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IVF0020043 (gene) Melon (IVF77) v1
Overview
Sequences
The following sequences are available for this feature:
Legend: five_prime_UTRexonCDSpolypeptidethree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.CTGGAGTCGCGGACGAAGCGCAGTTGGTGCGAGACAAATGGCCCACCAACGATGACAAAATTCTCACTCAAAACAAAACAATAATGAGAGCCTCCTCAGGCTCAGGCTTAGGCTCAGGCTCAATGCGGCCCAGCTGCAGGCCAATCCAATTTCCATCCACGCGGCGTCGTTTTCACTTCCAACCATTTCTCCCCACTTTGACCGACATTCCTCCTCCCTAGACCCTCCTACTTCGGATCTCTTCCTCCTCCTCCTCTCCACTTTTCCCTCCGCTCTTCCGCCGCCTCCTCCTCCTTCCTAACCGCCGCCCACCGACGGAAGACCGCGGAGGCTTTCGAGCATCCTCGGCACGTATCGTCATTCACTCAGTCTTTGATTGCTGTGCGATCTGGCGATAGATCCGAGGATCTGAACCTTTTCTCGCCTAATAAACTAAGGTCTCGATTCCTGTCTACATCTTTATCTGGTTGTTGATGATCCCATAGCTCTGACTGAACTAGAATTTGGAAAATCGGTGGCTGCTACGTAGCTTATAACTACAACTTATTCCTCATTTTACCAAAGGTTTTCAATTCTGAAGAGAGGACTGTGAAGTGAACAGGGGATTTATTGTTATAGGCGGAGTGACAGGAAGCTAGGACAATGTGGGAGGGTTGGATTTGATCACGTATAGCACTTGATGAAGAGGGATACGAACGTTGCATTGGTGAGCCACGCATGTTCCATAATCTAGGGTGGTTCATTGGTCTAAATTATCAAGTGCGGTCGGTGAAGAAGCCACCTGATGCAAAGCCACGTCTGGCCAAAGTCAAGCCGGTGGCTATGTTGGACACTGTACAGGAAATTGCCATTTACATTCATAGGTTTCACAATCTCGACCTTTTCCAGCAGGGGTTGGTGCATTTTTATTCTGCAATGACTTCTTATACTTATCGCTGGCTACATTTAAGTAGCAGCTACTTATTACTGACCGTTTCTTCATTTAGATGGTATCAAATTAAACTTACCATGAGATGGGAAGACAGCGAGTATACATCCGTTGGAACACCAGCTAGAGTTGTTCAGTATGAAGGTATTTTCGCTAACTTCCTAAGTGATTGGTTTATTAGCTTTCTGCTAATGGACATGCTTGCCTACCTAACATTTCTATTAAAAGCTAAAATTATAGACATCAAATATGTGATTTAACCTATCTCATTTCAGTTGTACACTAGGCTAAGTGACTGAATCTCGTTCACCTTCTTTAGAATGAGATTTGACACTCTTACAGTTCTTATTTATGCAAAAGTTTACGATTCTCTTTTGAGAGTGAACCCTGGAACACTTAAAGTTTACGATTCTCTTTTGAGAGGGAACCCTGGAACACTTTAAGTTTCCTTCTATTATGGTATTATGTTATAAATAGTTTTTTTTTCCTCAGAAAAAAAAAACTGTCCAGTTAAATAATTGGGATCGTGATTTATTTGCACTGTCTAGTTGGACAGACAGAATTGGTGGGCAAGGAATGCAAAATCCTTGAAGTTTAAAAGACAACTTTTCATTTTGATCTTTGGGGGATCTTTGCATTTTTTTAACATCAATGATGCATGGGAGACTGTTGTGCTTTATAGCAGTAAAAACTGAGTGATCATGAAGTAAGTGGACAAGTTAAATTAACCTAGCTCACTGAGGACTGGTTTGAGACCTTTGACTATGTAGTAACGACATTTTATGATTATGCTTTTCTAACAATTTCTTATTGGTGTTCAATATGTTATCTAATTTGCTTGTGATGCAGCTCCAGATCTGGGATCCGGTAATAGTTATGGAGTATGGAAGATTGACGATACAGACAACAGTTTCTCTACACAGCCTTTCAAGATCAAGTATGCAAGGCAGGATATACTTCTGTCAATAATGATCTCATTCAATTTCCCCCTTGTGAAGTATGAGGTAAGAATTTCTCTCTACACCCCTTCCCTCATTAGTGTATGCTAACCTTTTAATATGAAATCTATTATTCTATCTTCTTTCCGTGAAATTACTATATTTGAAGTTTTTTTTTGTTGTAAAAACTTGATATATTTAATCAAAGACGAATAAAATTCTGTGTTTAGGAAGCAGATCTTGCCTTTCCCTTGGCAACTAAGGGTCTTGTCATCAATTTTGGTTTCCTATTGGCTTCGGTTCTTAGACTAAATTTCTAGGGTAAAATTTTCTTGAAAGAATCAACTTATCTTGTGAACTATACACAACGACAATGACAATGGCAACAGAAAATTTTCCCAGAGAAAAATAAGTTGAATAGTATACACTGTGTTTAAGATTTAGCTAGAATTCATCTGTTGGAAATTGCTGTTATCTAAGAAATACGAATACAAATACAGGATAAGGGTACATCATGACATGGATTTGACAATATGTCATCTTTTTGAAGTCTAGGACAGGGACACAACAAAGACATGTTCATTAAAATTTATACAATCTTTGTACAATAATGAAACTAAAGTCAATGAATTTATGCATTTATGTGCTGAAAAAATTATTTTGATGTACTTCATTTCAATTTTTTTTAAACTTTTGTATGTCTGTTGCTTTGGTAACACTATGTAAATCTAACAAACGTGGGACTTGCTTTGACTTTGTACAACTAGTGTCGAACACATTTATTGTGTTAACAAGTGTTCAATAGGTGTATAACAAGTGTTAGACTGTCCAAGTGTCCAACGCTGGTTGTAGAGTAGACACAAATACAGCCAATTATTGGACACGAATACAGATACAATAGCCAAACTAAAGTGTTCTTGGGTATTAGATTTAAACTATATTGTTATGAGGAATAGTAACAGCCATTTAATAAATTCGATGCTGTATCATTTTAGATCTACATCACTTTTCTTTTGTGGTTAGAAGAGAACATATTTGACATGAACCAAATGTTTTGCAGGCTCCATCCACTTCTGCCGTTATTTTGAAGTTTGAGCTCATGTATGCTCCAATATTGGAGGCTGGGTGAGTTGACATAAATGCATGATTTGGCGCTTGCTCAACTAGTTGAGGTCAAATCACAAAGCCATTTTTTGTTATCTTGCATTACAAGAGTTCTATAATTAAAATTCGGATACCTGTAATGATTGTTGTGCACCATACAGACCAGAATTGCAGGCTTCTTTGGATGCTTCTCCTGCTGCAGTACATGAATTTCGAATTCCTTCTAAAGCTCTACTAGGATTACATTCGTACTGTCCAGTACATTTTGATGCATTCCACGCAGTGCTCGTTGATGTAAGCATTCACATTTGCTTACTACGTTCTTACACTCCAGGAAAAAGATCCAGGTTTGTAATATGATCTTGACAATTTTCAACCATATGTAAAAATGGTGCCTCATTCTTGTTATCTCTTTAGGTCTTGTATTGGTGCATGTGCAGTTCTATTGTTGTATATTTTTGGGTGGGTAGAGAGTCTTAATATTAGATGGGTTCAACTATTGAACAAGTCAACTAACCTAGTTTAATAATTTATTATAGTGAACTACACAAGGAAAATCTTGCTGCGAGACATTTTGATCCACAAAATCAGGTATACAATTGATTTTCCAACGCTTGTTATCCTTACCCTTGACTGAAGGTCAATGTGATTTTGTTAAGTGTAGCATTGATTCTTCTTCCTGTCTTTCACTTTTGTAAATTTTAATTCTGTTTGGTCCTTTTATTTTTCATGATCACAACACACGTTCTTCATTAGTTCTTCTAGAAGATGAATGATGTACTTGTAGTTATTTGGTCATTAACTACCATTATTTGCTTCACATTATGCGTTCTATCACTTTCACAGCGTAAGCTTTAGAATTTCCTTGCATTTGCAAGAAAGATCGTAGTTGTTACTGTTATAAATCTTAAATTCATTTTACGGCAATCTTAATTTTAGACTTGCAATCACCATATTATCTTTCCTTGTTATACAAAACAGTTGTACGATTCAAATCAGACTAACATATGACTTTTCTCACACAATAAATTCTATTACTTTCTCCATTGAGAAATTTTTAGATGGGAATTTCCATTCCCTTGTTGAGTTTGTATCTTACATTAGTCTCTTTTAGTTTCTTCATCTATTCAATGAAAAGTTTCATCTTATTAAAGGGGGTTATCAATGACAAAACAGTGGAAATACGTGGGGGAAAAGACTACGAGTTAATGGATTACTGGTATGAGATTAAAAAAGACTTTATTTGTTTACTATTTTATAAGAAACCCAACTTCCGTTATTATAAGAGAGAAGTACGAGACGAGGAGATGAGATATCCCTGCACACTCAGATTACAATAAAGAGGTCCAATTGCTGTAGATCCGAATTAGGCTACAACTACAAAAAGAAAAAAAATGAAAAAAAAAAAAGAAAAAGAAGAAGAAAAAAGAGGAAGACTGAGTAGAAGAAAAAAGCAAAACCAAATCCCAAAAGACACCCGAAGCAGATTCTGGATATTTTTCCCCTCTAACCAAAGTATCCGTTGGAGGGCAAAACCCTCATTGAACCAAAGTATTTTCAACTGAGCTTTGGAGTTGAGGGCCTTCAATGAGTTAAGGGAGGGCTTCCGAAGCTTTGTTAGGTCAACTCCACTAAATATTGAACAAACTAAACAACCAGTCCCAACTACAATAGAAGATACACATCAACTATTCCTCACTCCTTTTTCAAAGAACACACCAATTGGGAGAAATGGTGGAGTTTCAAAGAATTCTTTGGACTCTGCAACAAGTATTCAACCTCTCAAAAGAGTAACCCACAAGAATTCCAAAGTTTCCAGGTTCACAATAAGCTTAGGGTGGAAAGATTTGACTAAAAAGAGCCATCATTTTGAAGCAGCCACTCTTTCAAATCTTCCCCACTATTAGGTCTAGCAAGAATTTCAAAGCTTCCGGCTTCACAATAAGCTTAGGGTGGAAAAATTTGACTAAAAAGAGCCATCATTTTCAAGCTACCACACTTTCAAATCTTCCCGCTATTAGGTCTAGAGTTGTGTAGTTTGCTTCTGAGAGCAGCCGACTCTTCAACCTCAAAATTAGTGATTCTAAATTTCAGATCCCAATCAAGCTGAGAATCTTACTGACATTGACTAACCATGGAGTCTTCGTCAAATGCAATTCTAAACAGTCCAGGGAACTCCATGTAATCCATCGACCATTAGTTCTTCCAAAAGCATGTTCTATCTCCTCGACTGTTTCTATTTTTGAACCGTTCCTCAAAGAGAAGAATTTTTTTCATGATTTGGAGCCAAGGGTCTTTAAGCAAACGAGAACCATTTGTAAAAAGCCAGCAAAATTTCTCATTCCATCTGTACATAGAAGCAATAACCTCTCTCCATAACACATCTCCAACCCTATTTAGCTGAGAAAGCACGGTTTTTAGTTGCAACATCTTCTATCCCAAACCTCCGATCGTTGCTGGAAGAGAAGTGGTTTTCTCGTTAACAGGATCACCAACACCTTTCTCCTTGTCACCTTTCCGAAAATCTCTTATCAATTTGTCCAGTGTATTAAGAACTCAGAATCAAATGACCAAACAAGCTTTGGAAAATAAGATAGGATTAGATTTTGGAATGAACCTAAATTTTTTCTGGAACAACTTCAAACTTGAGCCCATTCTGACCAAAATAAGCACATCGATGGATTGAAAATAATAAATATCAAGAAACAGCAAACTACAGTGTGTGGAGAAGATTCTTGTTATGGCAGTGTGTGGGATAGGAGGTGGTGACTTCCCTCCACATTTGGGGCTACACATGGCTGCTAAGCTGGTTGAATTCTGCGGTTGTGCACTTGTGGTACTTGGTGGGCTGGCTTCCTTTTCGCTTGGACGGTAACAAAAAATTAGCACCTTAAGATAGTTTTCCTGTCCCCAAATTGTTCACAGAATCCTAATTACCTTAGGAATTGATACCATCTTAATGTGAGACAAAATATAGGAGAAGAACTCAATTTCATACACCGATTTATATAGTATATGAACCTACATGACTTTTAAGTAAAACGACAATAAAGGACTGTTTACTTATAGATACATATACTATAATTACATGCTTATGTTCTCTTCATATTTAAAACGATGTTTTTGTCTGTGGTTTTCAGATGCTGACTGTTTGCTTTGGTATTGATCCAGGTAGGAGCATCACGGGATGAGAAAGATGTCACACTTATTAAAGCATTATTGACTGCTCGTGATATTCTACTTGAGGAGTTTCAAAATCTTAGCAAAGCTATTGACCAAACCGTTGATTTTACTGATTTTATATCTGGAATGGATGATACCAAGTATGTTGATGTTTTGATTCCTTCGAAAAGGGATAATGTAAAGGGTGAAGCGGCAGGACAAGGCAATCCACAAAACGGCCTCGAGGTCCATGCTTTGTTTCAAGCAGCATATGATTGAATTTGTTTCTCTCTCTCTCCTCATAAATTAAATTTTTTTTTTTTTTTTTTAATTTCTTTTTCTTTTCCATTTGTTTATGTTTCCAGAGGACTAACGGTGGTGATCAATTGCACCAAAGAGCAGGTAGTCATATGTCACACCGTTTTCACTCACTGGGTGATCAACTCTTGTATTTATGGAGCACCTTTTTGAAGTTCCACAGGTACGACCTTTTCTTCATATTGTTACTACTACTCCTGACCTTCATTTGAAATTTGGATGTGAAGTCAATATTTATCTCAGATCAATTGGGTACTGAAGTTATTTATTGTTACAATGCACAATTGAACAACAAGAGACATTTCTTCCTATTCTTCATTCTTTAAAGCCGGTAGACTTACCTTGATCTGTTTAGTCCTGAGCGGTATCCTTATTTATTGTCTCTCCATTTTTAGAGCTTTGAGTCAGGTTGCAAGATCATCGAGAAGCTTACGCACAATTTCCTTTTGGAAGGGATGGAAGATGGAAGAGGAAAAGAGTTGCACTAGGTCAAATGGGAGATCATTGGAAGAGGAGATCAATTACCTTGGGACAGGGTTTAAAAAATTGGGTATCCAAGGTCTTGTTGCCAAATGACTTGGCATTTTGACATATGGCCCTCATCCTTTTGAGTGGCTAGTGAGCTCAGTTCAAGGCACAAACCTGAGCTTATGGAAGAATCTTTTTTTTTTTGTATAAGAAACAAATATATTCAAGAGGACAAAAGAAGAACTGCCTGAGGCAAGGGATGGGGGACCCTCTCCAAGAAAAACTAGCAAATAAGGGCCTTCCAATTGGTTAAAATCCTAGAAAGACAATAATTACAAAAGTGTTAGATGTAATTGGTACTCCACCAAGAAGCTGTGTGTTGAACCACAATTAAAAAAGAATCAAAAGAATCATATTTATCATAAAAAAGTATACTATTTCTCTCATTCCAAATGCTCCAAAAAGAGATAAAGTAGCACATCTCCACAGGATCTTCCTCTTCGGATGAAGAGCTATTGAGCCCATCAAGCATCCAACTACCAATCTTACTAGGAAGAAAAAGGTCCAGGTTGAAAATTATGAACAAGAGAGACCAGCCTTTCATTGCGATGTTGTAGGGCAAAAATAAGTGGTCCGAAGTCTCCTCACTTTTAAGGCCAAGGCAGGACATAGATGGCTTCTATAAGCAAGGGACCATAAGAAGAATTTAACTTTTTTGGGGACTTCAACCTTCCAAATGGGCGCACCAGGGGAAGATGATAGTGGGAAATCTTTTGGTTAAGTTAAGTGAAAATTCTGAAAGCATTGAGCTTTCAGTTAAGACTATCGCACTCACCATTCGGAGCCCAAGAGTGAAGAATTTCCAAAATAGCAGCCACATTGTCAAATTCACTGTCTGACACATTCATTTTGAGTCCCAAATTCCAGGAGCTGACAGTGCACCAACAATCAGCAACAAAAACATCCTTATTCAAAGATAAGGAAAAAACATATGGAAATTTCTGCAAAAGGGGGTTAAGCCTTGCACCCGCTATCCTTCCAAAATCTGATGTTTTTCCCATCTCCCAACATAAAAGCTGAGAAATGAATGAAAATCTCCCATGCTTCAAAATACCAGCCCAAAGTCTAAAAGACCTTCCCCTATTTGGCAATTTAGTAGACCACCTATTTGCTTCCAAGTTCCAAGCCATAAATAGCCACGATTAAATGCCTCCATAGAGCGTTTTCTTCTTTTCAAATCCCCCACAGGCCACAGCCATTTCATGAAGAAAGCTCCTAAAAGAATCAACATTCTTATTTGGGTAATGAGTAACAGATCACTGAGTTTATTCAGAGTTTTTTCAAAGAAAGCTTCCTTCATTTTATCCATCACCTTCTGTTTGCTCTCTTTGCATGAAGGATTGTGAAACCTTGCAACATTTATTCTTTGACAGTATGTATTCAAGCCAATCTTGGTGGAAACTAGTCTAACTACTCAACATCCAGTGGATTTTCCTTAACTCATTTAAGGAAAATATCTTCCATTTATTGATTGGTCGAACTGTGGTCTCAAAATTCAAAGTTTTGTGGGTTAATGCAGTGAAAGCCTTACCATCTACGTCATGGTTTTTCATGACAAGTCTCTTCCTTGGAACTATCAATTTGCTTTAGCTTGTCTAAAGGCCTCCTGATGTTGTTCTCCTTCTAAAGGCTTTATTTGATAGTCTATTCAGGATATTTGTCTTAACCGGAATGCTTTTATGTTTTCCTTATAATTCACTTTTGTCTAGTTGTGTTGTTCTATTTCATTATTCCAGTAATATATAATCCTCCCGTTTCCCATTTTGGGTTATTGTAGCTATGAGCGTTAGCCTCTTATCATTATTTCAGTGAAGTGAAAATGTTTGCTGTTTCCTTTTGCAGAAGGAAAAACTTTGTCCATATTTGTAATGGCTTGTTTGCTTGACACATGATAGGTCCTTTGACTATTTCTTGCTGGTTTAACTGGTGGCTTTAGGCTGGTCTTATTGTGGATTGTTCTGTCGGTCTTTTACTGCTGGGTCAAGTTATTGCCTAGTGGCTGTTAGTTTTTCTTTAACCGTGGGTCTAAATTTTAATCTTTTAGTTTTACTGCTGTCATTTGTTAGCCAGTGACTAAAAGTTCAGTTTGTAGCCTTTAAATCCCTAAGCTAGTTCTAAGAGGCATTATTCTAATAAGATTTGAATTCATGGATTGCCCAAAGAACTTGCATACACCAGCAAAACCATCATGGACTGACCTAGTGTTAAAAAAGAAGACACGGTCTCAATAACTAACTAAGAGGTCATGGGTTCAATCTATGGTGGCGGACTATCTAAGAATTAATTTCCCACTAGTTTCCTTGACACCAAAATGTAGTAGAATCAGACGGGTTGTCCTGTGAGCTTAGTCGTGGTACGCTTAAGTTGGCTTGGACACTCACAGATATAAAAGAAAAAAAACTTGCATACATTATTGAATAAGGTGTTGAGTGGTAGGGAGCTCTCAAATTCTCCCTTGCCCTTGTAAACTCTCTCTAATTGATGTAATAAAATAGCTAATAAGACTGTTATTTGCCTAAACTAATCAGCTGTAACTGATTAGTTATCCTAACCTCCCAACTGCCCAAACTACTTGTAACAAACTCCCATATAACAGCTTGTAACTACCCATCAAATTCATCAATAAATACCAATTCTCCTAGCCACTATAGGCAGAGAATTCTTTTGGAAAAAACTATCCAACTTTGAATTACATCACTAATTATCAACAATAGAGGAGGTCTCTATTAGTCATGAAGCAAACTTGGCTCTGATTGATCCTCCCCATCAAGTGCCTTTTCACCTGGCCTAACATGAGGGAGAGAGAGGTTCTTACTCGCACACATGCACAAGTTGGAAATTCTTGTGATTTCCAAGCATTTATTTCTGGCCTATTATTATTATAGCAGTGGAAGTTTTCATATAAAATAAAGACATTATGGTGACTTATCCACTTCAAATGGGTCGCAGCAGAGAGTCCTCCCTCTCAACCCTTTGAATATCTGAAGTAGACCTGTATTTGGGTTTGTATTTGTATTTTAGAGTTACTCTTGGATCATTATTTGAAATGCTAGTTGCTTGAGACAATCCGGCCGCTGTATTATGACACTGACACTTGTATTTCTATAGGGAAGCTGTAGTTTGGCAAACATACAATATACTGAAACCACGTCACATAGTTTTCTTTCTTTTCTCTTTGACTTGTGGTTTGATATGTGTGTTTTTCTACACAAAATCACGGGCACTGATGTATCACAGGGCTAACAAAACAAAGATTCTAGAATATCTACGGGATGGATGGGCAAAGGACAGGCGAGCTGAGTGGTCAATATGGATGGTTTACTCTAAAGTCGAGATGCCTCATCACTACATTAATAGTGGAAGTGAGGAACCTTCGAACCTTGCCATCCGTAGAAGCACTGTTCATAAAAGAGTTTCTAGTCTGTGGAAGTTGGCAGATGATGTGAGTGGTCATTTTACCGAACTCTTTCATATTCGCACTAGAAGTTAATAGTTTACCAGGCAAAAAGTTTTCATTTCATTTGAACTTTTCTTTGACCTCCCATTCTTGACTTCTTTTATTTCCTTCAATACTATTTGTTTCTTGTGAAACAAAGGCAGACTTTTCATTAATTATTTTTGGCTTTTCTTTTTTCTCATTTCAGCCTGCCCAAACTGCAGCTATGAGAGCTGAGCTTCATCGTCGAAGTATTTTACAAATGAGGGTGGGTGCCACTGTTCATTCTATGCTTTATTCTTTTATGTTCTCAAATGTGGAATTTATGTGAATGAGCTAGCGTGCTCTGGTGCAGATAAATAATAGATGTATCCAAGATCTGCATATATTTAGAGATCCTTCCCGAATCCCTATTGTAATCATTGAGCGTGTCATGAATGCTCCTCGACGTTCAATTAGTGAAAATTCATACTTGAGGCGTTTTGACATGATAGATGCTATTGGGAAGGACAGTGGGCCAAGTTCTGAAGCCGTAGACAAGCTGCCTGGCTCTGTAACAGAAAGGAGTGGTCGCATTTTGAAGATAGTTGTCTTCGTGCATGGATTTCAGGCAAGTATTGTTCTTCGGATTTATGATTAAATTTATGATTTTCATTGAACACACCTTTTCCTTAGCCTCTCAGGCTCTTCCTCTTATCCAGCATCCCAAACCCTTGATAGTTTGATGAAATTTTTACAATTTTTAATTCCTGATACTTGCTGTTTGAAAATTTGCATAGTTTGTGTGAACTGTCAAAATGAATTCAACTGTATTTTATTTATTTATCAATTTATTTTTGATAAGAAACAATGATGAAATAACAGCCGTAAGCACCGACCTAGGGGCAGGTGAAGAGAGATCCCACTCCCGGGGAAGGCTAATTACAAAACCTTCTTCCAATTGTTACTTATATGAATAGCGTACAGTTTTCTTTTGTTCCTGATCCAATAATGAAATAATTTTTGTAAGCTAAGCTTGATCTAAGGAAACCTCTACCCCTGAATTTTATTGCACCTTCCTTCCGCTTTCATTATATACTATGAGCATAGTTTTGTATGTTGTCCTTAAGCATTTGATTGACAACTTTGTAGGGTCACCATCTTGATTTAAGGCTTGTTCGGAATCAATGGCTTTTAATAGATCCCAAAATTGAATTTCTTATGTCTGAAGTAAATGAAGAGAAAACTTCTGGAGACTTCAGAGAAATGGGACTAAGGCTGGCACAAGAGGTGATTTCTTTCGTTAAAAAGAAAATGGATAAAGCATCAAGATATGGGAATTTACAGGATATTAAAATTAGCTTTGTTGGACACTCCATTGGAAATGTTATTATAAGAACTGCATTATCAGGTAGGTGGTCACATTCTCTCTTTATGATTCAAGTTTATACTGTTTGTCGTTGTATGTATTGTACTAGATACATTTTGTTAGTTGGATATGATGAGAGTTCTAAGGGGTGTCAACCTAGTCAAGATGTCGAGTGTACCTGCTGATCCTTAGGTTCTTTTGCTCTTTGTTTCAATATTGTACTTTGAGCTTTCGTCTGGTATGATTATCTTAACGAAGATACCGTTTTTTTTAGAAAAAAGATTCGAGTTTATACTACATTATTATTATTATTATTATTATTATTATTGTTTTTTAATTAGTGATAGTTTAAGTTAGTAATATGTGGATTTTGTTGTTTGCAATTTGCAGAAAGCATCATGGAGCCATATCATCGTCATCTTTATACCTATGTTTCAATATCTGGTCCACATTTGGGTTACCTTTACAGCTCAAACTCGTTATTTAACTCTGGCCTGTGGCTTTTGAAGAAGCTCAAGGGCACTCAGTGTATTCATCAGCTGACTTTTACTGATGATCCGGATCTACAAAATACATTCTTCTACAGGCTGTGTAAGGTACTGATTTTTTTCATAGATTTCTCTCCTATTTTCTCTTTTGGAAGGTTGAGGTTGGGCTCCTTTATTCATGTATATCTGTAGTTTATTTTTCCTTATATCCTGTAATTAGTGTTTGTTTGTGACTAGACTTATTATGTTTCATACGAATACTTCTTTCTTCAGAGGTTCTTCTATTTCACTTTGGGTTCATTCCTCTCTACTCTCATCGGGGTCGACAATGCAAAGTGTAACTTGCTAGACTATACTTCCTCAACTAGTTTTCACCTTCAATGGTATCCTTCAATGGGGATGTAGGATAGGATAGTGGTAGGAAGTTCGATTGGGATTGGATTGAGGTGTTCAATTGGGGAGTTTAGTGCTTCTAGAAAGGACTTCACGACTTCAAGAATATGAAATCAGCTTCTGAATATTGTTTTCAAAGAAACAGCAGAAAAGGAATTGAGAACAGGAGAAAGAACTGTGATATTCTGATACATAACTTGAGAAGGGTTAGATGGGAAGATGGGAAAATAAATGCAAAGGAAGAGGGGTTTGTGGGAACACAGTAGCTTTTCCTATAGATTTTACAGAGTGGAAAAGGATATCACCCTCCTCAATGTCCTCATTCTTGACATCTTTGTTTCATTCAAACAATCCTTTTTGACTAGGTCATCCCTCAAAGCTTTTCCACATCACAACTTTCTGTTGATTCACGAGAGGCAAGGATACTTGGGGTCCTTGTGTCTTTACCCCAAATCAGCCAGGTAAGAGCAAAGTTCTTTCCGGCCAAGCCTGGCAGAAAACAATTTGTGGATAGGAGTTGATGGCAGTAGCATTTGCAGTGCAACAGTGGAAACCATATCAGAAAGTCCTTTTCCAAATGAACAAAAAGACGCTTAAGTTGGTTAGCAGGGACTGGGACCACCAGCTGTAGCTTGCAAATTCTTTTATGATATTTTGGTACCTGTGTAGACTCCAACATAAGGCTACAGATGCCTTATCTTGATTTCGTTTTCAGATAATGCTCACATCTCTGTCTATTGTAGAAGTGGTCTTACTTGGCAACCATAGACAATGTAGTTAGGTATCAAAGAAAGTCCTAATAGTTGTGCAAACAGACGAGAGCTCCTCTACCACCACTTTGCTGTAGAAAGCATACAAACGAAGGATCAGAGAAAGTTTGTTGGTACCTCAAAATCTCTGTAAGGGTCAGCCACTACTGAGAGAATACTGCAGTAGATTTATTGGAAGCCACATAAGAATCACAAATTTTCAAAGGACTGTTTGCTGATATTTGTTGGGAAGGAATAAGAAACCAGAAATTTGTGGGTAAACATGAGGTGCATTAATGAAACATATACAACCTCTGTTTCCCGAGGGATTACCCCAATCCCTTCCTATTTGAATTTTGAAATTACCCTAGGAGAATATCCATGTGTTTCAAGTGACCTCATAATCAGGGAGGAAAGACACCTTCGTGGTGGGCTGATTGAACAAATATGCCTGTTTCCTTACGTTGGGCCAACTTTTTGTAGGGGACTTGCTTTTGTGGGCTTGTATTTTTGTATGCCTTTGTATTTCTTCACTCTTTCTCAATGAAATTTGTTGCTTCTCTATAAAAAAAAAACAAGTATTTACTAAAGCGGTAGTTAGATTACATGGGATTTCCAACTCTAGTCTTAAGTCATGAAACTCATAGTTTAGTTTTTAAAGGTTACATGTGATTTCCAACTTCAGTCTCAGATCGTGAGATTGTTTAGGTGCCTTTTGGCAAGTATTTCAACTTTTATGTTTTTGTTTTTTCTGTTTTCTAAATTCTATTTTTAAATTTTTGTTTATTAAAAACAAAAATCATATATGTTTTGTAATTGATTTTGTTTTATGTTTTTGAAAAACAAAATGTATTTTTTTGGAAAACTTCCTTTTTTCATTTTTTATTCTTCCTATATGTACAACCTTTGAAACTTCGACTTCTGTGTTTTGAACTTTTGCTGAGGAGGATGGATATTTAGCATTGATCAGAGTTTCTAATCTTTTAAGTTGTAAGTGGAACAGTGTTGAACTTTGAACTTCTGGTTAGATATTGTTAGATATTATATTAAATTTTCCTTCCCCTATTAGCTTGAGCTTTTGGGTTGAATGAGTGATTTAAGTTGGTATCAGAGCAAGTGGTCTAGGAAGGTCACGTGTTTAAGCCCCTACATTGTTATTTCCTCCCCCATTTAATATTGATTTTCACTTGTTGAGTCTTTCTTGATATTTCAAGCCCACAAGTGAGGGAGAGTGCCAAATATCATATTAAATTTTCCTTCACCTACCAACTTAAGCTTTTGGTTGAATTGGTGATTTAAGAAATATAACATAAGAAAACGTTATAATGAACTGGCCTGCCAATGAATAACATACATAGATGGTGATATTTGTTAAATAAAATTGCTTCTGCAATTATGGTCTTTCCTGGTTAGAAGTTCCAGGCATCTGTTGATACTGTTTATGATAACTTCTCTGTTTTCTCTTTTTTTTTTCAGCAAAAGACGTTGAACAATTTCAAGCACATAATCCTGTTCTCATCTCCACAGGTATCTTCTAGTGCAGAAATCCTTGTTACATATTTTTTATGTTGATGTGCTATGAGTTAATTTCCCTCTTCTGTATGCAAGCTGGTTATTTGTTGCTAAGAGTTCTGTGCCAAGTAGGATGACATGGGCATATCAATTTGTAGATGTCTATATTCGTGTCTTCTGAACATGAATGTGTTATTTAAAAATTAAACTGGCGCGTTAAAATACTGGCTGACACTTTAGATTCTCGGTTATTTAAAAACTGGAAGGGGAATTGATATAATAGTGGTTAATTGTATTTTAAATGCAAATCAGTTTGCTCTATTATTGATTTAATTTATTTTTTAAAACTGATTTTCATCCGTGTATGTGAGTAGAGCCACTTGCTTCTTTCCAAAAGGAGCTCCCGACTAAAATGGATAAAAGTTGGATAGTACTGTGAACAAATGAAAGATTTAAATTTTGTTTTATTTGTCTATATGTAATCTCTTCCCCTCTGCGTGATCAAAAGAGGTTTCCCTTTAAAACATCGTTCCAAATTTATTATTGTTCTAGATTTTCCTGTTAATGGGTTGAATTCGAACTAGTACGGTTCTGTATTTGGCTCTTTTGGTTGTGTATTGATTCATTGCATATATCTCAGGATGGCTATGTTCCGTATCACTCTGCCCGGATTGAATTGTGTCAGGCAGCTTCAATAGACAACTCAAGAAAAGGAAAGTTATTCCTTGATATGCTGAACGATTGTCTGGACCAAATACGTGCCCCTTCCTCTGAACAGAGAGTGTTCATGCGTTGTGATGTGAACTTTGACACCTCTGCTTATGGCAAGAATTTGAACACAATTATTGGACGGGCAGCTCACATTGAGTTCTTGGAATCTGACTTTTTTGCTAGATTCATAATGTGGTCTTTCCCAGAGTTATTTAGATGATTGTCACAAAGAATAGGGCTACCTACGATATGTCCCCCTGATCTTGTCTTTTCCAGGGTCATTTAATATATACTATCCACGGCTTCCTCACCCTTATCTCCAAAGCAGCACCAGGATCAACAATGGAAATGAAAGTTTTTTGGCTTATTGGGTTCTATCATTTTACACATGGGATAGGGAGATTCATGGAGCTGGAAGCATCATCTGAAGTACTGCAAAATAATTATTCAGCAACGAGGAGTTATATCGTCCTTGTTAGGCCAAATGAGAGTAGGATAAAAATCCTTGTTCATAATCAAAAATCAAGTTATTGCTCTGCTTTGGTATATAGACTAGTGGGGAAGTGAGGAGCTAATACTGCTATTGTCATTGTATGCTTTTGTTCCCCATTCCTATCTAGACATGGAATGCAGGCTGATGCGGTTAGATGCTGCTTGCATCTAGCCTTGCGTTTAGTTGACTTGGTACGTATGTATGTCTTTAATCTATCAATTTGGCCGTTATTGTCTTTGATGCAGCTTCCAGATTGATCTTGATTGATAATGGAATGTGGAGGAGACTCGCCTAACAATTTTCGGTACTTCTGGCTTAACTATTCGACTAGTCTATTTATTACTCCTTTTCCACCTTGGAATTGAAGTTTGCAAGTATTTTGACGATGTAAACTTCAATTCAATACATGTACTTTTTTTTTATAAATATTATAAAAGTAGGTGATGGGTATTTATTTTAGGTTGCAATAGGACTGTGATTCTAGCTT CTGGAGTCGCGGACGAAGCGCAGTTGGTGCGAGACAAATGGCCCACCAACGATGACAAAATTCTCACTCAAAACAAAACAATAATGAGAGCCTCCTCAGGCTCAGGCTTAGGCTCAGGCTCAATGCGGCCCAGCTGCAGGCCAATCCAATTTCCATCCACGCGGCGTCGTTTTCACTTCCAACCATTTCTCCCCACTTTGACCGACATTCCTCCTCCCTAGACCCTCCTACTTCGGATCTCTTCCTCCTCCTCCTCTCCACTTTTCCCTCCGCTCTTCCGCCGCCTCCTCCTCCTTCCTAACCGCCGCCCACCGACGGAAGACCGCGGAGGCTTTCGAGCATCCTCGGCACGTATCGTCATTCACTCAGTCTTTGATTGCTGTGCGATCTGGCGATAGATCCGAGGATCTGAACCTTTTCTCGCCTAATAAACTAAGGTCTCGATTCCTGTCTACATCTTTATCTGGTTGTTGATGATCCCATAGCTCTGACTGAACTAGAATTTGGAAAATCGGTGGCTGCTACGTAGCTTATAACTACAACTTATTCCTCATTTTACCAAAGGTTTTCAATTCTGAAGAGAGGACTGTGAAGTGAACAGGGGATTTATTGTTATAGGCGGAGTGACAGGAAGCTAGGACAATGTGGGAGGGTTGGATTTGATCACGTATAGCACTTGATGAAGAGGGATACGAACGTTGCATTGGTGAGCCACGCATGTTCCATAATCTAGGGTGGTTCATTGGTCTAAATTATCAAGTGCGGTCGGTGAAGAAGCCACCTGATGCAAAGCCACGTCTGGCCAAAGTCAAGCCGGTGGCTATGTTGGACACTGTACAGGAAATTGCCATTTACATTCATAGGTTTCACAATCTCGACCTTTTCCAGCAGGGATGGTATCAAATTAAACTTACCATGAGATGGGAAGACAGCGAGTATACATCCGTTGGAACACCAGCTAGAGTTGTTCAGTATGAAGCTCCAGATCTGGGATCCGGTAATAGTTATGGAGTATGGAAGATTGACGATACAGACAACAGTTTCTCTACACAGCCTTTCAAGATCAAGTATGCAAGGCAGGATATACTTCTGTCAATAATGATCTCATTCAATTTCCCCCTTGTGAAGTATGAGGCTCCATCCACTTCTGCCGTTATTTTGAAGTTTGAGCTCATGTATGCTCCAATATTGGAGGCTGGACCAGAATTGCAGGCTTCTTTGGATGCTTCTCCTGCTGCAGTACATGAATTTCGAATTCCTTCTAAAGCTCTACTAGGATTACATTCGTACTGTCCAGTACATTTTGATGCATTCCACGCAGTGCTCGTTGATGTAAGCATTCACATTTGCTTACTACGTTCTTACACTCCAGGAAAAAGATCCAGTGAACTACACAAGGAAAATCTTGCTGCGAGACATTTTGATCCACAAAATCAGGTAGGAGCATCACGGGATGAGAAAGATGTCACACTTATTAAAGCATTATTGACTGCTCGTGATATTCTACTTGAGGAGTTTCAAAATCTTAGCAAAGCTATTGACCAAACCGTTGATTTTACTGATTTTATATCTGGAATGGATGATACCAAGTATGTTGATGTTTTGATTCCTTCGAAAAGGGATAATGTAAAGGGTGAAGCGGCAGGACAAGGCAATCCACAAAACGGCCTCGAGAGGACTAACGGTGGTGATCAATTGCACCAAAGAGCAGGTAGTCATATGTCACACCGTTTTCACTCACTGGGTGATCAACTCTTGTATTTATGGAGCACCTTTTTGAAGTTCCACAGGGCTAACAAAACAAAGATTCTAGAATATCTACGGGATGGATGGGCAAAGGACAGGCGAGCTGAGTGGTCAATATGGATGGTTTACTCTAAAGTCGAGATGCCTCATCACTACATTAATAGTGGAAGTGAGGAACCTTCGAACCTTGCCATCCGTAGAAGCACTGTTCATAAAAGAGTTTCTAGTCTGTGGAAGTTGGCAGATGATCCTGCCCAAACTGCAGCTATGAGAGCTGAGCTTCATCGTCGAAGTATTTTACAAATGAGGATAAATAATAGATGTATCCAAGATCTGCATATATTTAGAGATCCTTCCCGAATCCCTATTGTAATCATTGAGCGTGTCATGAATGCTCCTCGACGTTCAATTAGTGAAAATTCATACTTGAGGCGTTTTGACATGATAGATGCTATTGGGAAGGACAGTGGGCCAAGTTCTGAAGCCGTAGACAAGCTGCCTGGCTCTGTAACAGAAAGGAGTGGTCGCATTTTGAAGATAGTTGTCTTCGTGCATGGATTTCAGGGTCACCATCTTGATTTAAGGCTTGTTCGGAATCAATGGCTTTTAATAGATCCCAAAATTGAATTTCTTATGTCTGAAGTAAATGAAGAGAAAACTTCTGGAGACTTCAGAGAAATGGGACTAAGGCTGGCACAAGAGGTGATTTCTTTCGTTAAAAAGAAAATGGATAAAGCATCAAGATATGGGAATTTACAGGATATTAAAATTAGCTTTGTTGGACACTCCATTGGAAATGTTATTATAAGAACTGCATTATCAGAAAGCATCATGGAGCCATATCATCGTCATCTTTATACCTATGTTTCAATATCTGGTCCACATTTGGGTTACCTTTACAGCTCAAACTCGTTATTTAACTCTGGCCTGTGGCTTTTGAAGAAGCTCAAGGGCACTCAGTGTATTCATCAGCTGACTTTTACTGATGATCCGGATCTACAAAATACATTCTTCTACAGGCTGTGTAAGCAAAAGACGTTGAACAATTTCAAGCACATAATCCTGTTCTCATCTCCACAGGATGGCTATGTTCCGTATCACTCTGCCCGGATTGAATTGTGTCAGGCAGCTTCAATAGACAACTCAAGAAAAGGAAAGTTATTCCTTGATATGCTGAACGATTGTCTGGACCAAATACGTGCCCCTTCCTCTGAACAGAGAGTGTTCATGCGTTGTGATGTGAACTTTGACACCTCTGCTTATGGCAAGAATTTGAACACAATTATTGGACGGGCAGCTCACATTGAGTTCTTGGAATCTGACTTTTTTGCTAGATTCATAATGTGGTCTTTCCCAGAGTTATTTAGATGATTGTCACAAAGAATAGGGCTACCTACGATATGTCCCCCTGATCTTGTCTTTTCCAGGGTCATTTAATATATACTATCCACGGCTTCCTCACCCTTATCTCCAAAGCAGCACCAGGATCAACAATGGAAATGAAAGTTTTTTGGCTTATTGGGTTCTATCATTTTACACATGGGATAGGGAGATTCATGGAGCTGGAAGCATCATCTGAAGTACTGCAAAATAATTATTCAGCAACGAGGAGTTATATCGTCCTTGTTAGGCCAAATGAGAGTAGGATAAAAATCCTTGTTCATAATCAAAAATCAAGTTATTGCTCTGCTTTGGTATATAGACTAGTGGGGAAGTGAGGAGCTAATACTGCTATTGTCATTGTATGCTTTTGTTCCCCATTCCTATCTAGACATGGAATGCAGGCTGATGCGGTTAGATGCTGCTTGCATCTAGCCTTGCGTTTAGTTGACTTGGTACGTATGTATGTCTTTAATCTATCAATTTGGCCGTTATTGTCTTTGATGCAGCTTCCAGATTGATCTTGATTGATAATGGAATGTGGAGGAGACTCGCCTAACAATTTTCGGTACTTCTGGCTTAACTATTCGACTAGTCTATTTATTACTCCTTTTCCACCTTGGAATTGAAGTTTGCAAGTATTTTGACGATGTAAACTTCAATTCAATACATGTACTTTTTTTTTATAAATATTATAAAAGTAGGTGATGGGTATTTATTTTAGGTTGCAATAGGACTGTGATTCTAGCTT ATGTTCCATAATCTAGGGTGGTTCATTGGTCTAAATTATCAAGTGCGGTCGGTGAAGAAGCCACCTGATGCAAAGCCACGTCTGGCCAAAGTCAAGCCGGTGGCTATGTTGGACACTGTACAGGAAATTGCCATTTACATTCATAGGTTTCACAATCTCGACCTTTTCCAGCAGGGATGGTATCAAATTAAACTTACCATGAGATGGGAAGACAGCGAGTATACATCCGTTGGAACACCAGCTAGAGTTGTTCAGTATGAAGCTCCAGATCTGGGATCCGGTAATAGTTATGGAGTATGGAAGATTGACGATACAGACAACAGTTTCTCTACACAGCCTTTCAAGATCAAGTATGCAAGGCAGGATATACTTCTGTCAATAATGATCTCATTCAATTTCCCCCTTGTGAAGTATGAGGCTCCATCCACTTCTGCCGTTATTTTGAAGTTTGAGCTCATGTATGCTCCAATATTGGAGGCTGGACCAGAATTGCAGGCTTCTTTGGATGCTTCTCCTGCTGCAGTACATGAATTTCGAATTCCTTCTAAAGCTCTACTAGGATTACATTCGTACTGTCCAGTACATTTTGATGCATTCCACGCAGTGCTCGTTGATGTAAGCATTCACATTTGCTTACTACGTTCTTACACTCCAGGAAAAAGATCCAGTGAACTACACAAGGAAAATCTTGCTGCGAGACATTTTGATCCACAAAATCAGGTAGGAGCATCACGGGATGAGAAAGATGTCACACTTATTAAAGCATTATTGACTGCTCGTGATATTCTACTTGAGGAGTTTCAAAATCTTAGCAAAGCTATTGACCAAACCGTTGATTTTACTGATTTTATATCTGGAATGGATGATACCAAGTATGTTGATGTTTTGATTCCTTCGAAAAGGGATAATGTAAAGGGTGAAGCGGCAGGACAAGGCAATCCACAAAACGGCCTCGAGAGGACTAACGGTGGTGATCAATTGCACCAAAGAGCAGGTAGTCATATGTCACACCGTTTTCACTCACTGGGTGATCAACTCTTGTATTTATGGAGCACCTTTTTGAAGTTCCACAGGGCTAACAAAACAAAGATTCTAGAATATCTACGGGATGGATGGGCAAAGGACAGGCGAGCTGAGTGGTCAATATGGATGGTTTACTCTAAAGTCGAGATGCCTCATCACTACATTAATAGTGGAAGTGAGGAACCTTCGAACCTTGCCATCCGTAGAAGCACTGTTCATAAAAGAGTTTCTAGTCTGTGGAAGTTGGCAGATGATCCTGCCCAAACTGCAGCTATGAGAGCTGAGCTTCATCGTCGAAGTATTTTACAAATGAGGATAAATAATAGATGTATCCAAGATCTGCATATATTTAGAGATCCTTCCCGAATCCCTATTGTAATCATTGAGCGTGTCATGAATGCTCCTCGACGTTCAATTAGTGAAAATTCATACTTGAGGCGTTTTGACATGATAGATGCTATTGGGAAGGACAGTGGGCCAAGTTCTGAAGCCGTAGACAAGCTGCCTGGCTCTGTAACAGAAAGGAGTGGTCGCATTTTGAAGATAGTTGTCTTCGTGCATGGATTTCAGGGTCACCATCTTGATTTAAGGCTTGTTCGGAATCAATGGCTTTTAATAGATCCCAAAATTGAATTTCTTATGTCTGAAGTAAATGAAGAGAAAACTTCTGGAGACTTCAGAGAAATGGGACTAAGGCTGGCACAAGAGGTGATTTCTTTCGTTAAAAAGAAAATGGATAAAGCATCAAGATATGGGAATTTACAGGATATTAAAATTAGCTTTGTTGGACACTCCATTGGAAATGTTATTATAAGAACTGCATTATCAGAAAGCATCATGGAGCCATATCATCGTCATCTTTATACCTATGTTTCAATATCTGGTCCACATTTGGGTTACCTTTACAGCTCAAACTCGTTATTTAACTCTGGCCTGTGGCTTTTGAAGAAGCTCAAGGGCACTCAGTGTATTCATCAGCTGACTTTTACTGATGATCCGGATCTACAAAATACATTCTTCTACAGGCTGTGTAAGCAAAAGACGTTGAACAATTTCAAGCACATAATCCTGTTCTCATCTCCACAGGATGGCTATGTTCCGTATCACTCTGCCCGGATTGAATTGTGTCAGGCAGCTTCAATAGACAACTCAAGAAAAGGAAAGTTATTCCTTGATATGCTGAACGATTGTCTGGACCAAATACGTGCCCCTTCCTCTGAACAGAGAGTGTTCATGCGTTGTGATGTGAACTTTGACACCTCTGCTTATGGCAAGAATTTGAACACAATTATTGGACGGGCAGCTCACATTGAGTTCTTGGAATCTGACTTTTTTGCTAGATTCATAATGTGGTCTTTCCCAGAGTTATTTAGATGA MFHNLGWFIGLNYQVRSVKKPPDAKPRLAKVKPVAMLDTVQEIAIYIHRFHNLDLFQQGWYQIKLTMRWEDSEYTSVGTPARVVQYEAPDLGSGNSYGVWKIDDTDNSFSTQPFKIKYARQDILLSIMISFNFPLVKYEAPSTSAVILKFELMYAPILEAGPELQASLDASPAAVHEFRIPSKALLGLHSYCPVHFDAFHAVLVDVSIHICLLRSYTPGKRSSELHKENLAARHFDPQNQVGASRDEKDVTLIKALLTARDILLEEFQNLSKAIDQTVDFTDFISGMDDTKYVDVLIPSKRDNVKGEAAGQGNPQNGLERTNGGDQLHQRAGSHMSHRFHSLGDQLLYLWSTFLKFHRANKTKILEYLRDGWAKDRRAEWSIWMVYSKVEMPHHYINSGSEEPSNLAIRRSTVHKRVSSLWKLADDPAQTAAMRAELHRRSILQMRINNRCIQDLHIFRDPSRIPIVIIERVMNAPRRSISENSYLRRFDMIDAIGKDSGPSSEAVDKLPGSVTERSGRILKIVVFVHGFQGHHLDLRLVRNQWLLIDPKIEFLMSEVNEEKTSGDFREMGLRLAQEVISFVKKKMDKASRYGNLQDIKISFVGHSIGNVIIRTALSESIMEPYHRHLYTYVSISGPHLGYLYSSNSLFNSGLWLLKKLKGTQCIHQLTFTDDPDLQNTFFYRLCKQKTLNNFKHIILFSSPQDGYVPYHSARIELCQAASIDNSRKGKLFLDMLNDCLDQIRAPSSEQRVFMRCDVNFDTSAYGKNLNTIIGRAAHIEFLESDFFARFIMWSFPELFR Homology
BLAST of IVF0020043 vs. ExPASy Swiss-Prot
Match: Q641I1 (Protein FAM135B OS=Xenopus laevis OX=8355 GN=fam135b PE=2 SV=1) HSP 1 Score: 198.0 bits (502), Expect = 4.1e-49 Identity = 110/268 (41.04%), Postives = 166/268 (61.94%), Query Frame = 0
BLAST of IVF0020043 vs. ExPASy Swiss-Prot
Match: Q9DAI6 (Protein FAM135B OS=Mus musculus OX=10090 GN=Fam135b PE=1 SV=3) HSP 1 Score: 196.4 bits (498), Expect = 1.2e-48 Identity = 109/268 (40.67%), Postives = 167/268 (62.31%), Query Frame = 0
BLAST of IVF0020043 vs. ExPASy Swiss-Prot
Match: Q49AJ0 (Protein FAM135B OS=Homo sapiens OX=9606 GN=FAM135B PE=1 SV=2) HSP 1 Score: 196.1 bits (497), Expect = 1.6e-48 Identity = 109/268 (40.67%), Postives = 167/268 (62.31%), Query Frame = 0
BLAST of IVF0020043 vs. ExPASy Swiss-Prot
Match: Q5RA75 (Protein FAM135A OS=Pongo abelii OX=9601 GN=FAM135A PE=2 SV=1) HSP 1 Score: 190.3 bits (482), Expect = 8.6e-47 Identity = 111/279 (39.78%), Postives = 171/279 (61.29%), Query Frame = 0
BLAST of IVF0020043 vs. ExPASy Swiss-Prot
Match: Q9P2D6 (Protein FAM135A OS=Homo sapiens OX=9606 GN=FAM135A PE=1 SV=2) HSP 1 Score: 187.6 bits (475), Expect = 5.6e-46 Identity = 110/279 (39.43%), Postives = 170/279 (60.93%), Query Frame = 0
BLAST of IVF0020043 vs. ExPASy TrEMBL
Match: A0A1S3CMG0 (protein FAM135B-like isoform X1 OS=Cucumis melo OX=3656 GN=LOC103502600 PE=3 SV=1) HSP 1 Score: 1612.4 bits (4174), Expect = 0.0e+00 Identity = 798/799 (99.87%), Postives = 799/799 (100.00%), Query Frame = 0
BLAST of IVF0020043 vs. ExPASy TrEMBL
Match: A0A5A7TQG3 (Protein FAM135B-like isoform X1 OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold422G00130 PE=3 SV=1) HSP 1 Score: 1609.0 bits (4165), Expect = 0.0e+00 Identity = 799/802 (99.63%), Postives = 799/802 (99.63%), Query Frame = 0
