase RNA_Cavia porcellus (domestic guinea pig)
CGGGAGGGGTGGTGGTCTTCCCTGTCTAACCCTAAGGTGAAGAGGACGTGGGTGCCGTGTTTTTCGCTCCCGCACGCTGTTTTTCTCGCTGACTTTCAGCGTGCAGAAAAGCCTTGGCCTACCGTCGGTTATTGTCTAATTAGAAGCAAACAAAAAATGTCAGCGTGGCCGGGCCGCCCCTCCCGGATACCTGCGGCGGCTCGTCCACCGGCCCCCGAGCCCCGCCTAGGCCGCGGCCGGCGCGGGGCTTCCCTGGAGGCGCCCATGGCCGCCGCGAAGAGTTCGTCTCTGTCAGCTGCGGGTCGCCCGGGGGCCGCGGGAGAGTCCCAGGCCTTGGCCGCAGGGAGAGAAACGGAGCAGGTCCTCGCGCGGTGCACTCCCCTGAGCTGTGGGAAGTGCACCGGGACGGGCTCCTACAAGC
>n1104_u1044_AF221930_telomerase RNA_Geomys breviceps
GGCGTGCCTGGGAGGGGGGGCTGGTCCCACTCTTCTAACCCTAAGGGTGTCGGCTGTAGGCGCCGTGCTTTTTACTTCCCCGCGCGCTGTTTTTCTGGCTGGCTTTCAGCGAGCGGAAAAAGCTTTGGTCTACAGGCCACTCACTTTGTATCCCGAAACCAAATTGAAAAAAAAAAATGCCAGCTCCGGCCGGTCCACCCCTCCCGGGGTCCTGCGGCCCGGCCGCCCGCCCGAACCCCCCGCGACCCGCCTGAGGCCACGGCCGGCCCGGGGCCTCTGCGGAGGTGCCCATTGCCGCCGCGAAGAGTTAGGCTCTGTCAGCCGCGGGATCCGCGCGGGCCGGGCCGCGGCCGGACGCCGATCCGCAGGGACAGCAACGGAACCGGCCCCTTCGCCCTGTGCGCTTCCCGGAGCTGTGGGATGAGCACCCGGGGTCGGCTCCTACAGTT
>n1105_u1045_AF221931_telomerase RNA_Mustela putorius furo (domestic ferret)
GGGTTGCGGAGGGTGGGCTCGGGAGGGGTGGCGGTCATTTTCTGTCTAACCCTAACTGAAACGGGCGTAGGCGCTGCGCTTTTGTTCCCCGCACGCTGTTTTTCTCGCTGACTTTCAGCGGGCGGAAAAGCCTTGGCCTACTGCCACACACCATCCAGTTTGGAGCAAACAAAAAATGTCAGCGGCTGGCCTGCTCGCCCCTCCCGGGAGCCTGCGGCGACTCGCCCGCTTAGCCCCCGCATCCCGCCTGGAGGCCGCGGTCGGCCCGGGGCTTCTCCGGAGGCACCCATTGCCGTCGCGAAGAGTTGGGCTCTGTCAGCCGCGGGACCCTTGGGGGCCAAGGGCGAGGCTCTGGCCGCAGGGAGAGAAACGGAGCGGGTCCCCTCGCGCGGTGCGCTTCCCTGAGCTGTGGGACTTGCACCCGGGACTAGGCTCACACACAC
>n1106_u1046_AF221932_telomerase RNA_Elephas maximus (Asiatic elephant)
TGCGGTGGGTTGAGGAGGGTACGCCCGGGAGGGCGGTGGTCTGTTCTGTTCTAACCCTAACTGATAAGGGCGTAGGCGCCGTGCTTTTGTTCCCCGCGCGTTGTTTTTCTCGCTGACTTTCAGCGGGCGGGAAAAGCCTCGGTCTACCGCCGTCTACCGATAGCCTGGAGCAAACAAAAAAATGTCAGCCGCCGGCCGCTCGCCCCTCCCGGGAACCTGCAGTGGCTCGCCCGCCCAGCCCCGCTCCCCGCCTGGAGGCCGCGGTCGGCCTGGGGCTTCTCCGGAGGTTCCCGCTGCCGCCGCGAAGAGTTGGGCTCTGTCAGCCGCGGGTCCCGCGGGAACCAAGGGCGAGGCTGGGGCCTCCTGAACGCAGGGAGAGAAACGGAGCGGTTCCCCGCGTGCGTGCGCTTCCCTGAGTTGTGGGATGTGCGCTCGGGGCTCAGCTCCGACAGGT
>n1107_u1047_AF221933_telomerase RNA_Mustelus canis (smooth dogfish)
TCACATTGCTGCGGGGTGGAGGCGATTTTAACTAACCCTAATGCAGAGTAAGTGGCTGGGCCTTCCTCACACTGCCTCCCGCTGCGCGAAACCTCGCTGTTTTCTTGGCTAACTTTCAGCGAGGTGAGGAGAGGCGGCAAAAAAAAAAGGTTGGGAGCAGCAGCGGCAAACAAAAAAAAAAGTTCCAGCCGAGGCCTCCTCACCCCCGCGGCCTGGGTCTGAGGGTAACACGGCCCTGCGGGAGAGAGGCAACACGGGGGCCCCCGGTCCGGCGAACAGGGCAGGAGGTCGGTCCCAATCGCCTCACAGGCCCAGCCACTCCGGGCCGCGGTCAGCCCGGGGCTTTCCCCCCCACCATGGGGGCCCAATGCTGCCGCGAAGAGTTCGGCTCTGTCAGCCCGGCTGGGCCAGGGTGGGGGCCGGCACAGAGGGACACACCGGGCCGGGGCGCCGGGGATAGCTACCGCCCGCAGGGATAGCAAATATCCGTGACCAGTGGTCTCGGTGGCTGCGTCTCCCGGAGCAATGGGACCCGCAAGGCTGCCCTGGTCATACACAT
>n1108_u1048_AF221934_telomerase RNA_Dermophis mexicanus
TCTCTCCGGAGAGGGGCGGTTTCTCTGTCTTCTAACCCTAATGCGGTGCTTCGGCAGAAGCTCTCCACTGCGTACGCTCACTGTTTTTCTAGCTAACTTTCAGTGAGCAGGGAGAGCGAAGTCCAGTTTCACGACAACGGAGAAAAAATGTTAGCTGGGGAACGTCCCTTTCCCGAGAGCCCGCGCCGTCCTTTTTCTTCCTCGGGCCCGTTGGCATAGCCCCTGGCCTCCTCGCTCTATAGGCCGCGGTCAGCTCGGGCCCCAGCTCCGGCAGGGGTTCCACTGCTGCCGCGAAGAGTTCGCCTCTGTCAGCCTTGAGGTGGCCGGGATAGAATAGGCGGGCTCGCGGCAGCGCGCGGGAAAGAGCAAATGGTGAACTGGGTGCCTGTTGGGGTCGCGTCCCTGAAGAGTGGGAAGTGCGATCTGTGTTCCTGTTCAGACACAC
>n1109_u1049_AF221935_telomerase RNA_Rhinoptera bonasus
GTCCAGCTGCGGGGAGAAAGTGTCGTTCTCTAACCCTAATGCGAGGGCAATGCGGGCCCTTTGTTTAAAGTCCCGTTGTCGCGCGAAGCGGGAGCCCTCGCTGTTTTCTTGGCTAACTTTCAGCGATGGTGAAAGGGCCTAGCAAAGGTTGGGAAGCGTGATTTATTGTTGGTGGGCAGAGAGAAAAAAGTTTCAGCCGCGGCCTCCTCCCCGGCGGCCCAGGACCCCCTGTTGCAACGTGCGAAATGGCGGCCTCGGCCCCCACCTTTGCTCGCATGCCCAGCCGAGTAGGCCGCGGTCAGCGCCGGCTTCCACGCCAGTGTGGGGCTTGATGCTGTCGCGAAGAGTTCGTCTCTGTCAGCCTGGCAGGGGGTGCTACGCAGGGTCGGGGTACGGGGGACAGGGAGATTAAATAGCTTGACCAGACGCTATAACCTGTACTGCATCTCCCAGAGCTGTGGGACCTGCAAATCTGCGCTGGTCATACATTT
>n1110_u1050_AF221936_telomerase RNA_Bos taurus (cow)
GGGTTGCGGAGGGTGGGCCCCGGGTTGGTGGCAGCCATTTCTCATCTAACCCTAATTGAGACAGGCGTAGGCGCTGTGCTTTTGGTTACCGCGCGCTGTTTTTCTCGCTGACTTTCAGCGGGCGGAAAAGCCTCGGCCTACCGCCATCCACCATCCAGTCTGCAACAAACAAAAAATGTCAGCCGCTGGCTCGCTCACCTCTCCCGGGAACCTGCGGTGGTCCGCCCGCCCAGCCCCAGTGCCCCGCCTGAGGCCGCGGTCGGCCCGGTGCTTCTCCGGAGGTGTCCATTGCCGCCGTGAAGAGTTGGGCTCTGTCAGCCGCGGGTCGCTCGGTGGGCCGAGGCATGGCTGTAACCGCAGGGAAAGGAACGGAGTGGGGTCCCCGCGCGCGGTGCGCTTCCCTGAGCTGTGGGACTTGCACCCGGGACTCGGCTCAGACATCC
>n1111_u1051_AF221937_telomerase RNA_Chinchilla brevicaudata (chinchilla)
GGGTTGAGAATGGTGGGCCGGGAGGGGAGGTGGGCATGTTTTGTCTAACCCTAACTAGGAGGAGGACGTAGGCGCCGTGCTTTTGTTCCCCGCGCGCTGTTTTTCTCGCTGACTTTCAGCGTGCGGAAAAGCCTTGGCCTGCCGTCGACCACTGTCTAATTAAAAGCAAACAAAAAATGTCAGCGTGGCCGGTCCGCCCCTCCCGGGTACCTGCGGCAGCTCGCCCGGCTGGCCCCCGAGCCCCGCCCAGGGCCACGGCTGGCGCGGGGCTTCTCCGGGAGCGCCATGGCCGCCGCGAAGAGTTCGTCTCTGTCAGCCGCGGGTCGCGCGGGGGCCGCGGGGGAGTCCTAGGCCGAGTGGCCGCAGGAAGAGAAACGGAGCCTGTCCCTGTGCACGGGGCGCTTCTCTGAGCTGTGGGAAGTGCCCCGAGACTCGGCTCCTACAAGC
>n1112_u1052_AF221938_telomerase RNA_Gallus gallus (chicken)
ACGCGTGGCGGGTGGAAGGCTCCGCTGTGCCTAACCCTAATCGGGGGAATTGATGGTGCTGTCGCCGCGCTCCCTCCGCCCGCCCGCTGTTTTACTCGCTGACTTTCAGCGGGCGAGAGGAGCCGCCCCGGGGGGGAGGCGGGCGGCGGGAGGGGGCCGGGGCGCCGCGGCGGTGGGGGTCGGGGGGGGGAGAGAAAGGGCCGAAAGGGGCTCCGCGGCCAAAAAAACGTCAGCGAGGGGTCCGCTCGCCCCGATCCGCCCTGGGGTCCCCGCTCGCGTGGCCGCGGTCGGCCGGCACCCGCCATTGCCGCCGCGAAGAGTTCGCCTCTGTCAGCCTCGGCGGCGCGCGGGAGGTGCGGCGCGCGGCCCCGCGCCCCCAGCAGAGCAAACGGGAGCGGCGCCCCCGGGGTAACCCCCGCGCTCCCCTGCGCCGTGGGGCGCGCGGACGGCGTCGCTCCCACACGC
>n1113_u1053_AF221939_telomerase RNA_Felis catus (cat)
GGGTTGTGGAGGGTGGGCCTGGGAGGGGAAGCGGTCAGTTTTTGTCTAACCCTAACTGAGAAGGGCGTAGGCGCCGCGCTTTTGTTTCCCGCACGCTGTTTTTTTCGCTGACTTTCAGCGGGCGGAAAAGCCTCGGCCTACCGCCGTCCACCGTACAGTTTGGAGCAAACAAAAAATGTCAGCTGCTGACTTGCTCGCCCCTCCCAGGACCCTGCGGTGGCTCGCCTCCTTAGCCCCCGCGTCCCGCCTAGAGGCCGCGGTCGGCCCGGGGCTTCTCCGGAGGCACCCATTGCCGTCGCGAAGAGTTGGGCTCTGTCAGCCGCGGGTCCCTTGGGGGGGCCGAGGGCGAGGCTCTGACCGCAGGGAGAGAAACGGGAGCAGGTCCCCGCGCGCGGTGCGCTTCCCTGAGCTGTGGGACTTGCACCCGGGACTGGGCTCAGACACAT
>n1114_u1054_AF221940_telomerase RNA_Pyxicephalus adspersus
CCAGCGGTAATAGGAGAGTTCTATCCTTCTAACCCTAATGCACAGACCCCTCGCTGCTCTTCATGCTCGTTGTTTTTCTCGCTGACTTTCAGCGGGCGAAAGAGCAATGGAAGCTCAGGACTAAAAAACGTCAGCCGTAGGCTTTCCTATAGCCGCAGGCCTGCCTGTCAGTGTGCGCGGCCTCTGCTCGCAATGTCCGCAGCGCCTTCCTATGAGGCCGCAGTCTGCCAATACCCCGGGCAGCCGCGAAGAGCTCGTCTCTGTCAGCCTTTGGCGCTGCGGCGGAGTGGGGGAGGCCGCTGATGGCAGCTGAGAATAAAGCGAGCCCAGCTGCCCCGCTCTGTTCCACTGCCCCTGAGCTGTGGGGTTGGTGAATTGCAGCATGGCTCCGACAACT
>n1115_u1055_AF222981_DISC2 RNA_Homo sapiens (human)
TTGTGGAAAGGATGGATGGGTGGGTGGATGGATGGATGGATGGATGGCTGGATGGATGGATAGAAATGCAACTTCAAGATCTGGTTCTACAGTATTACATATGAAGCAACTGAGACTCAGATAAAATTCAGTGAGTTGCTGAAGACTATTCACTCATTGAGCCTCACATTCTGATGCTATATATATCAGGTGCTATGCAGATGATTAGGGAAGGGCAGGACTGAGATTAAACTGACACCCCCTACATCCTAATCCAGGCTTTTTCCACTGTATGGCGATGCCTCCCAAAAGAATTATCACAGCGACTTAATAAAGGAGGGAGAAAGTTAGTTGCAAATTTCAAGCTTAGAAATTCACAGGCAAAAATGGCTGAAGGGAAATAATCACACTAATAGTGATGCAAGGATGTAACTGGAAAGGAAAAAATGGAGAGAAATTAAAAACACAAACAGATTTAGTCAGGGTCCTGATAAAGTGATAATGTAATCAATAAGGCAAATCAAAGATAAATGATTAGAGATTTAAAACTTCAGCCTATCAGAAAAACCTGAGGGAAAAGATTTTGAATTTTTTTTATTTCTTCCAAAAGATCCTATTTGACATATTTTTTTAAATCTAAATGACCAAAGATTTCGAATTTGGAAAGGCAGACACATATCTATTTCCCATATAAACATCTACATTTCTTGCCACATAGCACCGCAACACTCATCTGGTTCCAAAGCAGACGGCTTGGCCCTCTGTTATCAAGAGCACTATCACCGTTCTGGCCCGGAGAGCTAAGTTTTCTTATACATAGGTCGTAGCCAAAGCTCAGAGGAAAGAAGTGACATTTGGTGAGTGTACAGGATATGTTCTCCAGCCACTTTTTAGGTGCTAAGTTACATCTTGAAATAATGTCAGAAATTGGAAGATGCCGTATTTAAACTTCACTAGCCCAAGCCCTAATTCACCTCGACAGTTTAATATCTTAATGTTTCTTAAAATTTGAGGACTCTTAGAATGACCCCTTTAAAAATCTGCTGAAAAACTGGATCTTTTTGTGGGAAAAACTGTCCATACCTACATATCTAAAATGTGTATGTGGTTTCAGTCTCTCCTGTGCACAGTCCCTCCTGCTTTGAAGGGATCCCCAACATGTTTTTTTCCTAGAGGTAGTTGGTCACAACCATCGGATAACATGCTTATCACCTGGGTGATAAAATATTCTGGACACCAAACCCCGATGACATGCAATTTACCTATATAAAGAACCTGCACATGTATTCCTGAACCTAAAATAAAAAGTTGTAAAAAATAATAATACAAGTAAAAGAGCTTTCTGCATGTGTTATAAATCTGTTCAGGAGGACTTTCCACTATGCTTTCAAGAGAAGTGTCTTGAAGAATTTAGCATCACTCTGAATTCCCAAAAAGCTCTGTGCTTTTCAAGGTGCTTTTGAGGAAGAAGGATGATGCTTCAACTGTCTTCTTTGCTGTGACTTCTAGGAAGTTCATTATCACATCATATTCTCAACCAAATAATTAACACTTGACATTGGCATTTTCTTCTGTCTTTGTTTTTAAATTTTATTGTTGTTTGCTAATTTTATTGTTTTTATCTTTGTTGTATGTATTGTCCCGGCTCTCCATTTCCTCCCTCTCCCTGCCAATAAAAGAGACCCATAGATTTTATTCTTTTGTTCTACTTTTTCATCAATGTTTCTTCTACATATATCTGACATATATGGAAAAAAGAATTACTGCCTATATATGCAGAACTTGTAACTCACAGGATTTCTAAACTAAAAGACTTTTCTTAATAGGTGTGAAGTGAAATTCTGCAAGTAGCTGCATCTGGGAACTTCAGAGTTAAACCGATATCTCAGTATAATCTGTCACTGCTATAGTTTCTTTTCTTTGACCTCCAAACCTTATGTTGAAATTTGACCCCCAATGTTGAAGGTAGAGCCTAATGGGAGGTGTCTGGGTCTGGGGGCAGATCCCTCAAGAATAGCTTGGTCATCAATGAGTGAGTTCTCACTCTAATAGTTTCTGGGAGAGCTGGTTGTTAAAAAGAGTGTGTCATGTCCCTTCTCTCTCTTTTTGCTTCCTCTCTCACCAGTGATCTGCCTAGGCCAGCTCCCCTTCATCTTCTGCCATGAGTGGAAGCAGCCTGAGGCCCTCACCAGAAGCAGATGTTGGCACTATGCTTCTTAGACAGCCTGCAAAACTGTGAGCCAAAGAATTCCCTTTTCTTTATAAATGACCCAGCCTCAGGTATTCCTCTATAGCAACGCAGATGGACTAAGACACTCATGCTTCCTTTCATTAGCTATTTCAAGCTCAAAAATTGTGAGACTGTGCCAAGAATTAGGGCAGGATCTTGTCATTGAGAACTTACAACTTTTCTATCTAAAGCAAAAGGTCCTAATCCCAAACCATAATTGGAAAGGTGCCTCTACTCCAACCTCATTGCCCTTCAACTGCCCCTTCTCTGCCTCCCATTCCCCTCTTACTCACCGAAAGACAAATGAGTTTAGGCTGGGCACAGTTAGCCATCGTTCTCAGAAAAACAAAATCTTGCTGCTTGGTATTCTCACTTAGAATCCCTTCACTTAGCTTATGGATCACCCTACACAGATTCCTGACAGCTCACTGGGCCATGGAACCAGCCAGATTTTTGAGCTACATCTGCAGTATCTTTTCTACTCAGGCAGCTGGCATAAGGTGGGAAAATTCATTAACATGCTAATGATGTCCTATTTAAAATTCTAGTCCTGATTATTCTGTGATTAAATCTCTCCCCTTGACGTCGGTTTCCTTTATAGCTGAGTTACAGTGCGAAATCAACAATATTAATAAAGTACAATACAGATTACCAATTTATACACAAGGGATGGTGAAAAACTGCTGCGTAAATCTGAGGGCTGTCCTTTTAACTTGAAAAGCAGTTGTAGGCCGGGCGCGGTGGCTCACGCTTGTAATTCCAGCACTTTGGGAGGCCTAAGCAGGTGGATCACCTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACATGGTGAAACCCCGTCACTACTAAAAAAATATAAAAATTAGCTGGCCTATAATCCCAGCTACCTGGGAGGCTGAGGCAGGAGAATCGCTTGAACCTGGGAGACGGAGGTTGCAGTGAGCAGAGTTCGCGCCATTACACTTCAGGCTGGTTGCAAGAAGCAAAACTTTTGTCTCAAAAAGAGAATGTAAAAGCAGATGTAGCAAACTTGTAAAAGTTGCTGATTTTTTTCATTCCGCCCTTCTTTAAATAAACACACACATTGGAATCCACAATAATTAAATGTTTATAGTTAATTTCCATAAATATTCAAGGCTTGGAAGATAGATTTAGCTTTTCATTCTATTTCACTGCACTTAACATTGCTCCGAATTCAAATGTGTTATCCTGAAGTCTCAAGAACAGCTGACAGGAGTTAAAGCACACTTGTTTATCATCTCTTTATAGAGATTGTGTCTTGGCAACAAAAGCCAATGGATTCGGTGATGAGGTCTGTCTCCCTTTGCCCTTGAGTACCTTGGCATATTTCAGTTCCTTTTCTATCACCGTATTGTTCTATTACTGACACTCCAAACTGAATATCCAACTCAGACAACTCAAGCACCTTCCAAGAAAGACAAACTTATCACTACCCTCATTAATTTGGAAAATGAATAAAGAAGCAGAAGATTCAAGGTCCAGATCTGCAATCTAAAATGCAGGAAGAGAGGACTCATTCATGTGTCATTTTAACATCTGGCCCCAGTAAATGAACAAATATTGATGGTATAGTATATTTACTATTTTAAAAGACATCATGCTGGACACCAAAGCAGTACAGTGAAACCTAAGAACAATGTTCTGACCTCGGTGGACTCACAATCTAGCCAGAGACACAAGATACAATGATATTTTAAGTGATGCATGCAGCAAATTCATCTCAGGTGCATCATTAGAGATACACTTCACATCATTAAAAGGTCTCTGTACGAGAGACACTGCTAATTGTTCCCTAAGACTGCAAATCTCCCCTTTTGCTATGGAAACAGAATTCATCACTTTAGTGGGGCACATTGCTGCCCAGGGTAAGGACAGCTCCCAGCCCCTCTTGCAAGTAGCTGTTACCATATAACAAGGTTAAGGTCACAGGGATGTGGCCGTAGCAGAGATGTGTGCAGATTTCTAAAAGCGTACTTAAAGGGGATAGATGAGCTCTCTTCCTTCTTTGTTTTTTTTCTGACTGGACTTGGACATGCATGTGGCTGGGTCAGCCAGGTTGGACTGAATGGCACATGTTGTGGGGCAGAGAAGAACAAGATAGAAGAGTCTGGGTTCCTGACAAGCAGGGTGGCTTGATCATCCATGAGTTGCCTTTTTCCCCTGAACGCTGCATTCCACAACTATTGTTGGAAATCAAAATCTTTTTTTAAGAATACTACATATTGCTCATTTCTTAAATGGTTTCATTCTCTAAGGCTAAAAAGAGTCATGGTACATGCATGCATATGTGTATGTGCATAAGTACACTCTCCTTTGTACTTTCTCTACATTTAAACTTGAACACAGAGCTCCCTCTGAATTTTTAACCCTCAAAACACAAAAAAAGCTGAATATGGACTTTGCCCCAGTTTTATCACATTTTAATAAATAAAAGCTTCAATGTATTCAGGAATTCATTATTTATTTGTTTCCCACACTCTCAACCCTAGATTATTAATTTGGTTCACCTAAAGCCAACTCACCTCAAATTGGTTAAAAAAAATTAAGCACGTGTAAATCAATGTATAGGGAAAGGGTGGCTGATCCAGCAAAATCCAAGTGTAAAAACATAAAGAGAGGCTTCACAACAGTAATGAGCCATCTGCAATTTAGAATCATCCATGGTAACAATCTCTCATTCCATTTGTTTATGTTTTATTCATCATTGTGAAAATACTTAGTGAAGTGACAATGATGAGATTCAAAAATACTGCATGGTTCTTTTTTTAAAAAGGATATTAATGGCTTTCAGGGACTCAACTATTCAAATGAAAATATTGCTGGACTAAATTTGCTCAAATTTGTTCACTTCCTCTTCATTCTTGGATATAATATATTCTTCATTTTATGACAAAAAACTATGTGGTGAAAACATGAGAAATTCCGTAGTTTCCATCGTTTATACATTTAAAAAATCAATAGCAGAAACCTATTTCAAATGTACAATCCTCATTCCTATCATGACAGAGTAAACCAGGCTGCGGTGTCTTGGGTGAGCGTGTTGTCATTCCCTAGTACTACAGTTATTTAGCCTCAAACGTACTGTCTCTAGTTACATATATGGCAAAAACAAGGCTTGACCTTTAAGAATGAAAAGAAAAAAAGATAAGTACTGAGCTGTTAAGCCAACTTAAGGGTATTCATTACAAAGAAGACAGAATAACTACTGAACATACTCTTTGATTCTAATATCTCTATGAAGAAACCTCTCTCTACACAAATTGATAGACATTTTAAAAGAAAATTTATTCATCCCAAATTGATGCACTTAACTTCAGCTAGCTGATTTTATATTTCTCAATCTAGCTTATAAATACTACTCTTCATTTACTTCAATTTACGGAGTATTTACAAAAGCCCTATTTCAAATCTGGTTCCTATCAGCCCCGTTTTTTCTTATTTCTTCTTAAATAAGCATACTTTGTAAAATATAGCCATTTATTCATATATATATTTCTTTCATTTGTTTTAGTAAATGACATTTATTTAGGAACCATTTTTTAAGAAATAAGTTTTTACCATCTCAATTTGCACTGAACCAGCGTCTTCTGAGACCATCCCTCTGGGTGCAAATCTCAGAGTAAGCTCAGTTACTCCTAACGACTGGAAAAGGAAAGAACACAGGAACACTTGAACTCCTCTGACAAGCAGACACTTTGGCTAAGGCGGCATTCACATCTTCTACATCATCCTTCCTGGGGAAAGAAGCTCTCAGAAAAGTCCACACATAGAAGAGCCACTTTATGGTCTTCCCTCAATTTTCTCAGATCAGCCTGATTTAGTCTATGATTGTGCASACAAGGAGACGGAGCCAAGGGACAAAAGGAAGATAATTGTCACACAAAGAAAATGCTCAAGACCTTGCCAAGGGAGAGACTGCTCTAAATAATAACAAGGCTATTAGCAAACACAGGTTGAGACAGGGAACAGAAAAAGAAAAGATGTCWCATGTGAATATGAAAACAAAAGCTGACAAGTWATTCCATTCAGTTTGCCAAGGCACCTGCCAAAAATGTCCCCAAGGGAAAAGGGCCATGTGCTCCATGACGCTCTTCACAGTGAACGTTCACATWAAGGCACAGAACATTCTGCCTGGCCACAAAACACAACAAATATCATCAATATCTTGCCGGGGTAACAGTTGTGCACTACCTACCATAGGCAGTCTCCTGGTGCTCCACTTCTCTTCTCAGTCTGTTGTAATCTTCTTTAACACTTCCCAGCTTTTTGACATTCCTGGAACTCAACACCAACAGCTTGCTGAGGAGTCCCTCCAGCCCTTCTCTCTCTGATGTTAATGATCTAATCTCCTCGGTGAGGTCTTTAGCCGTCCAGAAATGGTTTCCTACAGCACGTTGTGGGAGAGAAGAAGGGAAAACAAGCTTTACAGCATCCACACACATGGAAGATCTAGCAGCAGCTAATGTACATTCACAGCATGGGCAAAGAAACTGCACTTTGAGATTATGTWCAATTTCCTTAGCAGTCCTCTGGGGAAAGAACCTGGAAAAATATTGCTCCCCTTAAACTGGAAAAATCACCGTCTTTTTTATCACCTTATTCTTGTTATGTCCATTTTAGGAGTTCCATTGGTGAAGCCATCTCCCGTAAAGTATGATGACCCAAAAATGTCCCAGTGGAATCCAGAGAAACCACAATGTGTCACTCCATTCCAATAATATACAAATGTCAAAGAGATGACATATTATAGCAGTGTGGAAGGGGACTGGGCCATATAATCAGAGTTGACCTAAATTAAATTCCTCCCCTGTTACTCAAATTGTGTGACCTGGAGCAAGAAAATTAGCACATCTGGGGCAAATTTCTTATAAAATATAATTGCAATAACACCTGACTCATAGGTAGTTACAAGAATAAACAAGAAATTCTGTAAAGCACTGAGAAAAATATATGATAAATTAAATGTAGCAAGATTGCAGGATACAAGGTCAATGTACAAACATCAATCTTATGTCTAAATAACAAAAAACTAGAAGATGATTTTTTAAAAAATACAATTTACAAAATATTTTAAATCTCATAATACTGAGGGATACTTTCTTTAAATATGTGCCAGAGCTCTACAGTGAAAACTATTTTTCCAAAACTGCTGAAACAAATTAAAGACAAATAATTTAAAAGATACACTGTATACATACACTGGAAGTTCAATATTGGTAAGATTTCAATTTTCCCCACATTGATTCATTGATTTAATATAATTCCAATCAAAATGTTATGAGGTTCTTTTGTAGAAATTTATGTGCTTATTCTAAAACGTCTAAAAGTGAGCTGGGCATGGGTGGCTCACACCTGTAATCCCAGCATTTTGGGAGGCCGAGGTGGTGGGTCCCTTGAGGTCAGGTGTTCAAGACCAGCCTGGCCAACATGGCGAAACCCTATCTTTACTAAAAATATAAAAATTAATCTGGCACAGTGGTAAGCACCTGTAATCCCAGCTACTCAAGAGGCTGAGGCAGGAGAATCACTTAAACCCAGGAGGTGTAGGTTGCAGCGAGCTGAGATCCTGCCACTGCACTCCAGCTTGAGCAACAGAGTGAGACTTCATATCTAAACAAATAAAATCTAGAAGAATGAGCCCATGAGTTTGAGGCTGTAGTGCACTATGATTGCACTTTTGAACAGGCACTACACTCTTGTCTGGGCAACATAGCAAGTCCCCACCTCAAAGAAGGAGAGGGAGAAAGAAGAAGAAGGAGGAGGAGGAGGTGAAAGAGGGAGGGAGGGAAGGAAGGAGAAGACGAAGAAGAATGAAGAAGAATAGGAAGAAAGAAGAAGAAGGAAGAGGAGGAGGAGGATGACCCAAAMCAATCCTTAAAAAGTGAGTCTTGGTTTCAAGACTAATGCTAAAGCCACTATAAATCAAGGTAATATGGCATTGAATATACATAGACAAACAGATCGATGGAATAGAATAAACAGTCCAGGAGTGGATTAACACATATACAGCCAACCAAAGTGCCAAAGCAAGTCAATGAGGAAAAGAAAGTATTTTCAATAAATGGTGCTGGAACAACTAGCTATCTACATGGAAAAAATATTAACCTTGATTCATACCTCAAACCACACAAAAATTTAATTAAAGGTGGATCACAGGCCTACATGTAAAAGTTAAAACTATAAAGCTTCTACAAAAAAAAAATGAATATTTGATTGACTTTGGAGTAGGCAAGAACTTCAGATAAGATACAGAAAACACTATTTTAAAAAGGATAAATGGGCTTTATCAAAATTAAAAACTTCTCATCAAAAGACACAACTAAAAAATGAGACGACAAGTCACAGACTTGGAGAAAATCATTGCATTATGTTTAACTGACAAGGAATTGAATACTACAACTTGACAATTAAAACACAAATGGTGCCATTGAAAAATGGTCAAATGACTTAACAGGCATTTTACAAAGTAGACGCACAAATGGCTAATAAGCATATGAAAAAACATTTGACATCATTAATCATTAAGAAAAGAAAAATTAAAACCATAAATATTCCACTACAAGCCCACTCAAATGTTTCAAATTAACTCAACTAAAAATGTCAACATTCACAAGGGTATGGAGCAACTGGAACTCTCACGCATGTAAAATGGTCCCTTCAAGAAAAGTTCTGCCAGTTTCTCATAAAGTTCAATGTATACCTACCCTTTAATCCAACAATTCTACTTCCAGGCATTTACACAAAAGAAATGAAAACATGTCATCAAAAATATTTGCACTCAAATAAATGGTCACAGTGTCTTATGCCTGAGAGCCAGCCCCATACTGGAAGCAACCTAAATATCCATCAGCAGGAAGATGCAAAAATAATACTATAGCTATGCAATGAAAGACTACTCAGCAATAAAAAGAAACAAACTCGTCATACATGCAGCAACATGTATGTGTCTTTTTCTTTCTTTCTTTTTTTTTTTTTTTGAGACAGAGTTTTGTTCTTGTTGCCCAGGCTGGAGTGCAGTGGTACGATCTCAGCTCACTGCAACCTCCACCTTCCAGTTTGAAACTATTCTCCTGCCTCAGCCTCCCAAGTAGCTAGGATTACAAGTGCCCACCACCACGCCCAGTTAATTTTTGTATTTTTTAGTAGAGCCGGGGTTTCACCATGTTGGCCAGACTGTTCTCAAACTCCTGACCTYGTGATCCACCCACCTCAGCCTTCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCAGCCAACATGTACATGTCTTTAGAAAAGATGCAAAAGAGTAGTGCCACATGATTCCATTAAGTTCTAGAACAGCCAAAATTAATCCATGGTAGAAGATATCAGAACAGAGGAGGGACGATGATGACTGGGACAAGATAGGGTGTTGTTTCTTGAGTGATGAGACTGTTCTATCTCTTGGTAGGGCTGTTCGTAACACAGGTGTCAAAATTCAAGAACTGTAAACACTTAAGACCTGTGCATTCCACTGAATATAAACCATACCTCAATTAAAAAGAGGAAAAATTAAGAAATTTTTAAGCATGAACATTGAACAATAAATAAATATATAACATTAATGAGTGTCCCATAAATTAGTTAGTGTTAATTAGAAAACCCCACTGTGTTTTCTCAGAATTTATAGTAACCATAATCACAATAATAGCTACAAACTTTCTCACCTTTAAATGTCATCACAACTTTAGGAAACAGGTTATATCTTATATTATTATTATTATTATTATTATTATTATTATTATTATTTTACATTTTAACATCTCTGAAACAGGGATGTGTCCTACAATCACCATCAGCCAGGAAGTGGTCAGGATGCAGTGGTTATAACTGGATTATTTTCCCTGGCCTGGCTGACCATCTGCAACCCCCTGGTGTTTCAATGTACAAACTATTTTAGGACCATCTGCGTACTGGCTGTTGCCTGAAAATCTTGTGTTGATGTGGATTTGTAAGACTGGGAAAGCACCAGCATTCAAAACTTGAAGAAAGGTGTTAGCAGTTTGGCAGACAATCCTACAGAAAACTCTTTATTCTTGGGGGAGAAAAAGTTGCCTCCCATCAACTTCAATGGTTCACAGGATGATGACGTGTGGGGAAACACAAACCTCGACAACATTGAGTCCAAATGTGTTTCGGAAGACTCAGAATGAAGAAGAAGATGCCAAGGAAAACCTTAACCAATTTATTTTCCTTTTTAATGAGTGATATGTGATTTTTCAAAAGCCTAAATACATCTAAAAGAGCTATATCAGTTAAGTATAAGATAAAAATTCTAAACCATAGAAAGCACTGTTACTGCTTAATTGACAGCAATTTTTCTTTCTTTGCAATGTATAAAATAATGGGTGCTTTTTATGTTCACTGAAATTCATATTGTTGTCTCCTTTTACAGCTGGGAAAGCGGAAATCTGGAGAACTAAAATATCTTGCTGAAGATCACAATGCAGTAAAGCATAGGGCAAGTTTCCAACTCGAACATCACCCCAGAACACTTCCTTTTAAACATAAATTATGTTGCTAACTTTTTTATTGTTACTTAGCAGGCAGATTTCAAACTGATACAAATGTTGAAAATGATACAAAATGTTTTCCCACCTTAAAGGCATTCTGAAACCTAGCACATAACATCTGTCACTGAAGTCCATAGTTTCCAATGCCATGATTGGATAAAGACCCTATTGAGACTCATGTGTTTGTCTCTCACTGCTTAAAACACTCATGTGTTTTAAGCAACATGACAAGCACAAAAGAGAACAAGTACTGCTCCTGCTCTCCAGGAAGTTACCATAAAATAAAGGGGATAAGGTGCCTTCCAAAGAAAAACCAAATACTAGGAGAGGTCAGAGGAGAAGAGAGATTATTCCAGAAGGAGAGACTGAGGCAGATTTCAGGAGGGAAGAATATAAGAGTCCCAAAAGAAGAAACAGGAACCCAGGTTAGAGAGCAATGGGCAAGGGGTAGGAGGTGAGACTAAACTCACAAGGAAGTTGCTTCAAAACAATAGTGCCCCAAATGCCAAGCTGATGGGTTGGACCCATTTAGGAAAAACCCACAAAGTCCACAGGAGAGCAGACTGCACTTCCATGAGCTTCAAGCTGTAAACAGTAACCTCAAATAAAACTTTTCCCGGATCGGTAATTTCCATCCTGAACAATGGCCAAGTCAAGGAAGCTGAGGATCGAGCCCCCTACCGCATGCCACAAAGAACCTCAAGGGACCCCATGCTCTGGGGAGCTCGCAGGAGGACCAGCACAGAGGTGTGACTGCGTTGGGGCAGGGTGGCCACATGTACAATGTTGTACCTTCCAATGTTCCTCCTTAGGCTGTGCTTATGAAGTCCCAACATGTCTTCTGGGCTGTGTTTTCAACCAAGAGAGTTAATAAAAAGTGGGATGGGCACCAACTATGCCTCCAGAGACATCAGGCAGAATATGCCACAGCGTGCCATGTCCTCCTGCAAACAGTCAGAAAGAAAAGATCTCTAAAAGCAAATTGGAAGAGACTATATATACAGAGCGAGTGCCGGTACAGAAGTTTTGCTGCAAATACACCCTCTAATCCCTTGCAACCCACTGCAAGCTCGAGAGACCAGTGCCCTTGGTAAAACACAGGAGAGATCATTAATTAAAGCCTAGGCCCTTTCTTTGATCCTGAGGGATAAGGCTTGGGAAAATGCACAGTGATAAAAGTGAACATTTTAAAAGAGCAGAGTGAGTGTGAATTCCCAAAGAGACCATTCATATCAAGACCCAAGCCATGAGAAAATGCTACAATGCCCTTGATTAATACTTTANGAGGCATTTTGACCTCAGATCTAATCCCATGAGGCTTAGACCAAGACCTTGCTTGATGCAGACCTCTCTGACTGCTGAAATTGGTCAGGAGCTCAGTGATGAAAATTTGGAAAGTCAATGCTGATACCTGAAGAAAGTCCCATCAGAGATCTGTGACCTGAATCTTCATAACTTTCACAGGCCCTTTCTAAATGCCAAGGAGGATGTGTGTGGAGAAGAATATGCCACCTATGGCATCCCAATATGCCTGTGCCCGCCTGCTCTTCAACAAGGGAATGAAACCTGGGTATTCTCATAGGTTTTTTAAAGCACTTGTCCACATATTTTATTCCGCAAATAACACAATTTAAAATTCAGCTAGAATTTGCCATTTTCTGTCAGGGTTGTGCATTTCTTCCAGTCACCATGACTTCCTGAGATAGCCAAAACACAAAATTTAAATTGTGTTTAAATTAAATAAACACAATTTATGCTGAAGCTGACTTTACCCACTCTGTTCCAACATTACTTATCCTCAGCATCTCTGAATTCAAATATCAGCCAGGTGTGGTGGCTCATACCTGTAAGCCCAGCACTTTGGCAAGCCAAGATGGGAAGGTTGCTTGAGGAGTTGGAGACCAGCCTGGGCAACATAGCAAGACCCCCATCTCTACAAAAAAATTAAAAAATTAGCCAGGCATGGTGGTATGCACCTTTAGTCCTAGCTACTTGGGAGGCTGAGGTGAGAAGATCACTTGAGCCGAGGAGCTTGAGGTGGCAGTGAGTCATGATCATACCACTGCACTGTAGCCTGAGCAACAGAGCAAGACCCCATCCCTTAAAAAAAATACCTGCCCTCTGTACTTCATAGCACCTGGGGCATTTTGAACAGTTCTTCCTTCACCTGAGGTCATTATTTGAGAATCCAATTTTAGAGACTACAATGCTCTCATTACTTGGATTGTATCATTTAATCTTCCCAACAATCCAGGAAGGGGAGTCTCTTAATGATTGTCCTTGATTTCCAGTTAAAAAATCTAGACCCAGAGGTAACCTTGTGAAGGTCACAGAGTTTCAGAGTTCTAAGATCCCATGCGGAGATTGTTGAACTTGAACTTGTTTCTTCTGATCTCATGTCAATAAGTGACTTAGTCAACACCTGGGTAGAAATCATCACTAAAGTGAGAAAGCACATGGTGAGGGGGATGAATCCTGTGCCCACATGGTCCCTTTCACCTGCCCAATCCTCAGGCCTCTCACCTGGGGTACCCCTCACACACATGGCACTTTCCTGAACTCATGGACATTTCAGTTTGTAACGATCCTCCTAAGATTATCTACTTTCACCTATCCACATTTGAACTATACTTCTTTAGTGGAAAAAAAGAAATAAAGCCAGTGCTGAGAATGATCAAACTCCAGAAATAGTAGACTGCTGTATAATTTGTCTTGCGTGACACCAGATCTTTCAAGGAACTGCAAGCTCAAGTGCACAGTTAAGCAAGATCAAGATCTACCTTTGTCTTTCAGAGCCTTCCCTTGGCGAGGTCAAGGATATCTGCTGTGAGCCTGGGCTGGCTGAACCAAAGGGCAATGGAGGCGGCCAAGAAGCCCCAGCCAACTGCTCCCCTCCCCAACCCCCTTCTCCCTGGAGGTCCCTTCAGCTAGAATTTGCCATTTTCTGTCAGGGTTGTGCATTTCTTCCAGTCACCATGACTTCCTGAGATAGCCAAAAGCATTTGCTGTGAGCAGAGCCCCATGGCTGGCTTTGCACATCAAACATTTCAGACAGCCATATATTTCATAGAATACAAGGGGAAGATAACACTGGACCCACAGAACTTTCCAACAGCTTGAGAAAATGTGGTGCCTGGTGACTGACTAAATATACAATCGGACAACAGCCAGGCCATAGCAAAAGATGGAACTCTGATCCACAAGGTGCAGCAACTTTCCCAGAAAACAATACCCTTACCCACAAAAAGCAACCCCGGAAGCTGGCCTGCTCTAAATCAGACCTGCTGGAAGCCAAATTGCTCTCTAGTAACTATCCAGGAAGCTAAATAATAACTTCTGTAACAATTGACTCAAAATGTTCAGGACTGGATTAATAACTGATGGCTTCCCTAATTTTTGTCCCCGATTCCAACTTAGGACCCACCAGAGAAAGCCAAATATGGTCCCCTGACCAAGCACACAGGATGTTCGCTTCTAGTGAGCCGCCTCCAGCTTCCCCGCATTGATAACCTCCAATCAGGGCACACCTGAAGCCTTCGCCTTTTTCCACTATAAAGCTCTCCCACTCGTCTGCCCACCTTTGAGTCTCTGCCAAATTGCAAATGATGGTGTCTGACTCCCTTGCTGTAGCAAGCTCTGCATAATAGCTTGTGCTTATTCTCTTTGGGTAGGTCTTCATTTCTTTTCACACCAGATAGGCATCATCTTTGAAAACATCTTTACTGGGTCTCTTGTCTCCCTCCTGCAGCCACTGATCTAAATCACAGACTTTTTTAGAAAGAGGGAAAATAGTAAAGAAAGAAAGCGATTGAGTTGATGCTCCCAGCCACTGTCTGTACCCTGAATTTTGTTTTTCTGCCATATGTCAGGTGGCCTCTCCTGGACCATCGTCACTGTTTCTCCTGCTTCCCTGCAGCTGCAGACACAGGAGCACTGTGTAGGTCTGGCCTTGAGCACCCACCCACCCAGTACAGAGCCAGCCCCTGCTGTTCTGAATCAGTGCAGTGACCACTTAGAACACAGTGCCCATGCCTCTGTGATCTGAACTGCTCTTTCCAGTTCCATACAATGTTAAGAACCCACTTAAGAATGTTTTAATCATTCAGTAGTTTTTCGTGGTATATAATAAAAAAGTGATTTAAATACAATCTATTTTATTTTAGATTATATCATTAGGGGTTATTTTACAAAGTTACCTTTAAATACTATTGTAAATAAAATTAATAACAAA
>n1116_u1056_AF222983_DISC2 RNA_Homo sapiens (human)
GAATTCACACTCACTCTGCTCTTTTAAAATGTTCACTTTTATCACTGTGCATTTTCCCAAGCCTTATCCCTCAGGATCAAAGAAAGGGCCTAGGCTTTAATTAATGATCTCTCCTATGTTTTACCAAGGGCACTGGTCTCTCGAGCTTGCAGTGGGTTGCAAGGGATTAGAGGGTGTATTTGCAGCAAAACTTCTGTACCGGCACTCGCTCTGTATATATAGTCTCTTCCAATCTGCTTTTAGAGATCTTTTCTTTCTGACTGTTTGCAGGAAGACATGGCACGCTGTGGCATATTCTGCCTGATGTCTCTGGAAGCATAATTGGTGCCCATCCCACTTTTTATTAACTCTCTTGGTTGAAAACACAGCCCAGAAGACATGTTGGGACTTCATAAGCACAGCCTAAGGAGGAACATTGGAAGGTACAACATTGTACATGTGGCCACCCTGCCCCAACGCAGTCACACCTCTGTGCTGGTCCTCCTGCGAGCTCCCCAGAGCATGGGGTCCCTTGAGGTTCTTTGTGGCATGCGGTAGGGGGCTCGATCCTCAGCTTCCTTGACTTGGCCATTGTTCAGGATGGAAATTACCGATCCGGGAAAAGTTTTATTTGAGGTTACTGTTTACAGCTTGAAGCTCATGGAAGTGCAGTCTGCTCTCCTGTGGACTTTGTGGGTTTTTCCTAAATGGGTCCAACCCATCAGCTTGGCATTTGGGGCACTATTGTTTTGAAACAACTTCCTGGGGAGTTTAGTCTCACCTCAAACCCCTTGCCCATTGTTCTCAAACCTGGGTTCCTGTTTCTTCTTGGGGGACTCTTATATTCTTCCCTCCTGAAATCTGCCTCAGTCTCTCCTTCTGGAATAATCTCTCTTCTCCTCTGACCTCTCCTAGTATTTGGTTTTTCTTTGGAAGGCACCTTATCCCCTTTATTTTATGGTAACTTCCTGGAGAGCAGGAGCAGTACTTGTTCTCTTTTGTGCTTGTCATGTTGCTTAAAACACATGAGTGTTTTAAGCAGTGAGAGACAAACACATGAGTCTCAATAGGGTCTTTATCCAATCATGGCATTGGAAACTATGGACTTCAGTGACAGATGTTATGTGCTAGGTTTCAGAATGCCTTTAAGGGGGGAAACATTTGTTTCATTTTCAACATTTGTATCAGTTTGAAATCTGCCTGCTAAGTAACAATAAAAAAGTTAGCAACATAATTTATGTTTAAAAGGAAGTGTTCTGGGGTGATGTTCGAGTTGGAAACTTGCCCTATGCTTTACTGCATTGTGATCTTCAGCAAGATATTTTAGTTCTCCAGATTTCCGCTTTCCCAGCTGTAAAAGGAGACAACAATATGAATTTCAGTGAACATAAAAAGCACCCATTATTTTATACATTGCAAAGAAAGAAAAATTGCTGTCAATTAAGCAGTAACAGTGCTTTCTATGGTTTAGAATTTTTATCTTATACTTAACTGATATAGCTCTTTTAGATGTATTTAGGCTTTTGAAAAATCACATATCACTCATTAAAAAGGAAAATAAATTGGTTAAGGTTTTCCTTGGCATCTTCTTCTTCATTCTGAGTCTTCCGAAACACATTTGGACTCAATGTTGTCGAGGTTTGTGTTTCCCCACACGTCATCATCCTGTGAACCATTGAAGTTGATGGGAGGCAACTTTTTCTCCCCCAAGAATAAAGAGTTTTCTGTAGGATTGTCTGCCAAACTGCTAACACCTTTCTTCAAGTTTTGAATGCTGGTGCTTTCCCAGTCTTACAAATCCACATCAACACAAGATTTTCAGGCAACAGCCAGTACGCAGATGGTCCTAAAATAGTTTGTACATTGAAACACCAGGGGGTTGCAGATGGTCAGCCAGGCCAGGGAAAATAATCCAGTTATAACCACTGCATCCTGACCACTTCCTGGCTGATGGTGATTGTAGGACACATCCCTGTTTCAGAGATGTTAAAATGTAAAATAATAATAATAATAATAATAATAATAATATAAGATATAACCTGTTTCCTAAAGTTGTGATGACATTTAAAGGTGAGAAAGTTTGTAGCTATTATTGTGATTATGGTTACTATAAATTCTGAGAAAACACAGTGGGGTTTTCTAATTAACACTAACTAATTTATGGGACACTCATTAATGTTATATATTTATTTATTGTTCAATGTTCATGCTTAAAAATTTCTTAATTTTTCCTCTTTTTAATTGAGGTATGGTTTATATTCAGTGGAATGCACAGGTCTTAAGTGTTTACAGTTCTTGAATTTTGACACCTGTGTTACGAACAGCCCTACCAAGAGATAGAACAGTCTCATCACTCAAGAAACAACACCCTATCTTGTCCCAGTCATCATCGTCCCTCCTCTGTTCTGATATCTTCTACCATGGATTAATTTTGGCTGTTCTAGAACTTATGGGATCTGTTTGGCACTACTCTTTTGCATCTTTTCTAAAGACATGTACATGTTGGCTGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGAAGGCTGAGGTGGGTGGATCACRAGGTCAGGAGTTTGAGAACAGTCTGGCCAACATGGTGAAACCCCGGCTCTACTAAAAAATACAAAAATTAACTGGGCGTGGTGGTGGGCACTTGTAATCCTAGCTACTTGGGAGGCTGAGGCAGGAAAATAGTTTCAAACTGGAAGGTGGAGGTTGCAGTGAGCTGAGATCGTACCACTGCACTCCAGCCTGGCAACAAGAACAAACTCTGTCTCAAAAAAAAAAAAAAAGAAAGAAAGAAAAAGACACATACATGTTGCTGCATGTATGACGAGTTTGTTTCTTTTTATTGCTGAGTAGTCTTTCATTGCATAGCTATAGTATTATTTTTGCATCTTCCTGCTGATGGATATTTAGGTTGCTTCCAGTATGGGGCTGGCTCTCAGGCATAAGACACTGTGACCATTTATTTGAGTGCAAATATTTTTGATGACATGTTTTCATTTCTTTTGTGTAAATGCCTGGAAGTAGAATTGTTGGATTAAAGGGTAGGTATACATTGAACTTTATGAGAAACTGGCAGAACTTTTCTGGAAGGGACCATTTTACATGCGTGAGAGTTCCAGTTGCTCCATACCCTTGTGAATGTTGACATTTTTAGTTGAGTTAATTTGAAACATTTGAGTGGGCTTGTAGTGGAATATTTATGGTTTTAATTTTTCTTTTCTTAATGATTAATGATGTCAAATGTTTTTTCATATGCTTATTAGCCATTTGTGCGTCTACTTTGTAAAATGCCTGTTAAGTCATTTGACCATTTTTCAATGGCACCATTTGTGTTTTAATTGTCAAGTTGTAGTATTCAATTCCTTGTCAGTTAAACATAATGCAATGATTTTCTCCAAGTCTGTGACTTGTCGTCTCATTTTTTAGTTGTGTCTTTTGATGAGAAGTTTTTAATTTTGATAAAGCCCATTTATCCTTTTTAAAATAGTGTTTTCTGTATCTTATCTGAAGTTCTTGCCTACTCCAAAGTCAATCAAATATTCATTTTTTTTTTGTAGAAGCTTTATAGTTTTAACTTTTACATGTAGGCCTGTGATCCACCTTTAATTAAATTTTTGTGTGGTTTGAGGTATGAATCAAGGTTAATATTTTTTCCATGTAGATAGCTAGTTGTTCCAGCACCATTTATTGAAAATACTTCCTTTTCCTCATTGACTTGCTTTGGCACTTTGGTTGGCTGTATATGTGTTAATCCACTCCTGGACTGTTTATTCTATTCCATCGATCTGTTTGTCTATGTATATTCAATGCCATATTACCTTGATTTATAGTGGCTTTAGCATTAGTCTTGAAACCAAGACTCACTTTTTAAGGATTGKTTTGGGTCATCCTCCTCCTCCTCTTCCTTCTTCTTCTTTCTTCCTATTCTTCTTCATTCTTCTTCGTCTTCTCCTTCCTTCCCTCCCTCCCTCTTTCACCTCCTCCTCCTCCTTCTTCTTCTTTCTCCCTCTCCTTCTTTGAGGTGGGGACTTGCTATGTTGCCCAGACAAGAGTGTAGTGCCTGTTCAAAAGTGCAATCATAGTGCACTACAGCCTCAAACTCATGGGCTCATTCTTCTAGATTTTATTTGTTTAGATATGAAGTCTCACTCTGTTGCTCAAGCTGGAGTGCAGTGGCAGGATCTCAGCTCGCTGCAACCTACACCTCCTGGGTTTAAGTGATTCTCCTGCCTCAGCCTCTTGAGTAGCTGGGATTACAGGTGCTTACCACTGTGCCAGATTAATTTTTATATTTTTAGTAAAGATAGGGTTTCGCCATGTTGGCCAGGCTGGTCTTGAACACCTGACCTCAAGGGACCCACCACCTCGGCCTCCCAAAATGCTGGGATTACAGGTGTGAGCCACCCATGCCCAGCTCACTTTTAGACGTTTTAGAATAAGCACATAAATTTCTACAAAAGAACCTCATAACATTTTGATTGGAATTATATTAAATCAATGAATCAATGTGGGGAAAATTGAAATCTTACCAATATTGAACTTCCAGTGTATGTATACAGTGTATCTTTTAAATTATTTGTCTTTAATTTGTTTCAGCAGTTTTGGAAAAATAGTTTTCACTGTAGAGCTCTGGCACATATTTAAAGAAAGTATCCCTCAGTATTATGAGATTTAAAATATTTTGTAAATTGTATTTTTTAAAAAATCATCTTCTAGTTTTTTGTTATTTAGACATAAGATTGATGTTTGTACATTGACCTTGTATCCTGCAATCTTGCTACATTTAATTTATCATATATTTTTCTCAGTGCTTTACAGAATTTCTTGTTTATTCTTGTAACTACCTATGAGTCAGGTGTTATTGCAATTATATTTTATAAGAAATTTGCCCCAGATGTGCTAATTTTCTTGCTCCAGGTCACACAATTTGAGTAACAGGGGAGGAATTTAATTTAGGTCAACTCTGATTATATGGCCCAGTCCCCTTCCACACTGCTATAATATGTCATCTCTTTGACATTTGTATATTATTGGAATGGAGTGACACATTGTGGTTTCTCTGGATTCCACTGGGACATTTTTGGGTCATCATACTTTACGGGAGATGGCTTCACCAATGGAACTCCTAAAATGGACATAACAAGAATAAGGTGATAAAAAAGACGGTGATTTTTCCAGTTTAAGGGGAGCAATATTTTTCCAGGTTCTTTCCCCAGAGGACTGCTAAGGAAATTGWACATAATCTCAAAGTGCAGTTTCTTTGCCCATGCTGTGAATGTACATTAGCTGCTGCTAGATCTTCCATGTGTGTGGATGCTGTAAAGCTTGTTTTCCCTTCTTCTCTCCCACAACGTGCTGTAGGAAACCATTTCTGGACGGCTAAAGACCTCACCGAGGAGATTAGATCATTAACATCAGAGAGAGAAGGGCTGGAGGGACTCCTCAGCAAGCTGTTGGTGTTGAGTTCCAGGAATGTCAAAAAGCTGGGAAGTGTTAAAGAAGATTACAACAGACTGAGAAGAGAAGTGGAGCACCAGGAGACTGCCTATGGTAGGTAGTGCACAACTGTTACCCCGGCAAGATATTGATGATATTTGTTGTGTTTTGTGGCCAGGCAGAATGTTCTGTGCCTTWATGTGAACGTTCACTGTGAAGAGCGTCATGGAGCACATGGCCCTTTTCCCTTGGGGACATTTTTGGCAGGTGCCTTGGCAAACTGAATGGAATWACTTGTCAGCTTTTGTTTTCATATTCACATGWGACATCTTTTCTTTTTCTGTTCCCTGTCTCAACCTGTGTTTGCTAATAGCCTTGTTATTATTTAGAGCAGTCTYTCCCTTGGCAAGGTCTTGAGCATTTTCTTTGTGTGACAATTATCTTCCTTTTGTCCCTTGGCTCCGTCTCCTTGTSTGCACAATCATAGACTAAATCAGGCTGATCTGAGAAAATTGAGGGAAGACCATAAAGTGGCTTTTYTATGTGTGGACTTTTCTGAGAGCTWCTTWCCCCAGGAAGGATGATGTAGAAGATGTGAATGCCGCCTTAGCCAAAGTGTYTGCTTGTCAGAGGAGTTCAAGTGTTCCTGTGTTCTTTCCTTTTCCAGTCGTTAGGAGTAACTGAGCTTACTCTGAGATTTGCACCCAGAGGGATGGTYTCAGAAGACGCTGGTTCAGTGCAAATTGAGATGGTAAAAACTTATTTCTTAAAAAATGGTTCCTAAATAAATGTCATTTACTAAAACAAATGAAAGAAATATATATATGAATAAATGGCTATATTTTACAAAGTATGCTTATTTAAGAAGAAATAAGAAAAAACGGGGCTGATAGGAACCAGATTTGAAATAGGGCTTTTGTAAATACTCCGTAAATTGAAGTAAATGAAGAGTAGTATTTATAAGCTAGATTGAGAAATATAAAATCAGCTAGCTGAAGTTAAGTGCATCAATTTGGGATGAATAAATTTTCTTTTAAAATATCTATCAATTTGTGTAGAGAGAGGTTTCTTCATAGAGATATTAGAATCAAAGAGTATGTTCAGTAGTTATTCTGTCTTCTTTGTAATGAATACCCTTAAGTTGGCTTAACAGCTCAGTACTTACTTTTTTTCTTTTCATTCTTAAAGGTCAAGCCTTGTTTTTGCCGTATATGTAACTAGAGACAGTACGTTTGAGGCTAAATAACTGTAGTACTAGGGAATGACAACACGCTCACCCAAGACACCGCAGCCTGGTTTACTCTGTCATGATAGGAATGAGGATTGTACATTTGAAATAGGTTTCTGCTATTGATTTTTTTAAATGTATAAACGATGGAAACTACGGAATTTCTCATGTTTTCACCACATAGTTTTTTGTCATAAAATGAAGAATATATTATATCCAAGAATGAAGAGGAAGTGAACAAATTTGAGCAAATTTAGTCCAGCAATATTTTCATTTGAATAGTTGAGTCCCTGAAAGCCATTAATATCCTTTTTAAAAAAAGAACCATGCAGTATTTTTGAATCTCATCATTGTCACTTCACTAAGTATTTTCACAATGATGAATAAAACATAAACAAATGGAATGAGAGATTGTTACCATGGATGATTCTAAATTGCAGATGGCTCATTACTGTTGTGAAGCCTCTCTTTATGTTTTTACACTTGGATTTTGCTGGATCAGCCACCCTTTCCCTATACATTGATTTACACGTGCTTAATTTTTTTTAACCAATTTGAGGTGAGTTGGCTTTAGGTGAACCAAATTAATAATCTAGGGTTGAGAGTGTGGGAAACAAATAAATAATGAATTC
>n1117_u1057_AF222987_DISC2 RNA_Homo sapiens (human)
AAAAGTAGCTGAGAGCAAGAAAATAAATGAACAAAGTATAAATTGAATTGTGGAAATTCACATACAAGGGGCTAGAGTTAAAAGGGACCTCAGTAGCCACAGGGACTATCTAATTCATCTCTGGACCATGAGGGCCTGCCACAGCGCCTAGCATATCGTAAGTACTCAATAAATGCTTGTGGAAAGGATGGATGGGTGGGTGGATGGATGGATGGATGGATGGCTGGATGGATGGATAGAAATGCAACTTCAAGATCTGGTTCTACAGTATTACATATGAAGCAACTGAGACTCAGATAAAATTCAGTGAGTTGCTGAAGACTATTCACTCATTGAGCCTCACATTCTGATGCTATATATATCAGGTGCTATGCAGATGATTAGGGAAGGGCAGGACTGAGATTAAACTGACACCCCCTACATCCTAATCCAGGCTTTTTCCACTGTATGGCGATGCCTCCCAAAAGAATTATCACAGCGACTTAATAAAGGAGGGAGAAAGTTAGTTGCAAATTTCAAGCTTAGAAATTCACAGGCAAAAATGGCTGAAGGGAAATAATCACACTAATAGTGATGCAAGGATGTAACTGGAAAGGAAAAAATGGAGAGAAATTAAAAACACAAACAGATTTAGTCAGGGTCCTGATAAAGTGATAATGTAATCAATAAGGCAAATCAAAGATAAATGATTAGAGATTTAAAACTTCAGCCTATCAGAAAAACCTGAGGGAAAAGATTTTGAATTTTTTTTATTTCTTCCAAAAGATCCTATTTGACATATTTTTTTAAATCTAAATGACCAAAGATTTCGAATTTGGAAAGGCAGACACATATCTATTTCCCATATAAACATCTACATTTCTTGCCACATAGCACCGCAACACTCATCTGGTTCCAAAGCAGACGGCTTGGCCCTCTGTTATCAAGAGCACTATCACCGTTCTGGCCCGGAGAGCTAAGTTTTCTTATACATAGGTCGTAGCCAAAGCTCAGAGGAAAGAAGTGACATTTGGTGAGTGTACAGGATATGTTCTCCAGCCACTTTTTAGGTGCTAAGTTACATCTTGAAATAATGTCAGAAATTGGAAGATGCCGTATTTAAACTTCACTAGCCCAAGCCCTAATTCACCTCGACAGTTTAATATCTTAATGTTTCTTAAAATTTGAGGACTCTTAGAATGACCCCTTTAAAAATCTGCTGAAAAACTGGATCTTTTTGTGGGAAAAACTGTCCATACCTACATATCTAAAATGTGTATGTGGTTTCAGTCTCTCCTGTGCACAGTCCCTCCTGCTTTGAAGGGATCCCCAACATGTTTTTTTCCTAGAGGTAGTTGGTCACAACCATCGGATAACATGCTTATCACCTGGGTGATAAAATATTCTGGACACCAAACCCCGATGACATGCAATTTACCTATATAAAGAACCTGCACATGTATTCCTGAACCTAAAATAAAAAGTTGTAAAAAATAATAATACAAGTAAAAGAGCTTTCTGCATGTGTTATAAATCTGTTCAGGAGGACTTTCCACTATGCTTTCAAGAGAAGTGTCTTGAAGAATTTAGCATCACTCTGAATTCCCAAAAAGCTCTGTGCTTTTCAAGGTGCTTTTGAGGAAGAAGGATGATGCTTCAACTGTCTTCTTTGCTGTGACTTCTAGGAAGTTCATTATCACATCATATTCTCAACCAAATAATTAACACTTGACATTGGCATTTTCTTCTGTCTTTGTTTTTAAATTTTATTGTTGTTTGCTAATTTTATTGTTTTTATCTTTGTTGTATGTATTGTCCCGGCTCTCCATTTCCTCCCTCTCCCTGCCAATAAAAGAGACCCATAGATTTTATTCTTTTGTTCTACTTTTTCATCAATGTTTCTTCTACATATATCTGACATATATGGAAAAAAGAATTACTGCCTATATATGCAGAACTTGTAACTCACAGGATTTCTAAACTAAAAGACTTTTCTTAATAGGTGTGAAGTGAAATTCTGCAAGTAGCTGCATCTGGGAACTTCAGAGTTAAACCGATATCTCAGTATAATCTGTCACTGCTATAGTTTCTTTTCTTTGACCTCCAAACCTTATGTTGAAATTTGACCCCCAATGTTGAAGGTAGAGCCTAATGGGAGGTGTCTGGGTCTGGGGGCAGATCCCTCAAGAATAGCTTGGTCATCAATGAGTGAGTTCTCACTCTAATAGTTTCTGGGAGAGCTGGTTGTTAAAAAGAGTGTGTCATGTCCCTTCTCTCTCTTTTTGCTTCCTCTCTCACCAGTGATCTGCCTAGGCCAGCTCCCCTTCATCTTCTGCCATGAGTGGAAGCAGCCTGAGGCCCTCACCAGAAGCAGATGTTGGCACTATGCTTCTTAGACAGCCTGCAAAACTGTGAGCCAAAGAATTCCCTTTTCTTTATAAATGACCCAGCCTCAGGTATTCCTCTATAGCAACGCAGATGGACTAAGACACTCATGCTTCCTTTCATTAGCTATTTCAAGCTCAAAAATTGTGAGACTGTGCCAAGAATTAGGGCAGGATCTTGTCATTGAGAACTTACAACTTTTCTATCTAAAGCAAAAGGTCCTAATCCCAAACCATAATTGGAAAGGTGCCTCTACTCCAACCTCATTGCCCTTCAACTGCCCCTTCTCTGCCTCCCATTCCCCTCTTACTCACCGAAAGACAAATGAGTTTAGGCTGGGCACAGTTAGCCATCGTTCTCAGAAAAACAAAATCTTGCTGCTTGGTATTCTCACTTAGAATCCCTTCACTTAGCTTATGGATCACCCTACACAGATTCCTGACAGCTCACTGGGCCATGGAACCAGCCAGATTTTTGAGCTACATCTGCAGTATCTTTTCTACTCAGGCAGCTGGCATAAGGTGGGAAAATTCATTAACATGCTAATGATGTCCTATTTAAAATTCTAGTCCTGATTATTCTGTGATTAAATCTCTCCCCTTGACGTCGGTTTCCTTTATAGCTGAGTTACAGTGCGAAATCAACAATATTAATAAAGTACAATACAGATTACCAATTTATACACAAGGGATGGTGAAAAACTGCTGCGTAAATCTGAGGGCTGTCCTTTTAACTTGAAAAGCAGTTGTAGGCCGGGCGCGGTGGCTCACGCTTGTAATTCCAGCACTTTGGGAGGCCTAAGCAGGTGGATCACCTGAGGTCAGGAGTTTGAGACCAGCCTGGCCAACATGGTGAAACCCCGTCACTACTAAAAAAATATAAAAATTAGCTGGCCTATAATCCCAGCTACCTGGGAGGCTGAGGCAGGAGAATCGCTTGAACCTGGGAGACGGAGGTTGCAGTGAGCAGAGTTCGCGCCATTACACTTCAGGCTGGTTGCAAGAAGCAAAACTTTTGTCTCAAAAAGAGAATGTAAAAGCAGATGTAGCAAACTTGTAAAAGTTGCTGATTTTTTTCATTCCGCCCTTCTTTAAATAAACACACACATTGGAATCCACAATAATTAAATGTTTATAGTTAATTTCCATAAATATTCAAGGCTTGGAAGATAGATTTAGCTTTTCATTCTATTTCACTGCACTTAACATTGCTCCGAATTCAAATGTGTTATCCTGAAGTCTCAAGAACAGCTGACAGGAGTTAAAGCACACTTGTTTATCATCTCTTTATAGAGATTGTGTCTTGGCAACAAAAGCCAATGGATTCGGTGATGAGGTCTGTCTCCCTTTGCCCTTGAGTACCTTGGCATATTTCAGTTCCTTTTCTATCACCGTATTGTTCTATTACTGACACTCCAAACTGAATATCCAACTCAGACAACTCAAGCACCTTCCAAGAAAGACAAACTTATCACTACCCTCATTAATTTGGAAAATGAATAAAGAAGCAGAAGATTCAAGGTCCAGATCTGCAATCTAAAATGCAGGAAGAGAGGACTCATTCATGTGTCATTTTAACATCTGGCCCCAGTAAATGAACAAATATTGATGGTATAGTATATTTACTATTTTAAAAGACATCATGCTGGACACCAAAGCAGTACAGTGAAACCTAAGAACAATGTTCTGACCTCGGTGGACTCACAATCTAGCCAGAGACACAAGATACAATGATATTTTAAGTGATGCATGCAGCAAATTCATCTCAGGTGCATCATTAGAGATACACTTCACATCATTAAAAGGTCTCTGTACGAGAGACACTGCTAATTGTTCCCTAAGACTGCAAATCTCCCCTTTTGCTATGGAAACAGAATTCATCACTTTAGTGGGGCACATTGCTGCCCAGGGTAAGGACAGCTCCCAGCCCCTCTTGCAAGTAGCTGTTACCATATAACAAGGTTAAGGTCACAGGGATGTGGCCGTAGCAGAGATGTGTGCAGATTTCTAAAAGCGTACTTAAAGGGGATAGATGAGCTCTCTTCCTTCTTTGTTTTTTTTCTGACTGGACTTGGACATGCATGTGGCTGGGTCAGCCAGGTTGGACTGAATGGCACATGTTGTGGGGCAGAGAAGAACAAGATAGAAGAGTCTGGGTTCCTGACAAGCAGGGTGGCTTGATCATCCATGAGTTGCCTTTTTCCCCTGAACGCTGCATTCCACAACTATTGTTGGAAATCAAAATCTTTTTTTAAGAATACTACATATTGCTCATTTCTTAAATGGTTTCATTCTCTAAGGCTAAAAAGAGTCATGGTACATGCATGCATATGTGTATGTGCATAAGTACACTCTCCTTTGTACTTTCTCTACATTTAAACTTGAACACAGAGCTCCCTCTGAATTTTTAACCCTCAAAACACAAAAAAAGCTGAATATGGACTTTGCCCCAGTTTTATCACATTTTAATAAATAAAAGCTTCAATGTATTCAGGAATTCATTATTTATTTGTTTCCCACACTCTCAACCCTAGATTATTAATTTGGTTCACCTAAAGCCAACTCACCTCAAATTGGTTAAAAAAAATTAAGCACGTGTAAATCAATGTATAGGGAAAGGGTGGCTGATCCAGCAAAATCCAAGTGTAAAAACATAAAGAGAGGCTTCACAACAGTAATGAGCCATCTGCAATTTAGAATCATCCATGGTAACAATCTCTCATTCCATTTGTTTATGTTTTATTCATCATTGTGAAAATACTTAGTGAAGTGACAATGATGAGATTCAAAAATACTGCATGGTTCTTTTTTTAAAAAGGATATTAATGGCTTTCAGGGACTCAACTATTCAAATGAAAATATTGCTGGACTAAATTTGCTCAAATTTGTTCACTTCCTCTTCATTCTTGGATATAATATATTCTTCATTTTATGACAAAAAACTATGTGGTGAAAACATGAGAAATTCCGTAGTTTCCATCGTTTATACATTTAAAAAATCAATAGCAGAAACCTATTTCAAATGTACAATCCTCATTCCTATCATGACAGAGTAAACCAGGCTGCGGTGTCTTGGGTGAGCGTGTTGTCATTCCCTAGTACTACAGTTATTTAGCCTCAAACGTACTGTCTCTAGTTACATATATGGCAAAAACAAGGCTTGACCTTTAAGAATGAAAAGAAAAAAAGATAAGTACTGAGCTGTTAAGCCAACTTAAGGGTATTCATTACAAAGAAGACAGAATAACTACTGAACATACTCTTTGATTCTAATATCTCTATGAAGAAACCTCTCTCTACACAAATTGATAGACATTTTAAAAGAAAATTTATTCATCCCAAATTGATGCACTTAACTTCAGCTAGCTGATTTTATATTTCTCAATCTAGCTTATAAATACTACTCTTCATTTACTTCAATTTACGGAGTATTTACAAAAGCCCTATTTCAAATCTGGTTCCTATCAGCCCCGTTTTTTCTTATTTCTTCTTAAATAAGCATACTTTGTAAAATATAGCCATTTATTCATATATATATTTCTTTCATTTGTTTTAGTAAATGACATTTATTTAGGAACCATTTTTTAAGAAATAAGTTTTTACCATCTCAATTTGCACTGAACCAGCGTCTTCTGAGACCATCCCTCTGGGTGCAAATCTCAGAGTAAGCTCAGTTACTCCTAACGACTGGAAAAGGAAAGAACACAGGAACACTTGAACTCCTCTGACAAGCAGACACTTTGGCTAAGGCGGCATTCACATCTTCTACATCATCCTTCCTGGGGAAAGAAGCTCTCAGAAAAGTCCACACATAGAAGAGCCACTTTATGGTCTTCCCTCAATTTTCTCAGATCAGCCTGATTTAGTCTATGATTGTGCASACAAGGAGACGGAGCCAAGGGACAAAAGGAAGATAATTGTCACACAAAGAAAATGCTCAAGACCTTGCCAAGGGAGAGACTGCTCTAAATAATAACAAGGCTATTAGCAAACACAGGTTGAGACAGGGAACAGAAAAAGAAAAGATGTCWCATGTGAATATGAAAACAAAAGCTGACAAGTWATTCCATTCAGTTTGCCAAGGCACCTGCCAAAAATGTCCCCAAGGGAAAAGGGCCATGTGCTCCATGACGCTCTTCACAGTGAACGTTCACATWAAGGCACAGAACATTCTGCCTGGCCACAAAACACAACAAATATCATCAATATCTTGCCGGGGTAACAGTTGTGCACTACCTACCATAGGCAGTCTCCTGGTGCTCCACTTCTCTTCTCAGTCTGTTGTAATCTTCTTTAACACTTCCCAGCTTTTTGACATTCCTGGAACTCAACACCAACAGCTTGCTGAGGAGTCCCTCCAGCCCTTCTCTCTCTGATGTTAATGATCTAATCTCCTCGGTGAGGTCTTTAGCCGTCCAGAAATGGTTTCCTACAGCACGTTGTGGGAGAGAAGAAGGGAAAACAAGCTTTACAGCATCCACACACATGGAAGATCTAGCAGCAGCTAATGTACATTCACAGCATGGGCAAAGAAACTGCACTTTGAGATTATGTWCAATTTCCTTAGCAGTCCTCTGGGGAAAGAACCTGGAAAAATATTGCTCCCCTTAAACTGGAAAAATCACCGTCTTTTTTATCACCTTATTCTTGTTATGTCCATTTTAGGAGTTCCATTGGTGAAGCCATCTCCCGTAAAGTATGATGACCCAAAAATGTCCCAGTGGAATCCAGAGAAACCACAATGTGTCACTCCATTCCAATAATATACAAATGTCAAAGAGATGACATATTATAGCAGTGTGGAAGGGGACTGGGCCATATAATCAGAGTTGACCTAAATTAAATTCCTCCCCTGTTACTCAAATTGTGTGACCTGGAGCAAGAAAATTAGCACATCTGGGGCAAATTTCTTATAAAATATAATTGCAATAACACCTGACTCATAGGTAGTTACAAGAATAAACAAGAAATTCTGTAAAGCACTGAGAAAAATATATGATAAATTAAATGTAGCAAGATTGCAGGATACAAGGTCAATGTACAAACATCAATCTTATGTCTAAATAACAAAAAACTAGAAGATGATTTTTTAAAAAATACAATTTACAAAATATTTTAAATCTCATAATACTGAGGGATACTTTCTTTAAATATGTGCCAGAGCTCTACAGTGAAAACTATTTTTCCAAAACTGCTGAAACAAATTAAAGACAAATAATTTAAAAGATACACTGTATACATACACTGGAAGTTCAATATTGGTAAGATTTCAATTTTCCCCACATTGATTCATTGATTTAATATAATTCCAATCAAAATGTTATGAGGTTCTTTTGTAGAAATTTATGTGCTTATTCTAAAACGTCTAAAAGTGAGCTGGGCATGGGTGGCTCACACCTGTAATCCCAGCATTTTGGGAGGCCGAGGTGGTGGGTCCCTTGAGGTCAGGTGTTCAAGACCAGCCTGGCCAACATGGCGAAACCCTATCTTTACTAAAAATATAAAAATTAATCTGGCACAGTGGTAAGCACCTGTAATCCCAGCTACTCAAGAGGCTGAGGCAGGAGAATCACTTAAACCCAGGAGGTGTAGGTTGCAGCGAGCTGAGATCCTGCCACTGCACTCCAGCTTGAGCAACAGAGTGAGACTTCATATCTAAACAAATAAAATCTAGAAGAATGAGCCCATGAGTTTGAGGCTGTAGTGCACTATGATTGCACTTTTGAACAGGCACTACACTCTTGTCTGGGCAACATAGCAAGTCCCCACCTCAAAGAAGGAGAGGGAGAAAGAAGAAGAAGGAGGAGGAGGAGGTGAAAGAGGGAGGGAGGGAAGGAAGGAGAAGACGAAGAAGAATGAAGAAGAATAGGAAGAAAGAAGAAGAAGGAAGAGGAGGAGGAGGATGACCCAAAKCAATCCTTAAAAAGTGAGTCTTGGTTTCAAGACTAATGCTAAAGCCACTATAAATCAAGGTAATATGGCATTGAATATACATAGACAAACAGATCGATGGAATAGAATAAACAGTCCAGGAGTGGATTAACACATATACAGCCAACCAAAGTGCCAAAGCAAGTCAATGAGGAAAAGAAAGTATTTTCAATAAATGGTGCTGGAACAACTAGCTATCTACATGGAAAAAATATTAACCTTGATTCATACCTCAAACCACACAAAAATTTAATTAAAGGTGGATCACAGGCCTACATGTAAAAGTTAAAACTATAAAGCTTCTACAAAAAAAAAATGAATATTTGATTGACTTTGGAGTAGGCAAGAACTTCAGATAAGATACAGAAAACACTATTTTAAAAAGGATAAATGGGCTTTATCAAAATTAAAAACTTCTCATCAAAAGACACAACTAAAAAATGAGACGACAAGTCACAGACTTGGAGAAAATCATTGCATTATGTTTAACTGACAAGGAATTGAATACTACAACTTGACAATTAAAACACAAATGGTGCCATTGAAAAATGGTCAAATGACTTAACAGGCATTTTACAAAGTAGACGCACAAATGGCTAATAAGCATATGAAAAAACATTTGACATCATTAATCATTAAGAAAAGAAAAATTAAAACCATAAATATTCCACTACAAGCCCACTCAAATGTTTCAAATTAACTCAACTAAAAATGTCAACATTCACAAGGGTATGGAGCAACTGGAACTCTCACGCATGTAAAATGGTCCCTTCAAGAAAAGTTCTGCCAGTTTCTCATAAAGTTCAATGTATACCTACCCTTTAATCCAACAATTCTACTTCCAGGCATTTACACAAAAGAAATGAAAACATGTCATCAAAAATATTTGCACTCAAATAAATGGTCACAGTGTCTTATGCCTGAGAGCCAGCCCCATACTGGAAGCAACCTAAATATCCATCAGCAGGAAGATGCAAAAATAATACTATAGCTATGCAATGAAAGACTACTCAGCAATAAAAAGAAACAAACTCGTCATACATGCAGCAACATGTATGTGTCTTTTTCTTTCTTTCTTTTTTTTTTTTTTTGAGACAGAGTTTTGTTCTTGTTGCCCAGGCTGGAGTGCAGTGGTACGATCTCAGCTCACTGCAACCTCCACCTTCCAGTTTGAAACTATTCTCCTGCCTCAGCCTCCCAAGTAGCTAGGATTACAAGTGCCCACCACCACGCCCAGTTAATTTTTGTATTTTTTAGTAGAGCCGGGGTTTCACCATGTTGGCCAGACTGTTCTCAAACTCCTGACCTRGTGATCCACCCACCTCAGCCTTCCAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCAGCCAACATGTACATGTCTTTAGAAAAGATGCAAAAGAGTAGTGCCACATGATTCCATTAAGTTCTAGAACAGCCAAAATTAATCCATGGTAGAAGATATCAGAACAGAGGAGGGACGATGATGACTGGGACAAGATAGGGTGTTGTTTCTTGAGTGATGAGACTGTTCTATCTCTTGGTAGGGCTGTTCGTAACACAGGTGTCAAAATTCAAGAACTGTAAACACTTAAGACCTGTGCATTCCACTGAATATAAACCATACCTCAATTAAAAAGAGGAAAAATTAAGAAATTTTTAAGCATGAACATTGAACAATAAATAAATATATAACATTAATGAGTGTCCCATAAATTAGTTAGTGTTAATTAGAAAACCCCACTGTGTTTTCTCAGAATTTATAGTAACCATAATCACAATAATAGCTACAAACTTTCTCACCTTTAAATGTCATCACAACTTTAGGAAACAGGTTATATCTTATATTATTATTATTATTATTATTATTATTATTATTATTATTTTACATTTTAACATCTCTGAAACAGGGATGTGTCCTACAATCACCATCAGCCAGGAAGTGGTCAGGATGCAGTGGTTATAACTGGATTATTTTCCCTGGCCTGGCTGACCATCTGCAACCCCCTGGTGTTTCAATGTACAAACTATTTTAGGACCATCTGCGTACTGGCTGTTGCCTGAAAATCTTGTGTTGATGTGGATTTGTAAGACTGGGAAAGCACCAGCATTCAAAACTTGAAGAAAGGTGTTAGCAGTTTGGCAGACAATCCTACAGAAAACTCTTTATTCTTGGGGGAGAAAAAGTTGCCTCCCATCAACTTCAATGGTTCACAGGATGATGACGTGTGGGGAAACACAAACCTCGACAACATTGAGTCCAAATGTGTTTCGGAAGACTCAGAATGAAGAAGAAGATGCCAAGGAAAACCTTAACCAATTTATTTTCCTTTTTAATGAGTGATATGTGATTTTTCAAAAGCCTAAATACATCTAAAAGAGCTATATCAGTTAAGTATAAGATAAAAATTCTAAACCATAGAAAGCACTGTTACTGCTTAATTGACAGCAATTTTTCTTTCTTTGCAATGTATAAAATAATGGGTGCTTTTTATGTTCACTGAAATTCATATTGTTGTCTCCTTTTACAGCTGGGAAAGCGGAAATCTGGAGAACTAAAATATCTTGCTGAAGATCACAATGCAGTAAAGCATAGGGCAAGTTTCCAACTCGAACATCACCCCAGAACACTTCCTTTTAAACATAAATTATGTTGCTAACTTTTTTATTGTTACTTAGCAGGCAGATTTCAAACTGATACAAATGTTGAAAATGATACAAAATGTTTTCCCACCTTAAAGGCATTCTGAAACCTAGCACATAACATCTGTCACTGAAGTCCATAGTTTCCAATGCCATGATTGGATAAAGACCCTATTGAGACTCATGTGTTTGTCTCTCACTGCTTAAAACACTCATGTGTTTTAAGCAACATGACAAGCACAAAAGAGAACAAGTACTGCTCCTGCTCTCCAGGAAGTTACCATAAAATAAAGGGGATAAGGTGCCTTCCAAAGAAAAACCAAATACTAGGAGAGGTCAGAGGAGAAGAGAGATTATTCCAGAAGGAGAGACTGAGGCAGATTTCAGGAGGGAAGAATATAAGAGTCCCAAAAGAAGAAACAGGAACCCAGGTTAGAGAGCAATGGGCAAGGGGTAGGAGGTGAGACTAAACTCACAAGGAAGTTGCTTCAAAACAATAGTGCCCCAAATGCCAAGCTGATGGGTTGGACCCATTTAGGAAAAACCCACAAAGTCCACAGGAGAGCAGACTGCACTTCCATGAGCTTCAAGCTGTAAACAGTAACCTCAAATAAAACTTTTCCCGGATCGGTAATTTCCATCCTGAACAATGGCCAAGTCAAGGAAGCTGAGGATCGAGCCCCCTACCGCATGCCACAAAGAACCTCAAGGGACCCCATGCTCTGGGGAGCTCGCAGGAGGACCAGCACAGAGGTGTGACTGCGTTGGGGCAGGGTGGCCACATGTACAATGTTGTACCTTCCAATGTTCCTCCTTAGGCTGTGCTTATGAAGTCCCAACATGTCTTCTGGGCTGTGTTTTCAACCAAGAGAGTTAATAAAAAGTGGGATGGGCACCAACTATGCCTCCAGAGACATCAGGCAGAATATGCCACAGCGTGCCATGTCCTCCTGCAAACAGTCAGAAAGAAAAGATCTCTAAAAGCAAATTGGAAGAGACTATATATACAGAGCGAGTGCCGGTACAGAAGTTTTGCTGCAAATACACCCTCTAATCCCTTGCAACCCACTGCAAGCTCGAGAGACCAGTGCCCTTGGTAAAACACAGGAGAGATCATTAATTAAAGCCTAGGCCCTTTCTTTGATCCTGAGGGATAAGGCTTGGGAAAATGCACAGTGATAAAAGTGAACATTTTAAAAGAGCAGAGTGAGTGTGAATTCCCAAAGAGACCATTCATATCAAGACCCAAGCCATGAGAAAATGCTACAATGCCCTTGATTAATACTTTANGAGGCATTTTGACCTCAGATCTAATCCCATGAGGCTTAGACCAAGACCTTGCTTGATGCAGACCTCTCTGACTGCTGAAATTGGTCAGGAGCTCAGTGATGAAAATTTGGAAAGTCAATGCTGATACCTGAAGAAAGTCCCATCAGAGATCTGTGACCTGAATCTTCATAACTTTCACAGGCCCTTTCTAAATGCCAAGGAGGATGTGTGTGGAGAAGAATATGCCACCTATGGCATCCCAATATGCCTGTGCCCGCCTGCTCTTCAACAAGGGAATGAAACCTGGGTATTCTCATAGGTTTTTTAAAGCACTTGTCCACATATTTTATTCCGCAAATAACACAATTTAAAATTCAGCTAGAATTTGCCATTTTCTGTCAGGGTTGTGCATTTCTTCCAGTCACCATGACTTCCTGAGATAGCCAAAACACAAAATTTAAATTGTGTTTAAATTAAATAAACACAATTTATGCTGAAGCTGACTTTACCCACTCTGTTCCAACATTACTTATCCTCAGCATCTCTGAATTCAAATATCAGCCAGGTGTGGTGGCTCATACCTGTAAGCCCAGCACTTTGGCAAGCCAAGATGGGAAGGTTGCTTGAGGAGTTGGAGACCAGCCTGGGCAACATAGCAAGACCCCCATCTCTACAAAAAAATTAAAAAATTAGCCAGGCATGGTGGTATGCACCTTTAGTCCTAGCTACTTGGGAGGCTGAGGTGAGAAGATCACTTGAGCCGAGGAGCTTGAGGTGGCAGTGAGTCATGATCATACCACTGCACTGTAGCCTGAGCAACAGAGCAAGACCCCATCCCTTAAAAAAAATACCTGCCCTCTGTACTTCATAGCACCTGGGGCATTTTGAACAGTTCTTCCTTCACCTGAGGTCATTATTTGAGAATCCAATTTTAGAGACTACAATGCTCTCATTACTTGGATTGTATCATTTAATCTTCCCAACAATCCAGGAAGGGGAGTCTCTTAATGATTGTCCTTGATTTCCAGTTAAAAAATCTAGACCCAGAGGTAACCTTGTGAAGGTCACAGAGTTTCAGAGTTCTAAGATCCCATGCGGAGATTGTTGAACTTGAACTTGTTTCTTCTGATCTCATGTCAATAAGTGACTTAGTCAACACCTGGGTAGAAATCATCACTAAAGTGAGAAAGCACATGGTGAGGGGGATGAATCCTGTGCCCACATGGTCCCTTTCACCTGCCCAATCCTCAGGCCTCTCACCTGGGGTACCCCTCACACACATGGCACTTTCCTGAACTCATGGACATTTCAGTTTGTAACGATCCTCCTAAGATTATCTACTTTCACCTATCCACATTTGAACTATACTTCTTTAGTGGAAAAAAAGAAATAAAGCCAGTGCTGAGAATGATCAAACTCCAGAAATAGTAGACTGCTGTATAATTTGTCTTGCGTGACACCAGATCTTTCAAGGAACTGCAAGCTCAAGTGCACAGTTAAGCAAGATCAAGATCTACCTTTGTCTTTCAGAGCCTTCCCTTGGCGAGGTCAAGGATATCTGCTGTGAGCCTGGGCTGGCTGAACCAAAGGGCAATGGAGGCGGCCAAGAAGCCCCAGCCAACTGCTCCCCTCCCCAACCCCCTTCTCCCTGGAGGTCCCTTCAGCTAGAATTTGCCATTTTCTGTCAGGGTTGTGCATTTCTTCCAGTCACCATGACTTCCTGAGATAGCCAAAAGCATTTGCTGTGAGCAGAGCCCCATGGCTGGCTTTGCACATCAAACATTTCAGACAGCCATATATTTCATAGAATACAAGGGGAAGATAACACTGGACCCACAGAACTTTCCAACAGCTTGAGAAAATGTGGTGCCTGGTGACTGACTAAATATACAATCGGACAACAGCCAGGCCATAGCAAAAGATGGAACTCTGATCCACAAGGTGCAGCAACTTTCCCAGAAAACAATACCCTTACCCACAAAAAGCAACCCCGGAAGCTGGCCTGCTCTAAATCAGACCTGCTGGAAGCCAAATTGCTCTCTAGTAACTATCCAGGAAGCTAAATAATAACTTCTGTAACAATTGACTCAAAATGTTCAGGACTGGATTAATAACTGATGGCTTCCCTAATTTTTGTCCCCGATTCCAACTTAGGACCCACCAGAGAAAGCCAAATATGGTCCCCTGACCAAGCACACAGGATGTTCGCTTCTAGTGAGCCGCCTCCAGCTTCCCCGCATTGATAACCTCCAATCAGGGCACACCTGAAGCCTTCGCCTTTTTCCACTATAAAGCTCTCCCACTCGTCTGCCCACCTTTGAGTCTCTGCCAAATTGCAAATGATGGTGTCTGACTCCCTTGCTGTAGCAAGCTCTGCATAATAGCTTGTGCTTATTCTCTTTGGGTAGGTCTTCATTTCTTTTCACACCAGATAGGCATCATCTTTGAAAACATCTTTACTGGGTCTCTTGTCTCCCTCCTGCAGCCACTGATCTAAATCACAGACTTTTTTAGAAAGAGGGAAAATAGTAAAGAAAGAAAGCGATTGAGTTGATGCTCCCAGCCACTGTCTGTACCCTGAATTTTGTTTTTCTGCCATATGTCAGGTGGCCTCTCCTGGACCATCGTCACTGTTTCTCCTGCTTCCCTGCAGCTGCAGACACAGGAGCACTGTGTAGGTCTGGCCTTGAGCACCCACCCACCCAGTACAGAGCCAGCCCCTGCTGTTCTGAATCAGTGCAGTGACCACTTAGAACACAGTGCCCATGCCTCTGTGATCTGAACTGCTCTTTCCAGTTCCATACAATGTTAAGAACCCACTTAAGAATGTTTTAATCATTCAGTAGTTTTTCGTGGTATATAATAAAAAAGTGATTTAAATACAATCTATTTTATTTTAGATTATATCATTAGGGGTTATTTTACAAAGTTACCTTTAAATACTATTGTAAATAAAATTAATAACAAA
>n1118_u1058_AF223389_PCGEM1 RNA_Homo sapiens (human)
AAGGCACTCTGGCACCCAGTTTTGGAACTGCAGTTTTAAAAGTCATAAATTGAATGAAAATGATAGCAAAGGTGGAGGTTTTTAAAGAGCTATTTATAGGTCCCTGGACAGCATCTTTTTTCAATTAGGCAGCAACCTTTTTGCCCTATGCCGTAACCTGTGTCTGCAACTTCCTCTAATTGGGAAATAGTTAAGCAGATTCATAGAGCTGAATGATAAAATTGTACTACGAGATGCACTGGGACTCAACGTGACCTTATCAAGTGAGCAGGCTTGGTGCATTTGACACTTCATGATATCAGCCAAAGTGGAACTAAAAACAGCTCCTGGAAGAGGACTATGACATCATCAGGTTGGGAGTCTCCAGGGACAGCGGACCCTTTGGAAAAGGACTAGAAAGTGTGAAATCTATTAGTCTTCGATATGAAATTCTCTGTCTCTGTAAAAGCATTTCATATTTACAAGACACAGGCCTACTCCTAGGGCAGCAAAAAGTGGCAACAGGCAAGCAGAGGGAAAAGAGATCATGAGGCATTTCAGAGTGCACTGTCTTTTCATATATTTCTCAATGCCGTATGTTTGGTTTTATTTTGGCCAAGCATAACAATCTGCTCAAGAAAAAAAAATCTGGAGAAAACAAAGGTGCCTTTGCCAATGTTATGTTTCTTTTTGACAAGCCCTGAGATTTCTGAGGGGAATTCACATAAATGGGATCAGGTCATTCATTTACGTTGTGTGCAAATATGATTTAAAGATACAACCTTTGCAGAGAGCATGCTTTCCTAAGGGTAGGCACGTGGAGGACTAAGGGTAAAGCATTCTTCAAGATCAGTTAATCAAGAAAGGTGCTCTTTGCATTCTGAAATGCCCTTGTTGCAAATATTGGTTATATTGATTAAATTTACACTTAATGGAAACAACCTTTAACTTACAGATGAACAAACCCACAAAAGCAAAAAATCAAAAGCCCTACCTATGATTTCATATTTTCTGTGTAACTGGATTAAAGGATTCCTGCTTGCTTTTGGGCATAAATGATAATGGAATATTTCCAGGTATTGTTTAAAATGAGGGCCCATCTACAAATTCTTAGCAATACTTTGGATAATTCTAAAATTCAGCTGGACATTGTCTAATTGTTTTTTATATACATCTTTGCTAGAATTTCAAATTTTAAGTATGTGAATTTAGTTAATTAGCTGTGCTGATCAATTCAAAAACATTACTTTCCTAAATTTTAGACTATGAAGGTCATAAATTCAACAAATATATCTACACATACAATTATAGATTGTTTTTCATTATAATGTCTTCATCTTAACAGAATTGTCTTTGTGATTGTTTTTAGAAAACTGAGAGTTTTAATTCATAATTACTTGATCAAAAAATTGTGGGAACAATCCAGCATTAATTGTATGTGATTGTTTTTATGTACATAAGGAGTCTTAAGCTTGGTGCCTTGAAGTCTTTTGTACTTAGTCCCATGTTTAAAATTACTACTTTATATCTAAAGCATTTATGTTTTTCAATTCAATTTACATGATGCTAATTATGGCAATTATAACAAATATTAAAGATTTCGAAATAGAAAAAAAAAAAAAAA
>n1119_u1059_AF228364_snoRNA_Arabidopsis thaliana (thale cress)
CGGCAGATGATGATTTTACTTGGATTCCCCTTCAGAACATTTATGGGTGTTGCAAACTCCAAGCTTCTGATGCT
>n1120_u1060_AF228365_snoRNA_Arabidopsis thaliana (thale cress)
TTGCAAATGATGATCTTACTTGGATTCCCCTTCAGATCATTATGGGTGATGCAATCTCCAAGTTTCTGATGTA
>n1121_u1061_AF232064_snoRNA_Trypanosoma brucei rhodesiense
CGCATGATGTGCTCAACTGGAATTACCATCTGAACGCGGGATACCGCAAGTCGATGAATTAATGCTACGTGCATTACCTCCGCTGTTACTCGTATCACTGAC
>n1122_u1061_AF232064_snoRNA_Trypanosoma brucei rhodesiense
CGCATGATGTGCTCAACTGGAATTACCATCTGAACGCGGGATACCGCAAGTCGATGAATTAATGCTACGTGCATTACCTCCGCTGTTACTCGTATCACTGAC
>n1123_u873_AF232064_snoRNA_Trypanosoma brucei rhodesiense
CGCGTGATGACATACAAAGTTGTTTGCACATTTTCCGACACACCGTGAGCGAGTTACAATATTACAAGAACACCATCTGAAT
>n1124_u871_AF232064_snoRNA_Trypanosoma brucei rhodesiense
CGGTGATTAGCAGTGCGTCTTCCACCTAACGACCCTTGATGATTATGATACGATGCCTGGTCAACAGAACTATACTACACCAAATTTAGTAAATGAGAC
>n1125_u1062_AF232064_snoRNA_Trypanosoma brucei rhodesiense
CGCGTGATGAGGTGCAGAAGGCATGTCGCCGCTACGGCGGTGGCTCGCGTAGCCGTCTGGCTGTGCGCATACTGTGAGCTACTGTACTCCATGGGTGAACAATCTCTGATG
>n1126_u1063_AF233654_repairRNA_Deinococcus radiodurans R1
GTCCTGCACGCGGGTAGTTTAAGAGCAAAATATCCAAGGCGAAAGCCTTTCCCTGGGCAATCCCTTGCCCGGCTGCGGGCCGAACGCCGAGGGTTACCTGTCACGTGGAAGATGCGGGTGCAAGTCCCGCCCCGCGATGAGGACGA
>n1127_u1064_AF233655_repairRNA_Deinococcus radiodurans R1
GGGGACAGTGGCGGAGCTGGCCGAACGCAAATGTGCCCGTCAGGGCGTTTCCCTGCCGCCCCCTTGCCCAGATTGGGCCGACAGGTCAGGGTTATTTCCATTCGTCGCAAGACTTCGCGGGTTCGAATCCCGCCTGTCCCCACCC
>n1128_u1065_AF233656_repairRNA_Deinococcus radiodurans R1
GCTCTGGGCCGAAGTGGTCACGGTTACTTCTCCAACCTCAATGGGCGGAAGCGGTGCAAGCCGTTCCGGGTTCGATTCCCGGCATGAAGTGGCCCGTCCGTGACCCGAACCCTTGTCCAGAGCACT
>n1129_u1066_AF233657_repairRNA_Deinococcus radiodurans R1
GGTGGGCGCTTTCGATCCCTTGCCATGCCTTGCCCAGCTGGGCCGAAGCGTAAGGGTTATTTGGCGAAACTTGGTTCGATTCCAGGCGCCCACCCC
>n1130_u1067_AF236376_TPSI1 RNA_Arabidopsis thaliana (thale cress)
AAAACACCACAAAAACAAAAGAAAAATGGCCATCCCCTAGCTAGGTGAAGAAGAATGAAAACCTCTAATTTATCTAGAGGTTATTCATCTTTTAGGGGATGGCCTAAATACAAAATGAAAACTCTCTAATTAAGTGGTTTTGTGTTCATGTAAGGAAAGCGTTTTAAGATATGGAGCAATGAAGACTGCAGAAGGCTGATTCAGACTGCGAGTTTTGTTTATCTCCCTCTAGAAATTGGGCAACTTCTATCCTTTGGCAAGCTTCGGTTCCCCTCGGAATCAGCAGATTATGTATCTTTAATTTTGTAATACTCTCTCTCTTCTCTATGCTTTGTTTTTCTTCATTATGTTTGGGTTGTACCCACTCCCGCGCGTTGTGTGTTCTTTGTGTGAGGAATAAAAAAATATTCGGATTTGAGAACTAAAACTAGAGTAGTTTTATTGATATTCTTGTTTTTCATTTAGTATCTAATAAGTTTGGAGAATAGTCAGACCAGTGCATGTAAATTTGCTTCCGATTCTCTTTATAGTGAATTCCTCTT
>n1131_u1068_AF237697_Finp RNA_Escherichia coli
TTGACGAGCATGTTTTTGTTGAATACGATCCATCGGATACATAGGAACCTCCTCACAAAGGATTCTATGGACAGTCGATGCAGGGAGGAGAGAACTCCCTGCATCGGCGATTTT
>n1132_u1069_AF245440_PrrB_RsmZ RNA_Pseudomonas fluorescens
TGTCGACGGATAGACACAGCCATCAAGGACGATGGTCAGGACATCGCAGGAAGCGATTCATCAGGACGATGAAAAGGAACACAGGGACTAGGGAAAAATGTGGGCGGGTCATACCGCCCCTTTTTTT
>n1133_u1070_AF250841_snoRNA_Homo sapiens (human)
GGGTCAATGATGAGAACCTTATATTGTCCTGAAGAGAGGTGATGACTTAAAAATCATGCTCAATAGGATTACGCTGAGGCCC
>n1134_u1071_AF250841_snoRNA_Homo sapiens (human)
GGGTCGATGATGAGAACCTTATATTGTCCTGAAGAGAGGTGATGACTTAAAAATCATGCTCAATAGGATTACGCTGAGGCCC
>n1135_u1072_AF250841_snoRNA_Homo sapiens (human)
GGGTCGATGATGAGAACCTTATATTATCCTGAAGAGAGGTGATGACTTAAAAATCATGCTCAATAGGATTACGCTGAGGCCC
>n1136_u1073_AF250841_snoRNA_Homo sapiens (human)
GGGTCGATGATGAGAAACTTATATTGTCTGAAGAGAGGTGATGACTTAAAAATCATGCTCAATAGGATTACGCTGAGGCCC
>n1137_u1074_AF250841_snoRNA_Homo sapiens (human)
GGGTCGATGATGAGAACCTTATATGTTCTGAAGAGAGGTGATGACTTAAAAATCATGCTCAATAGGATTACGCTGAGGCCC
>n1138_u1075_AF250841_snoRNA_Homo sapiens (human)
GGGTCAATGATGAGAACCTTATATTATCCTGAAGAGAGGTGATGACTTAAAAATCATGCTCAATAGGATTACGCTGAGGCCC
>n1139_u1076_AF250841_snoRNA_Homo sapiens (human)
GGGTCGATGATGAGAACCTTATATTGTCCTGAAGAGAGGTGATGACTTAAAAATCATTCTCAAAAGGATTATGCTGAGGCCC
>n1140_u1077_AF250841_snoRNA_Homo sapiens (human)
GGATCGATGATGACTTCCACATATACATTCCTTGGAAAGCTGAACAAAATGAGTGAAAACTCTATACCGTCATCCTCGTCGAACTGAGGTCC
>n1141_u1076_AF250841_snoRNA_Homo sapiens (human)
GGGTCGATGATGAGAACCTTATATTGTCCTGAAGAGAGGTGATGACTTAAAAATCATTCTCAAAAGGATTATGCTGAGGCCC
>n1142_u1076_AF250841_snoRNA_Homo sapiens (human)
GGGTCGATGATGAGAACCTTATATTGTCCTGAAGAGAGGTGATGACTTAAAAATCATTCTCAAAAGGATTATGCTGAGGCCC
>n1143_u1078_AF250841_snoRNA_Homo sapiens (human)
GGGTCGATGATGAGAACCTTATATTGTCCTGAAGAGAGGTGATGACTTAAAAATCATGCTCAATAGGATTATGCTGAGGCCC
>n1144_u1079_AF250841_snoRNA_Homo sapiens (human)
GGGTCGATGATGAGAACCTTATATTTTCTGAAGAGAGGTGATGACTTAAAAATCATGCTCAATAGGATTACGCTGAGGCCC
>n1145_u1080_AF250841_snoRNA_Homo sapiens (human)
GGGTCAATGATGAGAACCTTATATTGTCCTGAAGAGAGGTGATGACTTAAAAATCATGCTCAATAGGATTACGCTGAGTCCC
>n1146_u1081_AF250841_snoRNA_Homo sapiens (human)
GGGTCAATGATGAGAACCCTATATTGTGTTGAAGAGAGGTGATGACTTAAAATTACCATGCTCAATGATTACGCTGAGGCCC
>n1147_u1082_AF250841_snoRNA_Homo sapiens (human)
GAGAACCTTATATTGTTCTGAAGAGAGGTGGTGACTTAAAAATCATGCTCAATAGGATTACGCTGAGGCCC
>n1148_u1083_AF250841_snoRNA_Homo sapiens (human)
GGTCGATTATGAGAACCTTATATTGTCCTGAAGAGAGGTGATGACTTAAAAATCATGCCCAATAGGATTACGCTGAGGCCC
>n1149_u1084_AF250841_snoRNA_Homo sapiens (human)
GGGTCAGTGATGAGAACCTTATATTGTCCTGAAGAGAGGTGATGACTTAAAAATCATGCTCAATAGGATTACGCTGAGGCCC
>n1150_u1085_AF250841_snoRNA_Homo sapiens (human)
ATGATGAGAACCTTATATTGTCCTGAAAAGAGGTGATGACTTAACAATCATGCTCAATAGGATTACATTGAAGCCC
>n1151_u1086_AF250841_snoRNA_Homo sapiens (human)
TGATGAGAACCTTGTATTCTTCTGAAGAGAGGTGATGACTTAAAAACCATGCTCAATAGGATTACACTTAGGCC
>n1152_u1070_AF250841_snoRNA_Homo sapiens (human)
GGGTCAATGATGAGAACCTTATATTGTCCTGAAGAGAGGTGATGACTTAAAAATCATGCTCAATAGGATTACGCTGAGGCCC
>n1153_u1087_AF250841_snoRNA_Homo sapiens (human)
GGGTCAATGATGAGAACCTTATATTGTTCTGAAGAGAGGTGATTATTTAAAAATCATGCTCAATAGGATTACGCTGAGGCCC
>n1154_u1088_AF250841_snoRNA_Homo sapiens (human)
GGGTCAGTGATGAGAACCTTATATTGTCCTGAAGAAAGGTGATGACTTAAAAATCATGCTCAATAGGATTACACTGAGGCCC
>n1155_u1089_AF250841_snoRNA_Homo sapiens (human)
GGGTCAATGATGAGAACCTGATATTGCCCTGAAGAGAGATGATGACTTAAAAATCATGTTCAATAGGATTACGCTGAGGCC
>n1156_u1090_AF250841_snoRNA_Homo sapiens (human)
GGGTCAATGATGAGAACCGTATATTGTCCTGAAGAGCGGTGATGACTTAAAAATAATGCTCAATAGGATTACGCTGAGGCCC
>n1157_u1091_AF250841_snoRNA_Homo sapiens (human)
GGGTCAATGATGAGAACCTTATAATGTTCTGAAGAGAGGTGATGACTTAAAAATCATGCTCAATAGGATTACGCTGAGGCCC
>n1158_u1092_AF250841_snoRNA_Homo sapiens (human)
TTATATTGTCTTCGACAGGGAAGATGACATAAAAATTATGTTCAATAGGATTA
>n1159_u1093_AF250841_snoRNA_Homo sapiens (human)
GGGTCAATGATGAGATGTTACCTTGAAGAGAAATGATGACGTAAAAATTAAGTTCAGTTGGATTACGCTGAGGCCC
>n1160_u1094_AF250841_snoRNA_Homo sapiens (human)
GGATCGATGATGACTTAAAAAAATGGAAACCTTGGAAATCTGAACAAAATGAGTGACCAAGACACTTCTGTGAGCTGAGGTCC
>n1161_u1095_AF250841_snoRNA_Homo sapiens (human)
GATCGATGATGACTTCCATATATACATTCCTTGGAAAGCTGAACAAAATGAGTGAAAACTCTATACTGTCATCCTCGTCGAACTGAGGTCC
>n1162_u1096_AF250841_snoRNA_Homo sapiens (human)
GGATCGATGATGACTTCCATATGTACATTCCTTGGAAAGCTGAACAAAATGAGTGAAAACTCTATACCGTCATCCTCGTCGAACTGAGGTCC
>n1163_u1097_AF250841_snoRNA_Homo sapiens (human)
GGATCGATGATGACCTCAATACATGCATTCCTTGGAAAGCTGAACAAAATGAGTGAAAACTCTATACCGTCGTCCTCGTCAAACTGAGGTCC
>n1164_u1098_AF250841_snoRNA_Homo sapiens (human)
GGATCGATGATGACTTTTATACATGCATTCCTTGGAAAGCTGAACAAAATGAGTGAAAACTCTATACCGTCATCTTCGTTGAACTGAGGTCC
>n1165_u1072_AF250841_snoRNA_Homo sapiens (human)
ATGATGAGAACCTTATATTATCCTGAAGAGAGGTGATGACTTAAAAATCATGCTCAATAGGATTACGCTGAGGCCC
>n1166_u1099_AF250841_snoRNA_Homo sapiens (human)
GGGTCGATGATGAGAAGCTTCTGTTTTCTTGAAGAGAGGTGATGACTTAAAAATCATGCTCAATAGGATTATGCTGAGGCCC
>n1167_u1100_AF250841_snoRNA_Homo sapiens (human)
GGGTCAATGATGAGAACCTTATATTGTCCTGAAGAGAGGTGATGACTTAAAAATCATGCTTAGTAGGATTACGCTGAGGCC
>n1168_u1101_AF250841_snoRNA_Homo sapiens (human)
GGGTCGATGATGAGAACTTTATATTGTTCTGAAGAGAGGTGATGACTTAAAAATCATGCTCAATAGGATTACGCTGAGGCCC
>n1169_u1070_AF250841_snoRNA_Homo sapiens (human)
