Pay0001901 (gene) Melon (Payzawat) v1

Overview
NamePay0001901
Typegene
OrganismCucumis melo L. var. inodorus cv. Payzawat (Melon (Payzawat) v1)
DescriptionReverse transcriptase
Locationchr01: 6726164 .. 6745824 (+)
RNA-Seq ExpressionPay0001901
SyntenyPay0001901
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

Legend: exonCDSpolypeptide
Hold the cursor over a type above to highlight its positions in the sequence below.
ATGATAGCGACCGAGGCGGCCAGAGCTGATAAGTTTGTTAGAGGCCTCCGACTGGACATTCAGGGTTTGGTCCGAGCTTTCAGACCCGCTACTCATGCCGATGCACTGCGCCTGGCAGTGGATCTCAGTTTACAGGAGAGGGCCAACTCGTCTAAGACCGCTGGTAGAGGTTCGACATCGGGACAGAAGAGGAAGGCTGAGCAGCAGCCTGTTCCAGTACCACAGCGGAATTTCAGATCAGGTGGTGAGTTTCGCAACTTCCAGCAGAAACCTTTTGAGGCAGGGGAGGCTGCCAGAGGAAAGCCGTTGTGTACCACTTGTGGGAAGCACCATCTGGGCCGTTGCTTATTCGGGACCAGGACCTGCTTTAAGTGCAGGCAAGAGGGTCATACAGCTGATAGATGCCCGTTGAGACTCACGGGGATCGCGCAGAACCAGGGAGCAGGTGCTCCACATCAGGGTAGAGTCTTTGCTACCAACAGGACTGAGGCTGAGAAGGCAGGCACAGTAGTGACAGGTACGCTCCCAGTGTTGGGGCATTACGCCTTAGTTTTGTTTGATTCGGGTTCGTCGCATTCTTTTATCTCTTCCGCATTTGTGTCGCATGCCCGCTTAGAGGTAGAGCCCTTACACCATGTTCTGTCAGTATCTACTCCTTCCGGGGAATGTATGTTGTCGAAGGAAAAGGTGAAGGCATGTCAGATTGAGATAGCAGGCCATGTGATTGAAGTAACGCTGATAGTTCTGGATATGCTAGACTTTGATGTAATCCTGGGTATGGATTGGTTGGCCGCTAACCACGCCAGCATAGATTGTTCACGTAAGGAGGTAACGTTTAACCCTCCCTCGATGGCCAGTTTTAAATTTAAGGGAGGAGGGTCAAAGTCGTTGCCTCAGGTAATCTCAGCCATCAGGGCCAGTAAACTGCTCAGTCAGGGTACTTGGGGTATCTTAGCGAGCGTGGTGGATACTAGAGAGGCCGATGTATCCCTGTCATCAGAACCAGTAGTGAGGGACTATCCGGATGTCTTTCCTGAGGAACTTCCAGGGTTACCTCCGCACAGGGAGGTTGAGTTTGCCATAGAGTTGGAGCCGGGCACGGTTCCTATATCCAGAGCCCCTTACAGAATGGCCCCCGCAGAATTGAAAGAACTGAAGGTACAGTTACAGGAATTGCTTGATAAGGGATTCATTCGACCGAGCGTGTCACCTTGGGGTGCGCCAGTCTTATTCGTTAAGAAGAAGGACGGATCGATGCGTCTATGCATTGACTATAGGGAGTTGAATAAGGTAACCGTGAAGAACAGATATCCCTTGCCCAGGATTGACGATCTATTTGACCAGTTACAGGGAGCCACAGTGTTCTCTAAGATTGATCTTCGGTCGGGATACCATCAGCTGAGGATTAAGGATGAGGATGTACCGAAGACAGCATTTCGTTCCAGATATGGACACTACGAGTTTATTGTGATGTCTTTTGGTTTGACGAATGCTCCGGCAGTGTTCATGGACTTGATGAACAGAGTGTTTAGGGAGTTCCTAGATACTTTTGTGATCGTGTTTATCGACGATATCTTGATATACTCCAAGACGGAGGCCGAACACGAGGAGCATTTACGTATGGTTTTGCAAACACTTCGGGATAATAAATTGTATGCAAAGTTCTCGAAATGCGAGTTTTGGCTGAAGCAGGTGTCCTTTCTGGGCCACGTGGTTTCTAAGGCTGGAGTCTCTGTGGATCCAGCTAAGATAGAGGCAGTCACCGGTTGGACCCGACCTTCCACAGTCAGTGAGGTTCGTAGCTTTCTGGGTTTAGCAGGCTATTATCGACGGTTTGTGGAGAACTTTTCTCGTATAGCTACTCCTCTTACTCAGTTGACCAGAAAGGGAGCTCCTTTTGTTTGGAGCAAGGCATGTGAGGACAGTTTCCAGACCTTAAACAGAAGCTAGTTACCGCACCGGTTCTTACTGTACCTGATGGTTCTGGCAGTTTTGTGATTTATAGTGATGCTTCCAAGAAGGGTTTGGGTTGTGTTTTGATGCAGCAGGGTAAGGTGGTCGCTTATGCGTCTCGTCAGTTGAAGAGTCATGAGCAGAACTACCCTACACATGATCTAGAGTTGGCAGCAGTGGTTTTTGCTTTGAAAATATGGAGGCATTATTTATATGGTGAAAAGATACAGATATTCACAGATCATAAGAGCTTGAAATACTTCTTTACTCAGAAAGAATTGAATATGAGACAGCGAAGGTGGCTTGAGTTAGTGAAGGATTACGATTGTGAGATACTGTATCATCCAGGCAAGGCAAATGTGGTAGCTGATGCTCTTAGTAGGAAGGTATCACATTCAGCAGCACTTATTACCCGGCAGGCCCCATTGCATCGGGATCTCGAGCGGGCTGAGATTGCAGTGTCAGTGGGGCAGTTACTATGCAGTTAGCCCAGTTGACGGTACAGCCGACTTTGAGGCAGAGGATCATTGATGCTCAGAGTAACGATCCTTATCTGGTTGAGAAACGTGGCCTAGCAGAGGCAGGGCAAACGGCTGAGTTCTCGTTATCCTCTGATGGTGGACTGTTGTTTGAGAGACGCCTCTGTGTTCCGTCAGATAGTGCGGTTAAGACAGAATTATTATCTGAGGCGCACAGTTCCCCATTTTCCATGCACCCAGGTAGTACGAAGATGTATCAGGACCTGAAGCGGGTTTATTGGTGGCGTAACATGAAGAGGGAAGTAGCAGAATTTGTTAGTAAATGCTTGGTGTGTCAGCAGGTTAAGGCACCAAGGCAGAAACCAGCGGGTTTATTACAACCCTTGAGCATACCGGAATGGAAGTGGGAGAACGTGTCCATGGATTTCATTACAGGGCTACCGAGAACTCTGAGGGGATTTACAGTGATTTGGGTTGTGGTGGACAGACTTACTAAATCAGCGCACTTCGTTCCGGGTAAATCCACCTATACTGCTAGTAAGTGGGCACAGTTGTACATGTCTGAGATAGTGAGATTACACGGAGTGCCAGTGTCGATTGTTTCTGATAGAGATGCCCGTTTCACTTCCAAATTTTGGAAGGGTTTGCAGACTGCTATGGGCACGAGGTTGGACTTTAGTACGGCTTTCCATCCACAGACTGACGGTCAGACTGAGCGTCTGAACCAGGTTTTAGAGGATATGTTGCGAGCGTGTGCATTGGAATTTCCAGGTAGCTGGGACTCCCACTTACATTTGATGGAATTTGCTTATAATAACAGTTATCAGGCTACTATTGGCATGGCACCGTTTGAGGCCCTGTACGGCAAATGTTGTAGATCCCCGGTTTGCTGGGGTGAGGTAGGTGAGCAGAGATTGATGGGTCCTGAGTTAGTTCAGTCTACTAACGAAGCGATTCAGAAGATTAGATCACGCATGCATACCGCTCAGAGTAGACAGAAGAGTTATGCAGATGTGAGGCGGAAGGACCTTGAGTTTGAGGTAGGGGATAAAGTGTTCTTAAAGGTAGCACCTATGAGAGGTGTCTTGCGTTTTGAAAGGAGGGGAAAATTGAGTCCCCGTTTTGTTGGGTCGTTTGAGATTCTGGAGCGGATTGGCCCTGTAGCTTATCGCTTGGCGTTACCTCCATCACTCTCGACAGTCCATGATGTGTTTCACGTTTCTATGTTGAGGAAGTACGTGTCAGATCCATCCCATGTAGTGGATTACGAGCCACTAGAGATTGATGAAAACTTGAGCTATGTTGAACAACCTGTTGAGGTGCTTGCTAGAGAGGTGAAGACGTTGAGAAATAAAGAGATTCCCCTAGTTAAAGTCTTATGGCGGAATCACCGGGTAGAAGAGGCTACATGGGAGCGTGAAGACGACATGAGATCCCGTTATCCCGAACTGTTCGAGAAATAAAAACTTTCGAGGACGAAAGTTCCCTAAGGAGGGAAGATTGTAACGCCCCGAAAATTTAAGGTAAAATTTTCTCGTTTTTTTTAATTTTTCGGAATTCTAAAATGTTGGTGTAAGTTGATATAATAATAATATGATATTAATTATATTATTGTTATTAATATATATTTTATTTGTTATAATATTAATATTAGAATTATTATTATTATTTAATATTATAGTAATATTATTAAACAATAACATTATTATTTACATAATATTAAATTATTATTTATTTAATATTAATATTATTAATATATTATTATTATTACTATTTTTATATATATATATTATTTATTTTGAATTATTTAATATTAATAATTTTAATATTTATTTATATATACTTATTTTGTTTATATATATATATATATATATATATATATTTTAAAAAAAAAAGAGAAAAGAAGCCCTAGGAGACGCGCGCCGCCCACCCCCCCCCCCCCCCGATTTTCTCCTTCTTTTCTTCTCTTCCGTTTCTTCCTCTCCTCGACGCCGCGCATCCCACCCTCCCAGCCGTCTCCGTTTTTCTCTTCCTCTCCGTCTCCGCTTCTTCTTCTTCTTCGTCCGTCGTCTCCGCCACCATCTTTTTCCTCTCCGTCTTCATCCGTGGGATAGCCACCAGCCATCGTCGACCGTCGCGGCTCCCCATCCATTTCCGATTTCCTTCTCGGCCTCACACAACGGCAGATTTGCCGCCGCTCGTCGCCGCTCCACGAGACAGCCAGCTCCGTCTCCATCTCCCGTAACGCCTCCCAGCGTCGTTTCGGACCTTTTAAAGCGACTTCTACTAGAGTCATCAACTAAAACCCTTGTGTTATCGTTCAGGTTGATCCGTTGAGCGTGGATTCGATCGAGGGGCATAACCGAGTATCAGGTAAGGGTTTTCCTACTACTGGACCCCGAGTCCAGGCTGAAAACGTAGCAATCCACAGGGGATTGCACGTTAGTGGCTGTACTGAATAACTGCATGCGTGTTGACTGTTAAGTACTGATATTATATTTTATCTGATGTAAATATACTGTGACTGCTAATTGTGGATTGAGATTTTATATTGATGGGCCTTAAAGTTACGGTTCAGTATGTAGTAAAACACTGGTCTGGATGTGGTTCATGGAGTTTGGACGGGGAAGGACAGTGAGTCCGGTTTTTGGTTGGTTAGTCGGTTGGATCTAGGGTTTTCCCTATTGGTGTGCGAATCGGTAAGGCATATAGCAACTGAGGGTGTAGATGTTTAAACCTATACTATTTGACTGACAAAGCCTATGGCGGGACTGTGATATGAATGCCGTTGGGATGTGACTGATGTAGACAGTTTAGTTTGGACTGAGGGGTAACGGTTAGCTTCATCTATGGGGTAGTGTGCCTTACGGATATGTGCGCCCTTCGGGAGCACTAGACTGATATGTGCATCCTTCGGGAGCACTAGACTGATATGTGCGTCCTTCGGGAGCACTAGACTGATATGTGCATCCTTCGGGAGCACTAGACTGATATGTGCATCCTTCGGGAGCACTAGACTGATATGTGCATCCTTCGGGAGCACTAGACTGTTATGTAGGGTACCCCCGAATAGGAAGTTAACTGTTGTCCCCTAACGGGCCCAGTAGTGGGTCCCTTATTGGGTATGTTTATACTCACCCTTTTTCTTCTTTAACTTTTCAGGTAGGGGTACAGCGAGAGGCAGGAAGGATGCGTGAAGGCCATATGGACGCGTCTGGTTTTCTTATCGCTTCCGCTATGTATTTTGTCAGAATATTTTGACTTGTGATTTTGAACTGGTGGCTTGATATTTTATTTTGTGATTTTTTTTTATTATTTAAAATAGGGCCCGAAACTGTCTTTTGTAAGATTTTTAATGTTTTAATGAATCGTAACTGGTCCGTTTTAAATTTTATGTTGAATGGTCGAGTTTTGGTGTTTGGTAGTGACCTCAGCTTAGTCCGGAAAGTTGGGTCGTTACACTGGGACTCCCACTTACATTTGATGGAATTTGCTTATAATAACAGTTATCAGGCTACTATCGGCATGGCACCATTTGAGGCCTTGTACGGCAAATGTTGTAGATCCCCGGTCTGCTGGGGCGAAGTGGGAGAGCAAAGATTGATGGGTCCTGAGTTAGTTCAGTCTACCAACGAAGCGATACAGAAGATTAGATCACGCATGCATACCGCTCAGAGTAGACAGAAGAGTTATGCAGATGTGAGGCGGAAGGATCTCGAATTTGAGGTAGGGGACAAGGTGTTCTTAAAGGTAGCACCTATGAGAGGTGTCTTACGATTTGAAAGGAGGGGAAAGCTGAGTCCCCGTTTTGTTGGGCCGTTTGAGATTCTGGAGCGGATTGGTCCTGTAGCTTATCGCTTGGCGTTGCCACCATCACTCTAGACAGTTCATGATGTGTTTCATGTTTCTATGTTGAGGAAGTACGTGCCAGATCCATCCCATGTAGTGGATTACGAGCCACTAGAGATTGATGAAAACTTGAGCTATACTGAACAACCTGTTGAGGTGCTTGCTAGAGAGGTGAAAACGTTGAGGAATAAAGAAATCCCTCTAGTTAAAGTCTTATGGCGGAATCACCGGGTAGAAGAGGCTACATGGGAGCGTGAAGATGACATGAAATCCCGTTATCCTGAGCTGTTCGAGGAATAAAACTTTCGAGGACGAAAGTTCCCTAAGGAGGGAAGAATGTAACGCCCCGAAGTTCGAGGTAAAATTTTAGCGTTTTAAGTGAATTGTTCGGAAATTTGAGTTTTGGTAAAACGATAAAATAATAATATAATATTGATTAGATTATTGTTATCGGGAATTATTATTACAATTTTTAATGTTAATATTTTCTTTTTATTTATTTAAAATAAATATTTTTATTTTTATTTAATATTATTATAATTAATTAATATTAATATTTTATTATAAATTTATATTAATTTTATTCAATATATATATATATATATATCGTTATTTATTTTTATTATATTTAATATTATTATTATTATTATTATTATTATTATTATTATTATTTATTTTTATTACATATATTATTATTATTATTATTTTTATATATATATATATTTTCAAAAAAAAAAAAATTAAAGAAGAACCCTAGCCCTTCCGCACGCGCCGTCTCCCCCCCCCCCCCGATTTTCTTCTTCTTCTTCTTCTTCTTCTTCTGTAGTTCCTTCACCCGACGAGTAGCGACAGCCTCCCCATTTTCCTAAATCTTCTTCTTCTTTTCCGTTCACCAGCCACCGTCGTCTTTGTCGCCTCGTCCACCCACGGTAGTTGAAGCCCAGCCACCAGCCACCGTCGTCAGCCCTTCTTTCTCCCTCTTCAAGCCATAGATCTGAAGCCGTTAGCGTCTCCGGTGCCATTTCTGTTGCAGTCGTGTGCGACGGCCTGCAACCACCGCATTCCGCCGCATAGTGTCGCCAAGTGACCGTAGACAAGCCCTGAAATCGTGGATCTCCGATGCAAGCACCCCACGAACCAAGTCGAATCGAGCTAAACCAACCGGGCTGCCCGTTTTAATCCAATCTGACCCGAGACCCGCTTCCAGTTCGAGCCGCGAGCCACAAACGAATCCGAGTGAGCCGAGTGAGCCGAGCCGAGTGAGCCGCGTGAGCCGAGCCGAGTGAGCCGAGCCGAGTGAGCCGAGTGAGCTGAGCCGCGAGCCAAGTGAGCCGAGCCGCGAGCCGAGCCGCGAGCCGAGTCAAGCCGAAGAACCAAGCCGAGCCGAGCCGAGCCAAGCCGAGAACCAAGCCGAGCCGAGCCGAGCCGAGAACCAAGCCGAGCCGAGCTGAGCTGAGCCGAGAACCAAGCCGAGCCGAGCCGAGCCGAGAACCAAGCCGAGCCGAGCCGAGCCGAGAACCAAGCCGAGCCGAGCCGAGCCGAGCCGAGTTGAGCTGAGCTGTGAGCCGAGGCCGAGCCGAGCCGAGCCGAGAGTGAGCCGAGCCGTGAGCCGAGGCCAAGCCGAGCCAAGCCGAGCCACCTAAGCCTTCCTTCCTCCACTTCGGGTCACGGTGAGTCTTCGGTAAGGATTTGTTTGATGAATTCCCTAATGTTGCCATATCCGATTCGAGTTGAGAATTGGAATAAGCTTTGATCCTATCTTTCACCCCTTAAAGGTAGTAAAGAATTGACGTTTAAGCTCTCGGGTTCTGCGGCAGGCTTGGTTGGAGATAGCTTCCTTCTTTCCTCGAGTAAGTCAACGGATGTGCTTCGGACCTTCTAAAACGACTTCTACTAGGGTCATCAACTAAAACCTCCGTGTTTTCGTTTTAGGTTGAGCTGTTGAGTGTGGATTCGATCGAGGGGCATAACCGAGTATCAGGTAAGGGTTTTCCTACTACTGGACCTCGGGTCGAGGCCGGAAACGTAGTAATCCACAGGGGATTACACGTTAGTGACTATACTGAATAAGTGTATCTGTGTTGACTGTTAAGCACTGTTATTATGTTTCTGTCTGATTTAACTGAACTGCAACCGCTAATTGTAGATTGAAACTTTAGATTGATGGACGTTGATCATGGGATTAAACGGGGAAGGACAGTGAGTTCAATTGGTTATTTAGCTATTTGAGTCTTGAGGCTCTTCCATAATGGTATACGAATAGTTGACGCGTATAGCAACTGAGGGTGTAATGGTTTAAGCTTATACTACCTGGTCAGTAAAGCCTTTAGGGGAATTGTAAAATGATTGATGATTGTGGTATGACTGTGGTAGACGATTTAGTATAGACCGAGGGGTAACGGTTAGCTTCATCTATGGGGTAGTGTGCCTTACTGATATGTGCATCCTTCGGGAGCACTAGACTGATGTGTGCATCCTTCGGGAGCACCAGACTGATGTGTGCATCCTCCGGGAGCACTAGACTGATGTGTGCATCCTTCGGGAGCACTAGACTGATGTGTGCACTAGACTGATGTGTGCATCCTTCGGGAGCACTAGACTGATATGTGCAACCTTCGGGAGCACTAGACTGATATGTGCATCCTTCGGGAGCACTAGACTGATATGTGCGTTCTACGGGACCACTAGACTGTTATGTAGGGTACCCCCGAATAGGAAGTTAACTGTTGTCCCCTAACGGGCCCAGTAGTGGGTGCCTTACTGGGTATGTTTATACTCACCCTTTTCTCTTCCTTAACTTTTCAGGTAAGGGCACAGCGAGGGGCAGACCGACGAGAGGCAGGAAGGACGCGTGAAGGCCATATGGACGCGTCTGGTTTTCTTATCGCTTCCGCTATGTATTTTGTCGGAATATTTGACTTGTGCTTTTGGAACTGATGACTTGAGTTTTTGTTTGAGACTTTTTATGATTGAATTTAAAATAGGGCCCGAAACTGTCTTTTTGTAATGTTTCTAATGCTTTTAATGACTCGTAACTGGTCCGTTTTAAATTTTATGTTGAATGGTCGAGTTTTGGTATTTGGTAGTGACCTCAGCTTAGTCCGGAAAGTTGGGTCGTTACAGTTTTATATGTGAAATTAAACGTCCTTATCGTCCAATTAATTCAACATCCTACTTACCAAATTGTCTATACTTAGTAACATATCGTGCATTTCCTAAAATACATATGAGTGAGAATTAAAAGAGAACTCAAATAGAAAATTTCACATTTTCACATTTTCACATTTTTCATTTTCTAATATTTCATTTAACTTTATATATTTTAGTATTATGTTCCATCGATAGTTGTATTCTCTGTCTTGTTTTTCTCCTCAATCTTACCAAAGTTATCAGTATGAGCTCCTACCATTCTCCTGTTAAAGGTAGGTCCCAAAGGTTATTTTTTTCCCTCTTCATTATAATTAATAAATTAAATGGCTTGTGCACGTTTGATATATATTAAATTTCTAATATAAATACAATACTTAGTCAGAGTGTTATTGTTGTATATCAGTAATTTTAGACCAAATGGTATAATTGACATTTAGATATAACAAAGTTAAGAAAAATCATAATATGATCCAAAAGTGACAACTTAATGCTGAAGTGAGCCTTGAAAAAAGGAGTTGGCATGGGCTACAACCAAGCCAACAGCCTTAGTTGAAGGCCAGACTTAGGTCGATCCTTGCCAAATGTCTAATGGAACATGTTTATGCATGTATTGACCCAAAAAGAACACTTTTAAGTCCAATATGTGGGCAAAGGAAGACACTTGCTCAAGGTCACCCCTGGCTAAATATGAAATTGAGCATGCTCTTTGGTTTGGTTGTTATCTAATTATCCTAAGGCGACTAAAAAAATATAGAGAACATCTTAGGTCAACTTTCTCTACAAATATATCATCATAATTAACTTAATGTGAGGTGACTTGAATCTGACTCTCAAACTCTTTCTAGCTTCCATATTCTTTCACTCTCTGAGATAGATATCGAATGTTTGGCAAATCACCACATCAATAAAGCTTTCTTTTTTGCAGGCCATGTTCTTTTCCTCTTCAAACAAATTTACTATAGTATCATGTAAAGGCCAGCTATGCTTACTCTTGTCTAAAATTTGGCATCAACTGTAACAATTAGAACACACAACCTTTGATATGGGTGGTAATAATTATTTTTCATTGGTCCTTCATCTAGAAGTACAACTAGATGTCATAAAGATATGATTAAAAAAAATAGTTACTCTTTTGGGATCTTTTAAAAAATATAACAAAGTGGCAAAATATTTACACTACATAGAACAATTCTAAAAACAGAAAAAGCCTACAGACCCATCATGGAAAATACAGAAAATACCTCATCAACCACGCCGTTAACGCATAATATATTTGGTACAGGATCGTTTAGATTTGGCTATTGTTTGGTTCACGATCGTTTGGATTTAGATAACCAAATCTAAACGATTTATTTTTCAATACAATCGTTTAATTTGGTTACAAGATCGTTTAATTTGGTTACACAGTCGTTTAGATATGGTTACACGATCATTTAGATTTGGGTAGCCAAATCTTAACGATTTTTTTAAGATTTGGTACACGATCGTTTAAATTTAGCTAAAGAATTTTTTTTAAAAGATTCTTTTGGTATACGATCGTTTAGATTTATTTACATGATCTTTATCTTTTCAAAATTCTTTGGTACATGATCATTTAGATTTGGTTAAACGATTTTTTTAAAGATTCTTTTGGTACACGATAGTTTAGATTTGTTTACAGATCTTTTATTTTTTTTACACGATCGTTTAGATTTGATTATCCTAATCTAAATGATTTTTTTAGGATTATTTGTACACAATCGTTTATATTTGAGTAGATTTGAGTATTTGGCTACCCAAATCTAAACGATGCTTTTTATCAAGTCTTTTATATTTAGTATACGATCTTGAACAACCAAATAACAATTTGAAAAAAAATATAGATCTTTTGTATTTGATACATGATAACAATTTGGAAAAAAAAGAAGAGGAAAAGAAGAAAAATGGTGAAAAGAAAAAAAATCAAATTGTAGACAAAGAGGAGCAGAAAGACGATAAAAGGGGAGGACAAATCTAGAATATTTAAAAAATGACTAACTTCATGATCTTTGTTACACTAGTCGTAAATATTTTACTGATGTTATATTTATGAAAATTTTCCTATTCTTTTGTGTTTTTGTTGTGGTTTGTTATGCTCCTTCATTTTGTCGCATTTAAAAAATAGTGGCATATTTATTTTAGCTTTAAATACTACTTTGTCTCTTGTCCTGGCTTTGATATATTTTGGTCTTTGTTCTTTAAAAATGTTCATTTTCATCCCTACACCTTTGATTTTTGTTCATTTTGGTCCTTGTACTTATAAAATGACCATTTTGGTCTTTATACTTTCAACTTTGATTTATTTTTGTTTTTGAACTTTAAAAATATGACAATATTTTATCCTAAAATTTAATATGAAACTGAAAATGAAGGGACCAAAATAGGCCTTTTTTTTTTTTAGTACCACAAACCAAATGGATTCTGAAAATACATATGAGTAGCAAAATGAACAAAAATTGTAAGTATATGTACTAATATGAACCTTTTAAAAGTATATAAAAGAATCAAAATGAATCCAATTAGAAATAAAAAAAGGGGGTCTTTTCAAAAATATAAAAAAACGGCAAAATATTTACACTGTATAGAACAATTTCAAAAATGGAAAAAGCCTAGAGGCCCACCGTGTAAAATACAAAAATGCCCCGTCAACTACACTGTCAATAATGCGCGCGTAATATATTTGCGATCGTTTAGATTTGGCTATTGTTTGGCTTACGATCATTTAGATATGGCTACAATTTATTTTTTAATTCTATCGTTTAATTTTGTTACACATCGTTTAATTTTGTTACATTTAGATTTGGTTACACGATCGTTTAGATATGATTACAATTTATTTTTTCAATTCTATCGTTTAATTTTGTTACACGATCGTTTAATTTGGTTACGTTTAAATTTGGTTACACGATCGTTTAGATTTGGGACCCAAATCTAAACGATTTTTTTTTCAAAATTTGGTACACGATCGTTCAAATTTGGCTAAACGATTATTTTAAATTCTTTTGCTACACGATCGTTTATTTTCTTTTATACGATCGTTAGATTTGTCTACACGATCGTTTAAATTTGGTTAAACAATTTTTTTAAATTCTTTTTCTACACGATCATTTAATTTTTTTATATGATCGTTTAGATTTGTCTACACGATCGTTTAGATTTGGTTATATGATTTTTTTTAATTCTTTTGGTACACAATCGTTTAGATTTGGCTACTCCAATCTAAATGATTTTTGTACACGATCGTTTAGATTTGGTTATCGAAATTTAAATGACATAAAAAAAGAAGAAGAAAAAAAGAAAGACGATGGAAAGATTAAACGACGTAAAAAAGAATTAGAATAGAAGAAAGAGGATGCAAATATTAAACAACGTAAAAAGGAATAAAAAAAGAAGATTGAAAGAAATAGCAAAATCAGAAAAGAAGAAAGACGATGGAAAGAAATCGCAGTGAAAAAACAATAAGAAGAAAGACGATTAAAAGATTTAACGACATAAAAAAGATCAGAATTAAAAAATAAGAAAGATTATGGAAAGAAATCGTAGAAAGAAAAAAAAAGAGGAAAAGAAGAAAGACGATGAAAGAAATCGGATGAAAGAAATCACAAGAGGAAGAAGATGAAAGGAATTGCAGGAGTAAGAAAACGATTTCATTACGAGAGAGAGAAAAAGATGGAAGGACAAATTTGAAATATTTAAAAAATTGATTAACTTTATCGGCTTTGTTACATGTGTCATAAATAGTTTGATATTTTGTTAAATGTAGGTAAGTTTTTCAATAAAAAATAATATTTAAACCTTTATTTAAATATTTCACTTAAAAAATTCAAATCACCTCATTACGTATGATTTTTATTATATTCCAATAATATTATCTCTGTCCTTTTCTTTCCCATGCTTATCTTAATTTTTTGTAGAATAACTTATCTTAAAACTTTTAGTAGATATTTACCACAAAATTTTATTTTTAAAATTTTCTATAATATTTTTTCAAAAGTTGTGTAATATCAAGTGGCCATTAAACTTTAATTTCTACTAAAGATTGTTTAAGTTTTTAATTCTTTAATGTGTTCCCTCACTCAGCAATTCTTTGAATTTAGGTTTAAAAATTCCTTGAACTATAAATCATCCTAACAGATTTATGAAGTTTTAAACCCGTCATTTTCAAACTTAAAAAAACAATCCTAATATTTTATAAAATATAATAAAATTTCAAATTTTATCAACAATAAATAATAATAGAGATTGATAGGTTTTTATTGTCAACGTTATCAACATCATTAATAAACACTAATAACATTAATAAATACTAATAGAAGTATTAGATGTGATAGAAACTAAAATTTTGTTATATTTATAAATATTTTTAACTATTTCCTTTTACGATAGTTTTTCTTTTAATTTTTTGGCCAATATAATATATTTTACAATTTTCAAAATTCAAAAATTGATAGAATTTTGTGTTTAATACAATCTTCACTTTTCAGGGTTTTGTCTTTTTGTAACGCCCCAACAAATTCGATTTTTGTTCATTGTCATTAATATTAAGTGTGGTTATGGAAAATTCAAATTTATTGGAAGAACCTTATCATTTTGAAATTTACGATTAAATAAGGTTTGGAATCTTTATTTTGTTTAGATAATAAGTATTTTATTTGGAAATAATTGGTGAAGTTATTATTAAATTAAAGTTGGTTGGTTAAGGGAGAAATGTGGGGACCTAGTTGGGGTTAATAAGGAAAATTTCAAGAGATTTGGAGACATAGGAGGTGGTTGGTTTTCAAATTAATTAAAGGAAATAGAAAAAAAAGAGGATATTTTCTTATATAAAGCAGCTTTGGGACCCGTGCATAAGAAAAACAAAAAAAAAGAGAGGAACAATTAAAGTCCTTCTTAAAACCCTAGCCGCCGACCCGCGCCGCCGCCTTCGCCGCCAGTTTCAAGCACAAGCGTTCGGGACCAGCCGCAGTAGAAGCCGAACCACCCGCGTCACACTTCGCGATCCGCAGCCGTTCCGTTCGTAGCCGCCGCGTGAAACGTCGTCCGCCGCGTCGTCGAACAGCAGCGACCGTCGGTCGTCAGCCGCACGTCTCCATCCGTCGGAACCCGAACCCGCGCTTCGGCCGTCGCCCGAACCCGAAGCCGAAACCGCGTCCGCTCACCGCTCCGTGCCCGCGCGTCGCCCCGAGTCGCAAACCAAACCCGCATCCACATACCGCCCCGCGCCCGCGCGTCGCCCTGAGTCGCAAACCGAGCCCGCGCGCGCCCAGCTCTCCCCGCGTGCAAGCCGCGCCGCGCCGCCTGTACTGCAACCCGAGTCGCGCCTCCTTGCTGTCGCGAGCCGAGCCACACGCGCAAGATCCCTGCGCCAAGCCGAGCCGAGCCGATCCCTGTTCTCTTTCCAGCCGAGCCGCCAAGCCTAATTTGGCTCCTTCCACCTAATTTTTGGTAATTAAATTAATTATTTTAGCATTACCCAGTAAGATTCTATGTTTTTGGGCACTAAATAATTTAATTTGAAATTAAATTAGATAATTTCCTTAAGGGACGTCTTGGACCAAGTAACCGCTGCAGCTTGAGATTCCTTCAGTAGGGGCTCAACCATTGCAACCTCTTTCTAGGGTAAGTCATTTCAACTGAGTTTTGAACCGTTAGTCGTTGGTGATCTAATTACGAATTTTGGCGTATTAAACAGTTAGGACCTCGTCGCTTGGAAAGCATACTTGCCTCGCGGTCAAGACTCGTCAAGTAAATCTCCAAGTAAGAGGATTCCTACTACTAGCTCCACGTTTAGAGTTATGAGGTCACGTATACCTCCAATGGGGCATGTTGAGGCTAGACTGTACGATGCATAAAATTTATGATAGTATGATGTCATTGATGATACGATTATATTATAGCATGATGTTGTGATGATGAGAACCACTATGGCTGTACGATGGATGTTGAGATGGAGAGTGAAATGATGATTAATCTGTTATGATTACATGATGATGCCATGTGTATGTATGCTGTGATTAGGGTACCTGTTAGCTTAACCTATTAGAGTCGTACCTGCATGGGTGTCCTTCGGGATCACCACCTATTTAGGACTGTGTGGTCCGACGGGACACCAGTCTAGCATGTATATAGATATGACTCGAGTGACTCGACGGGGTCCTCGCATCCCGATTGTCCTAGGTGTCCCCCGGGATACCGAAGGCCAGAGTTACGTTCCTATGGGAGCGCATGATTGCACGTGTTCGGGAACGTGCCAGAGATTGGGTACCAGTTACAGGACTCTTATAGAAAGCTAACAGGCACCTAGTGGGACTAGTAGTGGGTCCCTTACTGAGTATTTTATACTCACTCTCTTCATGTCATGTTTTTCAGGTAGAGGACGAGGCAAGGGCAAAGGCAAGCTGGCGAGCGACTCGAAGTGACCGTGGGGAGCCTTAGGGACTTTTGTTTCCGCTTATTCTTGTTTTGACTTTGGTACCTGAGTTTGAGTCTTTTTCACTATTTACCATTTTTTTTAGATAGGGCCCGAGTATGACTTTAGAACGAAACTTCATTTTTGCATATTATTTTATTGGATTTTCATAAATAAATTTCTCAAACCTTATGCGTTTTGATAAATTGTATGACTTAAACCACTTGTTCTACATTTAGTAATGACTCCGGCTCAGTATAAGGAGTTGGGTCGTTACAGTTGATATCAGAGCGCAGTGTTTTAGCTTCTGTAGACTGACCTACGATGTAAGTCATTGTTTTGTTTTGGTTTTACTTCACCCTATGGCTATACGGTCCTTCGGCACTCGCCAGGTATGTCTAAAGCCTTGCTAATGTTAAGATTACAATTTTGCAGGAATAGACTAGACCTTGAGATAGGTGTGTTAAGTTCTTGTGGTGAAAAGTTTTGTTGGTTAATTTTAGGGAGAATGCCGCCACGTAGAGGTACACGCCGAGGAGGTGGTAGGGGAGGCAGAGGAGCCGGTCGTGGCCAGCTAGAGGCGCAACCTACTGTACCGGAGGTCGACCCTAACGCACCGGTCACCCAGGCGGATCTCGCCGCGATGGAGCAGCATTATCAGGACATGCTGCAAGCTGCTTTGGCGCCTTTCCTCGCCGCCCAGCAGAACCAGGCCGCCCCTGTTCAGGCCCAGACCGTCGTTCCTCCAGCCCCTGAGGAAGCTCAACCCGTGCCGGTTCAACTGTCGGCCGAGGCTAAACACTTACGGGACTTTAATCCTAAGACCTTTGACGGATCCATGGACAACCCCACGAAGGCCCAAATGTGGTTGACGTCCATAGAGACTATCTTCCGGTACATGAAGTGCCCAGAAGACCAGAAGGTGCAGTGTGCAGTTTTCTTCTTGGAGGATAGGGGCACCGCCTGGTGGGAGACTGCTGAGAGAATGCTGGGGGGCGACGTCAGCAAAATAACTTGGGAGCAGTTCAAGGAGAACTTCTATGCTAAGTTCTTCTCTGCCAACGTGAAGCACGCCAAGCTGCAAGAGTTCCTAAACTTGGAGCAAGGCGATATGACGGTGGAGCAGTACGACGCCGAGTTCGATATGCTGTCCCGCTTTGCTCCCGATGTGGTAAGGGATGAGGCTGCCAGGACGGAAAAATTCGTTAGAGGACTCAGGCTAGACCTTCAGGGCATTGTCCGAGCTCTCCGGCCAGCCACGCATGCTGATGCACTACGTATAGCACTGGATTTGAGCCTGCATGAGAGAGCCGATTCGTCTAAGGCTGCCGGCAGAGGGTCAGCCTTGGGACAGAAGAGAAAGGTGGAGACGCAGCCTGACGTAGTACCGCAGCGAACTCTGAGGTCAGGAGGTGTCTTTCAGAGACACCGACGGGAGCTTGCAGCAGCTGGGAGGACTCTGAGAGAGCTACCCGCTTGTACTACCTGTGGGAGAGTCCACGGAGGTCGTTGCTTGGCTGGAAGTGGAGTCTGCTTCAGGTGCAGACAGCCGGGGCACACTGCTGATGTGTGTCCTCAGAAACCCTTTGAGACGACACCGCCCCAGCCTTCTGCTTCCCAGCAGGGGAGAGTTTTTGCCACTACCCGGCAGGAGGCCGAGCGAGCTGGTACAGTGGTGACAGGTACGCTCCCAATTTTGGGGCATTATGCTTTTGTGCTATTTGACTCTGGGTCATCCCACTCGTTTATATCCTCTGTTTTCGTTCAGCATGTGGGTTTGGAGGTAGAACCTTTGGGTAGTGTTTTGTCTGTTTCTACTCCATCTGGGGAGGTCCTGTTGTCCAAAGAACAAATAAAGGCATGTCGGGTAGAGATAGCGAATCATATGTTAGACGTGACCTTACTAGTGTTAGACATGCAGGATTTTGACGTGATTCTAGGCATGGATTGGCTGTCAGCCAACCATGCAAATATAGACTGTTTTGGCAAGGAAGTTGTCTTTAACCCTCCCTCTGGGGCTAGTTTCAAATTTAGGGGGGGCAGGCATGGTATGTATACCCAAAGTCATCTCAGCCATGAAGGCTAGTAAACTACTCAATCAGGGTACTTGGGGCATCTTTGCAAGCGTAGTGGATATTAGAGAGCCAGAAGTTTCCCTATCTTCCGAACCAGTGGTAAGGGAGTACCCTGACGTTTTCTCCGACGAACTCCCAGGACTTCCGCCTCCCAGGGAGGTAGACTTCGCCATCGAGTTAGAGCCGGGCACTGCCCCTATCTCGAGGGCCCCTTACAGAATGGCTCCAGCCGAGCTAAAAGAGTTGAAGGTCCAGTTACAGGAGTTGCTGGACAAAGGTTTCATCCGGCCCAGTGTGTCACCTTGGGGAGCCCCAGTGTTGTTCGTGAAGAAGAAGGATGGGTCGATGCGCCTTTGTATTGACTACCGAGAGCTGAACAAGGTGACAGTTAAAAACCGCTACCCCTTGCCCAGGATTGATGACTTGTTCGATCAGTTGCAGGGAGCCACTGTCTTTTCCAAGATCGACCTGCGGTCAGGCTATCACCAGTTGAGGATTAGGGACGGTGACATTCCCAAGATGGCCTTTCGTTCGAGGTACGGACATTACGAGTTTGTTGTGATGTCTTTCGGCTTGACTAACGCTCCTGCAGTGTTCATGGATTTGATGAACAGGGTGTTTAAGGACTTTCTAGACTCGTTCGTCATAGTCTTCATTGATGACATCTTGATTTACTCTAAAACTGAGGCTGAGCACGAGAAGCACTTGCACCAGGTTTTGGAGACTCTTCGAGCCAACAAGTTGTATGCCAAGTTCTCCAAGTGTGAATTCTGGTTAAGGAAGGTGACGTTCCTTGGCCACGTGGTTTCCAGTGAAGGAGTTTCTGTGGACCCAGCAAAGATTGAAGCGGTGACCAACTGGCCTCGACCGTCCACAGTTAGTGAAATTCGAAGTTTTCTGGGCTTGGCAGGTTACTACAGGAGGTTCGTGGAAGACTTCTCACGTATAGCCAGCCCGTTGACCCAGTTGACCAGGAAGGGAACCCCTTTTGTCTGGAGCCCAGCATGCGAGAGTAGCTTTCAGGAGCTCAAGCAGAAGCTGGTGACTGCACCAGTCCTGACAGTGCCCGATGGGTCGGGAAACTTTGTGATCTATAGTGATGCCTCCAAGAAGGGACTGGGCTGTGTCCTGATGCAGCAAGGTAAGGTAGTTGCTTATGCCTCCCGCCAGTTGAAGATTCATGAGCAGAACTACCCTACCCACGACTTGGAGTTGGCAGCTGTAGTCTTTGCACTGAAGATATGGAGGCACTACCTGTACGGTGAGAAGATACATATTTACACCGACCATAAGAGCCTGAAGTATTTCTTCACTCAGAAGGAGTTGAACATGAGGCAGAGGAGGTGGCTCGATTTGGTGAAAGACTATGACTACGAGATCCTGTACCACCCAGGTAAAGCAAATGTAGTGGCTGACGCGCTGAGTAGGAAGGTTGCACATTCAGCAGCGCTAATCACCAAGCAGACCCCCTTACTCAGGGATTTTGAGAGAGCCGAGATTGCAGTCTCAGTAGGTGAGGTTACCGCACAGTTGGCTCAGTTGTCAGTTCAGCCAACCTTGAGGCAAAAGATCATCGCTGCTCAGCTGAATGATCCTTACTTAGTCGAGAAGCGTCGTATGGTAGAGACAGGGCAAAGTGAGGACTTCTCCATATCCTCTGACGATGGCCTTATGTTTGAGGGACGCTTGTGTGTGCCGGAAGACAGCGCAGTCAGGACAAGCTTTTGA

