![](http://cucurbitgenomics.org/sites/default/files/styles/slideshow/public/carousel/101322_web.jpg?itok=EG-G51x6)
MELO3C018457 (gene) Melon (DHL92) v4
Overview
Sequences
The following sequences are available for this feature:
Legend: exonfive_prime_UTRCDSpolypeptidethree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.CAACATTTTTCTCGGAGGTGTTGGGTCCGATCAAAGATTAGTCCGACATTTTTATCTTCCTCCAATCTTACCTGTAATTCCTATCCGATTAAGTTTTTTCGCAAATATATATAATAAACTTCGAAAACTATATGACTATACGTTTTGTGTTTTTTTCTAATAGGTTAAATTGGACATTTCACCATTGTTATGTTACTCTTTAAATTGGAAATCCATCTCAAAATCTCTTTAGTAATTTCCCTTACACTTTGGATGAGATGGGGATTGGATGCAGAGTTTCAATGGCGAATTACTTCGTCCCAAGTGCTCAACCCAAGTTCTCTCCCAAGGTTGTACCTGCCGCCGCCATCACTGTTTCCACTCCTTTGTTTACTCCAATTCCATTGCAACAAGGAATAACAGTTCCCAGAAAACTCTCGGCTAAAGCCACGAAAGGCGCCCTCTCACCAACTTCACCGCCAATACTCTCAACCTCTGTTTCGATGGCTACGAGTACAATTGCTCCGTCTGAGCCTCTCAAGAAGGTCCTTCTACAATACCCATTTGTCATTTCTCTTAAAACATAACGAATTCATCATGGGTTTCTAGTAATTGATGAACGAAAGCTTAAGCAGTTCGTTTGATAATTTTATTTAACTGTTTTGGAGCGAAAAAGAAAGGACTGCTGAACTCATCTTGTGTATGTGGACAGGTTCTGGTTCCTATTGGCTTTGGAACTGAGGAAATGGAAGCTGTTATTATAATCGATGTATTGCGTCGAGCTGGGGCTGCTGTAACTGTGGCGTCCGTTGAATCAGAGCTTGAAATTGAAACTTCTGGGGGTGTGAAATTGGTTGCTGATACCCTAATCAGTTCATGCTCCAATGAAGTTTTCGACCTTGTAGCTTTGCCTGTAAGTACTTTCATTTATAAGTAGAATTGGCCCAAGTTTTAGATGGCTTTGAAATTGAGAATCCTTTGAGGAAGCATATGTTAGAAGCATAAAATAGCTAGAAAGCGGCAAAATTAATATATTGGTTTAAATCTTATTTTAGTTATTGGACTTTCACGTTTGTTCAACATTCTGGTTTAGTCTCTAAACTTTTTGACATTCTGTTTTGGTCTCTCAATTGTACAATAAACCATCTTTGTTGTTGCCATTATTTTCTCTTTTTTCTAATTATTTAACAGATACTTGACTTGGACATTTTTTGTTTCTGACCTAATGAGTGAGAGATATGCAACACATGAGTAGGTCCGATATCAAATTTTGAAACAGATTTTTGCTTTTCTCAAAACACTTAGGGGATAGAATCTAATTCTTGGAAGTTTAAGAACTAAAATGAACTCGTAGGTAAGACTAGGATTTACACCAAATAAATACATTGTTGAGTGGTCTTGTGGGCATGACTATGATATATTTTGTGATAGAACTGGCATAATTTAATTATATCTTTAGCCGTGCAACAATTTAGGACTTGAGTTGTGACTGTCATTTGCCTCCTTAAGCATCTCAGGTGCTGTAAATGGCATGTCACAGATTCTTGTCACCTATGGTTACAATAGTATTGTGGTTTATTGTTAGGGAGGGATGCCTGGCTCTGTAAGATTACGAGATTGTGAAATCCTGCGAAAAATTACCAGCAGACAAGCTGAGGAAAAGAGGCTGTATGGAGCTATATGTGCTGCTCCAGCGGTCACCCTTCTGCCGTGGGGTCTTTTAAGAAGAAAACAGGTAGGTCGCCAATGGATCAAACTAGGCTTCATCTAGTTTATTTGAATATATAACTGTATTTAGATTTGCTAATTATGGTGTAGTTTGTTGTGCAAGACTACGTGTCACCCTGCATTCACTGACAAGCTCCCAACATTTTGGGCTGTTCAATCAAGTATTCAAGTGTCAGGAGAGCTCACAACAAGCCGTGGCCCCGGAACTACTTTTGGGTTTGCCTTAGCTTTAGTTGAGCAGCTGTATGGAGAGACAGTTGCTAAGGATGTTGGAGAACTATTGGTGAGGTTTATTGCTAATCTTCCATGTGACATTTTCTTGGATATTTTTTGTTGTCGTTGTGGAACCCAAACAATCTCATTAGGTTTCTTATCACTTGTATTCTTCACATTTGGACTGAACATTCAGAATTCCTGGTCAATTTTTCCCCCTGTGGGATTGTTCTCTCTACATGAAGCTTTCCTTTGTGAAATTCTCAAGCTTGCTCATTCTATTACTAAATTCCTTGGATTGTCTCTCTTGCGTTCTTATGTCAGCTGATGGATTCGGAGAGTGACTGTCCTCGAAAGGAAGAATTCAACAAAGTTGACTGGTCTGTTGATCAAACTCCTCGTGTAAGTTGCTTAAACTTTTTTTTTATTTGAAGGCCCTGAGACTGAGTTATTCCAAACGATAGATTTGTCTTTGAATCTAGTGATTAAGAATCAGCATACAACTGCGTATGTAAAAAGCAAGATCAAGATTATGGCTAACTTGTCATTATAATGGAATCATCCCATAGCTGTTTATCCAATTATGTATAATTGTTGTTCACTACATTTTTCTAAATAAACTAGATTTGTTTGGGGGTATCTCTTGAAATTTTATATAAGCTTTTTTCTATCACTATTTTCTGTGTGGAAAACAGAAAAAAGAATGGAAATGTATAGATGTGTTTATGTTCTACGAGAAAGTTTTCAACTTTGATGTTAAATTTAACTTCCAACGTCAGATAATACAAAACATTCCTCAAGTTTTTGTTTCGATAGGCAACTAAAGTATATCATTCCAGTAATTAGACTACAAATAGAAGGGGACAAGGTATTCTCAAAATCATAGATTACAGAAGAGGATATGTGCATAGATTTTTTTGTCCAACGTGTTTTTTATTTCCTTGTTCAGGTTCTTATCCCAATTGCAAATGGCTCTCAAGGGATTGAATTAGTAACCATTGCAGATATTTTGCGGCGTGCTAAGGTGGATGTAGTGATCGCTTCAGTTGAAAAGTCCCTCCAGATTTTGACATCAACAAGAACAAAAGTTGTTGCTGACAAGTTGATTAAAGAAGCTGTAGAATCAACATATGATCTAATTATTCTTCCGGTAAGGTCAATGAAGTATCTAAAATACATTGACTTTAGTTACGCAGTTCAAAAAAATAGTGAACATATTTCTCTGGCCTTAATTTACAGCTAGTTGCTTCAGTAGGTGTGGTCTGTTTATGGAATCTCTTTGCCTATTTGCTGGCTTGTTACATTAGTAAATCCCTGGTTGGTAATCATTTTGTTTTTTGTTTTTGTTTTTAAAAAAATTAAGTCTACTTCCTCCCCATCTCATATCATGATCTGCCTCCTCCTTAAGTACAATGGTTGGATTCTTTGCCAAATCGCAAAAACAAAAACAATCTATTAAAAGCTACTTCTTTTAGTTTTCAAAATTTTGTTTGGTTTTTTTAAACCATTAGTAAAATGTATATGGCAAAAGAAGAAAGTTGAAAGTGGATGGTGTCAATAGACTTAATTTTCAAAAACAAAAATAATTACTATGCAGGGCCTAAGTTATTTCTTAGTCTGAAATTTTATGCATGCCTTGCTACCATGCAATTGCATCATAATTTTCTTTCCTGGCCTGTCAATTTAATAAAATTTCTTACTCTTGATACTTTGCTTGGCCTTAAATGCTTTAAGATATTTCTTTCATTTCAAGTCAATGTCACTGTTTTTGCCAAAAAAATCAGGGGGGAGCTGCAGCAGATGAACGGTTGAACAAATCCCGGATCCTTAAAAAGATGCTCAAAGAGCAAGATTCTGCCCAAAGGATATACGGTGCAGTTTGCTCTTCACCTGCAGTCCTGTTCAAACAGGGTCTACTGAAGGTATAATATGAAAGCTATATACAGTCTACAATTTTTCTGCTCCTACACCATCATAGCACAAGCTTAGCATTTCTATTGCCAAACAGGACAAGAGAGCAGTTGCTCATCCATCTCTGGAAACTGAGTCAACTAAAGTAGATACGGCAAAAGTAATTATCGATGGGAAATTGATAACGAGCAAGGGGTTTTCCAATGTAATAGATTTTGCATTGGCTGTTGTAAGCAAGCTTTTTGGCCATGCAAGAGCAAGAAGTGTCGCAGAAGGTTTAGTTTTTGAGTATCCCCGAGTGGGATGATGCACCGGTCCCAAGTCCTTATGCATTGATTTTTGAGTAATGGATAGTGCTCGACACAGTTAACACTGCCTTCGCCTGCACCTTTTCCAACTAATCAAAGAAACGATCTTAGAGAGGAGCATATCCAACTGTCTTATTCTCTGGAAAATATCTTTTAGAAAGTGGTTGGTGATCGCTGTGATTGTGAGCTGCAGCACTTCAAGCATTGTGCAGTTTGATTTTATGTTGGCAGAAAGAAAGTATGAACTCAAGTAGATGAGTACATTGACCGAGTTGTGTGTAAATTTGCAACATCTACTGCTGGAGGAAATTTGGATTGGAGTTGATTCACGCAGCTGTTTTGACTAGGAAGATGGGGCACATACACTTATAAGTGGATTGTGTGACGAAGGTTCATTGTGAAAGCATGAACCGTAAACTTCTTTCCTTGAGCTCTGTATGCACATTATTCTAGTAACCTACTGGGGTTTCCCCCCATTTTGAAGTATTAAGCAGATAGTTATGCTGCAGTAAACCTCTGTTTTAAGTAGCAATCTTTTTGCCACATTATCATTATCTTTCTTTAGCTTTGATTCCGGTAAGGGATATGCTAAACAGGCATTTCAAACTAGGGTACTGATACTTGGATGCTTGAAAAGACAGGCTTCAATTTGATGGAGGAAATGGTTAGGCAAACTATGACAACCACTTTTATGATACAGAGGTCAAAGGTCCAAGCAAACAACCATTAGAATACATAAGGATCATTTATACAGCATATAGCTCAACTCTGCTTTCTGTAAGCTATCTACATACCGGTGCTCGACTTTGATATCTACAGCTACCAATCTATCTCTAAACTTGAAATCAGATTAGAAACACACAGTCTAAGCCTTTTTTTACACACTGCTTCTGTGCTTGTTGCAGACACTATAACTAAATTCGACAACTCATCATGGTACCTCTACCATGGGCCAGTCAGTGTTCTTCTCAAGCAGAATCTTTTGCCGCCGAACTGATATTTCATCTTCTCTAAAACCTGTAAAAAGAAAGGGTTGTTAAAATGAAAGCTTCAGTGTTTAAGTATGCAGGTTTGAAAACAAACTAGTTGGCAGTTTGAGTCAGATCAGAGAAACATGAACCTGATTTTTCTGTGTCTCCATTATCTCTCTCTGCAGGTGATAAGACGCATAAAAAATGGAGGTCAAGATGGTTGCTTTATCCATGCAATACCAAATAAAATCATCCTTTGAAATGTAATATACCTGTTTCTTCTGCAACTCTTGGTTCATTTCTTTGAGTTTTGCAACTTCTGCTTCAAGTTCCAAGGTGTAAGCCTGAGATATCAAACCATTATTGTGGAGGAATTTCAAACGTGTAAGCCGTTTTAAATCGACATTGAATAAATCAACTTCACTATTGAAATTTGATATTTATCAAGAAATTTTTTATCTCCCTTTCTTTCTTTTACACAATTTATGAGATACTACATCTCTAACATAAATTTTCTGACTTTAAACTTTATAACTCCAACTCAATCAAAATAGATTTACTAATATTTTAAAGATCTATTTTGAATAGTTCTAGTTCCAAAATGGTTGGCAGTACCAAAGAATACTTTTAGACCATCGCTCATAAACACATTTTATTAGGTAAACCTATAGAGCTTAACTCGAATAGGAGCGATGATTGTAAGTTACACTTTCTATCATATGGGAATTTAGAAAATCATACTTCTTTCTATGGCCTACATATTGTGACATCAACGAGACAGTACCAGATCATTAATGTTAATGGGATTGATGTACATGACACATAAAATGGCCATTCATACCAATTCAAAGAAAATAACACTAGAACTTAATTGATAATATAACTTGCAGATTATACTTTCACTTGGATGTTTATCTTTAAAAAACAAGTATAGGATTTACATACTCTGTAAATCACAGGTGAATAAGTTTATGAGAATGGTTTTAGGATAAGACTAGGAGTATTATTAGAATTTTAAACGTGTATTAGTAATTGACTAGAGAAGTGATCATGCTAGTTTGTTATAAGTAGCAAGATTGGAAAAAGGAGAAACTTAGGGATTGATTTAGTTGGTTTAGATCTTGAGCGATCTCAAGAAAGGAAGAATCCAAGTTTCTCAAATTAGTCGATTCTTCCGTATTTCAATATATGTTTGTTCTCTTCTGGATTCTAATAATTGCACAATATTGGAAATGCAAGATATCTTAAAGATCATAACGATAAAATGTTATGGAATTTACCATCAATGGACTGAAGCTGCAAGTTTTATAGGCATAATATAAGGAATCCATCCATAATATTTTGACTAGAAGTCTTAGGAAGCTAAATGGAGTAAAACACAAGAATTTCATTGGGTTAGAAGCTTTTTGTGTGGCTCACTACTATAAAACGAGTCCTAAGAAAGAGTAAAACAGATGAATATTACTTTGAAAAACCAAGGCAAATAGCAAAGAGCATTTCATAGTTAAATAGTGTATCAGTTCTATGAGGACCATTAGCATAGCTACCTGTTTACGAGCCCGTGACCTTGCAGCTGACTCTCTATTCTTTATCATTCTTCGTTGTCTCCTCTCGACCACTTTCTCTAGAGCTCCACTACTTCGCCGACCACGGCCAAATGAAAATGGAACGGATGAAAATGAAGACGTCTCTATGCTGTTTTTTGTAATCACATCAGATGATATTGTACTTGTAGGAGATCTTGAAGCAACAGTTACACCTCTCGTACCTAAGCCGATCGCACCAATGCCCGTGCCTTGAATTAAAGCATCATGCAAAGGAGGTTTTGGGGCCACAACCATATTAGTCCCAGATCCGTTGGTAAGCTGGGGAGTGTTCACTAAATTCATTGAAGAAGCAAAAGTCACATTAGCTGGTTTGGGAAAAAGTGGCTGCTGTTGCTGCTGCGGCTGAGAAGACCTTACAACTCCTGTTCCTAAAAACACTGAATTTTGATTCTGATTAGAAACCATATTTTTGTTCTCAGTTATCTGATTTCCCATCAACATCCCAAGAGCCAAACTAGCATTGTTGTCTTCTCTTGATAATCCACCATAAAATCCACAGTTAAATGGCCGCTCCTCAATATGTTGAGGTTCTTCTCTTACCACTCCTGCTCTAGCTAAAAATTCCTCCAAAGTCACTTCCCCTAATGTTGGTTGTCGTCGAGCTGGCATTGGTTCGATTCCATTTCCTTCGTTAACACTAGTATTCTCTTTACTCAAGTCTTTCCAAACTTCATCAACCGTTTTCTGACTAATGGTCATGGGTAAAGTTAACGAAGCTTGCCTCTGCAAGTTCCCACCATTGGTGATTCCAGCTCCGCCCGGAGCAGCACCTGCAGATGTTACAGCCTGAGACTCTTCAGCAGTCCATATGTTTTTAAGAAGTTCATCCATATTCATCGAACCGACATCCTTTCCAAGTCCATTCCAAGTGTTCTGAAATTCATCAAAGGTTAAAGAGTATATGGAAGGCTGTCTAGTCAATGTGAAATTTCCTTGCGCCTTAGCCATAGGGCCTTCTCCTGGTGGGATATCCTCAAAGTTTCTGAAATTCATTTGAGAGTTCAACTCGTGTGGACACAGCAACTGCCTCGAAAATTTTTCTTTCTCGAGTAATAGTTCGAGTATGTTCCTTTTTATCTTGGCCAATCTCAGTTCTCTTACAACTGAATGAAGGAAAACCTGCCAATGGAATGAAAGAAAAATATTTTCATAGATTGTCTCTGAATTATGAGTTAAATAGCTGATAAACATTGTCCTTCAATTACTATTCCACATACTTAAGAGAAACAAAAACTTCGAAACAAGATTCTCCTTCAAGAGGTTTTCCAGGAGGAAAATGAACTCGGAATGTAACTTAACATGAAAAACAAAACTAGTGAAAACATATTTGGGAACTGTGTACAAGTTATTTATTTAGTTTGTTCTTATTAGTAATTTCGTTTTATTAAAAATAAATAATTGCTTAAAAACATTTAAAAAGTCATTCCAGAAGACGGTAGAGTTTATCCCTTAAAAAATCGCACCCTTTCCAGTTCACAACAGTCCAACTTTTACTAGTAATTTTATCACCGCTCAATAAGAAACATCCTTGAACACTGTTATATAATTGGTGAAACAAGAAACTGATACTAAAAACTTAAACCATCAAAAAGCAAGCACAAGTGTAATCCAAAACTTTAGTTCCATCAATTTAGTAAAGTGATGAGATTAAGTCTAAAACATTAGGATCACAGATTCCAAGTTCTATATATCAAAAACAGGCAGTAAAATAACAAAATCAAAAGATCACAACTTTCTAAAACTGACCTTTGTTTCTTTATCTACAAACACAAGCTTCAAACAGAGACCAAACAAACAAGTTCAAATCAAAAACCTCAAAAACAAGATCAATCATCAGATCAAATCCTTAAGAAAAAAAAAACATCATTGCAGATTAGTTCCATCTTCCAAATTCATAGATCCATTTAAGGATTAGAAGTTCCAAACATCGTCAAGAGCAAACCAACATTTTGACATCAAGAAAAACACAAAGCCATTACAGAAAAGAAGGGGAAAAAAAATCAAAGAACAGAAAAAGATAAAAAAAAAAAACATCCATTTGTTGAACAGTGAGACACAAAACATAACAAAAACAGCAACAAAAAGGAAAGACCAGGAGTGAAATAAAATGGCAACTCACCTTTAAATTTTTAATTTTTAA CAACATTTTTCTCGGAGGTGTTGGGTCCGATCAAAGATTAGTCCGACATTTTTATCTTCCTCCAATCTTACCTGTTAAATTGGACATTTCACCATTGTTATGTTACTCTTTAAATTGGAAATCCATCTCAAAATCTCTTTAGTAATTTCCCTTACACTTTGGATGAGATGGGGATTGGATGCAGAGTTTCAATGGCGAATTACTTCGTCCCAAGTGCTCAACCCAAGTTCTCTCCCAAGGTTGTACCTGCCGCCGCCATCACTGTTTCCACTCCTTTGTTTACTCCAATTCCATTGCAACAAGGAATAACAGTTCCCAGAAAACTCTCGGCTAAAGCCACGAAAGGCGCCCTCTCACCAACTTCACCGCCAATACTCTCAACCTCTGTTTCGATGGCTACGAGTACAATTGCTCCGTCTGAGCCTCTCAAGAAGGTTCTGGTTCCTATTGGCTTTGGAACTGAGGAAATGGAAGCTGTTATTATAATCGATGTATTGCGTCGAGCTGGGGCTGCTGTAACTGTGGCGTCCGTTGAATCAGAGCTTGAAATTGAAACTTCTGGGGGTGTGAAATTGGTTGCTGATACCCTAATCAGTTCATGCTCCAATGAAGTTTTCGACCTTGTAGCTTTGCCTGGAGGGATGCCTGGCTCTGTAAGATTACGAGATTGTGAAATCCTGCGAAAAATTACCAGCAGACAAGCTGAGGAAAAGAGGCTGTATGGAGCTATATGTGCTGCTCCAGCGGTCACCCTTCTGCCGTGGGGTCTTTTAAGAAGAAAACAGACTACGTGTCACCCTGCATTCACTGACAAGCTCCCAACATTTTGGGCTGTTCAATCAAGTATTCAAGTGTCAGGAGAGCTCACAACAAGCCGTGGCCCCGGAACTACTTTTGGGTTTGCCTTAGCTTTAGTTGAGCAGCTGTATGGAGAGACAGTTGCTAAGGATGTTGGAGAACTATTGCTGATGGATTCGGAGAGTGACTGTCCTCGAAAGGAAGAATTCAACAAAGTTGACTGGTCTGTTGATCAAACTCCTCGTGTTCTTATCCCAATTGCAAATGGCTCTCAAGGGATTGAATTAGTAACCATTGCAGATATTTTGCGGCGTGCTAAGGTGGATGTAGTGATCGCTTCAGTTGAAAAGTCCCTCCAGATTTTGACATCAACAAGAACAAAAGTTGTTGCTGACAAGTTGATTAAAGAAGCTGTAGAATCAACATATGATCTAATTATTCTTCCGGGGGGAGCTGCAGCAGATGAACGGTTGAACAAATCCCGGATCCTTAAAAAGATGCTCAAAGAGCAAGATTCTGCCCAAAGGATATACGGTGCAGTTTGCTCTTCACCTGCAGTCCTGTTCAAACAGGGTCTACTGAAGGACAAGAGAGCAGTTGCTCATCCATCTCTGGAAACTGAGTCAACTAAAGTAGATACGGCAAAAGTAATTATCGATGGGAAATTGATAACGAGCAAGGGGTTTTCCAATGTAATAGATTTTGCATTGGCTGTTGTAAGCAAGCTTTTTGGCCATGCAAGAGCAAGAAGTGTCGCAGAAGGTTTAGTTTTTGAGTATCCCCGAGTGGGATGATGCACCGGTCCCAAGTCCTTATGCATTGATTTTTGAGTAATGGATAGTGCTCGACACAGTTAACACTGCCTTCGCCTGCACCTTTTCCAACTAATCAAAGAAACGATCTTAGAGAGGAGCATATCCAACTGTCTTATTCTCTGGAAAATATCTTTTAGAAAGTGGTTGGTGATCGCTGTGATTGTGAGCTGCAGCACTTCAAGCATTGTGCAGTTTGATTTTATGTTGGCAGAAAGAAAGTATGAACTCAAGTAGATGAGTACATTGACCGAGTTGTGTGTAAATTTGCAACATCTACTGCTGGAGGAAATTTGGATTGGAGTTGATTCACGCAGCTGTTTTGACTAGGAAGATGGGGCACATACACTTATAAGTGGATTGTGTGACGAAGGTTCATTGTGAAAGCATGAACCGTAAACTTCTTTCCTTGAGCTCTGTATGCACATTATTCTAGTAACCTACTGGGGTTTCCCCCCATTTTGAAGTATTAAGCAGATAGTTATGCTGCAGTAAACCTCTGTTTTAAGTAGCAATCTTTTTGCCACATTATCATTATCTTTCTTTAGCTTTGATTCCGGTAAGGGATATGCTAAACAGGCATTTCAAACTAGGGTACTGATACTTGGATGCTTGAAAAGACAGGCTTCAATTTGATGGAGGAAATGGTTAGGCAAACTATGACAACCACTTTTATGATACAGAGGTCAAAGGTCCAAGCAAACAACCATTAGAATACATAAGGATCATTTATACAGCATATAGCTCAACTCTGCTTTCTGTAAGCTATCTACATACCGGTGCTCGACTTTGATATCTACAGCTACCAATCTATCTCTAAACTTGAAATCAGATTAGAAACACACAGTCTAAGCCTTTTTTTACACACTGCTTCTGTGCTTGTTGCAGACACTATAACTAAATTCGACAACTCATCATGGTACCTCTACCATGGGCCAGTCAGTGTTCTTCTCAAGCAGAATCTTTTGCCGCCGAACTGATATTTCATCTTCTCTAAAACCTAATCATCCTTTGAAATGTAATATACCTGTTTCTTCTGCAACTCTTGGTTCATTTCTTTGAGTTTTGCAACTTCTGCTTCAAGTTCCAAGGTGTAAGCCTGAGATATCAAACCATTATTGTGGAGGAATTTCAAACGTGTAAGCCGTTTTAAATCGACATTGAATAAATCAACTTCACTATTGAAATTTGATATTTATCAAGAAATTTTTTATCTCCCTTTCTTTCTTTTACACAATTTATGAGATACTACATCTCTAACATAAATTTTCTGACTTTAAACTTTATAACTCCAACTCAATCAAAATAGATTTACTAATATTTTAAAGATCTATTTTGAATAGTTCTAGTTCCAAAATGGTTGGCAGTACCAAAGAATACTTTTAGACCATCGCTCATAAACACATTTTATTAGGTAAACCTATAGAGCTTAACTCGAATAGGAGCGATGATTGTAAGTTACACTTTCTATCATATGGGAATTTAGAAAATCATACTTCTTTCTATGGCCTACATATTGTGACATCAACGAGACAGTACCAGATCATTAATGTTAATGGGATTGATGTACATGACACATAAAATGGCCATTCATACCAATTCAAAGAAAATAACACTAGAACTTAATTGATAATATAACTTGCAGATTATACTTTCACTTGGATGTTTATCTTTAAAAAACAAGTATAGGATTTACATACTCTGTAAATCACAGGTGAATAAGTTTATGAGAATGGTTTTAGGATAAGACTAGGAGTATTATTAGAATTTTAAACGTGTATTAGTAATTGACTAGAGAAGTGATCATGCTAGTTTGTTATAAGTAGCAAGATTGGAAAAAGGAGAAACTTAGGGATTGATTTAGTTGGTTTAGATCTTGAGCGATCTCAAGAAAGGAAGAATCCAAGTTTCTCAAATTAGTCGATTCTTCCGTATTTCAATATATGTTTGTTCTCTTCTGGATTCTAATAATTGCACAATATTGGAAATGCAAGATATCTTAAAGATCATAACGATAAAATGTTATGGAATTTACCATCAATGGACTGAAGCTGCAAGTTTTATAGGCATAATATAAGGAATCCATCCATAATATTTTGACTAGAAGTCTTAGGAAGCTAAATGGAGTAAAACACAAGAATTTCATTGGGTTAGAAGCTTTTTGTGTGGCTCACTACTATAAAACGAGTCCTAAGAAAGAGTAAAACAGATGAATATTACTTTGAAAAACCAAGGCAAATAGCAAAGAGCATTTCATAGTTAAATAGTGTATCAGTTCTATGAGGACCATTAGCATAGCTACCTGTTTACGAGCCCGTGACCTTGCAGCTGACTCTCTATTCTTTATCATTCTTCGTTGTCTCCTCTCGACCACTTTCTCTAGAGCTCCACTACTTCGCCGACCACGGCCAAATGAAAATGGAACGGATGAAAATGAAGACGTCTCTATGCTGTTTTTTGTAATCACATCAGATGATATTGTACTTGTAGGAGATCTTGAAGCAACAGTTACACCTCTCGTACCTAAGCCGATCGCACCAATGCCCGTGCCTTGAATTAAAGCATCATGCAAAGGAGGTTTTGGGGCCACAACCATATTAGTCCCAGATCCGTTGGTAAGCTGGGGAGTGTTCACTAAATTCATTGAAGAAGCAAAAGTCACATTAGCTGGTTTGGGAAAAAGTGGCTGCTGTTGCTGCTGCGGCTGAGAAGACCTTACAACTCCTGTTCCTAAAAACACTGAATTTTGATTCTGATTAGAAACCATATTTTTGTTCTCAGTTATCTGATTTCCCATCAACATCCCAAGAGCCAAACTAGCATTGTTGTCTTCTCTTGATAATCCACCATAAAATCCACAGTTAAATGGCCGCTCCTCAATATGTTGAGGTTCTTCTCTTACCACTCCTGCTCTAGCTAAAAATTCCTCCAAAGTCACTTCCCCTAATGTTGGTTGTCGTCGAGCTGGCATTGGTTCGATTCCATTTCCTTCGTTAACACTAGTATTCTCTTTACTCAAGTCTTTCCAAACTTCATCAACCGTTTTCTGACTAATGGTCATGGGTAAAGTTAACGAAGCTTGCCTCTGCAAGTTCCCACCATTGGTGATTCCAGCTCCGCCCGGAGCAGCACCTGCAGATGTTACAGCCTGAGACTCTTCAGCAGTCCATATGTTTTTAAGAAGTTCATCCATATTCATCGAACCGACATCCTTTCCAAGTCCATTCCAAGTGTTCTGAAATTCATCAAAGGTTAAAGAGTATATGGAAGGCTGTCTAGTCAATGTGAAATTTCCTTGCGCCTTAGCCATAGGGCCTTCTCCTGGTGGGATATCCTCAAAGTTTCTGAAATTCATTTGAGAGTTCAACTCGTGTGGACACAGCAACTGCCTCGAAAATTTTTCTTTCTCGAGTAATAGTTCGAGTATGTTCCTTTTTATCTTGGCCAATCTCAGTTCTCTTACAACTGAATGAAGGAAAACCTGCCAATGGAATGAAAGAAAAATATTTTCATAGATTGTCTCTGAATTATGAGTTAAATAGCTGATAAACATTGTCCTTCAATTACTATTCCACATACTTAAGAGAAACAAAAACTTCGAAACAAGATTCTCCTTCAAGAGGTTTTCCAGGAGGAAAATGAACTCGGAATGTAACTTAACATGAAAAACAAAACTAGTGAAAACATATTTGGGAACTGTGTACAAGTTATTTATTTAGTTTGTTCTTATTAGTAATTTCGTTTTATTAAAAATAAATAATTGCTTAAAAACATTTAAAAAGTCATTCCAGAAGACGGTAGAGTTTATCCCTTAAAAAATCGCACCCTTTCCAGTTCACAACAGTCCAACTTTTACTAGTAATTTTATCACCGCTCAATAAGAAACATCCTTGAACACTGTTATATAATTGGTGAAACAAGAAACTGATACTAAAAACTTAAACCATCAAAAAGCAAGCACAAGTGTAATCCAAAACTTTAGTTCCATCAATTTAGTAAAGTGATGAGATTAAGTCTAAAACATTAGGATCACAGATTCCAAGTTCTATATATCAAAAACAGGCAGTAAAATAACAAAATCAAAAGATCACAACTTTCTAAAACTGACCTTTGTTTCTTTATCTACAAACACAAGCTTCAAACAGAGACCAAACAAACAAGTTCAAATCAAAAACCTCAAAAACAAGATCAATCATCAGATCAAATCCTTAAGAAAAAAAAAACATCATTGCAGATTAGTTCCATCTTCCAAATTCATAGATCCATTTAAGGATTAGAAGTTCCAAACATCGTCAAGAGCAAACCAACATTTTGACATCAAGAAAAACACAAAGCCATTACAGAAAAGAAGGGGAAAAAAAATCAAAGAACAGAAAAAGATAAAAAAAAAAAACATCCATTTGTTGAACAGTGAGACACAAAACATAACAAAAACAGCAACAAAAAGGAAAGACCAGGAGTGAAATAAAATGGCAACTCACCTTTAAATTTTTAATTTTTAA ATGGGGATTGGATGCAGAGTTTCAATGGCGAATTACTTCGTCCCAAGTGCTCAACCCAAGTTCTCTCCCAAGGTTGTACCTGCCGCCGCCATCACTGTTTCCACTCCTTTGTTTACTCCAATTCCATTGCAACAAGGAATAACAGTTCCCAGAAAACTCTCGGCTAAAGCCACGAAAGGCGCCCTCTCACCAACTTCACCGCCAATACTCTCAACCTCTGTTTCGATGGCTACGAGTACAATTGCTCCGTCTGAGCCTCTCAAGAAGGTTCTGGTTCCTATTGGCTTTGGAACTGAGGAAATGGAAGCTGTTATTATAATCGATGTATTGCGTCGAGCTGGGGCTGCTGTAACTGTGGCGTCCGTTGAATCAGAGCTTGAAATTGAAACTTCTGGGGGTGTGAAATTGGTTGCTGATACCCTAATCAGTTCATGCTCCAATGAAGTTTTCGACCTTGTAGCTTTGCCTGGAGGGATGCCTGGCTCTGTAAGATTACGAGATTGTGAAATCCTGCGAAAAATTACCAGCAGACAAGCTGAGGAAAAGAGGCTGTATGGAGCTATATGTGCTGCTCCAGCGGTCACCCTTCTGCCGTGGGGTCTTTTAAGAAGAAAACAGACTACGTGTCACCCTGCATTCACTGACAAGCTCCCAACATTTTGGGCTGTTCAATCAAGTATTCAAGTGTCAGGAGAGCTCACAACAAGCCGTGGCCCCGGAACTACTTTTGGGTTTGCCTTAGCTTTAGTTGAGCAGCTGTATGGAGAGACAGTTGCTAAGGATGTTGGAGAACTATTGCTGATGGATTCGGAGAGTGACTGTCCTCGAAAGGAAGAATTCAACAAAGTTGACTGGTCTGTTGATCAAACTCCTCGTGTTCTTATCCCAATTGCAAATGGCTCTCAAGGGATTGAATTAGTAACCATTGCAGATATTTTGCGGCGTGCTAAGGTGGATGTAGTGATCGCTTCAGTTGAAAAGTCCCTCCAGATTTTGACATCAACAAGAACAAAAGTTGTTGCTGACAAGTTGATTAAAGAAGCTGTAGAATCAACATATGATCTAATTATTCTTCCGGGGGGAGCTGCAGCAGATGAACGGTTGAACAAATCCCGGATCCTTAAAAAGATGCTCAAAGAGCAAGATTCTGCCCAAAGGATATACGGTGCAGTTTGCTCTTCACCTGCAGTCCTGTTCAAACAGGGTCTACTGAAGGACAAGAGAGCAGTTGCTCATCCATCTCTGGAAACTGAGTCAACTAAAGTAGATACGGCAAAAGTAATTATCGATGGGAAATTGATAACGAGCAAGGGGTTTTCCAATGTAATAGATTTTGCATTGGCTGTTGTAAGCAAGCTTTTTGGCCATGCAAGAGCAAGAAGTGTCGCAGAAGGTTTAGTTTTTGAGTATCCCCGAGTGGGATGA MGIGCRVSMANYFVPSAQPKFSPKVVPAAAITVSTPLFTPIPLQQGITVPRKLSAKATKGALSPTSPPILSTSVSMATSTIAPSEPLKKVLVPIGFGTEEMEAVIIIDVLRRAGAAVTVASVESELEIETSGGVKLVADTLISSCSNEVFDLVALPGGMPGSVRLRDCEILRKITSRQAEEKRLYGAICAAPAVTLLPWGLLRRKQTTCHPAFTDKLPTFWAVQSSIQVSGELTTSRGPGTTFGFALALVEQLYGETVAKDVGELLLMDSESDCPRKEEFNKVDWSVDQTPRVLIPIANGSQGIELVTIADILRRAKVDVVIASVEKSLQILTSTRTKVVADKLIKEAVESTYDLIILPGGAAADERLNKSRILKKMLKEQDSAQRIYGAVCSSPAVLFKQGLLKDKRAVAHPSLETESTKVDTAKVIIDGKLITSKGFSNVIDFALAVVSKLFGHARARSVAEGLVFEYPRVG Homology