ATGATGAGAACCTTATATTGTCCTGAAGAGAGGTGATGACTTAAAAATCATGCTCAATAGGATTACGCTGAGGCCC
>n1170_u1102_AF250841_snoRNA_Homo sapiens (human)
GGGTCAATGATGAGAACCTTATATTGTTCTGAAGAGAGGTGATGACTTAAAAATCATGCTCAATAGGATTACGCTGAGGCCC
>n1171_u1103_AF250841_snoRNA_Homo sapiens (human)
ATGAGAACCTTATATTGTCCTGAAGAGAGGTGATAACTTAAAAATCATGCTCAATAATAGGATTACGCTGAGGCCC
>n1172_u1104_AF250841_snoRNA_Homo sapiens (human)
GGGTCAATGATGAGAACCTTACATTGTTCTGAAGAGAGATGATGACTTAAAAATCATGCTCAATAGGATTACGCTGAGGCCC
>n1173_u1071_AF250841_snoRNA_Homo sapiens (human)
GGGTCGATGATGAGAACCTTATATTGTCCTGAAGAGAGGTGATGACTTAAAAATCATGCTCAATAGGATTACGCTGAGGCCC
>n1174_u1105_AF250841_snoRNA_Homo sapiens (human)
GGGTCGATGATGAGAACCTTATATTGTCTGAAGAGAGGTGATGACTTAAAAATCATGCTCAATAGGATTACGCTGAGGCCC
>n1175_u1106_AF251551_tmRNA_Cyanobium gracile (Cyanobium PCC6307)
TTCCCCCGACCCACCGCCCCGCAGGCGGTGCGTCATCCCGGGGCTGCAATGGTTTCGACGGGGCATGAGGAGGGTGACTGAAGCCTGCTCGGTCAGAGCGAACCCGTAACAGCGAACAACATCGTTCGTTTCTCCCGTCAAGCCGCCCCCGTGGCTGCCTGA
>n1176_u1107_AF252279_KLHL1 antisense RNA_Homo sapiens (human)
GAAGCCCCGTGGGGACTTACTGTACCTGTGTCCACATCCTTCACCTGTTGCCTGGCTAGAGTTGTCTGGCTCCACTTTGAGCTCTTGCAGAACCAGCCCTTTTTCGTGTGGTCCAGGAAAGTCCATGCCTGGCACCACCTCCTCCTCTAGTGACTCCACGTAGAAGAGAGTCCTGGCTGGCTGCTGAGTGCCCTGCCCAGGAGCCCCTTGCTGCAGCCTCGTGGCAACTGGAAGCAGGGTGCCATTCAGCGGATTGAAGGAAGAGGAGGAAGAGGACGGGGAGGACGATGAAGAGGAAGAGGAGGAAGGCTTCTTCCAGAAAGTGCTCACACCGCTTCTCTCTTGGCTTTTGAGCAGGCGACTCTGGCTGGGTCCCCAGTGCTCAAAGCTGCCACTGCCGTCCTGTTGCAGGCAGCCTCCCCCCGCCGGGCCGCCGGTGGAAGGAGACGGGTGGCTGAAGAGTTTCCAGCGGAGTCGCAGAATGTGCTTCACATCGAAGTCTTTTCGCCCAGAGCCTGACATGCTTTACGCACAGAAGGCAAAAGGCTGGCAGCTCACGCAGGAGTAGGCTGGTCAGCAGGTGGGGGAGGACAGCGGGGCCCGGGGGCGGAGGAAGAGGCGGGATGCGCCCTCTGCACCCCTAGAGCCAGAAGACGCTAGGTGGGCTGCGCGCTCTGCCAGGCGAAGGCTGGAGCGCAGACGGCAAAGCCGCGCGTTTCAGCCGTGGTCGGGTCCGCAGGACCTGGGCGTGGGGACACCACCAGGCAGGAGCAGAGGCAGGACTGGGACGCCAAAAGCTGAGAATCCTCGATGCCCGCGCGAGAGCCCCGTGTTATGGCGAGGTGGGACAACCCTTAGGCTGGAGATGCGCGAGGGAGGGAGGTCTGAGCGCTCCGAAGCTCCGGAGGCGGCTGCAGCTGGATACACCTCACTGGGATGCGCTTGTGGCAGAGCCTTAGTAGGGAAGGTGGTGGCGTTCTTGTCCTTGCAGCTCAGAGTTCAGTGTCTGGAGAGCGCAGAGAGAAAGAGCCCCAAGTCTCGAGGAAGCGTACCCCTCGCCAGATCTCTTGGTGCACCTGCGCCCCTGTCCCTGGCCTTTTCGAGGATGCCCCGATAGCCTGCCGGGTGGCTCTGAGAAAGTCAATTGCTTTCTGCAATGCCAGAAGAGGTGGTTTTATATAGTCAGTTTGTAAAAGAGAAAAATAGATATTCTAGCGCATATAGGGAGGCAAAAGAAAAAGCCCGCCTGTGAAGCTGTCAAGGTCCTCACAGTACAATTTTCTCTCTGCCTCAGCGCCTCCTCCTCCCCTGTAAGTGACGCAGATGTGCACTGGGGCCTATACGGAGAGATGGAGGGAGGGAGGGAGGGAGGGAAGGCTTCAATCTTCTTTATGCAAGTGAGACTGCTGCTCTTATTGTCCCCTTGCGTGGGTCTTGTCACCTTTTTTCACCCTCCTTCCTCGCTACATTACTGTGTAGCAATACAAGGAAAGAAAACAGGCATTATGCTTTTGCATCAGTAAACACCACACATGAATCATGGCAGTGTAAACTTAATAGGCTGCCATCAGTTTGCAGGTTGCAGGTTAATGGCTTGAATTATTTAATGAACCGCGTCTTTTAACCTTTAGCCTTAGTTTCTCTGTAGTGAGACACAGAAGAAACGGATGCTGGCGTCAAAATGTGACGATGCCACCATCCTGACACTTACATTGTGATTCTGCTATTAAGGCACCCAGGCACTGCTTCACTCCTGGGGCCAGAGGCGTACGGTAGAAATTTGAAGATGGGCATCTGAACACGGGGGACGGGTTTTGCGAAATCAGTGCATTTGGTGTGTAGCCTCGGAATGAAAGCTGTTATCAGTGTAAATCAAGAATGGAATAAAATGATAAAAGAGAATTTCAAGGTATAACCTTCTAGTACATAAATCATTGTATACTATGCATGGAAGAGTTTAGGCAATAAATGAGAATAGCCGAAGGCTACTTACTATCTTGCAAATAGGCGTTTGGAGAAGATGTGTTTTCCCCTTATATCTATACTTAGAATGGTGAGGATTGCGATCACTTTCAGTACATGACTACTTGGAATGTTTTAACCTTTCCTTTAATGAGCCATTAAGATAGAACCCAGTAGTCTTTGTTGAAGGCAAAGGGACCAGAAATGCAATGTGTTCCCTAACTTAACCAAGAATATGGTTGTTGTCCATTCATGAAATTCACAGTTTCAGTAACCCCCAACAGAGCATAGGAATCAACCACTGAAGTGCAGTTAGGCTACTGCTCAGTTACCCCCAAGGTTGAGCTGTAAACGTAACCAGAAACCAAAGCTAAATTTGGAGTCCTTAGGCAAAGTTGGACGCTTTAATAAAATAAGAAATTAAGTGCACAAAAGACCTATTTTTAGGGGAATAAAAATCACTATAGTGCTTTTAAAATATTGATTTATGCCACAACAGCTGGACTGCAATCCCTTGTGCCTTGATTTTTCTCTCAGTATTCAGTGATTTTTTGTTTGTTTTTTGTTTATTAAGCAAAAAACCCTTTAAAGCCAACAATGGTGACAGATCATTTTTATCCAACAATGGAATCAAGTAAGCATTTCCCTTAGGGAAGAAAATAGTTTATGAAATTACACATCACAAACAGGACAGAGGAAACTTTCCATCAGAAATAATGTTGAAAGTTGAAGTGCATGTAATTAATTTATATAGAAATTAGTGCTTCATGGATTATCTCACTTGATTTATTTAAAATAATATAAAATAACATAAGTCAAGTCTCTGTATCTATATTTTTCATTCACCATTCACAAACTGTAATATAAAATTTATTTGTTATTCTAAAATTTAATTTTGCAGTTCCTTTTTCTCTGCAATACTAATAAGAATATTCCACAGTTAAAAGTTATATGTTTAAAGGACAATATTTTATATGACCCAAAGGAGATATAACATTAATTTGTGGTATAAAGGAACATGAATTAAAAATATTGTCACATTTAGCAGATGGTGAATAAAGCCTATTTGTTAGTCTTGTAGTAACATTTAGTATGTTTAAAGCACTGCCAGAGCCAATTATGTAAATATAGGTACCTTTCTATATTTGTCAATCTTAATACAATATATAAGTTTGAAAAAATCACTCTTCTTGGGAATATATTTAAATAAAATTCAACTTTATTATCAAATGAAAATATTTCGAATTTAAGAATTAAATTACGCATGAAGTTATGTTAAACTGAAATGACTGACAAAGATGATTATATTATTTTCACTTGATTGTTACCATACTACAGTGTTGTAGAAAAGGAAGGAGAAAATAAAACAAGAAAAAAAAATGGAAGAAAGAGAGGAAAGTGAGAAGGACGAGAAGAGAAGGAGAAAAAAGAAAGAGGGAGAGACTGCGAGAGAGGGAAAGACAGAGACAGGAAAGGAGGAAGGAAAATAATTTGGTTGGATATTATGGCTTAACCTGGCATATTAGATAAAATCCTTGAAAAATATACTTTGTAAAATACTGCACTAATTAATTTATCTATTATTCAAAAATAAAAAACTTTGATTGATCACTTAGGTCCAATGTAAACTAGTAACAAATATGAAGGAATTGGTCCCATGCAGCTTGCTGGAAGAACCCACAAAAGAGGACTGTTTAACCAGCCATAAGTAATAATTGACTTGTGAGTCAATTAAATTAAGATTTAAGATAACCAAGCTTATAGGCAAGAAGACATTGACATAATAAAGACCACTTTTAACAATCCCAACAAACACACTTTGTTTTAAAGACAGAAACTATTTAATTATTCTAACACTATTGAATTAAATTGAACTGTCAGTTGAATCAATCAGAGTCTTTCAAATGAATGTCCATATGGTTGCCATAGTTTCCTGAAACACTAAGCAAAAAGGTTAATCGGGATACAGAAAATCTGTAGAATGCTCAAGTATTTACTGTAATACACAAATACAAAACTCTTCGCATAAGTATTAAGTCAAGCATGGGTGTAAAATGTATCACACTGAAAGTTTCTACAACTCAAATATTTAAACAATAAGCAAAATTGGCTTTGGATCTGTTTTAGTCCATTATCTGTTACTTGTAATAGAAAACCTGAAGGTGGGTAACTTATAAAGAAAAAGAATTTATTTATTATAGTTATGGAGGCTGAGAAGTCTAAGTTCTAGAGGCTGCATCTGGTGAAGGTCTTCTTCCTGGTGGGGACTCTCTGCAGAGTCCTGGAGCTGCACAGGCATCATATGGCAATGGGGTTAAGCATGCTGTCTCAGGTCCCTCTTCCTTTTCTTATAAAGCCACTAATCCCACTTCCATGATAACCCATTAATACATTAATTCTTGAGGTTCTGCCCTCGAGACCCAATCACCTCCTAAATGCCCCCCTCTCAATATTCCACAACAGAGATTAAATTTCAACATGAATTTTGGAGGGGACAAAAATTCATACCATAGCAGAATTCAAGAATTTTCTAGACTGAAAGCTTCTCACTTTTAGTGACTATTTTCTAAACAAGCACAATTAAATGTATACTTTTCCAGGAAAAGCAATTTTTTTTGTATCTTTTTGGCAGGCCTTCTGCAATGCCTAGAAATTTCTTCTACATGATAATACTCAACAAAAACATTTGAATGGCTAATTATGCTCAAATTTGAAAGTTCATGCCTTAAAATGGCTCCTGTGATTTTGTCTTTGATTAATTTTAATAAGATGTATTTATATACATTTTATTAGTCAATTTTTGCACTGCTATAAAGACATTCCTGAGACTGGGTAATTTATAAAGAAAATAAGTTTAATCAGCTCACAGTTCTGCAGAGTGTACAGCCTTCTGCTTCTGGGGAGGAGGCCTGAGGAAACTTATAATCATGGCAGAAGGCAAAGGGGAAGCAGGCACGTCCTACGTGGCTGGAGCAGGAAGAAGAGAGAGCTAATGTAAAGGTGCCACACACTTTCAAATAACCAGATCTCATGAGAGTTCTATCATGAGAACAGAAAGATGGACGCCCACCCTTATGATTCCATCACCTCACACTAAGATCCTACTCTAGCACCGGGGATTATAATTTGACATGAGATTTGGGTGGGGACACAGAGCCAAACCATATCATACATTAATATAAAATATTATTTAAAATTAGAGAATACCATTTAAAATAATTATATAGAACTTTTAATGTATACATTAAATAAAAATTGTTTTGCAGTGACTTTTTATACCAAAATGATTGAACATAATATCATATAGCACTAATGCTAAGTTATCCCATGCATAATCAAGGGTTCCTACCTCTTAAAACAAATACACATAACCATTCATGGTCTATTAATCTTCATTACAGTATAGTTATAGTTTACTTAAGTGTCAATTAAGTGACTGCTTAATAAACATTTGTAGGTATTCATTGATCCCCAGGGGCCATTTTAATCCACTCAACCTCCTTGGTTTATTTGACCTTTTGATTTAGATCTGGCAATACATTTGTATAGTTGAGGAATTCTTATATAAATTGCTGAGTTAATTTCATTAGTATGTGAATTCAAAATGGCATTAAAATAGTGAATTTCTATTAATGATGAGCCAGGTTTTATTTGTGTGTCTTTTTATTTCCCAAAATTCTGTGCAGAATATTGACAGTGGTTTATGAACATTCATTATTTTCACTTTTGTGCTGGGTCCTGTCTGGTTAATCACACTGCTGAGGGACTTTATATATATAATTTTTTTTTTTTTTTTTTTTGAGATGGAGTCTCGCTCTGTCGCCGAGGCTGGAGTGCAGTGGCGTGATTCCTGCTCACTGCAACCTTCACCTCCTGGATTCAAGTGATTCTCTTGCCTCAGCCTCCCAAGTAGCTGGGACTACAGGCACCACCACCACACCCAGCTAATTTTCGTATTTTTAGTAGAGACGGGGTTTCACCATATTGGCCAGGTTGGTCTCAAACTCCTGACGCTGTGATCCTCACATCTTGGCCTCCCAAAGTGCTGGGATTACAGGCATAAGCCACAGCGCCTGGCCTATGATGTGATTTTTAAAACACTTTCTATCCCTTTTATGAAAATATTTATAGATTGAAAACAAATATATGTAGACATATAGATATAGATAAATGTAATATACATATACATTTAATAAGTATTTCAAGGATATTTTCTAATGAGTAAAACACATTTGATGGCATGATATCCTATTTTGTATAACACTAGAGTCTTTAAAAAAGAAAACTGCTTAACTAATACTTATTTACAAAGGGTTAAGATTTCCCTAGCATTAAAAAAGTAATTTCATTATTTTGTATATTGCACTGAAATTTGCCTGTATCACTGTGGGGTAAGGTGAGTCCCCTGAAACTTTAATCAGGATGATCAAAATAAAATAGTAAGATTATAGTTTATAAAATACAGATTTGGAAGTTATAGGAGTGTAAGATATTCATATAAATATAGATAAAATAGTATAACTTTGTGGATATTTTATTTTCTGTTGTCTCTTTTGAGACATGGGTTTTTGGAGACTTTAAAATATTTTCTCAAATCAGGTTACTACATTTCTCTTTCCATCTTGAGACATATTTGCCAAAACTTTATATTTTCATTCACCTGCATTATTACCAGATCTTTTAAAAATCTAGGACAAAAATGCATGGCTTTAAAAGCTAAGATCTAGTTTGTCTTAACATAATTCTAATTATGGATGTAACGTAAATTACAAATAGTTTTCAAATGCTCTTTTTCCCACAAGTTTATGTGTAAGGAATATGTGAAGTTATAACACCCCAAAACAACATTTTTTAGTTAATCTGTTTTAGAAATAGTACTGTGATTTTTATTTCAAATAAATTATATATTCAGAGTATTGGGAAGATTATTCTAAGAAATCAAATTACTTTGAAACATTATTACTAGAAGTAAATTGGCTTCCAAAATCTAATTTGAAAATCACAACTTGACACTTAATATATTTTCCTCAGTTTTACACCCAGTCAGGATGCTTTTGGCTCACCAGTCCCAAAGAATATTACTTGTCAGCCCCATGGGAAGCTAACAAGTTGACCCTTTGCCTTGAAGACTGTCTCCTGCAAATGTGGTGACCTCTCCCTTTCTGTATAACTCTAGTCACTGGCCATCATGGCACATGTAAATTCTCTTTCTTTATTGCTCAAAGGAAATATGACATGGACTTCACACAATAATATACTAAAGTCTAAAAAATATTAAAACAGATAAATCTGTAAATTAAAGCATACATATAATTATTGAAATCATAGCCTACTTAAGATTTCATGTGATGTCTAGGACAAAATTACAAGTAAAATAATAGCGGCAAAAGGAATGATGAGTTTTCAGATTATATTACATTCTTTAAATTTCTTCACACTAGATAGATTCCCAGATTAAACATAGAGTATTTTCTTCAACGGTTATGTATGAAACATTTTATACATCATATTATTATTTTCTTCTTAGTTGGATAATGACTCAAGAAACTAAGAAAGGAACTATTATTTTATGACATCCTACCAAGTGCCAGACAATGATTTCATTCTATCTTGATACAAATCTTATTTAGGTAGGCATTATAAAACAGGCTTAATATGAAAAGAAGTAGAATCAACTGGCCACTAATATTTTCTTATATTAATTGTTTTAGATACTCCTCCATAAGCCGTACTTTTTCTCCTATTTTAAAATTAACGTATGAGAACTAAAAAAAATGACAAACTCATTAAAGGCAGAGATTCTCAATATCATTTCCTCAGCTGTGTGAGCTCTGCTTGAATAGAAGAGAGACTCCTGGTATTCTCAAAATTGAGCTCTCTTTCTAACGTGTGTGTGTGTGTGTGTGTGCATGTGTGGGTGTGTTAGTCCCTTTTGTGCTGCTATAACAGAACACTACATACTGGGTAATTTATAAATAACATAAATTTATTCTCTCATAGTTCTGGAGGCTGGGAAGTTCAAGACCAATGCACGAGAATTTGGTCTAAAGAGAATCTTCTTGCTCTGAACACACATAGTAGAAGGCAGAAGGGCAAGAGAGAGAACAAAGTCTGTGTCTCCACATGGCAGAAGAGCAGAGGAGACAGAACCTACTCCTGTAAGTCCATTTTATAATGTCATTAATCCATTCACAGGGAGGGAGTCCTCATGACAGAAACACCTCCCAAAAGGCTCACTTCCCAACACTGTGGCATTAGGGATTAAGTTTCCAACAGAAGAATGTGAAGAAATAAGTTCAGACCACAGCAGTGTGTATTGTTTTCAAGTCTATATGTATGTTTGTGTATTTGTGTAGATACATGGGTGGCTATATCTCTATAGAAACAAAAGTAATGGTTTTTTTGGGGGGGCAACACATTTTGGAAAATGAAGATGGTCTTACTAGACTAGGATGGTTCTGCAGGGCAAAGAACATGTCTTATTTAATTTTGAATTCACAGTGTCTAACTGTCTATCATGGCATGAAACACCAGTAAATAATGGATGGTTTTGAGTTTATCATAATGAGAAATGGATAAGAGTAATAACACTTTATAGTGGAGGAGAGGTCAGGAAACATATAATACTTTTTTTAAAAAGTACTGTGAAACTGTGGTTCTACAATTATTTAGTATGAAAACAAATAGAATTATAAAAATAGTGGTTTCAGAATATTTTGGTGCCCTCATTTGTATTTCTAAAGTACTATAAAATACTCAAGAAAAATTAAGCATATATTATGTATATTCAGTTTATCAAACAGGAAATGCAATGTGCAAGTTAGGAAGTGCTTTTATTGTAATTCTCAAAATTGTATTTTTAAATCAAGAAAGAAATCTTCACATTTAAATCCATAAGCTTTAGTTACATTAAAAATTCAGTCTCTGCATTATCATCCTTTCATTTATTCAAACACATTTTTTATTGAGCACTTACTCTGTGCCAAGCCATGTTCATGGTGATGGGGGTGTATCAGTTAAAAAAAAAAAAAAGTAGACCAAAATCTGTGCCCTCAAGCACCTTACATTCTTGAGGTGAGAGATAGAAACTAAAATTCAACAAATAGTAAGTGTATCAGATAATGGAGACATCATCCAGGGAGATAAATAAACCATGGAAGAAATACAGAGAGTTTTGAAGGAAAGGGGGGCTGAGCTTTAAGTAATCTATGTGCTTAAGCTCCACTGATAAGGTGGTATTTCTCCTGTGTCCAAAAATAAGTGAAAGCATGGACTGTTCGTGTATGAGCGACAGTGCCATAGCAGAAGGAATAGAAAAGCAAGGGCCTGGGGCCATGATAAAGTTTGGTGTATTTAAGGGGTAATAAGTACTAGAAGCGAGTGAGCAGAAACGAAACGAGCTCTATTGGAGTTCAAGGAGGCAGCAGACAAGATACCAGATCACTTACAGGATCTTTTAAGCCAGTGCACAAATATTAGTTTTTATTCTGAATGAGATGGAAAGCCATTGGAGGATTTGGAGCATTGGAGTGATAGCATCTGACTTCCATTTTCTAAGATCACTCTGGCAGATGTGATAGGAATAAACAGAAGAAAGCAAGGTAGAGAAAAGAAAAACAATGGACAGACTATAGAATAAAGAATCTAAGAGATGATGTAAATGTGGACCAGACATTGTTGCCAGGTCTGGCATTCATAGGGAATCGATTTTCCCTAAAGTTCATGGTCTTTTTCTTTTCATTTTTAGATGGGAAGCTATGTTATAGATAGTCTTGTCTATCTTTTACTCCCCTAAAATAACTAATTTCCCTATTTTTTTCTGTTCTTCACTGATGCAGAATGCTCACATAAACCTAAAGCATGTTCAGGTCTTCCTCGGCTATATATTCCTACAAGATAAAGTAATTTATATTTTACCCTGATTTACAAAAGAGGGTATAAACTTGTACTTATGCAACATGAATATGTTTTATACCTAATTTACGGCATAAGGACTATAGTCAACAATGTTCTATTACACTAGAAAGTTGCTAAGACAGCAGATTTGGATGCTCTCATCTCTCCCTGTCTCTCTCCTTCTCTCTCACACACATACACATATGCACACACAAAAGTAACCATTTTAGGTGATGAATATGTTGATTTGCTTAACTGTGGTAATCAGTTAACTATATATACCTATATCAAAACATCATGTTGTATACTTTAAATATATACAATTATAAAAATGAAAAAAACTATGCTTTTTCCTGGTGCATTTCAAATTTAGCTAGAGGGATAATCAAAGCTCTTCCTCACTCTTCAAGGATTGACAAAAATGCTATGGGCAGTGCAAGAAGTCACAGCTTGAGCAGTGCATCCTATAAAGATATTTGCATAAAGCATTTAAATTATAACATTTGAAAAACAGTATGTGCATTATTCCTCCTAGTTGCCTACTGACTGGAAAGCAACATTGTAGAATGGAACGTCACAGGCTTTGAAATCAAATCATGACCCAAACCCTTCTCTGCTGCTTACAATTTGTATAACCTTGGGCAAAGTACTTAATTTCTTTGAGTCTCAGCTTTCTTATCTGCAAAATAGAAGTTAACGTGTAGGTCAAATAAAATAAAACCTGTTAAACAAGTAGCACATTGTTGGTGTCTAAGTAAAGGTAGATATTGATGTTTACTTTGAAAATATTTGTATATTTAAATGACCTTTATATTGTTGTAAAAAAAAGTTTAAAAATAAAGCTTTCAATACTTAGTTGGCTTTGCAACTTTCAAAGGCATTTTGTAAAATATCCAGATTACTATTCACTTGAGTATTCACAACATAGAATCACTGATTAATCACAACATTGATTTTTTGGTGAGCTTGTAGTTTTGTAAGTCAATGACAAAAATTGAAAATCAATCTTTTACATTATTTTGTTCTAGGAATAGTCAGAATTCATAGATGTCTGCATATTAGGGATATTCTAAAATCATTTCAAGTAGGAGAACTGTAATAAAATATTTGCTTCAGTTGACAAATCACTTAAGTTAATTTTATCCTCTCCTGTGAGTTGGGAGAATAATGAGAAGTTAATGAATAAGTAATTTAGATTACAAAAAAAATCTTGGCAATAGTCTGTAAGGAACTTAACAGAAATGACATTTCACTAAGTAAATCTCTGATAGTGTGAGTGAAACAATAAATTTTACTGGGAAAACTAGAGGTTATTTTGTCAGTTATGAAACCTGACCATTAATATTTATTGAACTGGGTATATGGAATTTATGGATATTATCTACCAGATATAATGCATTATAAAGCCATCATTGTGGGATTTTTTGTAGAAAAAAAATTTATTCAAATGACATGCTAGTCACATTTCTGGTTTTGAGTAAGAATGCCATATATACATATATGCATTTATATATTTCATTTATACATAGAGAGGAAGAGAGAGAGAGACTGGAAATTTTTTTAAAAAATTAATTTGTTTCAAAGAAACAGGCTATCAGTAAGCTAACTTTTCTACACTTATGTTATTTTTATGACTATCACAGAATGCTAGAATAATTTGTATTATAAAATAGACTTAAAATTTCCTCTGATTTTGTAGATTCCTGCCTGTGGAAACTAAAATTGGCACTTATATTCAACAGAACAAGCTTACCAGAAGATTCATTTATTATTTCTGATATACTCTTACAGATATATACTTTTTTTTTTTTTTTGAGACAGAGTTTAGCTCTTGTTGCCCAGGCTGGAGTGCAGTGGCACAATCTTGGCTCAGATATATACTTTTATACGAGCATTGCAAACCCAGACTATAGATTTCTGGCACTCAAAAATATGTCAAGCCATGGAAAGCTAATTGAAACCACTGAATATTTCAATAAATCAATCAGTCAGTATTGAGAATCAGCTGTGTGCTCAGCCCTGTGCAGTCAAGTGGACAGGGACATATCTTGGCAGAAGACAGACACACACAAAAGAAGGATTGTAAAGTCTAACTAACCCCACAAAAAGATGTTTTAAACCCTTACTCTTATAATATACATACAGCTTATGCATCAGTTTTTCACAATTATTTCTCATGCTTGTCTCTCAAACTTACAAAAATGAGGTCAGAGAGGCCTAGTTAGCAATCACACAGTTCTCTAGCAATCACACAGTCAGCCCTACAGGAGTCCATTTTTTTAACAAGAGAGAATTTTACAGGCTATAGAGAGTTATAAAATTTTAATTTTCATATGCAACATAATAACTCTTAAAGTTGCTTACTTTCTCTTATAAGATTGTCTTTCTCTGACCCAGTTCTGAGCCCCATTTTCCTCTGCTCTGGGTTGTGATCTCTAATAAATCTTTAGAGTAAAGCTGTTATTACAGTGTGAACTGATTGTTCTCTATTCAAATGATATCGTGTGTATACATGCACATGGAGTTTGAAGGGATTCAAATTACAGTGAATAATAAAAATCAATAACTTTAAAGTGAAAAAAATACAGGTTGAACATCTGTAATATGAAAATTCCAAACCCAAACAGTTCTAACATCTGGAACTTTTTGAATGATGACCTGATGACATAAGTGAAAAATTTAGCACCTGACTTCATGTGACAGGCAGAAGTCAAAACTCAGTCAAACCTTTTTGTCATGCTCAAAAAAACTTGAATATTATGTAAAATTATCTTCAGACTATGTGTATAAAGTCAGTGATTATGAAACATGAATGAATTTCATGTTGAAACTTGGGTTCCATCCACAAGATATTTCATGATATATATGCAAATATTTCACAAAAAAAAATGCAAAATCTGAAAACATTTATGGTCCCAAGCATTTTGGAATATGTATATTTAACCTGCAGTTTACATTTACTTATTTTTGACAGACAGTAGTAGTTCAACTCATGTGACACGTAAGAATTGATAGGCATTAAAAAGGTAAATAATTTAAGTGGAATCAACTTATAGCAGACATTGAACTCCACATATTTGCAATTTTTTCTTGTTATTTTATCATTACCATGGAGGTTATGGGAGTTTTAAGGTGTCAGTGACCCACATTACCTTTAATATGTCCCCTTTCAATAGGATATCCCAAAAGAAAATAAAAAGGAATTTTAAGAATGTTAAGATATAGTTGAGCAATGGTTTCAATGATGTCAAAAAGATTCAGGAGAACTACTATACAAAAAATAGAGAATCAGTAAGGAGAAATCTGCTGATGGCCTTTAATTAAGTTAGTGATTTAACTAATGTAACATTTGGTTAGAACAAGACCATCTAATATAGACAGAGTTAAATTTTTAATAATAATTTAGACTATTAGGAGGAGGCCATCAAATATTTGTCATTAAATTGTTGGAGTCTATTCAGTCATGGAACAAGTATTTACTGAACACTTGCTTTAGGCATATAACCATGCACTATAAAGCAAGCTTCCACTATCCATACAGAGCTTGCACTTTATTTAGTGAGAAAAACCGTAAAGAACTAAACAATAAAAATAGCTCAATGTTTTGGTAAGTAACCATTTGGTGAGGTGGAAAATGACAATGCACTGACAGTTCTCTGCTTTAAATAAAATCTGCACATATACACCATGGAATACTATGCAGCCATAAAAAATGATGAGTTCATGTCCTTTGTAGGGACATGGATGAAGCTGGAAACCATCATTCTCAGCAAACTATCACAAGGACAAAAAACCAAACATCACATGTTCTCACTCATAGGTGGGAACTGAACAATGAGAACACATGGACGCAGGAAGGGGAACATCACAAACCGGGGCCTGTTGTGGGGTGGGGGGAGGCGGGAGGGATAGCATTTGGAGATATACCTAATGTTAAATGACAAGTTTCTGGGTGCAGCACACCAACATGGCACATGTATACATATGTAACTAACCTGCACGTTGTGCACATGTAACCTAAAACTTAAAGTATAATAAAAAAAAAAGAGAGAAGCCATCCTTGTCAACTTGAGGTTAGAACTGATCTAAAGGAGAGAAAAGATAAAAAATAGAATAAGAGATAGAAAAGACAAAGAGAATAAATAAATGGAATCTGAAAAATACAAGGAAATGATCAACATAAGAGCAGGAAACCTCACAAATTAGACAGGGAATGACTACTGAAAGCCACTCGGGTAGCAAAGAGGATGGGATATCAAAGGAACATAAAGATCACTGCTCATGATAGTGTGGGAGGAGAGGGAAGAGATAGTGTTAGAGAGTTTTATTTCATAGCATAGAGTTTGATTTTAATTCTATCTCCAATAGAAACTGAGTGAAGTCTTTCAAGGAGGGAAAGGGTGTATAATTTAAGATTTTAAGAAAGGTGACCTGTATTGGATTAGAGAAAGTAAGAGTCAAAAGAAAGAAATGAATCATCCGGAAATATTTTTTTTCTCCACCCAGAGACTCAATAATGTAGCCAAGAATCATTCAGTAACAAGGTTCAGAAATAAGAAGCTGGAGGGTATTAATGCTTTCATTCATACAGATGAGCTCTCTTAATTTAGGAAATGTAGAACTAGAATTGATATTTCATAAATAGATATGATTTACAGCACAAGAAATTGTATATTCTCAAGTACTTTAACATATATTATCTTATGTTATAAACTGTGATGACTTTTAAAAGGAAAATAGCGATCTTTAGAAGTGAGAGTAAAGGTAAGATCTTAGAGATGAGAAGCAGCACACCATGGGAAAAGCAAGAAGAAGGAGGAATGTTATGTGCAATTAATCGGGTCAGGAAAGAGATTGGTATAATGAATGAATTGAAAGGATTTTGTGGGATGAAGTAAATTTGAAAGACAGCAGTGGCAGTTATTAATATTTTTAGATTATTAATCTAAAGATTTAAAAATTATATAACCTGTGCACATTTTTTATTTGTGTCTTGCATTTTTAGAATTATGTTCTAGATATCCTGAAAGCACCATACCACACTAATCCCTTCTTGCACAAATTGAGGAAAGATGTTCATAATCCACAATGCTTTATCCCAAGAAAGAACAATAGATTTTAAACCTATATTGCCAATATAGGAGTGCAACTGACATGTGTCCCAGAAATTGTACCTGGGAAAACTCAAAAATTTTACTCTACCACCATTCTAGCCTCAATTCCTCTGAAGATTAACTCAATTCTATTGTCTTTTGTTCATCTAGTATTACATCTTTAACTTACAATTTAAACTTCCTAAATGCAAAGTTTTCTAACACTAAAGCATTAGTAGTCCATTTTGTCTTACGATTTAACTTGAGAGTTATACAGCTCTAAATAAAATGTTATTGTAAATACTTATAAATCCTTGAAAATTAACTGAATAAAACATGCAATGTCATTCATTATCTCCTGTCCTTCTTAGAGAGAGATCTACATCAAAATTATCTCAAAGAGAAGATTCATAAAACAAATGTGTACGGCTGAGAAATAAATAAACTGAAACTCTCCATGAGTCAAAATGACATTTCTTCTAATGTTTATAAAAGAAACATAAATATTTGTACATTTTTATGAAACTATGGTATGTATATTTGAGGATTCTTTCAAAACAGTTTATGTAAAACGTAATAGAATTCAACAAGTCCAAAGATAAGAAATTGAAATAAGGAAGGGTTCAAGGAAATGACTCAAAGGGAGAGATACAAAGATAGGCATTTGATCTTGGTTAAATGAGAGGAATATTATAAAAATCTACCAAAATCTGAAAATGATACAGATAGATCTTACTCTGAAAGCAACCAGACCTGGATTTTAATTCCAGCTCTAGAACTTACTAACTTGTGTAAACTTGAAATAATTCCAAATTCTCTTAGAGACTTTGTTTTCTAATTTGTAAAACTGAAATTATAATACTTCACAAGCTTTTGTGGAAAAATAAATTAAATATATATTTTATCATAAGGTTCAACATATAGAAGTTACTGAGCAAATATTAATCTAGGTCTTCCTATATCCTGTCTCTAAATCGAAATTCTCCATGATAAATACATTATTAAGTAATAAGTAAATTGCAAAACTCTTAGATTTTGCCAGATACTATAGATAGAAAATATTACTGAAGTTTAAATATTGAAATAATTTACTGATGCCCATAAGTTGTAACTAATTGAAGTTGATGTCAAGGAATAATTGTGCATCTTAACAATAAACTCTTTAATGGCAATTTTAGATTATTACATTGATTAACTAATAGTAAAGTACAGCAAGATTTATGTTGTCAAAATCTTTGGCCATCATCTCTAGTCACTAGAGTGAATATTGAGAGTAAATGTGAAGAATGTTCAAAGTTGTATTTACTATTGAAGGTATTACCTATTTTTAGTGTGAACACCCCTATGTTCCTACGACATAGCCTAGGTGTAAAGGTCACCTTGTGAAGGCAGTGGACAGTTGGTGAAGGCTTGTACCACTGTAACTCTGCTAAACTTAGAAAAGATCTGAAAATACTACTGATAGGTAAGATCCTATATTCTGTCCACAAAAATCAAATGAGAACTATTTGGGTAAGGGAAAAAAATCCCAAATATATTATGTTAAGCCAATAACAATTCACCATTAAGTAATGAAAAATACATATCAAAAAGAGAAGTCTAGGAAGAAAGGAGTTATTTGTACACAGAAAATTCTCATAATAAATATTTAACTTAGTGCCTGAGGTTGTCACCAAGGATCTCACTTTTTGAATTATTGTATTTATTTAAGATCAGAATATATAAAGAATATATAACATTGGTGTTATTTGTAATTTACAGTTCAATCGCTAAAATGTCATTTCAGAGTATGTTAAATTTAAGGTGTAGGCTTTTTGAAAATAAGATTTTCCTTGATGAAATACAAACAGGATTGAATTTATTTTGTTAATTTAATTTGTACATAATAGATTTAGAGACACGACATTAAATCTAGTGAAAAGCATTTGTTATTAAATTTCACATGCCATTTTTCTTTATATTATTTCCTTAGCATTTAAAGAAAGTATAAAGAACATACAGTCCTGTATTATTTTTTGCCTTTGTGTATTAGCAAGTAACCATCATTTCCCAAGCAAATATTGGTGGGCGGTCTCAGCTCTTTCCTTCCCAAAACATTAAATAATTAATAATGTCACCTGCTTCACACTTTTGTGAAACCTATTCTAGATGCTTTATAGCACTTACATCCTTGTGGGAAAAGATACACAAGCAAATATATAAGTAAATAATGTCACGAGGTTGTGTGCAGAAAAATGAAGCAACCAAATAAATAGAGAATGCTGAGTGGAGCTGCAACAGCTACATTAGATACTATGGTTAGAGAAAGCCTCTCTGATAAGATGACAATCAAGAAAAAGCCTGAATAAATAGGTAGGAGGGTGGACGGGAGTTTAGCAGTTACCAACAGGCATGAGGGAAGCAATTGAAAAGACTTTAGCCATGTGTTTGGTACCTTAGAAAAACAATAAAAGGGAGGGAAAGTAATTAAATGAATGACTCAGTTAACTGTGAACTCTAGTGATAGAAGATCTCAGTAGCACTCAATCCCCTTGTTTTTTGTTTGTTTGGTTGTTGTTATTGTTTTTTTTCCCCGGAAATCTGGTTTTCCCCAAGCCTCGCCAATCAATTCACTATTTTTTTCAACCACTAATTACTGAAGATATATCGTTGTCATCTCCTTTGTACACTAATAGTCTAGCTTTGAAATACAGATATATAATTGCTTGCATAGCCAATCTTCTATTTAATTACCTTTAAAGGATTTTTAATTTCTTCTTTATTCTCTTTCATTTAATGTTATTCTACAATGTGTGTAATTTGAGGGTTTTTTTTTTTTTGGCTTGCATTCATTCTAATTTAACTCAATGGGCTGTGCTGAAGTTCTTAGTGGTTGTGTTTGGTTTCAGCTCTTTTTAAAAACCGCATATATTTTACTCCCTCCTCTTCGAATATCAATTACACGAAGTTGTAAATTATGGAGGTTTCATTCACCACTGAATTTTTAGGGTATACCTATCAATTACCCTAATTTTTAAAAATCTTTTCTGTAACTCATTATCTTTGTATCCTCTGCTATTTCTCAATATAAACTATATGCAAAATACAGACAATGGTATTATGAGGTCTTATGTACCCTTCATCCAAACTTTATTTTCTTTTTATGGACAATCTTCTTAAATTTCTACTTCTATCCACATCACCCAACTACTTGTCAATATATTTTGAAGAAAATCCCAGAAGGTACGTCATTTTAGATACAAACATATTTATGTGCATCCAATGAATAAGAGATCTTTTCCTTACGAGGTAAACGCCATACCATAATCAGACAAAAATTACAATAATTTCATAACATCATCAAGTATTCAATGGGTACTCAAATTTCCCTATCTGATATTTCTCCAGGTTTGTTTGTTCGAATTGACACTCACATAGGATATCTACCTATTGAGTTTTTGTTGATGCCCATATTTTAAATTCCTAAAACCACTATTTTACACATGAACTGGAATACTTGTTTTTCCTTGGGTGAGCTTTTGTTTTCTTTTAGGTAGTGGTGAGTTTTCTGAAATGTTTGATGATGTTTGGTTGCCTCCTCATCTTTGTTCTGAGAATTTCTGCTTGCATCTCTATCAATCAGTTGCAGATATTGATGCCAGGGATGTTTCACTGATGCACAGTCAGCTGGTCTGTGCTGGCTTCTGAATGTCAGGTCTCCACATTCCTCCTAGACTTTACATATAACCGAGAATACCTGCTCTGCTTCTCTTACTCCCAAACCCCACCACCGGGGGTTGTGGGAGGAGGGCAGAGGGACAGGGGTACAAATATGCCTGTTTACTTTAGCTAAAGACAAGCGGTGTGATGCAAAGGAGAAGGGGCCAAATCATCTGGTGCTACTAACGCAGGCTCGCAATTGCCATCCTGACTATTACAAGAAGGACCTTCCTGGTTTTATTTTATCTTTAGAATCTGTGCTTGTAGCATGCTTAGGAGTGTCCCCAATTCCGCAATTATATATTTGTACAAGTGTTAACATCTGACTTTCTCTGGCCATTGTAAGCTCATCATCTTTTTACTTTTTCAATATTTCCAAAAGTTTATTTCCTGTCCATGATACACTGCAAGCAAAGTAATAGATATGTATACATAAATACAAAGATACAAGTTTCATAAATAGATACATGGACAGCTAATGTTCCCTCACTTTCTCATGGTACAAAAAAAGCTAAACATATATATTTCCTCTAATACCAAGGAATTCATGGTAGGATATGAGGTGGGTAAGGTGCTTAATCTGACTGATAGATTCAATACATGGCCTATTTATTTCTAACTATAAATTAGGCTAAGTTGTGCTCTCTCTTTCTCCATACAGGTAGATGAATAGATATAGACATATGAGTAAACCATATATCTCTCTATACCTATCTATCTGTGTATATATTATATACATAAATAGATCGATGTAAACTATTTCTATCTATCTAGACATATTATATATATATATATGAAATCTTACATGGGCAGGTAGATAGATATATCTATAGGCAGATAGCTATGTCTCGGTAGATAGATGTATTACAGTTTAGATAGATATGTACAGTTTACACATCTATAAATAGACATCTATAAATAGACATAAATGGATATCTAGATCTACAGATTTCTATACATATCTAGATCTATATCTACAAATAGATAAAGATAACCTTATATCTGTATATCCGTATCTATATATCAACAGATACAGAGTTTACACATTTATAGAGTTTTCTATAGATAACTCTGTATCTGTAACCTCTGTATCTGTATATCTATATGTACCTATCTATATATACACTATATATCTATCTATAGATACATATATCAACTATAATATGTTTTGGATTTATATACAGTTTTGTATTATGAATCTTAAGCTCTGTCACTCTATCTCTCTGTCTCTTTCTCTATGTCTTTATCTATTTCCATCTCAGAGAGACAGAGACAGAAAGAAAGTTTAAAATCAAAAACTGTAAATAAATTCAAATTGGATAATAGCTCAATAATTTATCTCATTTTTATGTCACTTAATTCTTTCTATTATTTGGATATGCATCAATCCTTAAAATAGCTATGACCTAATGAGATGGAAATTGCTCAAGGTAGGAGATCTAGATCCTATTAACTTTGTGATTTTAGTAAGAGTATTGCTAGCTGTTCTTTAATAATGAGGTTAAAACTAAACTTTTAATATGAAGATTTCTAAGCATAATAAAATGTTGTTATCCTTGAGAATTAGATATCATCGAAAGAATATTAAGAATTATGCACATAATTAATTGAAATAAATTAACTTAGTGTTCTAAAAATAAACTAACATAGAGAGGTATATATGTAAATGTTAAGATATATGACCATGATTTCTATAATCATGTATTTCATAAAAATAGAATTTCAAAGACATTGAGAATATTGACTTTAGAAACCAGATTGAAGAAAAAAGCCATGATGCTACCTGCCCACAACACGTACTTTCACCAGATATCTGGAGGCCTGACATATGAAAACAAACATTTTTTTTTTTCTTTGCCTCATAGAGCATAGTGAAAATTTTGTGGGTGTAGTTAGAGAGTACAAACATCAAATCATTAATCATGTTATTAAAAAGCAATACTGTCTAATAAAAATTAAGCAGTGCATTTCAGTTTTCAGAATTATCCAAGCAGAGGCTAACTTATTCAAGCAGAGGCTAAACAGATGACAATTTATTCACCTGTTTACTTAATTGTAGATAGAATTCATGATTTAAGAGAATGCGTGATAAATGAGTGAGCGAGTTTTCACTAACACTCCTTCCTGCTTTAAGGTACTTTCATTTTATGTTGTTATATAATGAACAATGTTGTTACATATTTATTTTACTATTTTATTAAATTATATATAATTCATATAATTACATATGAATTTTACTAGGGATAGGTTAGTATGAAAAACAGTTTATAGAAGGTTTACATTAATTGAAAAATAACCTTTTGTCATACTTTTGTTTATTTCGCCTTACAAGCTTAGGCATTTAAAACTTGATTTACCTGAAAGTTGTTTCTTACATTACAGACATCCACTAATGGCTTTATTGCCTGTCTAATGGTCATTAAGTGAAAATGGGCATCTAGAATAACACAGCTGGGGTCCACTTTACCAAGATTCTTTTTAACACAGTTGGATATCTACATGATGTTCATACCCACTGTTCTTTCTGAACATTAGTGCCCCATAACTGTCTTTTACAATGTAATTCATTTTCTTTCTTCACTTAACTCTGTTGAAGGAATCAAAAGGCTGAACCCGTAGTTGTACTAAGAAGGGGAGGGCAAATGGTCTTGAAGAGTAGAAACACCTTACTTTAGAGGTAGCATTAAGATGAGCTTCTATTGACTTGAGCTTAAAAATTAAAAAAAAAAAAATTACAATCTCAGTAGTGCATTTCAAAGGCTCAGAATTATTGATTCAGACATAAACCCATGTTTAAAAATGCTAACACATATGCAGTGTAACTAGTTTTACCAACTGGTATACTGTTTCCCATAATGCAAAATTTACTCTTGTGTTTATTTTTTTTGTATACTAAAATATTGAGATTCTTCCCCGCAGTGTCCTGAAGCCCTCAATGTTCGTATATCTCTTTAAGGTATCTTATGTGTATGAAATATGGCTCTAAAATGCTAGATTTGGCCAACAACAACAACAACAAAATCCCCCCACCTTTTTTTTTTTTTGAGACAGAGTTTTTCTTTTGCTCTTGTTGCCCACACTGGAGTGCAGTGGCGCAATCCCAGCTCACTGCAACCTCCACCTCCCAGGTTCAAGCGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCATGCACCACCACGCCCAGCTAATTTTTTGTATTTAGTAGAGACAGGGTTTCACCATGTTGGTCAGGCTGGTCACAAACTCCTGACCTCAGACGATCCACCTGCCTCGGCCTCCCAAAGTGCTGGGAGTACAGGCGTGAGCCACCATGCCGGGCCCACAAAAATCAATTTTTAGAGCTGTTCAGTTCATTATGTTTAGAAGAACAGATAAATTGTATACAACAATAATATAGCTATATGTTATAGTTATTGTGTTTTTCAACAAAATAGTTTATTTGAAGGATTGGTATGTTGTTAACAGATTTCTTAAATATAATCATACTTGGATTATGAACTGTCAGATTAAAAATAATATTAGTGCTTGTATTTTTCTGTGTGTGTGTGTGTGTGTGTGTGTGTGTTATGTTTTCACTAATCGAAGAAGCTTGCTGGTATTTCTTTCTTGGTCCTTGGATACACTCAGGCTTTCTTTCTAATACAACTCCCTCTATGCAGATATACTCAAGATGAGTCCTCCCTATCTTGTGTTTAATACAAGGTCATGTAATGCAATATATTTAGTTAATTATACCTAACTTTTAAAAAGTCCTTTACGTGAACCTATAATTATATGTATTTTTATATGTTACTATGTTCTAAAGGTGTTTGATGTTTAAAGTTCATTTAGAAATGTTCTTATAAGTAGAATTACTTCAACCATCTGTACAGACTAGCAAAATATTATTCTAAGTGTCTCCTTATGTTTTAACCTGAACTCTCTCTCTGCTTTAATTGCAATAGCTATGGCAACCACCCCATCAATGACAAAAATCCTAGAAGGATGTATGTATAGGAAGTTGAAGTGTTGAGAAGAGAATGGCTCAGAGTCAAGCGGGAACAAGGTAAAAACATCAAAAGGTTGTACTGGTGATAATGGCCAGGTGTGTGCCATTAGTGCCTCCTTGATATTAAAAAAATATATGGTGGATCAACTACATGTTAGTCAATTCCAGCCTAGCAATCAAGAGGATATTGAAAGGGAACTTTTCAACAAGATAGCAAATAAGTTAAGTGCATGGACCATGGACTTTCTCTCCAATCTACTTGATATCTAAGCTTCACTAAGTATCCAGATGCCATCTTGTGATGAAAGAAAATGCCATTCTTAGTAAGAGGAAAGACATAATTACACCACATATGTTGCGATACACTAAACACATTTCTTTTTTTATTACATGTAAATTTAATTTCTCCTACCTTTTCCAGCTTTGAATCATTAAATCCTGTGTAGGTCAGATGCAGTTAAAAACAAATAGGTCTTTACTCAACCATGACTTTAAAATTAAGGATTAATGTGTATATATGGAAAAATGTTTATCTTTAAATTCACGTTTTGTAGAAATGAGCACACGCTTACTAATAACAAAAGTTCATATTAACATACTAAGAAGGCTTGAAGAATATAAAATACATTTGGAGAGACTAAAATGTAAACTTTATTGTGATAAGCCTATTGCAGGAAGAATGCGTGATACAGATATGCATAATGTGATGTAGGGGAAGTATTTTAAAACAAAAAGAAACAACTTTTGAGATACCAATGGTGGGTGTGAGTTGTGGGAGAGATGGGTAAGTAATGCAGAGCAACAAAAATGTCTAGGAATGCACAAGTAAGCATGCTGGTTTCCATTTCAGATTCAAACTTCAGAGAGAGAGGGAAGAAAAACATTTAAATATATCTGGCATAATCCAAGACTATTTACGACAAGTGTTCTGTGTTTCTAATAATAAAACAGACTTCACCTCGGAGTACCTGCAGAACTGGGACCCCAATGACCAGGGAGAATGAAGAACAACTTGTTGAAGGTATAGAGAAGGCAGCAAATCATACAAGAAGGTCCATCCCAAACCAGAGATAGTATAGATAAATCTCTCATGTTAACTATGGAAAAAATAAAGGAAGATGACGTATTTTAATAGAAGGGAAATTGCGCTTATTGGGAGTAAGAACACTGAATTGACTGAATATCTTAAAGAGAGTTAGGAAGTGAAATTCTCAACAGGTGATTATTCTTTGACCAATTTTGTCTTATCTCTTATCCACATTCTTCCCTGCTCTTCCCAATACATGTGTAAGAATATCCAAGGGCACACACATACCATAAGCAGGAATGGTGTCCTAAGGAAAGTCAATATAGAGAGTAAGAAGTATATCTGTCACAATGTGTACATGTATACATCCTAAATATTTGTACAATTAATTTACTTCTCTTCATTTCCAACACTCCTAGTCTATGCTATGAACATCTCTTACCTAAAATGCTACAGATGTCCCCTAAATTTTTCCATAAATCAGTTTTTTCCTCTCCAAGCTGTAAGCAGAAATGCATTTTTAAATTGCATATATGACCGTGACACGTATCTGTCTCAGTTTATAGAACAGGTCTCTAACAGGGCCAGCAGCTTCCAGTCACTTCTGTCCCTTACCTTTTCTCCAGTCTCATTTTACATATTTTTTTACATGCTCTCTATATTCCTGTAATTAAATATTACTTTCCCCTCAATGCCTTTGGACTGCTTCTTTCCTCCACATTAAATACTTTTTACCACTTCCCTCAGTTCAGTTCATTCTCCTCCGTGTTTAGAGCTCAGCTCAGATATCCTTTTCTCATGGAGACATTCTCTGGCCAACCCAGACTAGATCATTTTCCCTTGCTGTATACTTTCATACCTCCCTCTGTCTTTCCTTCATAACACTTTGGTAAGTGTGTACAACTGCATCCTTGTTTTTATTTAATTTCCTCTCACTGCCATGTTCTGTAAACTCAATGCAAGCTGAGTCTGCCTATTTATTTCACTATGCGACACCTAACTCCTAACAAAGTATTAAACAAAATAGGTGCCAAAATATCTGTTAAGCCATTGTGTGAATGTATAAATGAATAAAGATATGAATACAGATACACTAGTCTAAACACGTTTGCATGGCACATACCTATATGTGTTCCAAATAGATAACAAGGAGAATCACAATTGATCATTGCCAGAAGAAAAATCTGGTAAAACTTTTACTTTCCAGATATTTAAATAGCATTCATGTTAAAATTTTTAGTTCACTTTTATAATGCATTGAAAATACTTAGGGACATTATTTACTTATCAGAAGTTTATTTTACTCTTTGAAAATATATTGCTTACTGGACTATTCACAATAGCAAAGACATGGAATCAACCTAAGTGTCCTTCAGTGGGGGGACTAAATAAAGAAAATGTGGCATATATATACCATGGAATACTACACAGCCATAAAAAAACAAAATTATGATTTTTTTTTTTTTTTTGGCAGCAACATAGATGCAGCTGGAGGCCATTATCCTAAGTGAAATAATGCAGGAACAGAAAACCAAATACTGCTTATAAGGGAGAGCTAAACATTACTCATAGAAATAAAGATGGCAACAATAGACATTGGAGACTACTAGATGGGGAAGGGATGGATTAAAAGGGCTGAAAAACTAACTCTTGGGTACTACGCTCACCTCCTGGGTTACAGAATCATTCTTATCCTAAACCTTAGCATACACAATATACCCAGGTAACAAACTTGCACATGTACCCCCAAATCTAAAATAAAAGTTGAAAATTAAAAATATATGCATATTGCTCATTGAGATAGACTACATATTGAGAGATTAGCTCTATGAAGATAACATGAACCCTAAATTGTGTGATTGAGAGAATTCTACACATTTATTGGCCTTCATTTTAGATAACATGTTAAATAATTCAATAATGAACATTTGACTGTGCAACCTCTTCATATAAATGTGCATATTAGTCAAGGGGCTGTATTATTAGCTTAACAACTAAAGTCTATGTTTTTTTTTTGCATGTGCAAAGTCCAATGTAGAGGTGTCTGGAAGATCTTTCCTAAATGTGACTCTGTCACCTAAGTGGATTGCATTGTCATGGAAGCCACTATTTCAAGCTGTAGCCTCTAAAATCTCTACAGCCAGGGTTGGGACTAATATTCAACCCTTAAACTATCATTGCATTGATCAGTAATCAATCACCTAGTTATGCCTCACTTCGATAGAGCTAGGAGAGGCAGTTTATGGCTGTATCAGAAATAGGATGAAGGTGCCTGGGCATGGAGGCTCACGCCTGTAATCCTAGCACTTTGTGGGGCTGAGGCAGAAGGATTGCCTGAAGCCAGGATTTCGAGAGCAGCCTTGGTAACATAGTGAGACCTTGTGTCTACAAAAAGTAAAAATAATAAAATTTAAAAAATACCCAGATGTGATGGTGTGCGCCTGTAGTCCTAGCTACTTGAGAAGCTGAAGTGGGAAGATTTCTTGAACCTAGGAGTTCAAAGCTGCAGTGAGCTATGACCATGCCCCTTAAACAGTGAAACAGTGAAAAAAATAGCATAAAGGAATATGTACTGTAATATTTAAGTATTGGATTTTTAGTAATGAAAAGTTTCTAATGGTTAACTGTGTTTCCCCACAAAGATACGTTTAATTCCTAATGCCATGTACCTGTGAATGTAACAATATTTGGAAATTAGGTCTTTGCAGATATAATTATTTAAGATGAGGTCCTAATAATTTGTGGTAGGTCCCAATTCCATATGACTGCTATTCTTATAAGATGAGAAAACAGAAACACAGAAAAAAGGCTTGAAAAAATACAGACATAGAAAGGCAGAGACTGGAGTTGGGCTGCTACAGCCAAGGAATGCTTGGGGCTCCCAGCCATTGGGAGAGTCAGGGAGATGCTCCCCTACAGGATTAGAAAATATATGGTCCTGCTCACATATTCATTCTGGACTTGTAGCCTCCACAACTACAACTATGAGACAACAGATTTATGTTGTTTTAAGCCACCCACTTTCTGGTACTGTGTTACGGCAGTCCTCTAAGATGAGAACAATATAGAAAGTCAGTCATATCCTTCCAGAAATTAACAAGCTGGAATCACATTTTATTCATTGGCCTAGTAAATTCCTTTGCCATTCTCAGTATTTCTAGAAAAATATCGGGTTGTTGTGTTTTATTTTTATTTTTTATTTTTTGTCTGATAATGAAAAGGATAAAAAATCAGCTAAATAACAGGATTTTTGTCATTTGAGGATATCACTTACTAACAAGAGCTTACATATTTGAATGGACCAACAGGTAAATAACAGGTACCTGTAGGCCATCCGTATTGTCAAACTAAGTGTAAGTTACAAAACATAGAAGACATACTTAGGATTCAAACAATAAAGATTCAGAGAAGAGCAATTGCAATCTCTCTCCTATGCACAGAAAACTGAGTGAAGCATTTTATATTTTAATTTGTGTTTAGTGGTGATGACAAGCTCATCAAAGAATGGAACATTGATGCTTCAGCATTATAGGAGACATAATCTTCATAGCCCTAAATGCTGCACAGGCAGGTACAGAATTGGGCGCATGTCTCATGGTGGCCAGCAGCTTGCCTTCATAGAAAGGATGCTCGTTGAGCAGAACTCCATGCACTGGTTACCATGCCAGGGAAGGACTCCAACTACATGGAGGATAGCAAAGCTCATCCCAAAGCCAGCCAACAGGAAGAGAAATCTAAACATGTCTACTCAGTGCAACTTCCTATGGCAATTGCCAAGGAAAACATGATAGAGGCAAGCACTGGATTCAACAATGTGTTTCCTGCATAGAAAAGAGACAGAGCTAGATTAGCTACAGTGGCGTGCCTCAGTCCACCATGGCTAGTGGCTGCCCTTGGAAATCAACACAGGGCAACTGGCTTACATGTACCAGAATAGAAGGACTGCAATCTGTCCCCTATGAAGTCTGAAGTACCAAAATCTGAGGGCATATCTGAGGGCCACTGACACACATGCTTGGCCTGGATAAAGGAGGAGCACACCTTGAGTCTGAAACGGGAAAAGATATCCCCACACGAGGTGATAAGCCCAGCACAGGCTGTGTGGACTCTTGTTCTCTTGGGATGGAAGTGTTTCAGGCCCAGTGCCCATTCCTATTCTTATGTGGCTGAGCAGAAATCAAAGACTGCAAGGACGAGACTACCTAGCCCAACAATCATAAACTTCAGTTCTGAACAGAGGCTGCAAGTCCACCCAATCCACTTTTCCTCAATTTCCTTTTCTTTGCCTGACTTTTTCTTTATTATCATTTTGAGTATTCCAGAAACCCATTATAAGTCATTACTTCACTGCAGTCACAAGGTCCCTAAGGGAAGAACTTGCCCCTCCTTTTTTGGGCCCCTATGTGACACGTCAGATCTTTAGTTCAGGTTTGTCAATACTATTTCTCCACTTCTTTTATAAGCTATTAATTCAGTTTCCATGACACCAAACTCCTTATCCTATTTCATTGACCACATGGTTACTGTTCTCATTAATTATTGTGTCTTTTACTTAATGGCTCTCTCTCTCTCTCTCTTTAATTTTATCTTCTCACTCTACACTCCCTTTTTTGATAAACTGTCTATTCCTATGGTATACTTGGCCATCGTAATTGTGGTAATGTCCAGATTTCTATTTCTCATATCACCTTCTTCCTTGAGTATGGACTCATGATTCTGCTTCCTACTGGGAAGTTCTGACAACATCTATAATTTACATGGGTCCATGTTGAACTTTTTTTCTTACATTCCTTTCCCTTAATAACAGCACTTCTTATCTGCACTACTATGTACAAATTTCATGATAGGAAATCCAAGGCAGAATTATCTTGGTGACACTCATGGGTGTACCACTATTAAGATTCTTCTGTCACTCATTTTTTGATCATGAATTTATAGTGACTAACCAGATATATAGTACATGACATAAAATTGAATCAATTATCTAAAAAACAAAACAAAACTACCAGTGGTAAATGGATGATTTTCAAATATGGCATTTCAGGCTGTTATAAGAAAACTTTTACACAAATTAAATTAATGATATTTATCTGAGCAAGAACAATTGATAAATTAGGCCGCACTCTAAAACAGAACAGATGCAGAGAGTTCTGCTGAACAGTGTGAGCAGTGGGTTTTTAGAGGCCAAACACAGAAGCAAATTAGAAAATCCTCTGATTGGCTACAGGTAGGTGTCTGACTTATTTGTTGGTGCAAAGAGGCATTTCTTTTGCGGGGGCAAGTCTGATCAGTTGTTTGCCTGTGATTGGCTGAAGCTCAGTTGTATGTAATTGGTAGAAACCTGGCTATTTGTTATGAAATAATATTCTCCTAAGTTAGATTTTGGTTTATGTACTAATTTAGGTTGCAGTTCGTTATATAGCAACTCAAAGTACAGGGATAGCCTCAGACATTAACTGAGGTCTCCTATTTTTTAATTTAATAATACAAGAACAGTCTTCCAAGATCCAAATACACATTTTAAAATTCTGTACATCTATAACTTCACCACATCATATCCAAATTGTATCCTACTTTTTTGCCTTTTATATTAATATTTATAATAAAATTTGTATAATATTAAGTATAATTATTTCATTTAATAGTATTCACTTAATGGTACTCATGCCACTCATTTGCCCAAGCTAAATCTTACAGTCTTTCCAGTTCTTACAATTTTAAAAATCTCCTCGTATTCAGGAAATCATCAAGACCGCTAGCAGGAGAACTCCCTTACAGACCTAGACCTCCCACCTCTAGACTCATACATGAGAGAGAGAGAAAGTTTTGCTTTTCTCAAGACACAGTTCTTTTGAGTGCTTCTTTTACTTTCAGCCAAACTTAGTTCCATTTAATAGGTTTTAATATATACTTAAACAAATTATTATAGTAAAAGTAATGAAGTAAAATTATTTCAACTTACAACAGTATAAAATAAACGTTTCGTAGGGAAATGAACAGAACTACTTAAAACTTCAGAACACAAGGCTATTTTACTAGATTTTGTTCAGTTTAATAGAAGCGTGTTCCACATCACAGACAAGATTCCAGTGTTTAGTTGCGATACTGGCCAGAAGGAGGATCCCTTCTGAGATGTGATCACTGTCAAGAAAGACTTAACACATGAGAGAGATCTGCAATTCCATTGCCAATCATTCAAAGTTCCTTGAAGATCAACAATTTCATCAAGAAAGACTTGTTCTTTGAAATTTAGAATATCCAGAACTTTTCTTACATAATAGCCTATAAACTTCAGTATAAAACAATAATCATTAATAGTCACTGGTTTATTTCTTTAAAAATCTTGTCAAACAATTTTAAAATTCAGCGGAATCGCTCCTTAATGCAATTAAGATGTTTAGCAGCTTTAAGTAGTTATCTTAACATTTCTGTATCTCCAGGGTCAAAGTGTCATATTCATGGCTAGATTTTGTAGCAAAAGCAGCAGTTTATCTATGTGAAACACCTCTTATTGGTTCAGCTTATCTCAATATGTTATTTCTATGCCATGGTGATATTTGCTATGAAAGCACTGATATATTTTAGAAGATATTCTCCATTCATATGGGTCCTTCTAGTTTGGCAGAGCTAAATGGACTTCGTTATTTATATTTCATCTGACAAAATGGAAAAGTTTAGGTGAACTGACATGACCAGATTTTGTTTTGTAGTACACTATTTTGATTTGAATTATTATAGATAATTTACATTTCTAAATGCATCTCTAATTCCAAAATGAAGAACTACTGTACTTCAGCAATGATACTGTTTTTCTGGCTCCAGATCATTTTAAAGCAGGTTTAATAAGGACCCTGAGAATTATCTCAACTGTGATAACTGCTGTGATATTTGCAATAAAATGTTATAAAATAACTACTTAATACTTACTGTATTAGTCAATTCTTACATGGCTATAAAGAACAACCTGAGACTGGATAATTTATGAAAAAAAGAGGTTTAATTGACTCACAGTTCCATGGTCTGTACAGGAAGCATGGCTGGTAAGCCTCAGGAAACTTACAAACAAGACAGAAAGTGAAGGGGAAGAAAGCACATTTTACCATGGTGGAGCAGGGGATAGAGAGAGCAAAGGGGGAAGTGCTACACACTTTTAAATGACCAGACCTTGAGAGAACTTATTATCACGAGAACAACATGGCGGAAATCCGCCCACGTGATCCAATCACTTTCCACCAAATCCCTCCTCCAACATTGTGGCTTACAATTCAACATGAGATTTGGGTGCCGACACAGAGCCAGACCATATCGCTTGCAATGTTTCCCCCTGTTGTGCTACATTTTGTTTATCAGGACTATTGCAATTTTAGACTTGGCTTTAACAATACATTAAATTTAATTCAGTTACTTGTACCTTCAAGAGATTTTTCAGGCTGGATAGCTCTGATCCTGAAGATGAGACCAGATTTAAATTAAAAAAAAAAAGTTAACTTTCATTACCAAGCTGCGAAAATCTAAATTTTAAATGTTAATTTTTTATCAAATTTGTGTTAATTTTATTTCATTTAAAGCTGAAAATTTTAAAATGCAAAAAATAGGTTCTATTGTCATTGTGTTTTGATCTGGGTTTTATAAACCTATCTCATTATATTTATTCATTCAGAAAATATTTATTGAGTGTCTCAGTTCTAGGTGCTATAGATTTATTAATAAACTCAACAGACACAAATATTTGGCAGTTTTGTTCACAGTCACCAATAATATTCATCATTTCAATATTTAGCTGTTAAAAAAATTAATCACTAATATAGTATGCATTCCAAAATGAAAGAGGAGAGAGGAAGGGAACATAACTAAATACCAATCTATACTTTCTATATTTATACAAATTCCATACACTAAACAATTATTAGTAATTAGAGGTAACATTTTAACCTTTAATTTAAAATAATGTAAAAATTCATAATGAAGTCTAGTACATGATAATTCTCATTAATAATTTAAATAATTTATACCAAGTAGTTATAGTGGTTGATTCAATGAAAGACTTATTGGAATTCATGCCTATAATTTATAAGATCTGCCACCCTACCAGCCTTACTGTTTTTCTCATTGGTAATATTCATGAAGTCACTGGTAATTTTACATTTTAAAATATGCAGTATGAATTGCATATATAGTACTTCTTAAATGTCAACACATTTATCTTAAATCATTTATCGAAGTATGAGAAGTACCTATCATATTTTGGTAAATAATACCTTTAGGTTTTTCCTAGTTCTTGGCTCCAGACTAACCATCTTGACCTGTCATTCTAGTTTTTACTTCTGAGACATTCTATAGTCTGTGTCTGATATTCTCTACTATTTCCTCATTTGTCCTTGCATTCAGATTGCCTTTTCTGACTCCCAGCTTCCACGGAGAGATTAACTCTGTTGGCTGAAGCCCTATTCCCAATTCCTTGGCTAGACCCTGGGTCCTTCATGTTAGAAAACCTGGCTTTACTACTACTACTACTACTACTACTACTGCTGCTGCTGCTGCTGCTGCTGCTGCTGCTGCATTTTTTAAAAATATATTATCTTATTTTACTATTTGATGTTATAATTGTTATATATTTTTCCATACTTCCTCATACTGCTTATCTCTTACTTAAGAATTTATGAATAAAGAATTGATTTTTCA
>n1177_u1108_AF252280_KLHL1 antisense RNA_Homo sapiens (human)
GAATTCGGCACGAGGCGCAGGACCTGGGCGTGGGGACACCACCAGGCAGGAGCAGAGGCAGGACTGGGACGCCAAAAGCTGAGAATCCTCGATGCCCGCGCGAGAGCCCCGTGTTATGGCGAGTTCTGGAGGCTGGGAAGTTCAAGACCAATGCACGAGAATTTGGTCTAAAGAGAATCTTCTTGCTCTGAACACACATAGTAGAAGGCAGAAGGGCAAGAGAGAGAACAAAGTCTGTGTCTCCACATGGCAGAAGAGCAGAGGAGACAGAACCTACTCCTCTATGGCAACCACCCCATCAATGACAAAAATCCTAGAAGGATGTATGTATAGGAAGTTGAAGTGTTGAGAAGAGAATGGCTCAGAGTCAAGCGGGAACAAGATTCAAACTTCAGAGAGAGAGGGAAGAAAAACATTTAAATATATCTGGCATAATCCAAGACTATTTACGACAAGTGTTCTGTGTTTCTAATAATAAAACAGACTTCACCTCGGAGTACCTGCAGAACTGGGACCCCAATGACCAGGGAGAATGAAGAACAACTTGTTGAAGGTATAGAGAAGGCAGCAAATCATACAAGAAGGTCCATCCCAAACCAGAGATAGTATAGATAAATCTCTCATGTTAACTATGGAAAAAATAAAGGAAGATGACGTATTTTAATAGAAGGGAAATTGCGCTTATTGGGAGTAAGAACACTGAATTGACTGAATATCTTAAAGAGAGTTAGGAAGTGAAATTCTCAACAGGTGATTATTCTTTGACCAATTTTGTCTTATCTCTTATCCACATTCTTCCCTGCTCTTCCCAATACATGTGTAAGAATATCCAAGGGCACACACATACCATAAGCAGGAATGGTGTCCTAAGGAAAGTCAATATAGAGAGTAAGAAGTATATCTGTCACAATGTGTACATGTATACATCCTAAATATTTGTACAATTAATTTACTTCTCTTCATTTCCAACACTCCTAGTCTATGCTATGAACATCTCTTACCTAAAATGCTACAGATGTCCCCTAAATTTTTCCATAAATCAGTTTTTTCCTCTCCAAGCTGTAAGCAGAAATGCATTTTTAAATTGCAGATATGACCGTGACACGTATCTGTCTCAGTTTATAGAACAGGTCTCTAACAGGGCCAGCAGCTTCCAGTCACTTCTGTCCCTTACCTTTTCTCCAGTCTCATTTTACATATTTTTTTACATGCTCTCTATATTCCTGTAATTAAATATTACTTTCCCCTCAAAAAAAAAAAAAAAAAAAAAAA
>n1178_u1109_AF253507_ERalpha antisense RNA_Ictalurus punctatus (channel catfish)