mRNA sequence

ATGATAGCGACCGAGGCGGCCAGAGCTGATAAGTTTGTTAGAGGCCTCCGACTGGACATTCAGGGTTTGGTCCGAGCTTTCAGACCCGCTACTCATGCCGATGCACTGCGCCTGGCAGTGGATCTCAGTTTACAGGAGAGGGCCAACTCGTCTAAGACCGCTGGTAGAGGTTCGACATCGGGACAGAAGAGGAAGGCTGAGCAGCAGCCTGTTCCAGTACCACAGCGGAATTTCAGATCAGGTGTTCTGGATATGCTAGACTTTGATGTAATCCTGGGTATGGATTGGTTGGCCGCTAACCACGCCAGCATAGATTGTTCACGTAAGGAGTTGAAGATTCATGAGCAGAACTACCCTACCCACGACTTGGAGTTGGCAGCTGTAGTCTTTGCACTGAAGATATGGAGGCACTACCTGTACGGTGAGAAGATACATATTTACACCGACCATAAGAGCCTGAAGTATTTCTTCACTCAGAAGGAGTTGAACATGAGGCAGAGGAGGTGGCTCGATTTGGTGAAAGACTATGACTACGAGATCCTGTACCACCCAGGTAAAGCAAATGTAGTGGCTGACGCGCTGAGTAGGAAGGTTGCACATTCAGCAGCGCTAATCACCAAGCAGACCCCCTTACTCAGGGATTTTGAGAGAGCCGAGATTGCAGTCTCAGTAGGTGAGGTTACCGCACAGTTGGCTCAGTTGTCAGTTCAGCCAACCTTGAGGCAAAAGATCATCGCTGCTCAGCTGAATGATCCTTACTTAGTCGAGAAGCGTCGTATGGTAGAGACAGGGCAAAGTGAGGACTTCTCCATATCCTCTGACGATGGCCTTATGTTTGAGGGACGCTTGTGTGTGCCGGAAGACAGCGCAGTCAGGACAAGCTTTTGA

Coding sequence (CDS)

ATGATAGCGACCGAGGCGGCCAGAGCTGATAAGTTTGTTAGAGGCCTCCGACTGGACATTCAGGGTTTGGTCCGAGCTTTCAGACCCGCTACTCATGCCGATGCACTGCGCCTGGCAGTGGATCTCAGTTTACAGGAGAGGGCCAACTCGTCTAAGACCGCTGGTAGAGGTTCGACATCGGGACAGAAGAGGAAGGCTGAGCAGCAGCCTGTTCCAGTACCACAGCGGAATTTCAGATCAGGTGTTCTGGATATGCTAGACTTTGATGTAATCCTGGGTATGGATTGGTTGGCCGCTAACCACGCCAGCATAGATTGTTCACGTAAGGAGTTGAAGATTCATGAGCAGAACTACCCTACCCACGACTTGGAGTTGGCAGCTGTAGTCTTTGCACTGAAGATATGGAGGCACTACCTGTACGGTGAGAAGATACATATTTACACCGACCATAAGAGCCTGAAGTATTTCTTCACTCAGAAGGAGTTGAACATGAGGCAGAGGAGGTGGCTCGATTTGGTGAAAGACTATGACTACGAGATCCTGTACCACCCAGGTAAAGCAAATGTAGTGGCTGACGCGCTGAGTAGGAAGGTTGCACATTCAGCAGCGCTAATCACCAAGCAGACCCCCTTACTCAGGGATTTTGAGAGAGCCGAGATTGCAGTCTCAGTAGGTGAGGTTACCGCACAGTTGGCTCAGTTGTCAGTTCAGCCAACCTTGAGGCAAAAGATCATCGCTGCTCAGCTGAATGATCCTTACTTAGTCGAGAAGCGTCGTATGGTAGAGACAGGGCAAAGTGAGGACTTCTCCATATCCTCTGACGATGGCCTTATGTTTGAGGGACGCTTGTGTGTGCCGGAAGACAGCGCAGTCAGGACAAGCTTTTGA

Protein sequence

MIATEAARADKFVRGLRLDIQGLVRAFRPATHADALRLAVDLSLQERANSSKTAGRGSTSGQKRKAEQQPVPVPQRNFRSGVLDMLDFDVILGMDWLAANHASIDCSRKELKIHEQNYPTHDLELAAVVFALKIWRHYLYGEKIHIYTDHKSLKYFFTQKELNMRQRRWLDLVKDYDYEILYHPGKANVVADALSRKVAHSAALITKQTPLLRDFERAEIAVSVGEVTAQLAQLSVQPTLRQKIIAAQLNDPYLVEKRRMVETGQSEDFSISSDDGLMFEGRLCVPEDSAVRTSF
Homology
[Close]
BLAST of Pay0001901 vs. ExPASy Swiss-Prot
Match: P04323 (Retrovirus-related Pol polyprotein from transposon 17.6 OS=Drosophila melanogaster OX=7227 GN=pol PE=4 SV=1)

HSP 1 Score: 79.7 bits (195), Expect = 6.0e-14
Identity = 45/108 (41.67%), Postives = 60/108 (55.56%), Query Frame = 0 

Query: 89  DVILGMDWLAANHASIDCSRKELKIHEQNYPTHDLELAAVVFALKIWRHYLYGEKIHIYT 148
           DV LG       H     SR  L  HE NY T + EL A+V+A K +RHYL G    I +
Sbjct: 517 DVALGAVLSQDGHPLSYISR-TLNEHEINYSTIEKELLAIVWATKTFRHYLLGRHFEISS 576

Query: 149 DHKSLKYFFTQKELNMRQRRWLDLVKDYDYEILYHPGKANVVADALSR 197
           DH+ L + +  K+ N +  RW   + ++D++I Y  GK N VADALSR
Sbjct: 577 DHQPLSWLYRMKDPNSKLTRWRVKLSEFDFDIKYIKGKENCVADALSR 623

[Close]
BLAST of Pay0001901 vs. ExPASy Swiss-Prot
Match: Q8I7P9 (Retrovirus-related Pol polyprotein from transposon opus OS=Drosophila melanogaster OX=7227 GN=pol PE=4 SV=1)

HSP 1 Score: 78.2 bits (191), Expect = 1.8e-13
Identity = 37/89 (41.57%), Postives = 58/89 (65.17%), Query Frame = 0 

Query: 109 KELKIHEQNYPTHDLELAAVVFALKIWRHYLYGE-KIHIYTDHKSLKYFFTQKELNMRQR 168
           + L   E+NY T + E+ A++++L   R YLYG   I +YTDH+ L +    +  N + +
Sbjct: 466 RSLNKTEENYATIEKEMLAIIWSLDNLRAYLYGAGTIKVYTDHQPLTFALGNRNFNAKLK 525

Query: 169 RWLDLVKDYDYEILYHPGKANVVADALSR 197
           RW   +++Y+ E++Y PGK+NVVADALSR
Sbjct: 526 RWKARIEEYNCELIYKPGKSNVVADALSR 554