BLAST of MELO3C018457 vs. NCBI nr
Match: XP_008454959.1 (PREDICTED: protein DJ-1 homolog C [Cucumis melo] >KAA0031304.1 protein DJ-1-like protein C [Cucumis melo var. makuwa] >TYK06756.1 protein DJ-1-like protein C [Cucumis melo var. makuwa]) HSP 1 Score: 897.1 bits (2317), Expect = 6.4e-257 Identity = 474/474 (100.00%), Postives = 474/474 (100.00%), Query Frame = 0
BLAST of MELO3C018457 vs. NCBI nr
Match: XP_004136975.1 (protein DJ-1 homolog C isoform X1 [Cucumis sativus]) HSP 1 Score: 849.4 bits (2193), Expect = 1.5e-242 Identity = 453/474 (95.57%), Postives = 458/474 (96.62%), Query Frame = 0
BLAST of MELO3C018457 vs. NCBI nr
Match: KAE8645862.1 (hypothetical protein Csa_017293 [Cucumis sativus]) HSP 1 Score: 820.1 bits (2117), Expect = 1.0e-233 Identity = 447/488 (91.60%), Postives = 452/488 (92.62%), Query Frame = 0
BLAST of MELO3C018457 vs. NCBI nr
Match: XP_038888999.1 (protein DJ-1 homolog C [Benincasa hispida]) HSP 1 Score: 778.9 bits (2010), Expect = 2.6e-221 Identity = 419/467 (89.72%), Postives = 436/467 (93.36%), Query Frame = 0
BLAST of MELO3C018457 vs. NCBI nr
Match: KAG6588667.1 (Protein DJ-1-like C, partial [Cucurbita argyrosperma subsp. sororia]) HSP 1 Score: 728.4 bits (1879), Expect = 4.0e-206 Identity = 394/467 (84.37%), Postives = 423/467 (90.58%), Query Frame = 0
BLAST of MELO3C018457 vs. ExPASy Swiss-Prot
Match: Q8VY09 (Protein DJ-1 homolog C OS=Arabidopsis thaliana OX=3702 GN=DJ1C PE=2 SV=1) HSP 1 Score: 503.1 bits (1294), Expect = 3.5e-141 Identity = 268/473 (56.66%), Postives = 342/473 (72.30%), Query Frame = 0
BLAST of MELO3C018457 vs. ExPASy Swiss-Prot
Match: Q9MAH3 (Protein DJ-1 homolog B OS=Arabidopsis thaliana OX=3702 GN=DJ1B PE=1 SV=1) HSP 1 Score: 330.5 bits (846), Expect = 3.2e-89 Identity = 188/439 (42.82%), Postives = 284/439 (64.69%), Query Frame = 0
BLAST of MELO3C018457 vs. ExPASy Swiss-Prot
Match: Q9FPF0 (Protein DJ-1 homolog A OS=Arabidopsis thaliana OX=3702 GN=DJ1A PE=1 SV=1) HSP 1 Score: 311.2 bits (796), Expect = 2.0e-83 Identity = 166/381 (43.57%), Postives = 247/381 (64.83%), Query Frame = 0
BLAST of MELO3C018457 vs. ExPASy Swiss-Prot
Match: P90994 (Glutathione-independent glyoxalase DJR-1.1 OS=Caenorhabditis elegans OX=6239 GN=djr-1.1 PE=1 SV=1) HSP 1 Score: 107.8 bits (268), Expect = 3.3e-22 Identity = 65/165 (39.39%), Postives = 91/165 (55.15%), Query Frame = 0
BLAST of MELO3C018457 vs. ExPASy Swiss-Prot
Match: Q5E946 (Parkinson disease protein 7 homolog OS=Bos taurus OX=9913 GN=PARK7 PE=2 SV=1) HSP 1 Score: 106.3 bits (264), Expect = 9.7e-22 Identity = 68/185 (36.76%), Postives = 100/185 (54.05%), Query Frame = 0