TTAACACTGGCAGTAAAGAAGGCCTTTCTGATTAATATATATACATATTAGTTGTGTGCGCGTGTTTTTTCCTCCACCGACCTGTGTTTCCTCTTTTACGGTATTATAAACAAGCTGAAATCACAAATGTCAATCAAACAAACAAGGTTTGAAATTCTCCGCCTAACAAAAGCTATGCAAAAAGAGTTTGCCGGGTTTCAAGCTACACTTGTGTTTAAAATACAGGCATTATGCGAACAACTATAATCAATCATCGGTATAGTGCAATAATAAGTCATACGTTATTTCAAACATACAGAGAACATTTTTGAATTTAAAACCCGAATCCAAGTGTGACATTTTAACTTAGGACCTTTAACTGTGGCAGAAGTTTATTCCACAGTACTGTACCTAGCTCGTGTTCATTACAAGTACACAGTCTAAATCAAACACCAGGTTTGTACAGCAGGATGTGGCGCCACAGTGCGGTAACCGTTCAGGATAATAAGTATTTAACAAATAAAAAGACTTAAAAGTGCGGTTCACCACTTATCCGGCTCAGCTTTGACTGTGCTCCGCTCAGAAAGATGTGCCGCCTTAACCATCAACCTGAAGGGGCTTGTGGGAAAATTAATGTTCTCAGTGACGCACACCTTGGTAACTCGTGAGAACTCGGAGAAAAAGGGATCCCTAAAGACACCCTTGAAATGTTCAAAAAACAAACAAACAAACTTCCGCACCTTTCCTGGATTATCGTTACTAGGACCGCCAGATCTGGGGGTGGTGTCCATAGGCGAGGAACTGGTGACTGGGCCACCCACGTAACCAAGTCAAGATCCGCCCGCAATGGTGACGTGAAGCCCACTTGTGGGCTCTTGAGGGTCAAGGCCTCAGACTAGACCTTTGGGAAGGTGGAATGTCATTGTACTGGCAGGGAAAGACCCCGAGTTATTGTGTGGGAGCAAAAGATATAGACGCAGTATGAGCTCAGGTTCCATGTGTTTCGATTGGGGGTGGTCTCTCTCCTACTCTGGAATGCAGGGGGAAGATAGCGTGGGGATACTCGACGGTCCCAGGCTGGAGGCCTTGGGAGTTTTTCCAGGTAGAAAAGAGGTTTGGGGGGGGGGGGGGGGGGGTCTGTTAATGGGTTGGAGTCTCGGGAAGAAAAACTCTGGCTGCTGTTTCTGCATACGCACCGAAGTATTTGGAATAGAAAGCCTTTATTTGTCACGTATATGCACATACGTTACATTACCGGTACAGTCAAATTCTTCTCTTCGCATGTTCCGGCTTCATAGGAGTTGGAGACAGAGTGCAGGGTCTTGATATGGCACTGCTGGGGCGGAGAGGATTAAGGACCTTGCTCGAGGTCCCGACAGTGGCAGCTTGGCGGTGTTGGGGTTTGAACCCCTTGACCGTCTGATCAGTAACCCAACGCCTTAACATGTTTGAGATAATACTTGCTGCTGAATCCATAGTGCTACTAGGGGACCTCAGTACTTAGTCTAGGATACTCCTTGGCTTGCAAAGAAGTCTAATAATTGCAAGGTGTATGTGGTACCAGAGCACCTTGGGCCAAAGGTCAACGAGTGATTTTATGACCATATCATCAGACTTGAGGCCGTATGTCTTGGACATTTGGGTTGCTTGAAATTATTTGGTTCAGTGAGAGATGAATTTATTCCCACCTCTGAAAGGTCTTCTCCACTTGTACCAAGTGAAGTCTGGACACACTGAATCTGAATGGACCATGTTCATATCCTCGACCACACACCCTGCTGCAAGAAGCTGCGGCCAGAAGACAGTCAGTGTCCGTCGTGGTAGTAATCCTAGGATGCACTTGTGGACATCAGTTCTGAAGAACGAGGCCAAGAAATGCTCATGGAGGGCTCTACTGATTCAATTGAGAGGCACAGGGGAGCCAGAAGGGGGTGCAGCAAAAGCAGTTACTGAAGTGGAAGCTTCTGCAATAGAGGTGTTTGGTGTCAAAGATGTTCTGGCAGACCATTTGGTGCCTCTGAAAGGGGAAATGAAACCGTGCATAAATTCTGCTAAGCAAGTGCCAGTTAGTGTCAACCTCTACTCGGGATATTTTGAAGTGATGGATGGAGCACTCTGACAAACTCCTGAACCTAGTGGACATGCCCTCCCTTCAGATGGAAGTTCTCAAAATCCCTAAAAGCTTCATAGTGGCAAAGCTGCAATGGTGGAGGAGATTTATCTGGGGACATTGAAGACACTGGACAGGGGTAGGAGTGTGTGGTTAACACGCCTTTCAAAGTCATGGAGGACTGGGGCAGTGCTTTGTGAGGGGTCACGGTCATATGTTTATCCAGTCTACATGTATTTATTTGGAAAACGCCTATGATTGGTGGGCTGGACATTTGTGGTGGGAGGTAGTGCAGGAGTACAGGGTATCTGGGTTGCTACTTGGTACGATTCGGTCTCTGTAGGTGCACAGTAGGAGTTGTGCTTGCGTTTAAGGTGGTTGTTGGATGTTGTCAAGGGTGTCCCATCTCCACATCTGTTTCTGGGTTTCATGCACAGGAAATCAAGGAGCAGCCATGGTTGAAGAGGTGTGCATTTTGGTGGTGGTGGTGGGGGGATAGGGTGATGTTTTCTCGGCACCATCCGAAGTGTATCTCCGGCATACACACGAATGTTTTGCTGCCGAGTATGACGCATCAGGGTTGAAAAATCACCACCTCATTGTCTGAGTCTCCCAAAAAAAGAGGAGGGCCTTCTCATCCAAGTGAGGAGAGAGACCTTCCCCGCTGCTGGAGGAGTTACATACTTTGGGATCTTATACCAGTAGTGGTGGAAAAAGAATGGAAAAGAGAGAGTGTATCAAATGCATCAAGGCAGTAGCAGCGTTACAGTAGGAGCTCAGTTTGGGGATGAAGCTTCCTGTCTACTGGTCAACTCTCATCCCTGTCCTCACCATGAGCTGTGGATAGTGACTGAAAGAATAGGGTCACGAGTACACGTGCCAGAAGCTTCAGACGGTCCGACTGGCTTTAGGACCATGTAGTGTCCTGCAGAAGGGGAGGCGCTTTTTAACGTATTTTAACCTCTTTCCCTCAGACGTTTAGAGAGCACTTAAAGGTGTCCGATCTAATTTTGATGACTACTGTACAATGCAAGCCCTCAAAAGGTCAGGTTCCTTTTGAAACCATAGTTCATATTTTTACAACAACAAAAAAAAACACACAAAACAGAGACTGGCTCGTTCTTGTGACTGGTTGCGTTGTGCGTCGAGGCGGCAAAATGCTACTGCAAACACAATGTCTCGCTGAAGACGGTAACAATACAAGGGGAAAGAAGGAAGAAAAACAGTCCACTGGGACACAAGTTTTTTGTTTTTCAAGTTCAAAAGAGGACTGGTAAGTCCTGAGAAAGGGAACATGGGGGTGTGGCTAAACCAAGAAAAAAAGAAAAAAAAAAAAGGAGCTGGTTAAAACAAATAATAATAAAAAGTTGCTTTCTAAATCATTTCTACTCACCAAGATTGATCTATTATTAAAAAGTAATGTTTGACTAAAAGAAGTGTGGCACAGTGGGACTTCCCTCTGCGATCTGGGCTCAAGTCAGAAGCAGTCTAGTTTAAGTCTAGTTTGACGGAACTACAAAATGTTACACTGAAACACCCTGAAGTACGTTCTGATAACTGATCCCACACGGACGAGATCGGACGAGATGCTGCTCATCTCGAGGACCACATTATTACGGCTGAAATTAGGATCGACACGCGAGTGAGCTCTGATCAGCACGCGAGTGCTACGTTAGCTCATCCTTTATGATTCCATTACGGTAGAGCAAAAGATATAACCGTTTTCTTAACCCAACAACTAAAATTAGAATTTGAAAAAAAAAAAAAGTAACGATAAAAAGCCTCCGTCTAGCGAACGTACCACGATTCCACGGGCGCCTTTCGTCCGATTGCGCGCGCGGTTAGAAACGAAGAAAACGCACAAAAACGCGACGTGCTGGATCGAGTGCTATTTTATAAACGGGGGAATAATGAATGCGGGAGCCGTATTGTTCAATTAAACCAGGTTACGGTGATCGACGTGATCATCGTAACAACGAGGACTATTGAGATTTATTTCACCGCTTTCCATCGTCTCGTTCATGGATCAAGTCTTTTTCCGCCGTTTTGACGCTTCCTCGCTCCCTTTAAGTTACATCGTTTTTCCATTTGCCATCCTTTTCGAGGAGGAGAAATCTTACCCCGGGGTGTTTCCGGAAACGTCCGTTTGAAGAAAAGTGCCCGTGTTTAAAGGCGGTGGTCTGGACGCTTTTGAAGCTCCCGTGCTACTACTCGATAAAAATCTCAATTTAAAGTTAAGATTTGCATAAACAGAATACGGAGCACAGAACATCACCTTAAGTACCTGCGTAACGCGGATCTGAATACAAAGAACTTTCCCCATGTAGATCTTTATATTATTATTATTATTATTATTTATCTTAATCCGCTGACTCGTTGTGTACACGGTCACGATGACAACAAATCTCAAATTCCTTACATTTGGCCTAACTACAATGGTACTTTTCTATAAAGGCTGAAAGGGTCTTGGCGAATTTGCAGTGTAGTTATTTTAATTTTTACTATTATTATTATTATTATTATTATTATTATTATTATTATTATTATTATTATTATTAGCTCTTAAAGGATATGCGGGGACCCACTTCCTTCCTAGAGAACTCTGGTGCGATCGAATCGCGTTTAAGTCGGAGAAGCTGCTCTTGTCGGTCTGACGACATGAAAGCGTGTCATGTCGAAGCGTCGACGACTCGATCCAGCTAAAAGGAAAGAAACCAAGTTAACGAAATCATCACTCAGGACACTTTCCCAGTCAGGGACCTGATTGAATTCAGCTCCAACTGTCTGATGGATAGCGTTAGCAGTTTATATTCTCTCGCTGTATAGCAGCTCATGGGCTGGGGCTTTGGCCGGGACCCGGCGGGTTGGACGGTAAGTCTGCGGGACACGTGGAGCCGTTGCTGGGGTGATGGGTGGTGGTGGTGGTGGTGGTGGTGGTGTTGGTGGTTGGGGTTGTGGCGGTTGTAGTAGGTGAAGACGACACTCGATCGGCCCAGATCCTTGGCACTTTGCCCAGGGGGCGGAGCCTATGCGCGTCCAACATCTCCAGCAGCAGGTCATACAGAGGAACTTTGTTCTTGCACTTCATGCTGTACAGGTGTTCCATCCCTTTATAGCTCATGTGTCTGATGTGCGAGAGCAAAAGCAGGAGCTGGGCTTGACGCCGGGACTGGAGCTGCACCGAGATTCCCGATTGGCTGATGTAGTATATGAGGGCATCCGTGATGTTATCCATCATGCACTGCACCATGAAGCCGTCCCTCAGGGGCTCGACGGGGGAGGAGCAGAACGAAAACGCACCAGAGTTGAGCAGGATGATGGCTTTGAGACACACAAACTCCTCTGACTTGAGTTTGAGGGTGCGGAAACGGGCCACTGTGGCCAGCAGCATGTCGAATATCTCAGCCATGCCCTCCACACACTCTCCTTCACTCTTGTCGAGGATGAGGTCCTGAGCGAAGATGAGTTTTCCAGGTGTGTAGATGGACCTCCAGATGAGACCAATCATCAAAATCTCCAGCCAGGAGCTTTCCAACAGCTGTACCTGGTCATGCAGAGAGAGGTCCTGGAATCCAGGCACTTTCTTGGCCCAGGCGATCATGTGAACGAGCTCCCTGTCGGCCATGTTGGTGAGCAGACTCATTATGGTGAGCTCGCTGTAGGGTCGGCTGTGTTTCTGTCGTGAGCACAGGGTGGGCGGCTCCGCCCGCAACAGCAGCAGCAACACCTGCTCCGGAGACATGCAGACCACGTCCGCTACCCCTCCCCCGATCCCGGAACTGCTCTGCCCGTCCTGTGGAAGCGCTTCTCTCACATCAGAACCGCTCTGGGCTTTGCTATAACCTCGCTCCCGCTCCTTCAGTCCACTCGGCCTCCTGTTGTGCTTGATGATGCGACCGCCACGCTCCTTACGAAAACCTCCTTTCATCATGCCCACTTCGTAGCACTTGCGTAGACGACACGCTTGACAGCTCTTCCTGCGGTTCCTGTCGATGGTGCACTGGTTGGTCGCTGGACACACGTAATCATTGTGACCTTGTATACTGCGCTTGAAGAAGGCCTTGCAGCCCTCGCACGACCAGACTCCGTAGTGGTACCCTGAGGCGTAGTCACTGCACACCGAACAGTAGCGGATCTCCTTCACCAACCCGATTGCTCCTGAAGGCCCCGAAGCTCCCGATGGTCCCGAGGCTCCCACTGCGGTGTACACATCCTGCCTGCCGGGGGCGCTGCACAGCTCCACTCGTGATCCTGCACTGGCTAACACACTGGACCTGTAGATGGAGGTTCCTGATGGTTCCAGGTAGTACGGCACCTGCTGAGCAGTATGTTGTCCTGCGGGAGGATGGCCGAGGAACGGCGAGAGCTGCGGGCTGGAAGGAACGAACACCGGAGGGCTGCTGGAGCCGTTAGGCAGCGGCTGCAGGTTCTCCTCCTGAGGCTCTGGGGCGACTGAGTAGTAGTCCACTGACGAGTTGGTGGCATCGGGGTTGGTGGTGTAGTTGAACGTCCCGTCTAGGTAGTGAGCGGTGGAGGAAATGCCCCCCGTGGTGCGCTGCTCCTCCTCCGGGTACATGGGCGAGAGCTTGAGGGAAGCGAGAGACACCGAATACCCTTCTAGCTCGCTCCTGCGTCGCTGCCTGGCACCAGCCGGAGCTTCAGCGCGAGCCTGCTCTTCCGACATCACCGTGGAAACACACACGTATACACACACGCTCGTGCCGAATTCGGCACGAGAAATGACACAAGAAAACAGACAAACCTCTGAACAAGAATATACAAACGAACAAACAAACAAACAAAAAAGGAACTGAGCAGCGGGAGGTGTCCTACCGGTTGGCGTCTCCCCTCCCCACAATGGGCCCCCGCTGTGAGAGGTGTGTGCGAGTGAGCCGTTTTTGCGTATGAATGTATGGACCTGGGGCTGAGGATGCGGAGCTTACCTCCGAAATCTCTAACTTTCAGCGCATGTCATTCTTCGACTGCGCTCCGTGTGCAAAGTGAGCAGAAGAATGGGTGTGTGTGTGTGCGCGCGTATGTGTGTGTGAGAGAGAGAGAGAGAGAGCGCGTGTGTGCCTGAAGTGTGTGTCGAGCAGGACTGAATGTGGACGCATGTGGAGAGTCACCATCGAAATACTGAAAGGAGCGTTAATACAAAGTAGTCTGGAAAAATCGAATAAAGGAAGAAGAAAAAAAAAAAAAAAAGAAGTAAACAGCAAAGAAGAAGCGTCTGATCAGAAAAGGAAAAAAAACTTCAAGAATAAAAAATTTCAAAGCAACAGCAATGATTTAAAAATGAGAGACATCAGGTTTCTTTTCTTTCTCTTTAATTTTTTTTTTTTAAATGACACTGGACTAGGCTCTTAAGTGAAGAAACGGAGGGCCGTTGTGTTTAAAAAAAAAAAAAAAAAAAAGAAGGAAAAAAAAGATGCACTCCATAGCTTTTGGGGTTTGCTTTTAGTCTCCAGTGTTTTACCTTTTTATTTTAGCTTCTGAATATATTTTCATTGCTTGTGTAAAACTGCAGTTTAACCCTTACGATCCCTCGATACGAGTACCACTGTAGTTTTGCCTTTTTGGGAGAGAGAGAGAGAGGAGAAAAAATCCGTTGCAATCACCCATTTTTACCTTTCAGTACTCTGTATGACTCTTCTGCATGATATTTGTTCTTTGTTATTTTCCTTCTTGTAGGTTCCCAGGTAAAGCCCTCACACCTTTTGTGGTGGTAATAAATGGAGAAATAAGGCCATTTTATGTAAAGTCACGAAAAATTCAATCTTTACGTGTACTGAAATGCAGCGTAGTTTTGTTATTTTTGTTTTTTACTTCTGTTGACAAATTACTTTCTCCCCCTCTTTATTTCATTTGTAAACTTCTTACATATTTAACCCCTCCCATGCCTCCTTTGTACTCACTTCTCAGTACCCACCTGATCTGATTCAGTCGAACCTGTTTTGCGTACACACTGAGGGCAGTGTGTGATGAGTTGCAGATTTAGGACTGATATGCCTGTCCCATCAAACTATATGCATAATACAAATACAATCTTTTTTTTTTTTTTCCTTTTTTATTTTATTTTATTTTTTTTTTTATATATGTATATGTAAATAGTCCTAATTAATGTCAAGCCACATTAGAGGTGTAATGCTTCACGATAGTTTCAATGATTTGAAATAAATGACCTGCCTCTTATTTTGGGGTGTTCTTTCTGGGGGAAAAAATGATTTGCGTAGCGTGATGCTCCAGCTTCCTGAAGTCTCTGGTGTCTCGCAGACTGTCGTCCGGTGCCTTCTTTCTAGAGCACAAGTAAAAGGAGGGAAGAAAAAAAAAAAAAAAACCCCGCATGAACAAAACAGTGGTGTTCTCGAGTGCACAATATTGTCCTTATTCCCTTCTAGGTCCCTTTTTATTTTATTTTATTTTGTTTGTGTTGAAGTTTCACAACACTGTAAAGATGGATTACTCTTACTTGTGGTCATAACCTTCTGTAGGACATAGGGTATATGTGCAGCATTCTTCAAATATGCAGCATTGGCAAAGTTGTGGTTTCAAAGGCCAGGAAAACATTGAAATTAGATGATATCTTAACCTGTTGACCATACAACTACAGGCTAAGTTTCTTTCATGAAATAAATATTGAAACCATGAAAAAAAAAAAAAAAAAAAAAAAAAA
>n1179_u1110_AF254823_snoRNA_Pyrococcus abyssi
TATGATGAGAGAGCTGTTAAATGATTGATGATTAGAGGATGGCTGGCTGA
>n1180_u1111_AF254824_snoRNA_Pyrococcus abyssi
GATGATGAGTTTTTCCCTCACTCTGAGCCGTGATGAGGAGCCGATGCTCTGA
>n1181_u1112_AF254825_snoRNA_Pyrococcus abyssi
GGATGATGACCGGTTTCGGGACTGAGCTATGATGACACCAGCTATCGCTGACTCCTCTTA
>n1182_u1113_AF254826_snoRNA_Pyrococcus abyssi
TGGCGATGATGAGTGATGGGCGAACTGAGAAGTGATGATGGTAGGTGATCTCTGAGCCAATCCG
>n1183_u1114_AF254827_snoRNA_Pyrococcus abyssi
AATGATGAAATCGGTCTTGTCCGAGGAGTGATGATAGTGGTCACCGCTGA
>n1184_u1115_AF254828_snoRNA_Pyrococcus abyssi
GATGATGATTAAACCCGTTGCTGAGAGGTGATGAGGGGACCGACTAGCTGA
>n1185_u1116_AF254829_snoRNA_Pyrococcus abyssi
GATGATGAGCCTTCCCCTCACCTGAGTGGTGATGAGCACACCGGTAGGCTGA
>n1186_u1117_AF254830_snoRNA_Pyrococcus abyssi
GATGATGAATCTGGAGCCCCCTGAGTGATGATGAGCAGTCTGCGGAGCTGA
>n1187_u1118_AF254831_snoRNA_Pyrococcus abyssi
TAAGGGATGATGAGCCTCCATCCAAGCTGAGCAAGTGATGAGTGCACATCAGGCTGAACCTTTT
>n1188_u1119_AF254832_snoRNA_Pyrococcus abyssi
TATGATGAGCTTTCCCTACGGCCCGAGCTCACGCGATGAGGAATACAGCCAGGGCTGA
>n1189_u1120_AF254833_snoRNA_Pyrococcus abyssi
TATGATGAACTTTTGCTTTGCTGATGTGGTGATGAGCACGCCCTTCGCTGA
>n1190_u1121_AF254834_snoRNA_Pyrococcus abyssi
TTTTTGATGATGATACAGCCAGGACCCTGATGGGATGATGAGTGGTGGGCTTAGCTGATGTTGCCG
>n1191_u1122_AF254835_snoRNA_Pyrococcus abyssi
TGTTGATGATGAACTCGCTTGTTGCTGAAGGGTGATGAAGGGCATACTGGCTGATTTGGAGGT
>n1192_u1123_AF254836_snoRNA_Pyrococcus abyssi
AATGATGAGACCGGCACTAACTGAGTTGTGATGAGCACTCGGTTGGCTGA
>n1193_u1124_AF254837_snoRNA_Pyrococcus abyssi
GATGATGAGGCCTACCTCGCTGAGCTGTGATGAGTGGGTGAGCTGGCTGA
>n1194_u1125_AF254838_snoRNA_Pyrococcus abyssi
GATGATGACTTTGCCGAGTGCTGAGGAAGTGATGAGTAAACAGTCGCCTGA
>n1195_u1126_AF254839_snoRNA_Pyrococcus abyssi
TGAGGAATGATGAGATTTGCTACCACTGAGCAGTGATGAGCCCTGCCGTTACTGACCTTTTACTATTTT
>n1196_u1127_AF254840_snoRNA_Pyrococcus abyssi
GATGATGAAACTCCTTTCGGGCACTGATCCGTGATGAAGGCCCTCCTATCTGA
>n1197_u1128_AF254841_snoRNA_Pyrococcus abyssi
GATGATGAGCGCCATCGATGCTGAGGAGTGATGACCGGATTCCTGGCTGA
>n1198_u1129_AF254842_snoRNA_Pyrococcus abyssi
GATGATGAGCGTTTACCGGTCTGAGCTGTGATGACATCGGCACTGTCTGA
>n1199_u1130_AF255738_tmRNA_Caulobacter vibrioides (Caulobacter crescentus)
GTCCGGCTTCGGCCGAACTATGGGGATAAACGCGCACGTAATAAGCGGACTGGACCCGGGTGCGATTCCCGGCGGCTCCACCAAATCTCTCCCGCGTTATCACGGGACTGCATGGGGCCGATCAGCATCGACAGACGTGTAAAGGTGTCTGCTTTCTCTCGGCTTGGCCCACCGTTTCGGGCCTTTATCTAAATGCGAACGATAACTTCGCTGAAGAGTTCGCCGTCGCTGCGTAATGCGGTGCAGGTGAATTCGCCTCTTAAGTCCTAGGGGTTCAGATCCCTAGGCGGGGCCCGGAGGGAGCCTGCCAACAGAATCCCTCCACCT
>n1200_u1131_AF267728_Msx1-AS RNA_Mus musculus (house mouse)
TATATTACATAGTACACACACAGTCCCTTCAAAAGGGATGCTTGAGAGCCACGAAAATGTACTGTTAAATAGAAACAGATTTTGGTTTTTTTTTTTTTTTTTTTTACTTCTTTTTTTCTGGTCCTGGGAAAGTCTCTTTAACCTACCTTGGTGAAGCACCAGCATGCGCCCTGCCCCCTCAGAGCAATGCTTTGCTGCCAAAGCGCTTAGAGTTTGACAGTGGAAGGAGCTGGGCTCCTTGCTTTCTATAGGGCTGGGCTCATCTCTTGAAGCACCGATTAGCAATTTCTCTGTGCAAGTCCTGCCTGGTTTCAGGACCGGAAGCAGCTGATGGAGTCTCATGGCCTCTAGTCCTTTTGGCCTCTGGTCTCCTTCAGCCTCTAATTCTGCTGGGGACCACGGATAAATCTCTTGGCCTCTCACCCTTAGTTTCCACATTTATAACTTGCGCATGTAAATCTAGATTTTTCTCGAAAAACCTAGACACTTCCGACGCATTCTTTTTCTTCCCAGAAGGGCTCAGATGAGGAAGGTTTAGGAAGCGACAACCAGGAGGAAGTGTGTAGCAAGGCGTTTAAGAGAAGGGACCAGGTGGATAGGGCAGCAGAGCTTCCTAGGAAGGACTCCCGCTGCTCTGCTCAAAGAGGTGGCTGGGGAGGGGATGGCACCACAGGGAGGTGACTCTGGACCCACCTAAGTCAGGTGGTACATGCTGTAGCCTACATGGGCGGTGTAGAGTCCCACGGGCGCTACAGGCAGCGCGGCGCGCTGGAAAGGGCCAGAGGCACTGTAGAGTGAGGCGCCCGCAGCTGCAGCCACCGCTGCAGGACCGCCAAGAGGAAAAGAGAGCGAAGGCAGCAGGCGGCAACATGGGTTTCGCGGCCATCTTCAGCTTCTCCAGCTCCGCCTCCTGCAGTCTCTTGGCCTTAGCGCGACGGTTCTGGAACCAGATCTTCACCTGGGTCTCGGTGAGGCTGAGCGAGCTGGAGAATTCCGCGCGCTCGGCAATAGACAGGTACTGCTTCTGGCGGAACTTGCGCTCCAGAGCCAGCAGCTGAGCTGTGGTGAAAGGCGTCCTGGGCTTGCGGTTGGTCTTGTGCTTGCGTAGGGTGCATGCTGGGGGACTCAGCCGTCCTAGGGGGCCAGGAGAGGGGGAAAAAAAAAGCAAGGAGTTAAAGAGAGTCTTGTGCTTGCGTAGGGTGCATGCTGGGGGACTCAGCCGTCCTAGGGGGCCAGGAGAGGGGGAAAAAAAAAGCAAGGAGTTAAAGAGAGTCTTGCTGGGGTGTTTTACTAAGGAACCGAAAGCATTCCAGGTATTAATTTCGTTCAGACGCGTCTGTGCTGGGCCATGTGAGGCACTTAGAAATATTTCTCTTGCCTGCTAAAATGCTAGATGAAATCTAAGCATGTTCAACGCTGGAATACAGTTGAGCAGAGACAGTGCCAACCTACCTTAAAGTCAAGCCTTCCCCACCAGGTGCCTCTTCTGCGCCTCTCACATTGGAAAGATGAAGGCTGGGGGCAGGGGGTGGTCATAAAACACTCAGGGGCCCTTTGCCCAGTCCAAAGTCACCCAGGTTTCATACCATAGACATACACTTGTATTTGTGCCCGACAAATGCACCGCGTTGGGGCTAGGCCTTTGCATCGCATAGAATGGATCTTGAAACTCCACACTTTCTATCAAACAACATGTTTCTCCTGGGCTCTAGGGCCAATCAAATTAGAGAGCCATCCAAGAAGTCACACTGTGACAATTCTAAAATATGTATGGGGCTGTTTATGTAGATATCTGCCATTTCAGTTGCCCTCGGTTTTCCCTACAGCCTCTCCAAACCTCAGCGCCTGGGACCACATCAAGCATAGTGTGTATCGGGAGTTGGGGGGCAGGGTCCCCAGTCTGACGAAACTGGTTATGTCCACCTGCCCTTTCTTTCAGTTTCCTGCCGTAAAGCTTAAATCTCCAATAGAGTGCTGTCACTGTTGGGCAGGCCTAGTTAGGGGACCGAGTTTCAGTCCTGCTATGCCTAACAAAACCATTACAGAATAAAACAAACCTCAACCACACGCTCCCCACCACTTAGTTATTGAGAACATCTTCGGGTTTTGCCTAGCTATGCTTTTTTTTTTTTTAAGCTCTAATAAAACAATAATCCTTTGGGCCCTCAGACCACCAGGATGTAA
>n1201_u1132_AF268425_snmRNA_Cercopithicine herpesvirus 15
GGGACCTACGCTGCCCTAGCGGTTCGGCTAGGGAGGAGATTAGCGTGGTTTGAGCCACCCGTCCCGGGTACAAGTCCCGG
>n1202_u1133_AF270677_snoRNA_Bos taurus (cow)
TGCAAGTGATGCAAAAGTATGTTACCTGGAAGATGGTGATGACACTTTAAACCACCAAGATCGCTGATGCA
>n1203_u1134_AF272707_snoRNA_Rattus norvegicus (Norway rat)
ACAATGATGACTTATGTTTTTGCCGTTTACCCAGCTGAGGGTTTCTTTGAAGAGAGAATCTTAAGACTGAGC
>n1204_u1135_AF272839_UptR RNA_Escherichia coli
GCTGAATATGATTCAATATCGCACGCTACTCATCCATCCAAGGATAATGAGTACATAGGTTGAAGTTTCAACACCCCCACTACGGGGGTGTTTTTT
>n1205_u1136_AF274345_miRNA_Caenorhabditis elegans
TGAGGTAGTAGGTTGTATAGT
>n1206_u1137_AF274931_snmRNA_Citrobacter freundii
GCGCGATTGCGGCAGTTTTTCGGGTGGTTTGTTGCCATTTTTACCTGTCTGCTGCTGTGATCGCGCTGAACGCGTTTT
>n1207_u1138_AF277396_snoRNA_Crithidia fasciculata
AAGACCGTACTCTGAACAGAATCGTTTTATGAGTACAACCTCTTAATTGAAAAAAAACCGAGTTTCAAATCCTGATGATGACGGTTGCTTTCTCCGCCCGGAGAGCGTTTCGATGAACGGCAGGAGAGAGCTCCAGAAGGATC
>n1208_u68_AF281313_snoRNA_Homo sapiens (human)
CTTCAGTGATGACACGATGACGAGTCAGAAAGGTCACGTCCTGCTCTTGGTCCTTGTCAGTGCCATGTTCTGTGGTGCTGTGCACGAGTTCCTTTGGCAGAAGTGTCCTATTTATTGATCGATTTAGAGGCATTTGTCTGAGAAGG
>n1209_u1139_AF287991_snRNA_Gorilla gorilla (gorilla)
ATCGCTTCTCGGCCTTTTGGCTAAGATCAAGTGTAGTATCTGTTCTTATCAGTTTAATATCTGATACGTCCTCTATCCGAGGACAATATATTAAATGGATTTTTGGAGCAGGGAGATGGAATAGGAGCTTGCTCCGTCCACTCCACGCATCGACCTGGTATTGCAGTACCTCCAGGAACGGTGCACCC
>n1210_u1140_AF287992_snRNA_Pan troglodytes (chimpanzee)
ATCGCTTCTCGGCCTTTTGGCTAAGATCAAGTGTAGTATCTGTTCTTATCAGTTTAATATCTGATACGTCCTCTATCCGAGGACAATATATTAAATGGATTTTTGGAGCAGGGAGATGGAATAGGAGCTTGCTCCGTCCACTCCACGCATCGACCTGGTATTGCAGTACCTCCAGGAACGGTGCAC
>n1211_u1141_AF288215_snmRNA_Staphylococcus aureus
GATTACAGAGATGTGATGGAAAATAGTTGATGAGTTGTTTAATTTTAAGAATTTTTTATCTTAATTAAGGAAGGAGTGATTTCAATGGCACAAGATATCATTTCAACAATCAGTGACTTAGTAAAATGGATTATCGACACAGTGAACAAATTCACTAAAAAATAAGATGAATAATTAATTACTTTCATTGTAAATTTGTTATCTTCGTATAGTACTAAAAGTATGAGTTATTAAGCCATCCCAACTTAATAACCATGTAAAATTAGCAAGTGAGTAACATTTGCTAGTAGAGTTAGTTTCCTTGGACTCAGTGCTATGTATTTTTCTTAATTATCATTACAGATAATTATTTCTAGCATGTAAGCTATCGTAAACAACATCGATTTATCATTATTTGATAAATAAAATTTTTTTCATAATTAATAACATCCCCAAAAATAGATTGAAAAAATAACTGTAAAACATTCCCTTAATAATAAGTATGGTCGTGAGCCCCTCCCAAGCTCGCGGC
>n1212_u1142_AF295979_RNase P RNA_Methanothermobacter thermautotrophicus
AGCCGAAGGGCAGCTGACGGTCCCTCAAGGGGCTGAGGAAACTCCACCCATCATACAGAACCGTGGTGCCGTGAGGCATCAGCTGAGAGGCTGGACCCTGGAGCAAAAACGACACGTTTCCTGATGGATGATAATGAAGCTTCACCCTCAAGGAGCAGACTGACATCAGGAGGACCGGTGAAACGGTCATTCCACGGGATGCAAGGACAAATGCTGCCGGTGATTACTGTAGGAGGTAGAGGTAGTTCGCCCAGATGAATGCTGCCGAAACAGAAGGTGGGTTACTCTCGGCA
>n1213_u1143_AF295980_RNase P RNA_Fusobacterium mortiferum
GAGGAAAGTCCGGGCTTCCAAGAGCAAGAGGGCAGCTAACGGCTGCTAAAGGAAACTTTAAGGAAAGCGCCACAGAAAATAGACCGCCATTTTGGTAAGGGTGAAAAGGTGGTGTAAGAGACCACCAGTTCTTTAGGAAACTAAAGAAGCTAGGTAAACCCCCTCTGGAGCAAGACTAAATAGGAAAGGTTAAGGGTTGCTCGTCCAGCTTTCAGGGTAAGTTGCTTGAAATTATAAGAGATTATAATTCTAGATAAATAATTAACATATACAGAACCCGGCTTA
>n1214_u1144_AF295981_RNase P RNA_Thermodesulfobacterium commune
GAGGAAAGTCCGGGCTCCACAGGGGAGGACGCCGGGTAACACCCGGAGGGAGTAATCCCTGGAAAGGGCCACAGAAAACAGACCGCCAGCGGCCAGAAAGGATTTTTTCCTTTCTGGTGCGGGCAAGGGTGAAAAGGTGGGGTAAGAGCCCACCGCACCAGGTGGTAACACCTGGTGGCACGGCAACCCCCGTCCGGAGCAAGGCCAAACAGAGCCATGGGTGCCCCGCCCGCTAAGGCTCAGGTAGGCCGCTTAAGAAGAGGGGTAACCCTCTTCTCAGAGAAATAATCACCGCCTGGGGAAAATTTCCCCAGGTAACAGAACCCGGCTTA
>n1215_u1145_AF295982_RNase P RNA_Leclercia adecarboxylata
GAGGAAAGTCCGGGCTCCATAGGGCAGGGTGCCAGGTAACGCCTGGGGGGGAAACCCACGACCAGTGCAACAGAGAGCAAACCGCCGATGGCCCACGCAAGTGGGATCAGGTAAGGGTGAAAGGGTGCGGTAAGAGCGCACCGCGCGGCTGGTAACAGTCCGTGGCACGGTAAACTCCACCCGGAGCAAGGCCAAATAGGGGTTCACATGGTACGGCCCGTACTGAACCCGGGTAGGCTGCTTGAGCCAGTGAGCGATTGCTGGCCTAGATAATGACTGTTCAACGACAGAANCCGGCTTA
>n1216_u1146_AF295983_RNase P RNA_Pasteurella aerogenes
GAGGAAAGTCCGGGCTACATAGGGCAGAGTGCCGGATAACGTCCGGGGGGCGCGAGCCTACGACCAGTGCAGCAGAGAGCAAACCGCCGATGGCTCAATTGAGATCAGGTAAGGGTGAAAGGGTGCGGTAAGAGCGCACCGCGTGCGTGGTAACACGTCATGGCAGGGTAAACTCCACTCGTAGCAAGACCAAATAGGAATCCAACGAGTTGCCCGCTTGGGATTCGGGTAGGTTGCTTGAGCGTATGTGTAAATGTACGCCTAGAGGAATGATTGTCCACGACAGAACCCGGCTTA
>n1217_u1147_AF295984_RNase P RNA_Providencia alcalifaciens
GAGGAAAGTCCGGGCTCCATAGGGCAGGGTGCCAGATAACGTCTGGGAGGCGCGAGCCTACGACAAGTGCAACAGAGAGCAAACCGCCGATGGCCTGTTTACAGGATCAGGTAAGGGTGAAAGGGTGCGGTAAGAGCGCACCGCGCGACTGGCAACAGTTCGTGGCATGGTAAACTCCACCCGGAGCAAGACCAAATAGGGGTTCATATGGTGCGGCCCGCATTGAACTCGGGTAGGTTGCTGGAGCCAGTGCGCAAGTGCTGGCCTAGATGAATGGTTGTCCACGACAGAACCCGGCTTA
>n1218_u1148_AF295985_RNase P RNA_Plesiomonas shigelloides
GAGGAAAGTCCGGGCTCCATAGGGCAGGGTGCCAGGTAACGCCTGGGCGGCGCAAGCCGACGACTAGTGCAACAGAGAGCAAACCGCCGATGGCCTGTGTTTCACAGGATCAGGTAAGGGTGAAAGGGTGCGGTAAGAGCGCACCGCGCGACTGGTAACAGTTCGTGGCACGGTAAACTCCACCCGGAGCAAGACCAAATAGGGGTTCATTGGTGCGGCCCGCATTGAACCCGGGTAGGTTGCTTGAGCCAGTGCGCGAGTGCTGGCCTAGAGGAATGACTGTCCACGACAGAACCCGGCTTA
>n1219_u1149_AF295986_RNase P RNA_Serratia liquefaciens