[Close]
BLAST of Pay0001901 vs. ExPASy Swiss-Prot
Match: P10401 (Retrovirus-related Pol polyprotein from transposon gypsy OS=Drosophila melanogaster OX=7227 GN=pol PE=4 SV=1)

HSP 1 Score: 76.6 bits (187), Expect = 5.1e-13
Identity = 37/90 (41.11%), Postives = 59/90 (65.56%), Query Frame = 0 

Query: 109 KELKIHEQNYPTHDLELAAVVFALKIWRHYLYGEK-IHIYTDHKSLKYFFTQKELNMRQR 168
           + LK  EQNY T++ EL A+V+AL   +++LYG + I+I+TDH+ L +    +  N + +
Sbjct: 522 RTLKQPEQNYATNERELLAIVWALGKLQNFLYGSREINIFTDHQPLTFAVADRNTNAKIK 581

Query: 169 RWLDLVKDYDYEILYHPGKANVVADALSRK 198
           RW   +  ++ ++ Y PGK N VADALSR+
Sbjct: 582 RWKSYIDQHNAKVFYKPGKENFVADALSRQ 611

[Close]
BLAST of Pay0001901 vs. ExPASy Swiss-Prot
Match: P20825 (Retrovirus-related Pol polyprotein from transposon 297 OS=Drosophila melanogaster OX=7227 GN=pol PE=4 SV=1)

HSP 1 Score: 74.3 bits (181), Expect = 2.5e-12
Identity = 40/100 (40.00%), Postives = 56/100 (56.00%), Query Frame = 0 

Query: 97  LAANHASIDCSRKELKIHEQNYPTHDLELAAVVFALKIWRHYLYGEKIHIYTDHKSLKYF 156
           L+ N   I    + L  HE NY   + EL A+V+A K +RHYL G +  I +DH+ L++ 
Sbjct: 523 LSQNGHPISFISRTLNDHELNYSAIEKELLAIVWATKTFRHYLLGRQFLIASDHQPLRWL 582

Query: 157 FTQKELNMRQRRWLDLVKDYDYEILYHPGKANVVADALSR 197
              KE   +  RW   + +Y ++I Y  GK N VADALSR
Sbjct: 583 HNLKEPGAKLERWRVRLSEYQFKIDYIKGKENSVADALSR 622

[Close]
BLAST of Pay0001901 vs. ExPASy Swiss-Prot
Match: Q9UR07 (Transposon Tf2-11 polyprotein OS=Schizosaccharomyces pombe (strain 972 / ATCC 24843) OX=284812 GN=Tf2-11 PE=3 SV=1)

HSP 1 Score: 71.6 bits (174), Expect = 1.6e-11
Identity = 54/172 (31.40%), Postives = 86/172 (50.00%), Query Frame = 0 

Query: 117 NYPTHDLELAAVVFALKIWRHYLYG--EKIHIYTDHKSLKYFFTQKE--LNMRQRRWLDL 176
           NY   D E+ A++ +LK WRHYL    E   I TDH++L    T +    N R  RW   
Sbjct: 748 NYSVSDKEMLAIIKSLKHWRHYLESTIEPFKILTDHRNLIGRITNESEPENKRLARWQLF 807

Query: 177 VKDYDYEILYHPGKANVVADALSRKVAHSAALITKQTPLLRDFERAEIAVSVGEVTAQLA 236
           ++D+++EI Y PG AN +ADALSR       ++ +  P+ +D E   I          + 
Sbjct: 808 LQDFNFEINYRPGSANHIADALSR-------IVDETEPIPKDSEDNSINF--------VN 867

Query: 237 QLSVQPTLRQKIIAAQLNDPYLV-----EKRRMVETGQSED-FSISSDDGLM 279
           Q+S+    + +++    ND  L+     E +R+ E  Q +D   I+S D ++
Sbjct: 868 QISITDDFKNQVVTEYTNDTKLLNLLNNEDKRVEENIQLKDGLLINSKDQIL 904

[Close]
BLAST of Pay0001901 vs. ExPASy TrEMBL
Match: A0A5A7UQP9 (Pol protein OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold288G001570 PE=4 SV=1)

HSP 1 Score: 354.4 bits (908), Expect = 4.7e-94
Identity = 176/185 (95.14%), Postives = 180/185 (97.30%), Query Frame = 0 

Query: 109 KELKIHEQNYPTHDLELAAVVFALKIWRHYLYGEKIHIYTDHKSLKYFFTQKELNMRQRR 168
           ++LKIHEQNYPTHDLELAAVVFALKIWRHYLYGEKI IYTDHKSLKYFFTQKELNMRQRR
Sbjct: 274 RQLKIHEQNYPTHDLELAAVVFALKIWRHYLYGEKIQIYTDHKSLKYFFTQKELNMRQRR 333

Query: 169 WLDLVKDYDYEILYHPGKANVVADALSRKVAHSAALITKQTPLLRDFERAEIAVSVGEVT 228
           WL+LVKDYDYEILYHPGKANVVADALSRKVAHSAALITKQTPLLRDFERAEIAVSVGEVT
Sbjct: 334 WLELVKDYDYEILYHPGKANVVADALSRKVAHSAALITKQTPLLRDFERAEIAVSVGEVT 393

Query: 229 AQLAQLSVQPTLRQKIIAAQLNDPYLVEKRRMVETGQSEDFSISSDDGLMFEGRLCVPED 288
           AQLAQ SVQPTLRQKIIA QLNDPYL EKRRMVETGQ EDFSISSDDGLMFEGRLCVPED
Sbjct: 394 AQLAQFSVQPTLRQKIIATQLNDPYLAEKRRMVETGQGEDFSISSDDGLMFEGRLCVPED 453

Query: 289 SAVRT 294
           SAV+T
Sbjct: 454 SAVKT 458

[Close]
BLAST of Pay0001901 vs. ExPASy TrEMBL
Match: A0A5A7VMR4 (Reverse transcriptase OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold550G00890 PE=4 SV=1)

HSP 1 Score: 354.0 bits (907), Expect = 6.1e-94
Identity = 177/185 (95.68%), Postives = 181/185 (97.84%), Query Frame = 0 

Query: 109 KELKIHEQNYPTHDLELAAVVFALKIWRHYLYGEKIHIYTDHKSLKYFFTQKELNMRQRR 168
           ++LK+HEQNYPTHDLELAAVVFALKIWRHYLYGEKI IYTDHKSLKYFFTQKELNMRQRR
Sbjct: 722 RQLKVHEQNYPTHDLELAAVVFALKIWRHYLYGEKIQIYTDHKSLKYFFTQKELNMRQRR 781

Query: 169 WLDLVKDYDYEILYHPGKANVVADALSRKVAHSAALITKQTPLLRDFERAEIAVSVGEVT 228
           WL+LVKDYD EILYHPGKANVVADALSRKVAHSAALITKQTPLLRDFERAEIAVSVGEVT
Sbjct: 782 WLELVKDYDCEILYHPGKANVVADALSRKVAHSAALITKQTPLLRDFERAEIAVSVGEVT 841

Query: 229 AQLAQLSVQPTLRQKIIAAQLNDPYLVEKRRMVETGQSEDFSISSDDGLMFEGRLCVPED 288
           AQLAQLSVQPTLRQKIIAAQLNDPYLVEKRRMVETGQ EDFSIS DDGLMFEGRLCVPED
Sbjct: 842 AQLAQLSVQPTLRQKIIAAQLNDPYLVEKRRMVETGQGEDFSISFDDGLMFEGRLCVPED 901

Query: 289 SAVRT 294
           SAVRT
Sbjct: 902 SAVRT 906

[Close]
BLAST of Pay0001901 vs. ExPASy TrEMBL
Match: A0A5A7VMR4 (Reverse transcriptase OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold550G00890 PE=4 SV=1)

HSP 1 Score: 110.9 bits (276), Expect = 9.0e-21
Identity = 57/80 (71.25%), Postives = 65/80 (81.25%), Query Frame = 0 

Query: 1   MIATEAARADKFVRGLRLDIQGLVRAFRPATHADALRLAVDLSLQERANSSKTAGRGSTS 60
           ++  EAAR +KFVRGLRLD+QG+VRA RPATHADALR+A+DLSL ERA+SSK AGRG   
Sbjct: 62  VVRDEAARTEKFVRGLRLDLQGIVRALRPATHADALRIALDLSLHERADSSKAAGRGLAL 121

Query: 61  GQKRKAEQQPVPVPQRNFRS 81
           GQKRK E QP  VPQR  RS
Sbjct: 122 GQKRKVETQPDVVPQRTLRS 141


HSP 2 Score: 354.0 bits (907), Expect = 6.1e-94
Identity = 176/185 (95.14%), Postives = 182/185 (98.38%), Query Frame = 0 

Query: 109 KELKIHEQNYPTHDLELAAVVFALKIWRHYLYGEKIHIYTDHKSLKYFFTQKELNMRQRR 168
           ++LKIHEQNYPTHDLELAAVVFALKIWRHYLYGEKI IYTDHKSLKYFFTQKELNMRQRR
Sbjct: 781 RQLKIHEQNYPTHDLELAAVVFALKIWRHYLYGEKIQIYTDHKSLKYFFTQKELNMRQRR 840

Query: 169 WLDLVKDYDYEILYHPGKANVVADALSRKVAHSAALITKQTPLLRDFERAEIAVSVGEVT 228
           WL+LVKDYD EILYHPGKANVVADALSRKVAHSAALITKQTPLL+DFERAEIAVSVGEVT
Sbjct: 841 WLELVKDYDCEILYHPGKANVVADALSRKVAHSAALITKQTPLLKDFERAEIAVSVGEVT 900

Query: 229 AQLAQLSVQPTLRQKIIAAQLNDPYLVEKRRMVETGQSEDFSISSDDGLMFEGRLCVPED 288
           AQLAQLSVQPTLRQKIIAAQLNDPYLVEKRRMVETGQ EDFSISSDDGLMFEGRLCVPED
Sbjct: 901 AQLAQLSVQPTLRQKIIAAQLNDPYLVEKRRMVETGQGEDFSISSDDGLMFEGRLCVPED 960