BLAST of MELO3C018457 vs. ExPASy TrEMBL
Match: A0A5D3C8V2 (Protein DJ-1-like protein C OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold13G00570 PE=4 SV=1) HSP 1 Score: 897.1 bits (2317), Expect = 3.1e-257 Identity = 474/474 (100.00%), Postives = 474/474 (100.00%), Query Frame = 0
BLAST of MELO3C018457 vs. ExPASy TrEMBL
Match: A0A1S3C0H9 (protein DJ-1 homolog C OS=Cucumis melo OX=3656 GN=LOC103495244 PE=4 SV=1) HSP 1 Score: 897.1 bits (2317), Expect = 3.1e-257 Identity = 474/474 (100.00%), Postives = 474/474 (100.00%), Query Frame = 0
BLAST of MELO3C018457 vs. ExPASy TrEMBL
Match: A0A0A0K359 (Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_7G073590 PE=4 SV=1) HSP 1 Score: 837.0 bits (2161), Expect = 3.8e-239 Identity = 447/466 (95.92%), Postives = 452/466 (97.00%), Query Frame = 0
BLAST of MELO3C018457 vs. ExPASy TrEMBL
Match: A0A6J1C367 (protein DJ-1 homolog C OS=Momordica charantia OX=3673 GN=LOC111008033 PE=4 SV=1) HSP 1 Score: 727.2 bits (1876), Expect = 4.3e-206 Identity = 390/467 (83.51%), Postives = 425/467 (91.01%), Query Frame = 0
BLAST of MELO3C018457 vs. ExPASy TrEMBL
Match: A0A6J1EQ71 (protein DJ-1 homolog C OS=Cucurbita moschata OX=3662 GN=LOC111434668 PE=4 SV=1) HSP 1 Score: 726.1 bits (1873), Expect = 9.5e-206 Identity = 394/467 (84.37%), Postives = 422/467 (90.36%), Query Frame = 0
BLAST of MELO3C018457 vs. TAIR 10
Match: AT4G34020.1 (Class I glutamine amidotransferase-like superfamily protein ) HSP 1 Score: 503.1 bits (1294), Expect = 2.5e-142 Identity = 268/473 (56.66%), Postives = 342/473 (72.30%), Query Frame = 0
BLAST of MELO3C018457 vs. TAIR 10
Match: AT4G34020.2 (Class I glutamine amidotransferase-like superfamily protein ) HSP 1 Score: 448.7 bits (1153), Expect = 5.6e-126 Identity = 243/425 (57.18%), Postives = 306/425 (72.00%), Query Frame = 0
BLAST of MELO3C018457 vs. TAIR 10
Match: AT1G53280.1 (Class I glutamine amidotransferase-like superfamily protein ) HSP 1 Score: 330.5 bits (846), Expect = 2.2e-90 Identity = 188/439 (42.82%), Postives = 284/439 (64.69%), Query Frame = 0
BLAST of MELO3C018457 vs. TAIR 10
Match: AT3G14990.1 (Class I glutamine amidotransferase-like superfamily protein ) HSP 1 Score: 311.2 bits (796), Expect = 1.4e-84 Identity = 166/381 (43.57%), Postives = 247/381 (64.83%), Query Frame = 0
BLAST of MELO3C018457 vs. TAIR 10
Match: AT3G14990.2 (Class I glutamine amidotransferase-like superfamily protein ) HSP 1 Score: 291.2 bits (744), Expect = 1.5e-78 Identity = 155/363 (42.70%), Postives = 234/363 (64.46%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Melon (DHL92) v4
Date Performed: 2022-08-06
Relationships
The following mRNA feature(s) are a part of this gene:
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