GAGGAAAGTCCGGGCTCCATAGGGCAGGGTGCCAGGTAACGCCTGGGAGGCGCAAGCCTACGACTAGTGCAACAGAGAGCAAACCGCCGATGGCCCGCGCAAGCGGGATCAGGTAAGGGTGAAAGGGTGCGGTAAGAGCGCACCGCGCGACTGGCAACAGTTCGTGGCACGGTAAACTCCACCCGGAGCAAGGCCAAATAGGGGTTCACATGGTACGGCCCGTACTGAACCCGGGTAGGCTGCTTGAGCCAGTGAGCGATTGCTGGCCTAGAGGAATGACTGTCCACGACAGAACCCGGCTTA
>n1220_u1150_AF295987_RNase P RNA_Streptococcus equinus
GAGGAAAGTCCGGGCTAGCACCGGCTGTGATGCTGGTAGTGTTTGTGCTAGGCGAACAAATAAGCCTAGGGATGTGTTTGACACATTACGGCGAGTGAAAAGGCTAAGTCCTTGGATATGCCAGAGTAGCTCTGAAAGTGCCACAGTGACGAAGTTTTTATGGAAACGTAAAAAGTGGAACGCGGTAAACCCCTCAAGCTAGCAACCCAAACTTTGGTAGGGGCATGGGATAGTTGGAAACGAACAAGCTATCCTGACTGTTGACAAACAGTAGACAGATGATTATCGAAGGAGATAATACCTAGTTATTTCTGGAACAAAACACGGCTTAT
>n1221_u1151_AF295988_RNase P RNA_Streptococcus bovis
GAGGAAAGTCCGGGCTAGCACTGGCTGTGATGCCGGTAGTGTTTGTGCTAGGTGAATCAATAAGCCTAGGGACATCTTTTTGATGTTACGGCGGGCAAAAAGGCTAAGTCTTTACGGATATGTCTGAATAGCCCTGAAAGTGCCACAGTGACGTAGTTCTTGGGGAAACCTAAGAAGTGGAACGCGGTAAACCCCTCAAGCTAGCAACCCAAACTTTGGTAGGGGCATGGGATAGTTGGAATCCGAACAATCTATCCTGACTGGAAACAGTAGACAGATGATTATCGAAGGAGATAAGACCTAGTTATCTCTGGAACAAAACACGGCTTAT
>n1222_u1152_AF295989_RNase P RNA_Erysipelothrix rhusiopathiae
GAGGAAAGTCCGGGACTCGCACCACCTGAGATGGTGGTAGTGTTTGTGCTCAGTGAATCAATAAGCTGAGGTATAGAGGCATCTATAACGGCAGACCAAAATCCTAAGGGAAACTATGGATGGAGGCTATAAAAGTGCCACAGTGACGAAGTTCCTAGGGAAACCTAGGAAGTGGAACGAGGTAAACCCCATAAGCGAGAAACCCAAAATTGGTAGGGGAACTCACACTACTGAAATGAAGGTAACGTGAGACGTTTTTAAAACGTAGATAAATGATTATCGCAAGTCANAACACGGCTTAT
>n1223_u1153_AF295990_RNase P RNA_unidentified bacterium SM-A14
GAGGAAAGTCCGGGCTCCTTCGGACAGGGCGCCAGGTAACGCCTGGGGGGCGTGAGCCCACGGAAAGTGCCACAGAAAATATACCGCCAGCTTCGGCTGGTAAGGGTGAAATGGTGCGGTAAGAGCGCACCGCGCGACTGGCAACGGCTTGCGGCACGGTAAACCCCGCCCGGAGCAAGACCAAATAGGGGAGCATGTCCGTCGTGTCCGAACGGGCTCCCGGGTAGGTTGCTTGAGGTGGCCGGTGACGGCTATCCCAGATGAATGGTTGTCGATGACAGAACCCGGCTTAC
>n1224_u1154_AF295991_RNase P RNA_unidentified bacterium SM-A31
GAGGAAAGTCCGGGCTCCATGGAAGCGCGGTGCCGGATAACGTCCGGCGGGGGCGACCTCAGGGAAAGTGCCACAGAAAGCAAACCGCCCTCGAGGCCGAAAGGCTTCGCGGAGGGTAAGGGTGAAAGGGTGCGGTAAGAGCGCACCGCGTCTTTGGCAACAAAGGCGGCAAGGCAAACCCCACCGGGAGCAAGACCAAATAGGGGCTGCACGGACGAGAGATCGTCCAGGTCTGTTTCCAGACCCGCGGCCCGGGTTGGTTGCAAGAGGCGTCTCGCAAGAGGCGTCCCAGATGAATGGCCATCACCTCGCAGCAATGCGAGGAACAGAACCCGGCTTA
>n1225_u1155_AF295992_RNase P RNA_unidentified bacterium SM-A74
GAGGAAAGTCCGGGCTCCGTCAGGCAGGACGCCAGGTAACGCCTGGAGGGTGCGAGCCCATGGAAAGTGCCACAGAAAATATACCGCCAGCTTTGCTGGTAAGGGTGAAAAGGTGCGGTAAGAGCGCACCGCGCGGGTGGTAACACGCCGCGGCATGGTAAACCCCGTCCGGAGCAAGACCAAATAGGGGAGCATGGGGACCTTCGGGTCTCTACCGTACGCCTGAGCGGGCTCCCGGGTAGGTTGCTAGAGGCGACCGGTGACGGTTGTCCCAGATGAATGATTGCCCACGACAGAACCCGGCTTA
>n1226_u1156_AF295993_RNase P RNA_unidentified bacterium SM-A76
GAGGAAAGTCCGGGCTCCTTCGGACAGGGCGCCAGGTAACGCCTGGGGGGCGTGAGCCCATGGAAAGTGCCACAGAAAATATACCGCCAGCTTTGGCTGGTAAGGGTGAAATGGTGCGGTAAGAGCGCACCGCGCAACTGGTAACAGGTGTGGCATGGTAAACCCCGCTCGGAGCAAGACCAAATAGGGGGACGTTATGCGTGGTCCGCGCTGTTCCCGGGTAGGTCGCTTGAGGTACATGGTGACATGTTACCCAGATGAATGATTGCCCACGACAGAATCCGGCTTA
>n1227_u1157_AF295994_RNase P RNA_unidentified bacterium SM-A02
GAGGAAAGTCCGGGCCCCAACGGGCAGAGCGCCAGGTAACACCTGGGAGGCGCGAGCCTACGGAAAGTGCCGCAGAAAATATACCGCCTAAGCGCCTTCGGGCGCCGGTAAGGGTGAAATGGTGCGGTAAGAGCGCACCGCGCCGCTGGTAACAGCGGTGGCAGGGTAAACCCCACCCGGAGCAAGACCAAATAGGGATCCACGCGTTTCGGCGCACGGTGCGGCCCGCGCTGGGATCCGGGTAGGTCGCTTGAGGTGTGTGGCGACACACATCCCAGATAAATGACTGCTCACGACAGAACCCGGCTTAT
>n1228_u1158_AF295995_RNase P RNA_unidentified bacterium SM-A03
GAGGAAAGTCCGGGCTCCGCAGGGCAGAGTGCCAGGTAACACCTGGGGGGCGAGAGCCTACGGAAAGTGCAACAGAAAGCATACCGCCCAAAAACGGGGTAACACCCGTTTGAGTGCCTTAGTTGGCTGGGTAAGGTTGAAATGGTGCGGTAAGAGCGCACCGCGCGGCTGGTAACAGCCGTGGCGATGGTAAACCCCACTCGGAGCAAGACCAAATAGGAATCCGTCAGCTGTGGCCCGCAGTGGATTCGGGTAGGTCGCTACAGGCAGGTGGTGACACCTGTCGCAGATGAATGATCGTCCACGACAGAACCCGGCTTA
>n1229_u1159_AF295996_RNase P RNA_unidentified bacterium SM-A07
GAGGAAAGTCCGGGCTCCACAGGGCAGGGTGCTAGGTAATGTTTGGGGGGCGTGAGCCTACGGAAAGTGCCACAGAAAACATACCGCCTACGTCCTTCGAGACCGGTAAGGGTGAAATGGTGCGGTAAGAGCGCACCGCGCCGGTGGTAACACCGGTGGCAGGGTAAACCCCACCCGGAGCAAGACCAAATAGGGGAACTTCGTGCGGCCCGCATGGTTCCCGGGTAGGTCGCTTGAGGTGTGTGGTGACACACATCCCAGATGAATGGCTGTCCATGACAGAATCCGGCTTAC
>n1230_u1160_AF295997_RNase P RNA_unidentified bacterium SM-A11
GAGGAAAGTCCGGGCTCCACAGGACAGGGTGCCAGATAACGTCTGGGAGGCGCAAGCCTACGGCCAGTGCAACAGAAAGTATACCGCCAGCTTCGGCTGGTAAGGGTGAAATGGTGCGGTAAGAGCGCACCGCGCACGTGGTAACACGGGCGGCGAGGGTAAACCCCACCCGGAGCAAGACCAAATAGGAAAACCATGACGTTGTCCGCGTCGTTTTCGGGTTGGTCGCTTGAGGCTGGAGGGTGACCTTCAGTCCAGATGAATGATTATCCTAGACAGAACCCGGCTTAC
>n1231_u1161_AF295998_RNase P RNA_unidentified bacterium SM-A17
GAGGAAAGTCCGGGCTCCATAGGGCAGGGTGCCAGGTAACGCCTGGGGGGGAAACCCACGACCAGTGCAACAGAGAGCAAACCGCCGATGGCCCGCGCAAGCGGGATCAGGTAAGGGTGAAAGGGTGCGGTAAGAGCGCACCGCGCGGCTGGTAACAGTCCGTGGCACGGTAAACTCCACCCGGAGTAAGGCCAAATAGGGGTTCATAAGGTACGGCCCGTACTGAACCCGGGTAGGCTGCTTGAGCCAGTGAGCGATTGCTGGCCTAGATGAATGACTGTCCACGACAGAACCCGGCTTAT
>n1232_u1162_AF295999_RNase P RNA_unidentified bacterium SM-A19
GAGGAAAGTCCGGGCTCCACAGGGCAGGGTGCCAGGTAATCCCTGGGGGGCGCGAGCCTACGGAAAGTGCAACAGAAAATATACCGCCAGGAAACTGGTAAGGGTGAAATGGTGCGGTAAGAGCGCACCGCGCAGGTGGTAACACGCTGCGGCATGGTAAACCCCACCCGGAGCAAGACCAAATAGGAAAGCGATGCCGTGGCCCGCGGCGCTTTCGGGTAGGTCGCACGAGGCCGCCGGTGACGGCGGTCCCAGATGAATGATTGCCACAGATTAACTTCTGGACAGAACCCGGCTTAT
>n1233_u1163_AF296000_RNase P RNA_unidentified bacterium SM-A32
GAGGAAAGTCCGGGCTCCTTCGGACAGGGCGCCAGGTAACGCCTGGGGGGCGTGAGCCCATGGAAAGTGCCACAGAAAATATACCGCCAGCTTTGCTGGTAAGGGTGAAAAGGTGCGGTAAGAGCGCACCGCGCGACTGGTAACAGTTCGCGGCTCGGTAAACCCCGCCCGGAGCAAGACCAAATAGGGGAGTAGGGCTTCGGCCCGCCGTCGGTTCCGAACGGACTCCCGGGTAGGTTGCTAGAGGTAGCCGGTGACGGCTATCCCAGATGAATGGTTGTCGATGACAGAACCCGGCTTA
>n1234_u1164_AF296001_RNase P RNA_unidentified bacterium SM-A33
GAGGAAAGTCCGGGCTCCACAGGGCAGGGTGCCAGGTAACTCCTGGGGGGCGCGAGCCTACGGAAAGTGCAACAGAAAATATACCGCCCGCTTATTCACTTGTGAATGGCGGGTAAGGGTGAAATGGTGCGGTAAGAGCGCACCGCGCACGTGGTAACACGGGCGGCGAGGGTAAACCCCACCCGGAGCAAGACCAAATAGGAAAACCATGACGTTGTCCGCGTCGTTTTCGGGTTGGTCGCTTGAGGCCGGAGGGTGACCTTCAGTCCAGATGAATGATTATCCTAGACAGAACCCGGCTTAT
>n1235_u1165_AF296002_RNase P RNA_unidentified bacterium SM-A37
GAGGAAAGTCCGGGCTCCTTCGGACAGGGCGCCAGGTAACGCCTGGGGGGCGTGAGCCCACGGAAAGTGCCACAGAAAATATACCGCCTGCATCGCAGGTAAGGGTGAAATGGTGCGGTAAGAGCGCACCGCGCGACTGGCAACAGCTTGCGGCACGGTAAACCCCGCCCGGAGCAAGACCAAATAGGGGAGTAGGGCGCTGCCCACCGTCGGTTCCGAACGGACTCCCGGGTAGGTTGCTTGAGGTAGCCGGTGACGGCTATCCCAGATGAATGGTTGTCGATGACAGAACCCGGCTTAC
>n1236_u1166_AF296003_RNase P RNA_unidentified bacterium SM-A46
GAGGAAAGTCCGGGCTCCTTCGGACAGGGCGCCAGGTAACCCCTGGAGGGCGCGAGCCCATGGAAAGTGCCACAGAAAACAAACCGCCAGGCCGCAAGGCCCGGTAAGGGTGAAAAGGTGCGGTAAGAGCGCACCGCGCGGCTGGTAACAGTTCGCGGCACGGTAAACCCCGCCCGGAGCAAGACCAAATAGGGGAGTGCGTGGCCTCACCGCCACACCGCCGGTTCCGAGCGGACTCCCGGGTAGGTTGCTGGAGGCGGCCGGTAACGGCCGTCCTAGATGAATGATTGTCCTCGACAGAACCCGGCTTAT
>n1237_u1167_AF296004_RNase P RNA_unidentified bacterium SM-A54
GAGGAAAGTCCGGGCTCCATAGGACAAGGGCGCCAGGTAACGCCTGGGGGGCGCAAGCCCACGGAAAGTGCCGCAGAAAGCAAACCGCCTAAGCCGCCATCGCTTGCGATGGCGGACGGTAAGGGTGAAAGGGTGCGGTAAGAGCGCACCGCGCATCTGGCAACAGATGTGGCAGGGTAAACCCCGCCCGGAGCAAGGCCAAATAGGAATCCTTCTGGTGTGGTCCGCATCGGATTCGGGTAGGCTGCTCGAGGCGTCCGGCGACGGGCGCCCTAGATGAATGACTGTCAGACTTAGAAGACGCTCGCGTTTTTGCGGTCAACAGAACCCGGCCT
>n1238_u1168_AF296005_RNase P RNA_unidentified bacterium SM-A55
GAGGAAAGTCCGGGCTCCTTCGGACAGGGCGCCAGGTAACGCCTGGGGGGCGTGAGCCCATGGAAAGTGCCACAGAAAATATACCGCCGGCTTGCCGGTAAGGGTGAAAAGGTGCGGTAAGAACGCACCGCGCGACTGGTAACAGTTCGCGGCACGGTAAACCCCGCCCGGAGCAAGACCAAATAGGGGAGTGCGGGTTAATAGCCCACCGTCGGTTCCGAACGGACTCCCGGGTAGGTTGCTAGAGGCAACTGGTGACAGTTGTCCCAGATGAATGGTTGTCGATGACAGAACCCGGCTTAC
>n1239_u1169_AF296006_RNase P RNA_unidentified bacterium SM-A56
GAGGAAAGTCCGGGCTCCTTCGGACAGGGCGCCAGGTAACGCCTGGGGGGCGTGAGCCCACGGAAAGTGCCACAGAAAATATACCGCCAGCTTCGGCTGGTAAGGGTGAAATGGTGCGGTAAGAGCGCACCGCGCGACTGGCAACAGCTCGCGGCACGGTAAACCCCGCCCGGAGCAAGACCAAATAGGGGAGTAGGGCGATGTACGACGCCCCCAAAAGGGGTGTTCGGGTGTTGCCCACCGCCGGTTCCGANCGGACTCCCGGGTAGGTTGCTTGAGGTAGCCGGTGACGGCTATCCCANATGAATGGTTGTCGATGACAGAATCCGGCTTA
>n1240_u1170_AF296007_RNase P RNA_unidentified bacterium SM-A59
GAGGAAAGTCCGGGCTCCATGGGCAGGGCGCCAGGTAACGCCTGGGGGGCGCGAGCCTACGGAGAGTGCCACAGAAAATATACCGCCGGGTCCGCCCGGTAAGGGTGAAATGGTGCGGTAAGAGCGCACCGCGCAGGTGGTAACACGCTGCGGCAGGGTAAACCCCGCCTGGAGCAAGACCGAATAGGGGAGTGTCAAGTGTGCCCGCACGAGCTCCCGGGTAGGTCGCTAGAGGTCGTTCGGTGACGGCGATCCCAGATGAATGACTGTCCTCGACAGSSCCCGGCTTAT
>n1241_u1171_AF296008_RNase P RNA_unidentified bacterium SM-A62
GAGGAAAGTCCGGGCTCCACAGGACAGGGTGCCAGATAACGTCTGGGAGGCGCAAGCCTACGGCCAGTGCAACAGAAAGTATACCGCCAGCTCCGGCTGGTAAGGGTGAAATGGTGCGGTAAGAGCGCACCGCGCACGTGGTAACACGGGCGGCGAGGGTAAACCCCACCCGGAGCAAGACCAAATAGGAAAACTAAGACGCTGTCCGCGTCGTTTTCGGGTTGGTCGCTTGAGGCTGGAAGGTGACTTCCAGTCCAGATGAATGATTATCCTAGACAGAACCCGGCTTA
>n1242_u1172_AF296009_RNase P RNA_unidentified bacterium SM-A65
GAGGAAAGTCCGGGCTCCAAAGGGCAAGGTGCCAGGTAACACCTGGGGGGCGCGAGCCTACGGAAAGTGCAGCAGAAAGTATACCGCCCGGCGATCCACCTTCGCGGTGGGTCACCAGGTAAGGGTGAAATGGTGCGGTAAGAGCGCACCGCGTGACCGGCAACAGGCACGGCGATGGTAAACCCCACCCGGAGCAAGACCAAATAGGAATCCGTCAGCTGCGGCCCGCAGCGGATTCGGGTAGGTCGCTACAGGCAGGTGGTGACACCTGTCGCAGATGAATGATCGTCCACGACAGAACCCGGCTTAT
>n1243_u1173_AF296010_RNase P RNA_unidentified bacterium SM-A75
GAGGAAAGTCCGGGCTCCGGCGGGCAGGGTGCCAGGTAACGCCTGGGGGGCGCGAGCCTACGGAAAGTGCCACAGAAAATATACCGCCAGCTCAGGCTGGTAAGGGTGAAATGGTGCGGTAAGAGCGCACCGCGCTGCTGGTAACAGCAGTGGCAGGGTAAACCCCACTCGGAGCAAGACCAAATAGGGGAACATTGGCGTGGCCCGCGTTGTTCCCGGGTAGGTCGCTTGAGGCGTCCGGTGACGGGCGTCCCAGATGAATGGTTGTCCACGACAGAACCCGGCTTAT
>n1244_u1174_AF296011_RNase P RNA_unidentified bacterium SM-A79
GAGGAAAGTCCGGGCTCCATCGGACAGGGCGCCAGGTAACGCCTGGGGGGCGTGAGCCCACGGAAAGTGCCACAGAAAATATACCGCCAGCTTCGGTTGGTAAGAATAAAATAATGCGGTAAGAGCGCACCGCGCGACTGGCAACAGTTTGCGGCACGGTAAACCCCGCCCGGAGCAAGACCAAATAGGGGAGTAGGGCAACGCACGAGGCCTCCAACAGGGGCCTTCGGGTGTTGGCCACCGTCGGTTCCGAACGGACTCCCGGGTAGGTTGCTTGAGGTAGCCGGCGACGGCTATCCCAGATGAATGGTTGTCAATGACAGAATCCGGCTTAC
>n1245_u1175_AF296012_RNase P RNA_unidentified bacterium SM-A82
GAGGAAAGTCCGGGCTCCACAGGGCAGGGTGCCAGATAACGTCTGGGGGGCGCAAGCCCACGGCAAGTGCAACAGAAAGTATACCGCCGGCTGTGGCCGGTAAGGGTGAAATGGTGCGGTAAGAGCGCACCGCGCTGCTGGTAACGGTGGCGGCAGGGTAAACCCCACCCGGAGCAAGACCAAATAGGAAAACTATGGCGCGGCCCGCGCCGTTTTCGGGTTGGTCGCTTGAGGCTGGAAGGCGACTTTCGGTCCAGATGAATGATTATCCTCGACAGAACCCGGCTTAC
>n1246_u1176_AF296013_RNase P RNA_unidentified bacterium CPA54
GAGGAAAGTCCGGGCTCCATAGGGTAGAGCGCCAGGTAACGCCTGGGAGGCGTGAGCCTACGGAAAGTGCAACAGAGAGCAGACCGCCTACGTAACCTTCGGGTTGCCGGTAAGGGTGAAAGGGTGCGGTAAGAGCGCACCGCGCACCTGGTAACAGTGTGTGGCATGGTAAACCCCGCTCGGAGCAAGACCAAATAGGCCCTCGATGGTGTGACCCGCACTGAGGGCGGGTAGGTTGCTAGAGGTGTCCGGTGACGGGCATCCCAGACGAATGATTGTCCACGACAGAATCCGACAGAACCCGGCTTA
>n1247_u1177_AF296014_RNase P RNA_unidentified bacterium CPA63
GAGGAAAGTCCGGGCTCCAAGGGCAAAGCGCCAGGTAACGCCTGGGGGACGTGAGTCCACGGAAAGTGCAACAGAAAGCAAACCGCCTAAGTTTTTCGCAAGAAAAGCCGGTAAGGGTGAAAGGGTGCGGTAAGAGCGCACCGCGTCGGTGGTAACACTCGACGGCACGGTAAACCCCGCTCGGAGCAAGACCAAATAGGGGAACAAGTGGTCGTCTCTTCGGAGATAGTCCGCACGCATGGCCCATGCAGGTTCCCGGGTAGGTCGCTTGAGGTCTGTGGTGACACAGATCCCAGAGGAATGATTGTTCACGACAGAACCCGGCTTACGAATTCCGACAGAACCCGGCTTA
>n1248_u1178_AF296015_RNase P RNA_unidentified bacterium CPB139
GAGGAAAGTCCGGGCTCCACAGGGCAGGGTGCCAGGTAACGCCTGGGGGGGAAACCCACGACCAGTGCAACAGAGAGCAAACCGCCGATGGCCCGCGCAAGCGGGATCAGGTAAGGGTGAAAGGGTGCGGTAAGAGCGCACCGCGCGGCTGGTAACAGTCCGTGGCACGGTAAACTCCACCCGGAGCAAGGCCAAATAGGGGTTCACATGGTACGGCCCGTACTGAACCCGGGTAGGCTGCTTGAGCCAGTGAGCGATTGCTGGCCTAGATGAATGACTGTCCACGACAGAACCCGGCTTA
>n1249_u1179_AF296016_RNase P RNA_unidentified bacterium CPB141
GAGGAAAGTCCGGGCTCCATAGGGCAGGGTGCCAGGTAACGCCTGGGGGGCGCAAGCCTACGACCAGTGCAACAGAGAGCAAACCGCCGATGGCCCAGTAATGGGATCAGGTAAGGGTGAAAGGGTGCGGTAAGAGCGCACCGCGCGGCTGGCAACAGTTCGTGGCACGGTAAACTCCACCCGGAGCAAGGCCAAATAGGGGTTCACAAGGTACGGCCCGTACTGAACCCGGGTAGGCTGCTTGAGCCAGTGAGCGATTGCTGGCCTAGATGAATGACTGTCCACGACAGAACCCGGCTTACGAATTCCGACAGAACCCGGCTTA
>n1250_u1180_AF296017_RNase P RNA_unidentified bacterium CPA52
GAGGAAAGTCCGGGCTCCATAGGGCAGAGTGCCAGGTAACGCCTGGGGGGCGCGAGCCTACGGAAAGTGGAACAGAGAGCAGACCGCCTAAGCGCTCGCAAGAGTGCCGGTAAGGGTGAAAGGGTGCGGTAAGAGCGCACCGCGCAAWTGGCAACAGGMTGCGGCATGGTAAACCCCACTCGGAGCAAGACCAAATAGGAATCCATTGGTGCGGCCCGCATCGGATTCGGGTAGGTTGCTTGAGGCTAACGGTGACGTTAGATACCCANATGAATGACTGTCTACGACAGAATCCGGCTTATGAATTCCGACAGAACCCGGCTTA
>n1251_u1181_AF296018_RNase P RNA_unidentified bacterium CPB147
GAGGAAAGTCCGGGCTCCATAGGGCAGGGTGCCAGGTAACGCCTGGGGGGTGTAACAACCTACGACCAGTGCAACAGAGAGCAAACCGCCGATGGCCCTTTATGGGATCAGGTAAGGGTGAAAGGGTGCGGTAAGAGCGCACCGCGCGACTGGCAACAGTTCGTGGCACGGTAAACTCCACCCGGAGCAAGGCCAAATAGGGGTTCACATGGTACGGCCCGTACTGAACCCGGGTAGGCTGCTTGAGCCAGTGAGCGATTGCTGGCCTAGATGAATGACTGTCCACGACAGAATCCGGACAGAACCCGGCTTA
>n1252_u1182_AF296019_RNase P RNA_unidentified bacterium CPB71
GAGGAAAGTCCGGGCTCCATAGGGCAGGGTGCCAGGTAACGCCTGGGGGGTGTAACAACCTACGACCAGTGCAACAGAGAGCAAACCGCCGATGGCCCTTTATGGGATCAGGTAAGGGTGAAAGGGTGCGGTAAGAGCGCACCGCGCGGCTGGTAACAGTCCGTGGCACGGTAAACTCCACCCGGAGCAAGGCCAAATARGGGTTCACATGGTACGGCCCGTACTGAACCCGGGTAGGCTGCTTGAGCCAGTGAGCGATTGCTGGCCTAGATGAATGACTGTCCACGACAGAACCCGGCTTATGAATTCCGACAGAACCCGGCTTA
>n1253_u1183_AF296020_RNase P RNA_unidentified bacterium CPB73
GAGGAAAGTCCGGGCTCCATAGGGCAGGGTGCCAGGTAACGCCTGGGGGGTGTAACAACCTACGACCAGTGCAACAGAGAGCAAACCGCCGATGGCCCTTTATGGGATCAGGTAAGGGTGAAAGGGTGCGGTAAGAGCGCACCGCGCGACTGGCAACAGTTCGTGGCACGGTAAACTCCACCCGGAGCAAGGCCAAATAGGGGTTCACATGGTACGGCCCGTACTGAACCCGGGTAGGCTGCTTGAGCCAGTGAGCGATTGCTGGCCTAGATGAATGACTGTCCACGACAGAACCCGGCTTACGAATTCCGACAGAACCCGGCTTA
>n1254_u1184_AF296021_RNase P RNA_unidentified bacterium CPB74
GAGGAAAGTCCGGGCTCCATAGGGCGAGGTGCCAGGTAACGCCTGGGGGGTGTAACAGCCCACGACTAGTGCAACAGAGAGCAAACCGCCGATGGCCCACGCAAGTGGAATCAGGTAAGGGTGAAAGGGTGCGGTAAGAGCGCACCGCGCGGCTGGTAACAGTCCGTGGCACGGTAAACTCCACCCGGAGCAAGGCCAAATAGGGGTTCATAAGGTACGGCCCGTACTGAACCCGGGTAGGCTGCTTGAGCCAGTGAGCGATTGCTGGCCTAGATGAATGACTGTCCACGACAGAACCCGGCTTACGAATTCCGACAGAACCCGGCTTA
>n1255_u1185_AF296022_RNase P RNA_unidentified bacterium CPB75
GAGGAAAGTCCGGGCTCCATAGGGCAGGGTGCCAGGTAACGCCTGGGGGGGAAACCCACGACCAGTGCAACAGAGAGCAAACCGCCGATGGCCCACGCAAGTGGGATCAGGTAAGGGTGAAAGGGTGCGGTAAGAGCGCACCGCGCGGCTGGTAACAGTCCGTGGCACGGTAAACTCCACCCGGAGCAAGGCCAAATAGGGGTTCACAAGGTACGGCCCGTACTGAACCCGGGTAGGCTGCTTGAGCCAGTGAGCGATTGCTGGCCTAGATGAATGACTGTCCACGACAGAATCCGGCTTA
>n1256_u1186_AF296023_RNase P RNA_unidentified bacterium CPB80
GAGGAAAGTCCGGGCTCCATAGGGCAGGGTGCCAGGTAACGCCTGGGGGGGAAACCCACGACCAGTGCAACAGAGAGCAAACCGCCGATGGCCCGCGCAAGCGGGATCAGGTAAGGGTGAAAGGGTGCGGTAAGAGCGCACCGCGCGGCTGGTAACAGTCCGTGGCACGGTAAACTCCACCCGGAGCAAGGCCAAATAGGGGTTCACATGGTACGGCCCGTACTGAACCCGGGTAGGCTGCTTGAGCCAGTGAGCGATTGCTGGCCTAGATGAATGACTGTCCACGACAGAACCCGGCTTA
>n1257_u1187_AF296024_RNase P RNA_unidentified bacterium CPB86
GAGGAAAGTCCGGGCTCCATAGGGCAGGGTGCCAGGTAACGCCTGGGGGGGAAACCCACGACCAGTGCAACAGAGAGCAAACCGCCGATGGCCCGCGCAAGCGGGATCAGGTAAGGGTGAAAGGGTGCGGTAAGAGCGCACCGCGCGGCTGGTAACAGTCCGTGGCACGGTAAACTCCACCCGGAGCAAGGCCAAATAGGGGTTCACATGGTACGGCCCGTACTGAACCCGGGTAGGCTGCTTGAGCCAGTGAGCGATTGCTGGCCTAGATGAATGACTGTCCACGACAGAACCCGGCTTA
>n1258_u1188_AF296025_RNase P RNA_unidentified bacterium SMB-B1
GAGGAAAGTCCGGGCTCCATAGGGCAGGGTGCCAGGTAACGCCTGGGGGGGAAACCCACGACCAGTGCAACAGAGAGCAAACCGCCGATGGCCCGCGCAAGCGGGATCAGGTAAGGGTGAAAGGGTGCGGTAAGAGCGCACCGCGCGGCTGGTAACAGTCCGTGGCACGGTAAACTCCACCCGGAGCAAGGCCAAATAGGGGTTCATAAGGTACGGCCCGTACTGAACCCGGGTAGGCTGCTTGAGCCAGTGAGC
>n1259_u1189_AF296026_RNase P RNA_unidentified bacterium SM-A48
GAGGAAAGTCCGGGCTGCAAGTGAGACAGGACTCCATCTAACGGATGGCCAGAGTAATCTGAGGGCAAGTGCAACAGAAAGTAGGTAGCCACTTCGGTGGTGACAGTGAAAGGGTGGGGTAAGAGCCCACCAGTGCTTATGGTAACATAGGCAGCTAGGTAAACCCTGTCCGCAGCAAGAAGTATATGGTATAAGTCTCACAAGCTGTTAGATCAGCACTCATACTTCGCTTGAACGTATTGGCAACAACACGTCTAGATAAATAACTACCCACGACAGAACCCGGCTTA
>n1260_u1190_AF296027_RNase P RNA_unidentified bacterium SM-A26
GAGGAAAGTCCGGGCTCCGCAGGGCGGGATGCCAGGTAATGCCTGGGAGGTGAAAACCTATGGAAAGTGCCACAGAAAATATACCGCCCCGCCGCGCACGCGCGCTGGGGTAAGGGTGAAATGGTGCGGTAAGAGCGCACCGCGCTGCTGGTAACAGCAGTGGCAGGGTAAACCCCATCCGGAGCAAGACCAAATAGGGAAGCATGCGACTGGTTCGCAATCTGTGGCCCGCAGATGCTTCCGGGTAGGTTGCTTGAGGCATTCGGTGACGAATGACCCAGATGAATGACTATCCGTTGTCTCCAGGCTAATGGAGATTCTGACAGAATCCGGCTTAT
>n1261_u1191_AF296028_RNase P RNA_unidentified bacterium SM-A04
GAGGAAAGTCCGGGCTCCACAGGGCAGGATGGTCCTTAACGGGGACCGGGGGCGACCCCAGGGAAAGTGCCACAGAGAGTAGACCGCCCGCCAAGGCCTGGCCGTGGCGTGGTAAGGGTGAAAGGGTGAGGCAAGAGCTCACCAGTGCCGGCGGTGACGTCGGCAGCTCGGTAAACCCCATCCGGAGCAAGGCCAAATAGGGGAGTGATTGAGGACGGCCCGTTCGAGACTCCCGGGTCAGGCTGCTTGAGGCCATCGGCAACGGTGGTCCTAGAGGAATGATCGTCGCTTCGCAGCGGGCAACTGCTGCGGGGTACAGAACCCGGCTTA
>n1262_u1192_AF296029_RNase P RNA_unidentified bacterium SM-A12
GAGGAAAGTCCGGGCTCCACAGGACAGGGTGCTGGGTAACTCCCAGTCCTGGCGACAGGAAGGAAAGTGCCACAGAAAGGAGACCGCCTCGTTTGATGTCTGAGACATCGGATGGGGTAAGGGTGAAAGGGTGAGATAAGAGCTCACCAGTCCAGCCGGCGACGGTTGGAGCTTGGTAAACCCCGCCTGGAGCAAGACCAAATAGGGGAGCGCATGAGGGTGGTCCGCCCGAGCTTCCGGGTAGGTCGCTTGACCTCGATGGAGACATCGAGGCTAGATGAATGGTCATTGTCTTGAAAGTGGGTGACTACTTCGGGAAACAGAATCCGGCTTAC
>n1263_u1193_AF296030_RNase P RNA_unidentified bacterium SM-A43
GAGGAAAGTCCGGGCTCCACAGGGCAGGATGGTCCTTAACGGGGACCGGGGGCGACCTTAGGGATAGTGCCACAGAGAGAAGACCGCCCGCCATCGTTTTTGCGATGGCAGGTAAGGGTGAAAGGGTGAGGTAAGAGCTCACCAGTGTCGGCGGTGACGTCGGCAGCTAGGTAAACCCCATCCGGAGCAAGGCCAAATAGGGGAGTGCTTGAGGACGGCCCGTCCGAAGCTCCCGGGTCAGGCTGCTTGAGGCCGTCGGCAACGGCGGTCCTAGAGGAATGATCGTCACTCTGCAGGGGGTAACCGCTACAGAGGACAGAACCCGGCTTAC
>n1264_u1194_AF296031_RNase P RNA_unidentified bacterium SM-A77
GAGGAAAGTCCGGGCTCCACAGGACAGGATGGTCCCTAACGGGGACCGGGGGTGACCCTAGGGATAGTGCCACAGAGAGGAGACCGCCTGTTTTCGCTGCGGCGCTGACAGGTAAGGGTGAAAGGGTGAGGTAAGAGCTCACCAGTTCTGGCGGTGACGTCAGAAGCTCGGTAAACCCCATCCGGAGCAAGGCCGAATAGGGGAACATTTGAGGATGGTCCGTCCAAAGTTCCCGGGTCTGGCTGCTTGAGACCGTCGGCAACGGCGGTCCTAGAGGAATGATCATCGTCCTGCAGCGGGTAACTTCTGCAGGAAACAGAATCCGGCTTAC
>n1265_u1195_AF296032_RNase P RNA_unidentified bacterium SM-A96
GAGGAAAGTCCGGGCTCCGCAGGACAGGGTGCTGGGTAATGCCCAGTCCCGGTGACGGGAAGGAAAGTGCCACAGAAAGGAGACCGCCCTGTCAGATATGCAAATATCCGGCAGGGTAAGGGTGAAAGGGCGATGTAAGAGCTCACCAGTCTCGCCGGTGACGGCGGGAGCTCGGTAAACCCCACCTGGAGCAAGGCCAAATAGGGGAGCGTTTGAGGGCGGTCCGTCCGAGTTCCCGGGTAGGTCGCTTGATTCCGCTGGCAACAGCGGGGCTAGATGAATGGTCATTGTCCCGACGGCGGGTGACTGCCTCGGGGAAACAGAATCCGGCTTAC
>n1266_u1196_AF296033_RNase P RNA_unidentified bacterium Rr327