Query: 289 SAVRT 294
           SA++T
Sbjct: 961 SAIKT 965

[Close]
BLAST of Pay0001901 vs. ExPASy TrEMBL
Match: A0A5A7T7M0 (Reverse transcriptase OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold278G00720 PE=4 SV=1)

HSP 1 Score: 114.8 bits (286), Expect = 6.2e-22
Identity = 59/81 (72.84%), Postives = 66/81 (81.48%), Query Frame = 0 

Query: 1   MIATEAARADKFVRGLRLDIQGLVRAFRPATHADALRLAVDLSLQERANSSKTAGRGSTS 60
           ++  EAAR +KFVRGLRLD+QG+VRA RPATHADALR+A+DLSL ERA SSK AGRGS  
Sbjct: 91  VVRDEAARTEKFVRGLRLDLQGIVRALRPATHADALRIALDLSLPERAGSSKAAGRGSAL 150

Query: 61  GQKRKAEQQPVPVPQRNFRSG 82
           GQKRK E QP  VPQR  RSG
Sbjct: 151 GQKRKVETQPDVVPQRTLRSG 171


HSP 2 Score: 352.8 bits (904), Expect = 1.4e-93
Identity = 176/185 (95.14%), Postives = 181/185 (97.84%), Query Frame = 0 

Query: 109 KELKIHEQNYPTHDLELAAVVFALKIWRHYLYGEKIHIYTDHKSLKYFFTQKELNMRQRR 168
           ++LKIHEQNYPTHDLELAAVVFALKIWRHYLYGEKI IYTDHKSLKYFFTQKELNMRQRR
Sbjct: 452 RQLKIHEQNYPTHDLELAAVVFALKIWRHYLYGEKIQIYTDHKSLKYFFTQKELNMRQRR 511

Query: 169 WLDLVKDYDYEILYHPGKANVVADALSRKVAHSAALITKQTPLLRDFERAEIAVSVGEVT 228
           WL+LVKDYD EILYHPGKANVVAD+LSRKVAHSAALITKQTPLLRDFERAEIAVSVGEVT
Sbjct: 512 WLELVKDYDCEILYHPGKANVVADSLSRKVAHSAALITKQTPLLRDFERAEIAVSVGEVT 571

Query: 229 AQLAQLSVQPTLRQKIIAAQLNDPYLVEKRRMVETGQSEDFSISSDDGLMFEGRLCVPED 288
           AQLAQLSVQPTLRQKIIAAQLNDPYL EKRRMVETGQ EDFSISSDDGLMFEGRLCVPED
Sbjct: 572 AQLAQLSVQPTLRQKIIAAQLNDPYLAEKRRMVETGQGEDFSISSDDGLMFEGRLCVPED 631

Query: 289 SAVRT 294
           SAV+T
Sbjct: 632 SAVKT 636

[Close]
BLAST of Pay0001901 vs. ExPASy TrEMBL
Match: A0A5A7T9X0 (Reverse transcriptase OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold1170G00640 PE=4 SV=1)

HSP 1 Score: 352.1 bits (902), Expect = 2.3e-93
Identity = 176/185 (95.14%), Postives = 180/185 (97.30%), Query Frame = 0 

Query: 109  KELKIHEQNYPTHDLELAAVVFALKIWRHYLYGEKIHIYTDHKSLKYFFTQKELNMRQRR 168
            ++LKIHEQNYPTHD ELAAVVFALKIWRHYLYGEKI IYTDHKSLKYFFTQKELNMRQRR
Sbjct: 848  RQLKIHEQNYPTHDFELAAVVFALKIWRHYLYGEKIQIYTDHKSLKYFFTQKELNMRQRR 907

Query: 169  WLDLVKDYDYEILYHPGKANVVADALSRKVAHSAALITKQTPLLRDFERAEIAVSVGEVT 228
            WL+LVKDYD EILYHPGKANVVADALSRKVAHSAALITKQTPLLRDFERAEIAVSVGEVT
Sbjct: 908  WLELVKDYDCEILYHPGKANVVADALSRKVAHSAALITKQTPLLRDFERAEIAVSVGEVT 967

Query: 229  AQLAQLSVQPTLRQKIIAAQLNDPYLVEKRRMVETGQSEDFSISSDDGLMFEGRLCVPED 288
            A LAQLSVQPTLRQKIIAAQLNDPYLVEKRRMVETGQ EDFSISSDDGLMFEGRLCVPED
Sbjct: 968  AHLAQLSVQPTLRQKIIAAQLNDPYLVEKRRMVETGQGEDFSISSDDGLMFEGRLCVPED 1027

Query: 289  SAVRT 294
            SAV+T
Sbjct: 1028 SAVKT 1032

[Close]
BLAST of Pay0001901 vs. NCBI nr
Match: XP_011658388.1 (uncharacterized protein LOC105435984 [Cucumis sativus])

HSP 1 Score: 375.6 bits (963), Expect = 4.1e-100
Identity = 193/279 (69.18%), Postives = 223/279 (79.93%), Query Frame = 0 

Query: 1   MIATEAARADKFVRGLRLDIQGLVRAFRPATHADALRLAVDLSLQERANSSKTAGRGSTS 60
           M+  +A  ADKFVRG ++  QG +RAFR     DALR  VD+S+ ER +  KT    S+S
Sbjct: 1   MVKVKADIADKFVRGHKMKFQGFIRAFRLIIQVDALRFVVDISMHERVDLPKTIEMRSSS 60

Query: 61  GQKRKAEQQPVPVPQRNFRSGVLDMLDFDVILGMDWLAANHASIDCSRKELKIHEQNYPT 120
            QKRK +QQP+ VPQRN RS   DM DF VILGMDWL ANHASI+CSRKELK  +QNYPT
Sbjct: 61  CQKRKVQQQPIIVPQRNLRSD--DMRDFGVILGMDWLYANHASINCSRKELKSRKQNYPT 120

Query: 121 HDLELAAVVFALKIWRHYLYGEKIHIYTDHKSLKYFFTQKELNMRQRRWLDLVKDYDYEI 180
           HDLELA VVFALKIWRHYLYGEKI I+T+HKSLKYFFT KELNMR RRWL+LVKDYDYEI
Sbjct: 121 HDLELATVVFALKIWRHYLYGEKIQIFTNHKSLKYFFTHKELNMRHRRWLELVKDYDYEI 180

Query: 181 LYHPGKANVVADALSRKVAHSAALITKQTPLLRDFERAEIAVSVGEVTAQLAQLSVQPTL 240
           LYH GKANVV D LSRKV+HSAAL+T Q PL +  ERAEIAV VGEVT++LAQLSVQPTL
Sbjct: 181 LYHLGKANVVVDTLSRKVSHSAALVTNQVPLHKVLERAEIAVLVGEVTSKLAQLSVQPTL 240

Query: 241 RQKIIAAQLNDPYLVEKRRMVETGQSEDFSISSDDGLMF 280
           RQ+I   Q NDPYLV+K R+VE GQ+++FS+S DD ++F
Sbjct: 241 RQQITVVQHNDPYLVKKSRLVEVGQTKEFSMSFDDEIVF 277

[Close]
BLAST of Pay0001901 vs. NCBI nr
Match: KAA0056636.1 (pol protein [Cucumis melo var. makuwa])

HSP 1 Score: 354.4 bits (908), Expect = 9.7e-94
Identity = 176/185 (95.14%), Postives = 180/185 (97.30%), Query Frame = 0 

Query: 109 KELKIHEQNYPTHDLELAAVVFALKIWRHYLYGEKIHIYTDHKSLKYFFTQKELNMRQRR 168
           ++LKIHEQNYPTHDLELAAVVFALKIWRHYLYGEKI IYTDHKSLKYFFTQKELNMRQRR
Sbjct: 274 RQLKIHEQNYPTHDLELAAVVFALKIWRHYLYGEKIQIYTDHKSLKYFFTQKELNMRQRR 333

Query: 169 WLDLVKDYDYEILYHPGKANVVADALSRKVAHSAALITKQTPLLRDFERAEIAVSVGEVT 228
           WL+LVKDYDYEILYHPGKANVVADALSRKVAHSAALITKQTPLLRDFERAEIAVSVGEVT
Sbjct: 334 WLELVKDYDYEILYHPGKANVVADALSRKVAHSAALITKQTPLLRDFERAEIAVSVGEVT 393

Query: 229 AQLAQLSVQPTLRQKIIAAQLNDPYLVEKRRMVETGQSEDFSISSDDGLMFEGRLCVPED 288
           AQLAQ SVQPTLRQKIIA QLNDPYL EKRRMVETGQ EDFSISSDDGLMFEGRLCVPED
Sbjct: 394 AQLAQFSVQPTLRQKIIATQLNDPYLAEKRRMVETGQGEDFSISSDDGLMFEGRLCVPED 453

Query: 289 SAVRT 294
           SAV+T
Sbjct: 454 SAVKT 458

[Close]
BLAST of Pay0001901 vs. NCBI nr
Match: KAA0066951.1 (pol protein [Cucumis melo var. makuwa])

HSP 1 Score: 354.0 bits (907), Expect = 1.3e-93
Identity = 177/185 (95.68%), Postives = 181/185 (97.84%), Query Frame = 0 

Query: 109 KELKIHEQNYPTHDLELAAVVFALKIWRHYLYGEKIHIYTDHKSLKYFFTQKELNMRQRR 168
           ++LK+HEQNYPTHDLELAAVVFALKIWRHYLYGEKI IYTDHKSLKYFFTQKELNMRQRR
Sbjct: 722 RQLKVHEQNYPTHDLELAAVVFALKIWRHYLYGEKIQIYTDHKSLKYFFTQKELNMRQRR 781