BLAST of IVF0020043 vs. ExPASy TrEMBL
Match: A0A1S3CMA7 (protein FAM135B-like isoform X2 OS=Cucumis melo OX=3656 GN=LOC103502600 PE=3 SV=1) HSP 1 Score: 1603.2 bits (4150), Expect = 0.0e+00 Identity = 796/799 (99.62%), Postives = 797/799 (99.75%), Query Frame = 0
BLAST of IVF0020043 vs. ExPASy TrEMBL
Match: A0A0A0KHB5 (DUF676 domain-containing protein OS=Cucumis sativus OX=3659 GN=Csa_6G401520 PE=3 SV=1) HSP 1 Score: 1590.9 bits (4118), Expect = 0.0e+00 Identity = 787/799 (98.50%), Postives = 792/799 (99.12%), Query Frame = 0
BLAST of IVF0020043 vs. ExPASy TrEMBL
Match: A0A6J1GIF4 (protein FAM135B-like isoform X1 OS=Cucurbita moschata OX=3662 GN=LOC111454207 PE=3 SV=1) HSP 1 Score: 1496.1 bits (3872), Expect = 0.0e+00 Identity = 744/800 (93.00%), Postives = 765/800 (95.62%), Query Frame = 0
BLAST of IVF0020043 vs. NCBI nr
Match: XP_008464798.1 (PREDICTED: protein FAM135B-like isoform X1 [Cucumis melo]) HSP 1 Score: 1603 bits (4152), Expect = 0.0 Identity = 798/799 (99.87%), Postives = 799/799 (100.00%), Query Frame = 0
BLAST of IVF0020043 vs. NCBI nr
Match: KAA0045400.1 (protein FAM135B-like isoform X1 [Cucumis melo var. makuwa]) HSP 1 Score: 1600 bits (4143), Expect = 0.0 Identity = 799/802 (99.63%), Postives = 799/802 (99.63%), Query Frame = 0
BLAST of IVF0020043 vs. NCBI nr
Match: XP_008464799.1 (PREDICTED: protein FAM135B-like isoform X2 [Cucumis melo]) HSP 1 Score: 1594 bits (4128), Expect = 0.0 Identity = 796/799 (99.62%), Postives = 797/799 (99.75%), Query Frame = 0
BLAST of IVF0020043 vs. NCBI nr
Match: XP_004146761.1 (protein FAM135B [Cucumis sativus] >KGN47782.1 hypothetical protein Csa_003021 [Cucumis sativus]) HSP 1 Score: 1582 bits (4096), Expect = 0.0 Identity = 787/799 (98.50%), Postives = 792/799 (99.12%), Query Frame = 0
BLAST of IVF0020043 vs. NCBI nr
Match: XP_022951353.1 (protein FAM135B-like isoform X1 [Cucurbita moschata] >XP_022951354.1 protein FAM135B-like isoform X1 [Cucurbita moschata] >XP_022951355.1 protein FAM135B-like isoform X1 [Cucurbita moschata] >KAG6585811.1 Family With Sequence Similarity 135 Member B-like protein, partial [Cucurbita argyrosperma subsp. sororia]) HSP 1 Score: 1487 bits (3849), Expect = 0.0 Identity = 744/800 (93.00%), Postives = 765/800 (95.62%), Query Frame = 0
BLAST of IVF0020043 vs. TAIR 10
Match: AT1G58350.1 (Putative serine esterase family protein ) HSP 1 Score: 1021.1 bits (2639), Expect = 4.6e-298 Identity = 530/816 (64.95%), Postives = 625/816 (76.59%), Query Frame = 0
BLAST of IVF0020043 vs. TAIR 10
Match: AT1G58350.2 (Putative serine esterase family protein ) HSP 1 Score: 1021.1 bits (2639), Expect = 4.6e-298 Identity = 530/816 (64.95%), Postives = 625/816 (76.59%), Query Frame = 0
BLAST of IVF0020043 vs. TAIR 10
Match: AT1G09980.1 (Putative serine esterase family protein ) HSP 1 Score: 1020.4 bits (2637), Expect = 7.9e-298 Identity = 532/816 (65.20%), Postives = 629/816 (77.08%), Query Frame = 0
BLAST of IVF0020043 vs. TAIR 10
Match: AT1G09980.2 (Putative serine esterase family protein ) HSP 1 Score: 1015.0 bits (2623), Expect = 3.3e-296 Identity = 530/815 (65.03%), Postives = 626/815 (76.81%), Query Frame = 0
BLAST of IVF0020043 vs. TAIR 10
Match: AT1G58350.3 (Putative serine esterase family protein ) HSP 1 Score: 893.3 bits (2307), Expect = 1.5e-259 Identity = 480/816 (58.82%), Postives = 560/816 (68.63%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Melon (IVF77) v1
Date Performed: 2021-10-25 Position : 0 Zoom : x 1
Relationships
The following mRNA feature(s) are a part of this gene:
GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
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