GAGGAAAGTCCGGGCTCCACAGGGCAGGGTGCCAGCTAACGGCTGGGCGGGGTAACCCGACGGAATAGTGCAACAGAGAGCAGACCGCCGCTTCGCTGCTCCGGCAGCGGGCGGTAAGGGTGAAACGGTGGGGTAAGAGCCCACCAGTGCCCCTGGAGACAGGGGGAGCTAGGTAAACCCCACCCGGTGCAAGGCCTACGTGAGGGCATGCCCTCGCGCACCCCAGGGAGAGCTTGCCCGGCTCGCTTACCTGGAGGGATTGGCCGCTCGAGGTCGCTGGCGACAGCGATCCCAGATAGATGACCGTGGAAACAGAATCCGGCTTA
>n1267_u1197_AF296034_RNase P RNA_unidentified bacterium SM-A21
GAGGAAAGTCCGGGCAACAAAGAGCGCCATACTTCCTAACGGGAAGGAGGCTGACTGGAGACGGTCAGTTTACAGAAAGTGCCACAGAAAATATACCGTTCCGATAGCTATCGGGATAAGGGTGAAAAGGTAGGGTAAGAGCCTACCGCTCCGCCAGTGATGTCGGGGGCATGGTAAACCTTATGGGTTGAAAGATCAAATAGGTTCCGCATTGGATTAAGTTCCAAGAAGAGTTGCTCGCTCTTACGCGGAATGGGTAGATCGATGGATCCTGATTGTGAAGTCAGGGCTAGATAAATGGCAAGAATCCTTTTGGTTTATATCAGATGGAAACAGAACCCGGCTTAC
>n1268_u1198_AF296035_RNase P RNA_unidentified bacterium SM-A35
GAGGAAAGTCCGGGCAGCATAGAGTGCCGTACTTCCTAACGGGAAGGTCCCAATAAAACGGGAACAGAAAGTGCCACAGAAAATATACCGTCTCGATCTAATCGGGATAAGGGTGAAATGGTGAGGTAAGAGCTCACCGCTTCTGCAGTGATGCAGTTGGCAGGGTAAACCTTACGGGTTGAAAGGCCAAATAGGTCCTGTTTTCCTTCGTGGAATTGGGTTGCTCGCTCAATCGCAAGAGGCAGGATGGGTAGGCTGATCGATCCCGGTAGCGATACCGGGACCAGATAAATGATAAGATTCCGTTCATTTCGGGAACAGAACCCGGCTTA
>n1269_u1199_AF296036_RNase P RNA_unidentified bacterium SM-A39
GAGGAAAGTCCGGGCTCCACAGAGAATGATGCCGGGTAATGCCCGGGCCTGTTCAGACTCTCTGCATTGCAGTTTGTTAAGCAGGACAGATAGTGCCACAGAAATAAACCGCCTGGTTTAAAATCTTGGATTTTCAGTCAGGTAAGGGTGAAAAGGCGAGGTAAGAGCTCACCGGTCAACCGGTAACGGATGATGCAAGGTAAACCTCATCAGGAGCAAAGTCAAATAGGTAGGAGGGTTTCTCGTCCATATCCTACGGGTAGATTGCTAAAAGCTTTCAGCAATGGTAGTTTTAGATAGATGGTAATCCTAGACAGAACCCGGCTTAC
>n1270_u1200_AF296037_RNase P RNA_unidentified bacterium SM-A06
GAGGAAAGTCCGGGCTCCTCAGGACAGGATGGTCGATAACGTCGACCGGCCGCGAGGTCAGGGAAAGTGCAACAGAAAGCAGACCGCCGAACGGTCCTTCGGGACGCGTGGCAAGGGTGAAACGGTGCGGCAAGAGCGCACCAGCGGTCGAGGTGACTCGATCGGCTTTGTAAACCCCATCCGGAGCTAGACCAAACAGGTTGCAGTCGTCGAGTTCGCTCGACGCGCGAAGTCGTCCGCTTCGTTATCGACATCCGGGTAGGTCGCGATTGAGGCGACGAGCAATCGTCGTGCACAGATAGATGGTCGTCGACGCCCCAGCGGCGTTACAGAACCCGGCTTA
>n1271_u1201_AF296038_RNase P RNA_unidentified bacterium SM-A61
GAGGAAAGTCCGGGCTTCTCAGGACAGGATGGTCGATAACGTCGACCGGCCGCGAGGCCAGGGAAAGTGCAACAGAGAGTAGACCGCCGAACGGTCCGCTTCGGCGGGCGCGTGGTAAGGGTGAAACGGTGCGGTAAGAGCGCACCAGCGATCGGGGTGACTCGATCGGCTTGGTAAACCCCATCCGAAGCTAGACCAAACAGAGCGGAGTTGTTTCAACCGGCGCCCCCGCGGCGTCGGTTGGCACGCAAGGCGGTCCGTCTTGTCAACCACGTTCGGGTAGGTCGCGATTGAGGCGGCGAGCAATCGTCGTGCACAGATAAATGATCGTCGTCGATCCTGTGTCGGGCACAGTTCGCTGTGTGGCACAGTTCGTCACAGAACCCGGCTTA
>n1272_u1202_AF296039_RNase P RNA_unidentified bacterium SM-A88
GAGGAAAGTCCGGGCTTCTCAGGACAGGATGGTCGATAACGTCGACCGGCCGCGAGGCCAGGGAAAGTGCAACAGAGAGTAGACCGCCGAACGGTCCGCTTCGGCGGGCGCGTGGCAAGGGTGAAACGGTGCGGTAAGAGCGCACCAGCGATCGGGGTGACTCGATCGGCTTGGTAAACCCCATCCGAAGCTAGACCAAACAGAGCGGAGTTGTTTCAACCGGCGCCCCCGCGGCGTCGGTTGGCACACAAGGCGGTCCGTCTTGTCAACCACGTTCGGGTAGGTCGCGATTGAGGCGGCGAGCAATCGTCGTGCACAGATAAATGATCGTCGTCGATCTTGTGTCAGGCACAGTTCGCTGTGTGGCACAGTTCGTCACAGAACCCGGCTTAT
>n1273_u1203_AF296040_RNase P RNA_unidentified bacterium SMB-B3
GAGGAAAGTCCGGGCAGCACAGAGCAAGGGTGCCTGGTGAAAGCCAGGGAGGCGCTATCTGGCGTCGACAGTCCAGACCGGCACACTCCTCAGGAGTGTGAGAGCAACAGAGACCAATCTATTGTGCCAAGGCGCAATAGCTGAAAAGGGCAATCCTCCTCGCTGCAATCTCCGATCCGGCCGTTACCAGGTTGCTCGCCAAGGCCGAAAGACGAGAGCCGTCGGTGCTCGCATCGACCGGTCTATTCGACCGAGAAAGATGATCGCCAGGAACAGAACGCGGCTTA
>n1274_u1204_AF296041_RNase P RNA_Leptospirillum ferrooxidans
GAGGAAAGTCCGGGCACCAAAGGGCAAGGCGCTGGGTAACTCCCAGTCCCGGTGACGGGAAGGAAAGTGCCACAGAAAAGATACCGCCCGGATTCGTTCGGGTAAGGGTGAAAAGGCGAGGTAAGAGCTCACCGCGGACCTGGTGACAGGGACGGCATGGTAAACCCCGCCTGGTGCAAGACCAAATAGGGGGGCGCTCCCGAAAGGGATAAGATTGGCCCGGTCAAGGCTCCCGGGTAAGGTCGCTTGAGTGCAAGGGTAACCTTGCATCTAGAGTAATGGTCACCCTGCCTTCCTTTAGGGGAAGGTATGACAGAACCCGGCTTA
>n1275_u1205_AF296042_RNase P RNA_Leptospirillum ferrooxidans
GAGGAAAGTCCGGGCACCAAAGGGCAAGGCGCTGGGTAACTCCCAGTCCCGGTGACGGGAAGGAAAGTGCCACAGAAAAGATACCGCCCGGATTCGTTCGGGTAAGGGTGAAAAGGTGAGGTAAGAGCTCACCGCGGACCTGGTGACAGGGACGGCATGGTAAACCCCGCCTGGTGCAAGACCAAATAGGGGGGCGTTCCCGCAAGGGATAAGATTGGCCCGGTCAATGCTCCCGGGTAAGGTCGCTTGAATGCAAGGGTAACCTTGCATCTAGAGTAATGGTCACCCTGTCTTTCTTTCGGGAAAGGCATGACAGAACCCGGCTTA
>n1276_u1206_AF296043_RNase P RNA_Verrucomicrobium spinosum
GAGGAAAGTCCGGGCACCTCAGGGCAGTGTGCCGTGTGAAAACGCGGGGGCTGGCGGCGTAAGCTTCCGGTCACGGAAAGTGTCACAGAAAACATACCGCCGCGGGCAACTGCGGTAAGGGTGAAAAGGCGAGGTAAGAGCTCACCGCTCCGACTGAAAGGAAGGAGGCAGGACAAACCCCACACGGTGCAAGACAGAACAGGGGAAACGGCCCGCCCTGGCCGCACTGACTCCGCAAGGAGTTGGGATAACCCCGGGTATTAGTCGCACCTCGCGCAAAGCGGGGAGCACGGGGCGCAAGCCCCGGGCTAGAGAAATGACCGCCACCTTTTGCGGCAACGCGGGAGGCACAGAACCCGGCTTA
>n1277_u1207_AF296044_RNase P RNA_unidentified bacterium SM-A13
GAGGAAAGTCCGGGCTCCACAGGACAGAGTGCCAGGTAACGCCTGGGGGGCGTGAGCCTACGGAAAGTGCAGCAGAAAATAAACCGCCTCTTCGGAGGTAAGGGTGAAATGGTGCGGTAAGAGCGCACCGCGTGTTCTGGCAACACGACGCGGCTAGGTAAACCCCACTCGGAGCAAGACCAAATAGGGGAACATTATGTGCGGTCCGCACTGTTCCCGGGTAGGTTGCAAGAGGTGTGTGGCGACACACATCCCAGATGAATGACTGTTCACGACAGAACCCGGCTTAT
>n1278_u1208_AF296045_RNase P RNA_unidentified bacterium SM-A15
GAGGAAAGTCCGGGCTCCTTAGGGCAGGATGCTGGGTAACTCCCAGCGGGACAGGGCATAAGGCCTGTTCCAGCGCCAGTGCAACAGAAAATATACCGCCGGACTTTGTCCGGTAAGGGTGAAATGGCGGGTTAAGAGCCCACCGGCAGGCTGGTGACAGCCTGGTCTGGTAAACCGCATCCGGAGCAAAGCCAAATAGGGAAGGTATGGAGCTGCCCGCTCTTCTTCCGAGTTGGCCGCTTGAGATAAGCAGTAATGATTATCCTAGATGGATGACTGCCGCTGACTGTGCGAGAGTGCAGTTAGTACAGAATCCGGCTTAC
>n1279_u1209_AF296046_RNase P RNA_unidentified bacterium SM-A42
GAGGAAAGTCCGGGCACTATAGGGCGGAGTGCCAGGTAACACCTGGGCGGCGTGAGCCGACGGCAAGTGCAGCAGAGAGAAGACCGCCTGACTCGTCAGGTAAGGGTGAAAGGGTGCGGTAAGAGCGCACCGCGCGAGTGGTAACACTTCGTGGCAAGGTAAACCCCACTCAGTGCAAAACCAAATAGGGGAGAGATGGTGCGGCCCGCACTTCTCCCGGGTAGGTTGCTTGAGGTATGTGGTGACACATATCCCAGATGAATGACTATCCAAGACAGAACCCGGCTTAC
>n1280_u1210_AF296047_RNase P RNA_unidentified bacterium SM-A53
GAGGAAAGTCCGGGCTCCATAGGGTGAGGTGCCAGGTAACGCCTGGGGGGCGCGAGCCCACGGAAAGTGCAACAGAGAGCAGACCGCCGATGTCGGCTATTCGCCGGCAGGTAAGGGTGAAACGGTGCGGTAAGAGCGCACCGCGTCGGTGGCAACATGCGACGGCTAGGTAAACCCCGCCTGGAGCAAGACCAAATAGGGAAGTACGCGAACCCATGGTTTGCGCCTGCGGCCCGCAGGAACTTCCGGGTATGTCGCTGGAGATGAGCGGTGACGCGCATCCTACATGGATGGTTGCCCACGACAGAACCCGGCTTA
>n1281_u1211_AF296048_RNase P RNA_unidentified bacterium SM-A84
GAGGAAAGTCCGGGCTCTAGAGGGCGCGGCGGTCGTTAACAACGACTGTCCTGACATGTACAGGATAAGGAAAGTGCCACAGAAAATATACCGCCCTGAGCTTGTCGAAGGGTAAGGGTGAAATGGTGAGGTAAGAGCTCACCAGTATCCCAAGTGATTGGGATAGCTTGGCAAACCCCGCTGAGAGCAAAACCAAATAGGGGAGCACTGAAATGTACATCATTTCATCAAGTGGCCCGCTTGAAGCTCCCGGGTAGGTTGCTAGAGGTACCTGGCAACAGGTATCCCAGATGAATGACCATTACCCCAACCATCTGATTGGGGGACAGAATCCGGCTTAT
>n1282_u1212_AF296049_RNase P RNA_unidentified bacterium SM-A90
GAGGAAAGTCCGGGCTCCGCAGGACAGGATGCCAGGTAACACCTGGGGGGCGAGAGCCTACGGAAAGTGCCACAGAAAATATACCGCCCTGTTTTGGCAGGGTAAGGGTGAAATGGCGCGGTAAGAGCGCACCGCATGGCTGGTAACAGGCATGGCAGGGTAAACCCCATCCGGAGCAAGACCAAATAGGGGAACACTGGTGTGGTCCGCACTGTTCCCGGGTAGGTTGCACGAGGTGCTTGGTGACGAGCATCCCAGATGAATGACTGCTCAACGACAGAACCCGGCTTAT
>n1283_u1213_AF296050_RNase P RNA_unidentified bacterium CPA58
GAGGAAAGTCCGGGCGCCGTCGAAACGCGGTGGTGGGTAACACCCACCGGCCGCGAGGCCAGGGAAAGTGCAACAGAAAGCAGACCGCCATCGGGCCGGGGCAACCCAGCCTGAGGGTAAGGGTGAAACGGTGAGGTAAGAGCTCACCAGCAGGCCGGGTAACCGGTCTGGCTAGGCAAACCCCACCGGGCGCAAGGCCAAGCAGGGAGCATGGGTGGCGGCAGCGAATCCGTTCGCCACCGGCCGCCCACGGATTGTTTCGAGCCGTAACAGACTTCCGGGTAGGCTGCTCGAGACGCCGAGTAATCGTCGTCCTAGAGAAATGGCCACCGCCCGTCGTCGCCCTCCGGGGCTTCGACGGGAACAGAATCCGGCTTATGAATTCTGCACAGAACCCGGCTTA
>n1284_u1214_AF296051_RNase P RNA_unidentified bacterium CPA56
GAGGAAAGTCCGGGCAACACAGAGCATCGTACTTCCTAACGGGAAGGATTCCGCTTTAGCGGGAGACAGAAAGTGCCACAGAAAACAAACTACTCGCGCTTAGGTGTGAGAAAAGGTGAAAAGGTGGGGTAAGAGCCCACCGGTCTTGAAAGTGATTTCAGATGCATGGCAAACCTTACGAGTTGAAAGGCCAAATAGGTCACGCTCACGAAAGTGATTAGCTGCTCGCTGATAGTGCAAGCTGGCGTGATTGGGTAGGCTGCTTGATTCTAATGGCGACATTAGGGCTAGATAAATGATAGGCACTTCGAAAGAGGAACAGAACCCGGCTTATGAATTCCGACAGAACCCGGCTTA
>n1285_u1215_AF296052_RNase P RNA_unidentified bacterium CPA59
GAGGAAAGTCCGGGCTCCACAGAGCAGAACGCCGGGTAACACCCGGTGGGGGAAACCCCGAGGAAAGTGCCACAGAAAACAGACCGCCTTCGCCGCGCGAGCGGCGCGGGTAAGGGTGAAACGGTGGGGTAAGAGCCCACCGCGCAGACGGTAACGGATGCGGCACGGCAAACCCCGTTCGGAGCAAGGCCATGTATAGGAACGTTCGAGGGCTGCTCGCCCGAGTTCCAGGGTAGGCCGCTCGAGGCGCACGGTAACGGGCGTCCCAGATGAATGATCGCCAAGTGTCCCCGGACACTCACAGAACCCGGCTTATGAATTCTGCACAGAACCCGGCTTA
>n1286_u1216_AF296053_RNase P RNA_unidentified bacterium CPA61
GAGGAAAGTCCGGGCACCACAGGGCAGGATGCCGCACGAGCTTCACCGCAAGTGCGGGCGTCGCGTTTCAAGGCGCGGCGACGGACAGTGTCACAGAGAATATACCGCCCTCCGTGGTTCGGCGAAAGCCGGGCTTCGAAGGGTAAGGGTGAAAAGGTGGGGTAAGAGCCCACCGCGCCGCCAGCAATGGCGGCGGCACGAAAAACCCCTTCCGGTGCAAGGCAAAATAGGTGACTGGGCGGCCCGTCCGATAGTCACGGGTATGCCGCATCCGGCGCCGCTCGCGCAAGTGAGCGGCGCGGGACGAGGCCGCCGCGAGGCGGCCCGAGAGAAATGACGACTGAAGCGCCGCAAGGCGTGGAACAGAACCCGGCTT
>n1287_u1217_AF296054_RNase P RNA_unidentified bacterium CPA62
GAGGAAAGTCCGGGCTCCACGGATCAACGGTGCCGGATAACGTCCGGCGGGGGCAACCCCAGGGAAAGTGCCACAGAAAAGTAAACCGCCACGGGCGCGTTGCGTTTAGCCTGCGGCAAGGGTGAAACGGTGCGGTAAGAGCGCACCGCGTTTCCGGCAACGGAAGCGGCAGGGCAAACCCCACCGGGAGCAAAACCGAATAGGAACGGCGCGCGTTTCCGCGCAAGCGGGAAAGCAGATCGATCCGGATCAGCCGTTCGGGTAGGTCGCTTCAGGCACACAGCAATCTGTGCCGCAGAGGAATGGCCGTCACGTGCTGCGTTATCGCGCAGCGCCATACAGAACCCGGCTTACGAATTCCGACAGAACCCGGCTTA
>n1288_u1218_AF296055_RNase P RNA_unidentified bacterium CPB144
GAGGAAAGTCCGGGCTCCATAGGGCAGGGTGCCAGGTAACGCCTGGGGGGCGCAAGCCCACGACCAGTGCAACAGAGAGCAAACCGCCGATGGCCCCCCCAATAGATTTCAGGTTGCAGCAAGGCAGCAATCGCTTGAGTCCTCAGGAGCTTAGGTAACTAAGTGACTGGGGTGAAAGCGAGAAGCTAACGCAGCAGCGGCCTGAAAGATGCAGGGGATGTGGGATCAGGTAAGGGTGAAAGGGTGCGGTAAGAGCGCACCGCGCGGCTGGTAACAGTTCGTGGCACGGTAAACTCCACCCGGAGCAAGGCCAAATAGGGGTTCACCAGGTACGGTCCGTACTGAACCCGGGTAGGCTGCTTGAGCCAGTGAGCGATTGCTGGCCTAGATGAATGACTGTCCACGACAGAACCCGGCTTACGAATTCCGACAGAACCCGGCTTA
>n1289_u1219_AF296056_RNase P RNA_unidentified bacterium CPB69
GAGGAAAGTCCGGGCAACATTGGGCATCGTGCCGCATGAATAGTGCGGGCATCTTGGCGGTAACGTTAGGATGACAGACAGTACCACAGAAAATAGGTAGCTCAGGCTGACTCGTTCAGTCAGGGTGATAGTGAAAAGGCGGGGTAAGAGCCCACCGGCCGGCCAGTAATAAAAGGCGCATGGTAAACCTCGCGAGTTGAAAGGTCAAATAGGCCCTGATAAAATGAACGGCCCGTTCTTACCTGTTAAACCAGGTATCAGGGTGGGTAGACCGATTGATCCTGACGGTAACGTCAGGACAAGATAAATGATGAGCATGCTGAGCAATCAGTGAACAGAACCCGGCTT
>n1290_u1220_AF296057_RNase P RNA_unidentified bacterium CPB149
GAGGAAAGTCCGGGCTTCATGAAAACACGGCGCCGGATAACATCCGGGGGGCGCAAGCCTACGGAAAGTGCAACAGAAAACAAACCGCCTTGCTTGGCCTCTGGCGAAGCAGGGTAAGGGTGAAACGGTGCGGTAAGAGCGCACCAGCGTCCTGGTAACAGGGCGGCTTGGCAAACCCCGCCGGAAGCAAGGCCAAATAGGGAAGGCAGGATACTTCGGTATCAGGGTCCGTTTTCAGACAAGCCGAATTCTGCACAGAACCCGGCTTA
>n1291_u1221_AF296058_RNase P RNA_unidentified bacterium CPB70
GAGGAAAGTCCGGGCTCCACAGGGCAGGGTGGTTGCTAACGGCAACCCGAGGCGACTCGCGGGAAAGTGCCACAGAGAACAGACCGCCGCGGCGACTTCGTCGCTGCGGTAAGGGTGAAACGGTGGTGTAAGAGACCACCAGCGGGCTGGGCGACCAGCTCGGCTTGGTAAACCCCACCCGGAGCAAGGTCAAAAGGGCAGGTTCGCCTGTCTGCGCAAGCGTTCGAGGGCGGCCCGCCCGAGCTTGCGGGTAGACCGCTAGAACCGGTCGGCAACGGCCGGTCCAGATGGATGGTCGCCACTGCGCGAGAGCGCGGTACAGAATCCGGCTTACGAATTAAGACAGAACCCGGCTTA
>n1292_u1222_AF296059_RNase P RNA_unidentified bacterium CPB72
GAGGAAAGTCCGGGCTCCACAGGATGCCGTGGTGGATAACGTCCACCGACCGCAAGGTTCGGGAAAGTGCAACAGAGAACAGACCGCCGATCGCTGCGGGGCAACTCGCGGCGAGGTAAGGGTGAAACGGTGAGGTAAGAGCTCACCAGCGGGTCGGGCGACCGACTCGGCTCGGCAAACCCCACGGGGAGCAAGGCCAAGCAGAGAGGAGACTTCGGGCGGCTTCGGTCACTCGGCGTCGCGGGGCGATTCGTTCCGTTATCACTCTCGGGTAGGCTGCCAGAGGCGGCGGGCAACCGTCGTCCTAGAGAAATGATCGTCGCGACGGCGCAGGCCGTCGGACAGAACCCGGCTTACGAATTCCGACAGAACCCGGCTTA
>n1293_u1223_AF296060_RNase P RNA_unidentified bacterium CPB7677
GAGGAAAGTCCGGGCAGCATAGGATATGACAGTCGCTAACGGCGACCGGGGGTGACCCTAGGGAAAGTGCCACAGAAACGATACCGCCTTCTCCGGGAGGTAAGGGTGAAAGGAGTGGGGTAAGAGCCCACAGCGACGCACGGTGACGTGCGAAGGAGGTAAACCCTGTCAGCTGCAAGGAGATCTGCAAAAAGGGCGGTCCGTCCGCAGGTCGTTATCCGCTTGATTCGGCAGGCAACTGCCGGGMTAGATANATGATCGTCCASSACAGAACCCGGSTNTATGAATTMCAACAGAACCCGGCTTA
>n1294_u1224_AF296061_RNase P RNA_unidentified bacterium CPB7776
GAGGAAAGTCCGGGCAACATAGAGCAGTGTACTTCCTAACGGGAAGGTATCCCGCCTTTGGCGGGATAACAGACAGTGCCACAGAAAACAAACTACCCATTCCCGATTTTATCGGGAGGGGAAAAGGTGAAAAGGTGAGGTAAGAGCTCACCGGTTTGATGGTGACATCAGGCGCATGGTAAACCTTACGCGTTGAAAGGTCAAATAAGTCACGATCATTCACTTGGTTAGCGGCTCGTTAATTAAGTTGATTCGTCAGCTTAGTCGTGACGGGTAGACTGATTGAACCTGATTGCGAAGTCAGGGCTAGATAAATGATAAGGGCCCTGCCTTTGGCAGGGAACAGAACCGGCTTATGAATTCAAGACAGAACCCGGCTTA
>n1295_u1225_AF296062_RNase P RNA_unidentified bacterium Rr368
GAGGAAAGTCCGGGCACCGCAGGGCAGGATGCCAGCTAACGGCTGGTCGGCGAGTCGAGCACCCGCACGCGCGCCTTGGCGTGTAGGAAGCGGCGAAGCCGAAGGAAAGTGCCACAGAAACCAGACCGCCATTCCCGGACAGCCCCGGCGCGGGCGGGAGTGGTCAGGGTGAAACGGTGCGGTAAGAGCGCACCAGGCTCCCCGGAGACGGCGAGCGCTGGTAAACCCCATCCGGTGCAAGACCCGACAGTGCGGTATGGAACGGCCCGTTCCTTTGACCGCCAGGATGGTCGCTAGAGGCGCGCGGCGACGTGCGTCCCAGAGAGATGACCGTGACCCCACGCGAGTGGGCCACAGAATCCGGCTTA
>n1296_u1226_AF296063_RNase P RNA_unidentified bacterium SMB-A5
GAGGAAAGTCCGGGCTCCAGAGGGCAGGGTGCCAGGTAACACCTGGGGGGCGCGAGCCTACGGAAAGTGCAGCAGAAAGTATACCGCCCAAAAATGGGGTGCTGCCCCATTTGAGCGCCATTCGTGGCTGGGTAAGGGTGAAACGGTGCGGTAAGAGCGCACCGCGCGGCTGGTAACAGGCGTGGCGATGGTAAACCCCACTCGGAGCAAGACCAAATAGGAATCCGTCAGCTGTGGCCCGCAGCGGATTCGGGTAGGTCGCTACAGGCAGGTGGTGACACCTGTCGCAGATG
>n1297_u1227_AF296064_RNase P RNA_unidentified bacterium CPA49
GAGGAAAGTCCGGGCAACACAGAGCACCATACTTCCTAACGGGAAGGCTTTCTGCTGGTGACGGCAGAAAGACAGACAGGGCCACAGAAACAAACCGCCCTTTGACTTCAAGGCTTGCCAAGAACGTCGAAAGGTAAGGGTGAAAAGGTGGGGTAAGAGCCCACCGTTCCGATGGTGACATCGGAAGCTAGGCAAACCTTATGGGTTGAAAGGTCAAATAGGCCCCGGGCAAAGAGCTGCTCGTTCGATTTCTCCTTCGGGAGGATTCCGGGGTGGGTAGATCGATGGATCCCGATTGCAAAGTCGGGACTAGATAAATGGCAAGAGCCCATTTTCCCTCGTGGAAAATGGGATACAGAACCCGGCTTATGAATTCCGACAGAACCCGGCTTA
>n1298_u1228_AF296065_RNase P RNA_unidentified bacterium vB11
GAGGAAAGTCCGGGCTCCACAGAGCAGGATGCCGGCTAACGGCCGGACGCCGCGAGGCGAGGAATAGGGCCACAGAGACGAGCGTATACAGTACGGTGAAACGCGGTAACCTCCATCCGGAGCAACACCAAATAGGCAGGCGATGAAGCGGCTCGCTGAGTCTGCGGGTAGGTGGCTTGAGCCGGTCAGCAATGGCCGGCCTAGAGGANTGGTTGCCCACGACAGAACCCGGCTTAT
>n1299_u1229_AF296066_RNase P RNA_unidentified bacterium USDW
GAGGAAAGTCCGGGCTCCATAGGGCAGGGTGCCAGGTAACGCCTGGGGGGGAAACCCACGACCAGTGCAACAGAGAGCAAACCGCCGATGGCCCACGCAAGTGGGATCAGGTAAGGGTGAAAGGGTGCGGTAAGAGCGCACCGCGCGGCTGGTAACAGTCCGTGGCACGGTAAACTCCACCCGGAGCAAGGCCAAATAGGGGTTCACAAGGTACGGCCCGTACTGAACCCGGGTAGGCTGCTTGAGCCAGTGAGCGATTGCTGGCCTAGATGAATGACTGTCCACGACAGAACCCGGCTTA
>n1300_u1230_AF296067_RNase P RNA_unidentified bacterium EF
GAGGAAAGTCCGGGCTCCATAGGGCGGAGTGCCAGGTAATGCCTGGGGGGCGTGAGCCTACGGAAAGTGCCACAGAAAATAACCGCCTAAGCACTTCGGTGCCGGTAAGGGTGAAAAGGTGCGGTAAGAGCGCACCGCACGTCTGGTAACAGTTCGTGGCTAGGTAAACCCCACTCGGAGCAAGACCAAATAGGGTTCCAAGGCGTGGCCCGCGCTGGAACCGGGTAGGTTGCTAAAGATGTCCAGTGATGGCCATCGTAGAGGAATGACTGTCCTCGACAGAACCCGGCTTA
>n1301_u1231_AF296068_RNase P RNA_unidentified bacterium purpleX
GAGGAAAGTCCGGGCTCCACAGGGCAGGGTGCCAGATAACGTCTGGGAGGCGCGAGCCTACGACCAGTGCAACAGAGAGCAAACCGCCGATGGTCCGTAAGGGCACAGGTAAGGGTGAAAGGGTGCGGTAAGAGCGCACCGCGCGGCTGGTAACAGTCGGTGGCACGGTAAACTCCACCCGGAGCAAGGCCAAATAGGGGTTCATATGGTGCGGCCCGCACTGAACCCGGGTAGGCTGCTTGAGCCAGTGCGTGAGTGCTGGCCCAGAGGAATGATTGTCCACGACAGAACCCGGCTTAC
>n1302_u1232_AF296069_RNase P RNA_unidentified bacterium vHge2
GAGGAAAGTCCGGGCTTCATAGGGCAAGGTGCCAGGTAACGCCTGGGCGGTGTGAACCGACGGAAAGTGCAGCAGAGAGTAGACCGCCTTCAATAACGTTTCTTTTCGGAGAAATGGAAGGTAAGGGTGAAAGGGTGCGGTAAGAGCGCACCGCATGGCTGGTAACAGTTCGTGGCATGGTAAACCCCACCGGAAGCAAGACCAAATAGGGATCCTATAGGCATGGCCCATGCTGGATCCGGGTAGGTCGCTTGAGCGTATGAGTGATCATACGCCTAGAGGAATGATCGTTCTAGACAGAACCCGGCTTC
>n1303_u1233_AF296070_RNase P RNA_unidentified bacterium SM-A05
GAGGAAAGTCCGGGCTCCATAGGGCAGGGTGCCAGGTAACGCCTGGGGGGGAAACCCACGACCAGTGCAACAGAGAGCAAACCGCCGATGGCCCGCGCAAGCGGGATCAGGTAAGGGTGAAAGGGTGCGGTAAGAGCGCACCGCGCGGCTGGTAACAGTCCGTGGCACGGTAAACTCCACCCGGAGCAAGGCCAAATAGGGGTTCATAAGGTACGGCCCGTACTGAACCCGGGTAGGCTGCTTGAGCCAGTGAGCGATTGCTGGCCTAGATGAATGACTGTCCACGACAGAACCCGGCTTAC
>n1304_u1234_AF296071_RNase P RNA_unidentified bacterium SM-A01
GAGGAAAGTCCGGGCTCCGCAGGGCAGGGTGCCGGATAACGTCCGGCGGGAGCAATCCTAGGGACAGTGCCACAGAAATGAGGACCGCCGATGGTGTCGGCAATGCCGGCACACAGGCAAGGATGCAACGGTGCGGTAAGAGCGCACCAGCAACCCGGGAACGGGTTGGCTAGGTAAACCCCACCTGGAGCAAGACCGGATAGGAGTGCGCACGTGGTGGCCCGCCACGCACTCGGGTAGGTTGCTTGAGCCAATTGGCAACAGTTGGCCTAGATAGATGATTGCCACTCCATTCGTGCGAGGCAGACGGGTGAAATGACCGAGAGCGAGTTGCTTATCGGATTTTGCGGACCTGCCGCTTGGAGCACAGGAGCACAGAATCCGGCTTA
>n1305_u1235_AF296072_RNase P RNA_unidentified bacterium SMB-B2
GAGGAAAGTCCGGGCTCCTTCGGACAGGGCGCCAGGTAACGCCTGGGGGGCGTGAGCCCACGGAAAGTGCCACAGAAAATATACCGCCAGCTTCGGCTGGTAAGGGTGAAATGGTTCGGTAAGAGCGCACCGCGCGACTGGCAACAGCTCGCGGCACGGTAAACCCCGCCCGGAGCAAGACCAAATAGGGGAGTGGGGCGATGTACGACGCCCCCAAAAGGGGTGTTCGGGTGTTGCCCACCGCCGGTTCCGGGCGGACTCCCGGGTAGGTTGCTTGAGGTAGCCGGTGACGGCTATCCCAGATGAATGGTTGTCGATGACAGAACACGGCTTA
>n1306_u1236_AF296073_RNase P RNA_unidentified bacterium SMB-A3
GAGGAAAGTCCGGGCTCCGACGGGCAGGGTGCCAGGTAACGCCTGGGGGGCGAAAGCCTACGGAAAGTGCCACAGAAAATATACCGCCAATGGCTTTGGCTGTTGGTAAGGGTGAAATGGTGCGGTAAGAGCGCACCGCATCACTGGTAACAGTGGTGGCAGGGTAAACCCCATCCGGAGCAAGACCAAATAGAGGAACCAATACCTTATGGGTATTTGAAAGTGCGGCCCGCACTGTTCCTGGGTAGGTTGCAAGAGGTGTGCGGGGACGCACATCTCAGATGAATGACTGTCCTTGACAGAACACGGCTTA
>n1307_u1237_AF296074_RNase P RNA_unidentified bacterium SMB-B4
GAGGAAAGTCCGGGCTCCGCAGGGCAGAGTGCCAGGTAACGCCTGGGGGGTGAAAGCCCACGGAAAGTGCAACAGAAAGTATACCGCCCAAAAATGGGGTCCGACCCTGTTTGAGCGCCTTCGGGCTGGGTAAGGTTGAAATGGTGCGGTAAGAGCGCACCGCGCGGCTGGTAACAGGCGTGGCGATGGAAAACCCCACTCGGAGCAAGACCAAATAGGAATCCGTCAGCTGTGGCCCGCAGTGGATTCGGGTAGGTCGCTACAGGCAGGTGGTGACACCTGTCGCAGATGAATGATCGTCCACGACAGAACGCGGCTTA
>n1308_u1238_AF298888_4.5S RNA_Rattus norvegicus (Norway rat)
GGGCTGGAGAGATGGCTCAGCCGTTAAAGGCTAGGCTCACAACCAAATATATAAGAGTTCGGTTCCCAGCACCCACGGCTGTCTCTCCAGCCACCTTTT
>n1309_u1239_AF298889_4.5S RNA_Rattus norvegicus (Norway rat)
GGGCTGGAGAGATGGCTCAGCCGTTAAAGGCTAGGCTCACAACCAAAAATATAAGAGTTCGGTTCCCAGCACCCACGGCTGTCTCTCCAGCCACCTTTT
>n1310_u1240_AF298890_4.5S RNA_Mesocricetus auratus (golden hamster)
GGGCTGGAGAGATGGCTCAGCCGTTAAAGGCTAGGCTCACAACCAAAAACATAAGAGTTCGGTTCCCAGCACCCACGGCTGTCTCTCCAGCCACCTTTT
>n1311_u1241_AF298891_4.5S RNA_Spalax microphthalmus
GGGCTGGAGAGCTGGCGCAGCCGTTAAAGGCGCAGGCTCACAACCAAAAAGACAAGAGTTCGGTTCCCAGCACCCACGCTTGTCTCTCCAGCTACCCTTTT
>n1312_u1242_AF298892_4.5S RNA_Spalax microphthalmus
GGGCTGGAGGGATAGCGCAGCCGTTAAAGGCTAAGGCTAACAACCAAAAAGTTAAAGGTTCGATTCCCAGCACCCACAAATGAGTGCTGTCTCTTCGGTCGCCCTTTT
>n1313_u1243_AF298893_4.5S RNA_Spalax microphthalmus
GGGCTGGAGGGATAGCGCAGCCGTTAAAGGCTAAGGCTAACAACCAAAAGATGAAAGGTTCGGTTCCCAGCACCCACAAATGAGTGCTGTCTCTTCAGCTACCGTTT
>n1314_u1244_AF298894_4.5S RNA_Spalax microphthalmus
GAGCTGGAGGGATGGCGCAGCGTTAAAGGCTAAGGCTAACAACCAAAACGTTAAAGGTTCGAATCCCAGCACCCACAAA