Query: 169 WLDLVKDYDYEILYHPGKANVVADALSRKVAHSAALITKQTPLLRDFERAEIAVSVGEVT 228
           WL+LVKDYD EILYHPGKANVVADALSRKVAHSAALITKQTPLLRDFERAEIAVSVGEVT
Sbjct: 782 WLELVKDYDCEILYHPGKANVVADALSRKVAHSAALITKQTPLLRDFERAEIAVSVGEVT 841

Query: 229 AQLAQLSVQPTLRQKIIAAQLNDPYLVEKRRMVETGQSEDFSISSDDGLMFEGRLCVPED 288
           AQLAQLSVQPTLRQKIIAAQLNDPYLVEKRRMVETGQ EDFSIS DDGLMFEGRLCVPED
Sbjct: 842 AQLAQLSVQPTLRQKIIAAQLNDPYLVEKRRMVETGQGEDFSISFDDGLMFEGRLCVPED 901

Query: 289 SAVRT 294
           SAVRT
Sbjct: 902 SAVRT 906

[Close]
BLAST of Pay0001901 vs. NCBI nr
Match: KAA0066951.1 (pol protein [Cucumis melo var. makuwa])

HSP 1 Score: 110.9 bits (276), Expect = 1.9e-20
Identity = 57/80 (71.25%), Postives = 65/80 (81.25%), Query Frame = 0 

Query: 1   MIATEAARADKFVRGLRLDIQGLVRAFRPATHADALRLAVDLSLQERANSSKTAGRGSTS 60
           ++  EAAR +KFVRGLRLD+QG+VRA RPATHADALR+A+DLSL ERA+SSK AGRG   
Sbjct: 62  VVRDEAARTEKFVRGLRLDLQGIVRALRPATHADALRIALDLSLHERADSSKAAGRGLAL 121

Query: 61  GQKRKAEQQPVPVPQRNFRS 81
           GQKRK E QP  VPQR  RS
Sbjct: 122 GQKRKVETQPDVVPQRTLRS 141


HSP 2 Score: 354.0 bits (907), Expect = 1.3e-93
Identity = 176/185 (95.14%), Postives = 182/185 (98.38%), Query Frame = 0 

Query: 109 KELKIHEQNYPTHDLELAAVVFALKIWRHYLYGEKIHIYTDHKSLKYFFTQKELNMRQRR 168
           ++LKIHEQNYPTHDLELAAVVFALKIWRHYLYGEKI IYTDHKSLKYFFTQKELNMRQRR
Sbjct: 781 RQLKIHEQNYPTHDLELAAVVFALKIWRHYLYGEKIQIYTDHKSLKYFFTQKELNMRQRR 840

Query: 169 WLDLVKDYDYEILYHPGKANVVADALSRKVAHSAALITKQTPLLRDFERAEIAVSVGEVT 228
           WL+LVKDYD EILYHPGKANVVADALSRKVAHSAALITKQTPLL+DFERAEIAVSVGEVT
Sbjct: 841 WLELVKDYDCEILYHPGKANVVADALSRKVAHSAALITKQTPLLKDFERAEIAVSVGEVT 900

Query: 229 AQLAQLSVQPTLRQKIIAAQLNDPYLVEKRRMVETGQSEDFSISSDDGLMFEGRLCVPED 288
           AQLAQLSVQPTLRQKIIAAQLNDPYLVEKRRMVETGQ EDFSISSDDGLMFEGRLCVPED
Sbjct: 901 AQLAQLSVQPTLRQKIIAAQLNDPYLVEKRRMVETGQGEDFSISSDDGLMFEGRLCVPED 960

Query: 289 SAVRT 294
           SA++T
Sbjct: 961 SAIKT 965

[Close]
BLAST of Pay0001901 vs. NCBI nr
Match: KAA0037369.1 (pol protein [Cucumis melo var. makuwa])

HSP 1 Score: 114.8 bits (286), Expect = 1.3e-21
Identity = 59/81 (72.84%), Postives = 66/81 (81.48%), Query Frame = 0 

Query: 1   MIATEAARADKFVRGLRLDIQGLVRAFRPATHADALRLAVDLSLQERANSSKTAGRGSTS 60
           ++  EAAR +KFVRGLRLD+QG+VRA RPATHADALR+A+DLSL ERA SSK AGRGS  
Sbjct: 91  VVRDEAARTEKFVRGLRLDLQGIVRALRPATHADALRIALDLSLPERAGSSKAAGRGSAL 150

Query: 61  GQKRKAEQQPVPVPQRNFRSG 82
           GQKRK E QP  VPQR  RSG
Sbjct: 151 GQKRKVETQPDVVPQRTLRSG 171


HSP 2 Score: 352.8 bits (904), Expect = 2.8e-93
Identity = 176/185 (95.14%), Postives = 181/185 (97.84%), Query Frame = 0 

Query: 109 KELKIHEQNYPTHDLELAAVVFALKIWRHYLYGEKIHIYTDHKSLKYFFTQKELNMRQRR 168
           ++LKIHEQNYPTHDLELAAVVFALKIWRHYLYGEKI IYTDHKSLKYFFTQKELNMRQRR
Sbjct: 452 RQLKIHEQNYPTHDLELAAVVFALKIWRHYLYGEKIQIYTDHKSLKYFFTQKELNMRQRR 511

Query: 169 WLDLVKDYDYEILYHPGKANVVADALSRKVAHSAALITKQTPLLRDFERAEIAVSVGEVT 228
           WL+LVKDYD EILYHPGKANVVAD+LSRKVAHSAALITKQTPLLRDFERAEIAVSVGEVT
Sbjct: 512 WLELVKDYDCEILYHPGKANVVADSLSRKVAHSAALITKQTPLLRDFERAEIAVSVGEVT 571

Query: 229 AQLAQLSVQPTLRQKIIAAQLNDPYLVEKRRMVETGQSEDFSISSDDGLMFEGRLCVPED 288
           AQLAQLSVQPTLRQKIIAAQLNDPYL EKRRMVETGQ EDFSISSDDGLMFEGRLCVPED
Sbjct: 572 AQLAQLSVQPTLRQKIIAAQLNDPYLAEKRRMVETGQGEDFSISSDDGLMFEGRLCVPED 631

Query: 289 SAVRT 294
           SAV+T
Sbjct: 632 SAVKT 636

The following BLAST results are available for this feature:
BLAST of Pay0001901 vs. ExPASy Swiss-Prot
Match NameE-valueIdentityDescription
P043236.0e-1441.67Retrovirus-related Pol polyprotein from transposon 17.6 OS=Drosophila melanogast... [more]
Q8I7P91.8e-1341.57Retrovirus-related Pol polyprotein from transposon opus OS=Drosophila melanogast... [more]
P104015.1e-1341.11Retrovirus-related Pol polyprotein from transposon gypsy OS=Drosophila melanogas... [more]
P208252.5e-1240.00Retrovirus-related Pol polyprotein from transposon 297 OS=Drosophila melanogaste... [more]
Q9UR071.6e-1131.40Transposon Tf2-11 polyprotein OS=Schizosaccharomyces pombe (strain 972 / ATCC 24... [more]
BLAST of Pay0001901 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
A0A5A7UQP94.7e-9495.14Pol protein OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold288G001570 P... [more]
A0A5A7VMR46.1e-9495.68Reverse transcriptase OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold55... [more]
A0A5A7VMR49.0e-2171.25Reverse transcriptase OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold55... [more]
A0A5A7T7M06.2e-2272.84Reverse transcriptase OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold27... [more]
A0A5A7T9X02.3e-9395.14Reverse transcriptase OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold11... [more]
BLAST of Pay0001901 vs. NCBI nr
Match NameE-valueIdentityDescription
XP_011658388.14.1e-10069.18uncharacterized protein LOC105435984 [Cucumis sativus][more]
KAA0056636.19.7e-9495.14pol protein [Cucumis melo var. makuwa][more]
KAA0066951.11.3e-9395.68pol protein [Cucumis melo var. makuwa][more]
KAA0066951.11.9e-2071.25pol protein [Cucumis melo var. makuwa][more]
KAA0037369.11.3e-2172.84pol protein [Cucumis melo var. makuwa][more]
BLAST of Pay0001901 vs. NCBI nr
Match NameE-valueIdentityDescription
InterPro
Analysis Name: InterPro Annotations of Melon (Payzawat) v1
Date Performed: 2021-10-25
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
IPR021109Aspartic peptidase domain superfamilyGENE3D2.40.70.10Acid Proteasescoord: 29..124
e-value: 1.5E-9
score: 39.7
IPR041373Reverse transcriptase, RNase H-like domainPFAMPF17917RT_RNaseHcoord: 101..176
e-value: 1.1E-22
score: 80.3
NoneNo IPR availablePFAMPF08284RVP_2coord: 82..116
e-value: 9.2E-10
score: 38.5
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 49..73
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 49..66
NoneNo IPR availablePANTHERPTHR24559:SF383DNA/RNA POLYMERASES SUPERFAMILY PROTEINcoord: 110..250
NoneNo IPR availablePANTHERPTHR24559TRANSPOSON TY3-I GAG-POL POLYPROTEINcoord: 110..250
NoneNo IPR availableCDDcd09274RNase_HI_RT_Ty3coord: 107..198
e-value: 1.6776E-48
score: 155.728
IPR043502DNA/RNA polymerase superfamilySUPERFAMILY56672DNA/RNA polymerasescoord: 109..182

Relationships

The following mRNA feature(s) are a part of this gene:

Feature NameUnique NameType
Pay0001901.1Pay0001901.1mRNA


GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0015074 DNA integration
biological_process GO:0090305 nucleic acid phosphodiester bond hydrolysis
biological_process GO:0006508 proteolysis
biological_process GO:0006278 RNA-dependent DNA biosynthetic process
cellular_component GO:0016021 integral component of membrane
molecular_function GO:0004190 aspartic-type endopeptidase activity
molecular_function GO:0004519 endonuclease activity
molecular_function GO:0003676 nucleic acid binding
molecular_function GO:0003964 RNA-directed DNA polymerase activity
molecular_function GO:0008270 zinc ion binding