![](http://cucurbitgenomics.org/sites/default/files/styles/slideshow/public/carousel/101322_web.jpg?itok=EG-G51x6)
MELO3C018159 (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.AGGAAGAATTCCATTGGAGAAACAGAGAAAGAAGAGCATCAGATGCTCATGAAATGAGGAATGAGGAAATGAAATGATAAAGCAAGCGCACTCATCGATTCAAATTCCCAACGAAATCCAGTTTATCGGATTCGGAACCATTACCAAACTTACATTTTTTTCCTCCATCCTTCATCCCTCTTCCGCCTTACAAGTCAGACCGCTGGGGAACCTCACTTCCACACGTTCCCGGAGCCATCATCGCCGGCATCCCATGGCCGCCGCCACCTCTTCATCCTCCTCCAACACTTCTATTTTCTCCCCCGATTCTCCCCCCACACTTGCTCTCAAACCCCATCAGATTAAGCTTTGTTCCCAAGCTCTTGAGGCCTTCACGGACAAGCTCCAGAAGCCTGATGTCATCAACCAGGAGTTCGCTCGATTGCAGGTTCGGCTTTTCTTTTTATGCTACATTTGTTTCTCTTCTCCCGAACACTTGACAAAAACAGGGAGATTGATCTGGATTTTGGTTATTTCTCTTTGATCTAAGTTATCTCTATAAGAAGTTGGAAAATGATGGATGTTTGTATTAAGATTTAGATAGTGATATTCCTGAGTCTCTTTATTCATTCTACTTTCTTGCTATTTGAATTTTTAAGCTTTGCTCGGGAAGTTTCTAATTGAGGTTCTAGTGTTGTGGAATAGATTAAATGAATTTTATGGATTGATCACTTTTGTGTATCGATGACTTGGATTTTGTCTACGAAGCACGTACGTTTTGTTTGAGTAACCTGTCCATGTCCAACACATGTTTCGGACACTTGACATTTCAACAATTTTTAGACGCGTAGAAGTATAGAAATATGTCGGGCCCTGGTTGTTCAAAGTGAATACAAGCATGACATTTGTTCGGTACATATGAAATACTTACGAGGCATGATCAATGGAAAAAATAGCAATATACAATGAAAGTAATAAGTCTTAAGAGCAAAATATATCACACTCGCTTTGTTAAGCATGCAGTATATAGACTTATTATCGATTTTGAATTTCATTCCTATGTAAAATTGGTATACATTTTAAAACGGTATATTTTAATTAAAATGTCAATGTCATGTCTATGTCCTAGATAAAAAAAAAAAAAAAAAAGAATGTGTCTCCATGTTCATTTCTAGTCGTTTCAGTCTCTTGTGTTAGTAATTAGGATTTTATATTACCTTTTTAAGTTGATCAATGTCTTGAATGTTGACAGATCATTTTTCTATGTTCTAATTCTCATACACTGTTGTGTCATTGTTGATTCAGGCCAAGAGAATAACTGCATCTGATATGAGGAGAAGTTGCTCTGTGGCACTTGACAACGTCAACGTAAATAAAAATCGTTACATGGATGTATTACCCTGTATGTTTGGAGATAGCTTTCTAATCTCTATGCTAGAATTTTTGTTATACTGAATTCTCTATTTAAAAACTAAAAGTTTTGCTTTAGTCGTTAATCCAAATTGATTGTTGGAATATTGTATAAATAATTTCAGTTGATGAGACTAGAGTTGTACTTGACTCATGTAAGGATTACAGACCTTCTGTAAGGGGTTATATCAATGCTAGCTTTATTTCGGTAAGTACAACAATTTTTCTTTATTTTCTTTTTTTTGGCCAAGTACAATAATTGATATGCTTCTACTTGGATAATATTTTGGTACAAGTATCCCTTTTGAGTTTCCTTCCCAGCCTATTTGAACATTGGTAATGACTGTTAATATGCAGACTTCCTCCTCAAAAAGCCTTTCTAAGTTTATTGCCACACAAGGTCCGTTACCACACACTTATGAGGATTTCTGGGAGATGGTATTTCAGTATAAATGCCCTGCAATCTTGATGCTTACTCGTCTTGTTGATAATTACAAGGTACTATTCTGTATGGACCACATGGTGATTTTAATTTCCATATACGTTTTCTAAAAGCTATTGCTAAATATTTCTTGTTTATTTGAATGTGAGAGTTGGATGTTGCGATTGAATTTTAAGTGTAATGAAAGTTTTTAAACATAGCATCTCTGAGTTGTTTCCTTAACTCCTTATCTCATATTTCAGTAATAAGAAAGTGTAGAAAACTTTAGAAGCATCACGAATAGAGTGCAACGGTGAACATAGTGAGTAGTTTGACATCGTGCATATTTAATGAAAATTTGAAGGACGCATGACACAAGTGTCTTGAAGAGGTGGTGAAGGGATTGGAAAGGGGCAGTCGTGAAAAAAATGGAAAGAAAAGGAAGGAAATCATCAACCGTGGCCATGACCCAGGATGAATGCATGTGGAACTGGAGAAGAAGCCCCAAGGGAGATGCTGATGCAAATCTCGTGCATTAGTGCATATCTGTAAGGAAAAAGGCAGAAAATCGATTGGGTGAGAAACTCTTTATCACGGGAATGGTAATGGCAGGACATTAATGTGGAGGAAGGGTATATTTGAAGTTGCGCTCTCATCAGCTGGGGACTTCCTGAAGTGTGCAATGCTCCTGGGTTCATGCGACCTTTTCGAGTACTTTCTCATATTGGGAAGTTGGCTAATCATTTGACAAAATCTGACTCTGCTTCTATTTACCTTGTGTTTCACGTATCTCTACTCCAGATAGTTGTTGGACAAATGATGCTGTTGATTCTATTTCCTCTTAAAATTGACAACAACTTGATGGTACTTGTAAACCCCATTGAGCTACTAGAGATACTTGCTTAACTAATGAGAACATGTTGGAGGTCCTCATTTGATGAGAAGGCAGTCCATCTACTCCTACTTGGGAAGGCATCGCAACCGTGGCTTCACAGTTTCTAAACTTTCACCTTGAGGAATAACTCCCAATCATGAAAGTTCACTCGAGGAAGGAAAAGGGAGAATATCAAGGACTGGGGAATAAGAAAAGTGAGGATCAAGAAATGGGGAATTGAATCAAGAGATAATGAATTGGGTAGGGGGAATGTGGAGAACATGAAAGGGTGGGTATAATTTATTATAAATATCAGTAGAAATTATGTTAAAGGTATGTTTTATTTTTTCTGGTATTGACGTATTGTAACCATAGTCTTATTGTAAGGAGATAAGGGACTCAAATTTTCCTAATTTATTTCACATTATTGAATTCTACCACTATTTCGTTATTCCTGCTTAACGTTCTTGATTGTTTTATATTATTGTGATTTAGAACTTTTTTTCATGAGGAAATTCTGAGTTATAACTATAGGTGCCTAACTTCTAATAACTTTTGCAGATGGTAAAGTGTGGAGATTATTTTCAGGCAGAAGATGGTCCTAGAGATTTTGGTAATCTAATTGTTGTATCTAAATGGATAAAATCTTCCAACTCCTCTCTTATATTGCGCCATTTGGAGGTGAACCATAAAGAGGTAATTTCTTACATGCTATATCCACATGTGTGTACAACTTCTATACGCCAATCAAAAGACAAATACTTATGATACATGCCCCAATATGGTTAACTGTAAGTAGGGATCAGAAAATTAGGGGCAAGATGCCAATGTGAATGGACTATTTTAGTGTCATATAGTTAGGGGGTCAGCTGGGTATATCTCGAAGGTGGTGAGCTGAGTTAGAATTAGCATGTGTGTGTGTGAGAGAGAGAGAGACCTACTGAGGACAAATAAAGAGCAGATAAAGTTGAGCATAGTCGCATAGAGAATAAAGTGTTAGGGTAAGGATTTAAATCATAGGAAAAATAACACTAACTATAATGCAATCTCAAAGAAAAATGACAATATCAATAATCTTTCGAGAGGGCTCTCTCTCACTGGAAATCCGGTCGATTCATCAAAACTGTGCATTTCCATCTCTTCCTCTATAGTACGAAGCTAGTGGGTTTTTTTTTATAATTAATCAATCTGTTTTTACTCTTACACACAAAGATAGAGGAATGGGTGCTAGTGCTAACAATTATTGAAAAGATCAATTAGACCTCTAGTACAAAACCGAAAGAAAACAATATCAAATTGAAATCAGCTTAAGGTGAGACATGGATGTAACCACCTTATGGTCAAGTCCAAGAAAAAACTTGTTCTTACCTCGAGGTTGAAACACTCTACATGGTTGGTTATTTCAATCATGTAAGACTGAAGCAAGGCTTACAAAATGACATGCTTGAACTCTCAATTTCTATTTGTTAGAATTAGTGGGCTTGGCCCATAGGGTATTTTTGGAAAGATTTACCCTAATTCCTAAATCGTTTTCTTTTCCATTCCATTGTGTATTCTATTTATTCTCCCTTATTGTACCTATTATTTATCGGAAAATAATAAAAGAACAACAATATTGTGGTTTTTCTCCCTGTACTCAGGTTTCCACGTAAGCGTTGGTTTCGTATTTATTGTTTTGGATATGGTATCTGAGCAAAACAACAACGAAACCCTAGAAATCAATTTAGGAGAAACCTAGAAGACCAAACCAGAAGCTGCCAATGTCGCTGTAGCCGTTGTGAAAAAATTAGTCCATTAGATTTAGAAGCCACCAATCTACACAATGGGCCAACCTTCACCATTGTTCGTGCAGCCTTCCAACTAGAATCAACCTCATGCGCAGCTCCTATTAGGTGCATGGGCCCAGTGCCGCCGCTTGCTCATCTTACCGCCCTGTCCAGCCTCCTTTACGCGTCGTCTGTCCAACCGTCTTACCCTTTCGGTCATCCACAGCCCCACGCACCACCCATGCGCTCCAGACCACAACCCTTCTGCAAATCTGTCAAATCTGTAAATCTATCAAATCTTACAAATATGTTAAATCTGTTCGTTCACGTGCCACTATTCGTCGACCCTTTACAACAATCTTTTTTCTGTGGTAACGAGACTAACCAACTCCATAATAGATTAGGGGTTGAAGCGGATGAGTCTTTGGCACATTCCAAACCAATCGAGTTGTCGATTTTTCCAAGATCCCGGTAATTTAGCTCCCTAATTTGCCTTCGGATTATATAACTAACTTTGCTGCTGCCTTTAGTGCTCGATCCTCGACCCCATGATAATGAGAAAAATAGTGGGAAGCCAATCTCGGTATGTGAGCACTACAAGAAATAGTGGCACACCAAGGATCAGTGTTGGAAACTCTACGGTCGTTTCCCAAGATGCAAGAAACATTCCTCCAGTGACAAACTAAACTCAGGACGTGCCTATGTTAGTGAGACTGCTAGCACCTCTCAGTTAATTGGTCCTACTGCAAGCTAGACTAGCCCCCCTACTCTGGGCGCCATTGCTTAGTCAGGTGTGCCTCAGTCCCTTGGCTTTATCAATGTTGACGGAAAAAATCCCTAGATTTTAGACTCGGGGGCTATAGATCACTTGATAGGTTCTTCGGAGCACTTTGTCTCTTATATCCCTTTTGCCGTTAATGAAAAAATCTCGATAGCCTATGGCTCTTTATTTGCTGGCAAAGGACAAATAGTTTTTTTTACGGTCTCTCTCTCCAGAATGTTTTGCATGTGTCTAAGCTTTCTTACAACTTGTTATCTATTAGTAAGATCACCCGTGAGCTGCTTGTAAAGCGACTTTCTTACCTGAGTCTGTTTATTTTCAGGACTTGGGCTCAGAGAGGACGATTCGCACTACTCGGGATGGTAGGAGACTTTACATCCTTGATGATGATACCTCCGGTAGTAGTATCTCTAGGACTAGTTTACTGTCTTCCTATTTTAGCACTTCTAAACATGACTTTATGTTGTGACATTTTCGGTTGGGTCACCCAAACTTTATTATATGAAATATTTGTTTCCCCATCTATTTTCTAAAATTAACGTCTCCTCTCTATCTTGTGATATGTGTATTCGGGCAAAACAACATTGGGTTTCATTTCCATCACAACCATATAAATCCATACAATCGTTTACTCTTACCCACAGTGATGTTTGGGGTCCTTCCAAGGTCATCGAGGATCTGGGAAATGGTGGTTTATAACTTTCATTGATGATCATACCCGTCTTACCTGGGTCTACCTTATCGTTGATAAATATGAGGTTTCCTCTATTTTCTAAAACTTCTATCACACCATTGAAACACAATTCCACACAAAAGTTGCAATTCTTCGAAGTGATAATAGTCGGGAATTCCAAAACCATGACCTTAGTGAATCCCTAGCCTCCAAGGGGGATTGTTCACCAAAACTTGTGTGCCTACACTCCTCAACAAAATGGGTGGCCGAGCGAAAAAACTATCTTCTGGAAGTAGCCCATTCCCTTATGCTATCTACTTCCCATATTCTCCACCTTCAGACTCCCTTAAATTGTCTTAAGAAATCCTACCCTTCTACTTGTCTAATTTATGAGGTTCCTCTTCGCGTGTCTGGGTGTATCACTTATGTCCATAATTTCAACCCTAATTAGACCAAATTTACCCCTCGAGCTCACACATGTGTGTTTGTTGGGTATCCCCTTCATCGGTGCGGTTATAAATGTTTTCATCCTCCGTCCAGGAGATACTTCATCACTATGGATGTTACTTTCTGCAAGGACCGACCCTACTTTCTCGTTAGCCATTTTCATGGGGAGAGTGTGAGTGAAGAGTCTAACTGTACCTTAGAGTTTATCGAACTCCTATTACTATGTTTGACTTCGATCTTCATCTCATTGTCCTACCCATAACTAAGTTCCTTGAAAAACGTATTATAGAAGGAATCTCAAAAAGGAAGTTGGGCCCCCTACTTGTCAGCTGTTGGCTCCAATCCAAGACTCAGAACCTCCTCGAGATCAAGGTATGGAAAACCCTACTGAACCTTGTATTAATAATAAGATGAGTGAGAATGATAGGTCTGATGTTGCTGTTCTTGAAAATGTGGAAGAAGAAAACAGTGATAATGAGACTATGGTTAGAGCAGAAACTAGTAATAATGAAGTTGAACAAAGTCATACAGGGAAACTTGATGAGTATGATCCCTCTCTTGACATTCTCATTGCTATGAGAAAAGGTATCAAGTCCTATACTGAACATCCCATTTGCAAGCCTTGGCTCTACCATTATATCGAAAAATATCTACACTGCTTTAGAGTGTTCGGAAGAATGTTGTCATGGAAGAGATGAAGGCTCTTGAAAAGAATAAAACTTGGGAGATTTGTGCTCTACCCAAGGGACACAAAATTGTGGGATACAAATGAGTGTTCTCTCTCAAATACAAAATAGATGAAACACTTGACAGACACAAGGCAAGATTAGTTGCAAAGAGATTTACTCAAACCTATTGTGTGGATTATTCAGAAACTTTTTCTCCAGTTGCTAAGTTGAATACTAGTTGGATGTTAAGAATGCTTTTTTGAATGGAGACCCAGTGGAGGAAGTCTACATGGCCCCCTGCCTGGATTTGAAGCTTAGTTTGTTTAGCAGGTATGTAACTCCATAAATCCTTACATGATCTGAAACAGTCACCTAGAGTATCGTTTAATAGGTTCACTACTTTTGTCAAGTCCCAAGAGTACAGTCAGGATCATACTTTATTTACAAAGGTTTTCAAGACGGGGAATGTTGCAGTTCTGATAGTTTATGTGGATGACATTGTTTTGTCTGCAGATGATCAGACATATATCATTTAACTAAAGCAAAGAATGAGTGATGAAAAATCAAGGATTTGGGAAATTTGAAATGTTTCCTTAGAATGGAGGTGACCAGATCTAAAGAAGACATCTTTATGTCTTAGAGAAAATACACCATTGATTTGCTAACCAAGATAGGTATGTTGGGATGTCGTCCTGCTGATACTCATTTTTTAATTCAATAGTAAGCTAGGAAACTTTGATGATCAAGTTCCAGTTGATAAATAACAATATCAGTGCCTTGTGAGTAAATTGATTTACTTATCCCGTACTCGTCCTGATATTTCCTTTGCTGTGATATTTCCTTTCCTATGAGGAACACATGGAAGTTGTCAACAAAATTCTGAGATACTTGAAAACGATACCTGGTAAAGGGTTGATGTTTAGAAAGACAAACAAAAGGACCATTGAGGCATATACTGATTTGGTCTGGGCAGGATCTATTGTTGACAGAAAGTTTACCTTTGGTTATTGTATCTTCGTTTGGGGCAATCTTGTAACTTGGAGGAGTAAGAAGCAAAGTGTTGTGGCCAGGAGCAGCGTCGAGGCCGAATACCAAGCTATGAGTTTAGGGATATGTGAGCAAATTTGGCTTAAGAAAGTCCTGTTTGATCTTTATCAAGAGTGTGAGACACTATTGAAGCTTTTTTGTAATAATAAAATTGCTATTAGTATTGCTAACAACCCAGTTCAACATGATAGAACTAAACATGTTGAGATTGATCGGCATTTCATGAAAGAAAGACTTGACAGTGAGAGCATATGCATTTCTTATGTCCCTTCGAGCCAACAAGTCTCTAATGTTCACACCAAGGGGCTTCTCAGACCAAATTTCATCTTTTGTGTTAGCAAGTTGCGCCTAATTGATATTTTCGTACCAACTTGAGGGGAGTGTTAGAATTAGTGGGCTTGGCGTAGGGTATTTAGGAAAAGATTTACCCTAATTCCTAAATTTTTTCCTTTTTTATTCCATTGTGTATTCTATTTATTCTCCCTCATTGTACCTGTTATTTATCAGAAAATAATAAAAGAATGAAAATATCGTAGTTTTTCTTCTGGTACTCGAATTTCCACGTAAGCCTTGGTTTCGTGTTTATTGCTTTCAATAGTATTCATCAAACTGAACCAATGCTTGAAACAATTAAAGGAAATTATTGCCTTGAGACAAAATATGGAAAAATAAGATCTTTAAAACAATTAAGAGATTAAATTTTTTTCCAAAGCTAAAAGCCAATAAAATTCCCTAACAAATGATAATCAACGATCTGACAGATCTCCTTAATGCTCAAGTATATTCCTAAAATGATAGAAGGAAAATAATCAAATACCACAACTTCTAAAAAGAGGAGGGTTGTTTAGGTTGGGAAATTGAAGTGTTTGCAGGTAGTTGGGTGACAAACCAGGTTAGAAGCACCGTGGCCAACAAATGATGTGCTCAAGGTTGGCATGCACATAGATCTGTTCACAGGGCAGGGGGGGATAGGAACCCCCCAACCCACATTTTCGATCCCCATCCCAACAAAATTTCCGTCTAGTTTTGTGAGAATTGGGGCGGGGATTCCCCGGGGGTAATTTTCGGAGATCAAGGTTACCCACATGGGAAATTCCCCATTGTAAAGGGAGGAGAAATGCTGGCGACAACTGGATATCTTGAAATTAGTGACTAAAACAAAGAAGTGAAGGTCGAGGGTGTGAAATTGATGGGTGTGTATTCTCAAATTGGCGACAGCATGAATGTTGAAGAACTTGTTGAAGGTCAAGATGGATATTGCTTTGAAATATTGAGGGTGAAGGAATGAAATTGAGAGAATTTGATACTGAAGAAGCTGAAATTTGGGTCTGTAATTATTATGAATGTGAAGCAATGAAGGGTGTTGGACTATGAGCATTTTATGGGTATTTCATGGGGTCATGATAGTGATTAAATTTATTTCATTTAATTTGTTGTTTAATGTCAAAAGTTTCAAAGCGATTGAAACATCAACATGGATGGATATTTCATTGGCAAATTTAACATATGGAAGTTAAATTTGTTGAATTTGTAGTTACTTTGATTTTTGTTTTAATTTTGCAAATAACTACTTAATTGAGTTATGTTTGGCATTTGTTTCAATATGCTGTCTATTTTTATTTTATTTTATTTTATTTTTGGGGAGTAGCTATATTACTAGCCTACGAGAACAATTTTTTGTTTTTTTGATATACGTGAGTGTCTGGGCTCGCTTGTGCGCACATTGGCTAATCTTACGTGACAACCCGTCTAATCCTACAATATTTATGTGTCAAGAAAACTCGTACGAAATTAATTCTTAGGTAGGTGGTCATCATGGATTGAATTTATGAGCTCTTAGTTAGTTATGAGATCATGTCTCCTTCTTTTACCACTAGGCCAACTTACAGTGATTCCTATGAATAACAATTTATCTCTTCATTTCCCATTCCATTTTGATGGTCTCTCTTCTCTTTCTTCTTTTGATCTTGAGTTGAGTTAAGAGTAAGTATCCAAGAGTTCTATTAGATTTAGGTAGTTTGAGATTGTTTTACTATAATTAGTTGTTTTATCTTGATGAGACAATCACTTCTGTGCTTACAACCTCTGCAAAGTAAAAATTGTCTTTAGGACCAGCTTCGTAAGCGGGCCTCATGTAATATTGAACTTTTCTCAAGATCTTGATGGTTTGGTTATTGTAATTTATAAGCACTGTTTTTCCATTTAGTTTATTTCTTTTAGTTTGGAAATTATTGTTATATGGTTTGTAGATGTTAGGACTCTTCCTCTGCACTCAGAAAAATCCAACAACAATACAGAAACAGATACAGTACTCTGTGGATATTTATATATATATATATATCAACCAGAAAGTGTTCCGAATGAAAGATCAAAACAGAAATAAAAGACTATATAATAGCAAGATGAGTAATATGGAAATAGTAGTAATGAAACCCCCAACAATTCGAGAAGCTGGCTCTCTCCCTAAAAGCCTTCACAGTAGCTTTTCATACAAAATAAAGACTGTCTCACCAATCCCTAAAAACATTCCTTAAATACTTCCATTCCCTTGGTGGGACCCACCCCCAAAATATTCTCTTCATTTATTTCTATGGGCCGAGCTGTCTTCTTGGGCGTTCCCTTTTTTTTTTTCCTTGTGCTTGTAGGTATGTATGATAGGAGGTCTAATAGTAGATGTTTATTTACATTGTAATTGCTAGTAGTGTTAGTTGAGTTATACTTAGTTTGCTAGTGTTACTCTATATTTCGGATTTCACCAACACTATTTATTGATCCTTCTGTTGTCCTCTTCTGTGCTTTCACTGAGCTCTAGTCACGTTTGTCTCTCCATCGACTTTGTAGTCGGAAGAATCTGTGGCTGTTCTACATATTCAGTACCCAGAATGGCCTGACCATGGAGTTCCTAATGACACACTTGCTGTTCGTGAAATGTTGAAGAGGCTGTATCATTTACCTCCCGATCTTGGTCGAATAGTGGTGCATTGCAGGTATATCCTATGCTCATCATGGTACATTCAAGTAGTGCTCGTTCACTTTATCTGGGGTTATTTCACTTCTTCAGTGCAGGTATTGGAAGAACCGGAACATATTGCGCAATTCATAACACAATTCAGAGAATTCTTATTGGAGACATGTCTGCTTTAGATCTTGTCAGTACCATTTCTTCATTTAGGTCCCAGCGAATTGGAATGGTTCAAACCCTGGTAAACTAACTAACCTTTTATCCTTCTCTATATCTGAGTAGTACATGCATAATGCCACACTATTCCTGCGCTGGTATAACCATGAAGGCCATTCTCCTTTCCTTCTTTTTCTTCAGAAACAGAGAGAACAAACAAATAAGCAAGGCTTATGTGGAATGTAAAAATGTTAAATATTTTGAACTGGTTTTCCTCTTTAAACCACCACCTAATAAGCACGAATGAGCACTTTGGTTTAGCTACGTGTCAATGCTCTACACCTGCTAGAGACTTGAACACTTTGATAGTTCTTTGACATGTTTGGAACATTTGTTAGTGTAATAGATGTAGACATGCAAAAAGTCAAAATAGAACCAGTATTAGTTAAACATGCACCAAAGACTGATTGCATATACTAAATAGACGCATATACGACCAAAATAATAAAATTTGATAGTGAGCGAAATACATCAAACTAATTTTTCAAGCATACAAATGCATAAACCCATTGACTTTAAATTTGGATCTTGTTTAAAATTAATAAACATTTTTGAACATGTATGTTTTAATGAATGTGTTTTTACCGTTTCCATGTCCTAAAATTTTAGGGAAAAAGGATGTATTATTGTGTCTGTAGTATTCATGCATGTGGTTCTTTGTCCACCGCCGTATTGAAGTTCAAAGGACTCCAAAATTCTCCTATAAAGTCACCTAGAATTGCAAACATTCAGATGTTGCTGACTTGCTTGGATCCCTCAAACTCGTTTTCTTGCAAGAATCACTTGGTTCTAAATCATGTTATTTTTCCTATTTCATACCTTTTTCTCGTACACTGATTATGTTTTTTCATCATACAAATAATTGTGAATTGTGATTAATTTTTTCTTTCTTTTACTTTTATCACGTTCACGGAGTTCCTTTTCCACTCCTAACAAACTTGCAAGTCCTGTGTCTATTAGGATCAATACTTTTTCTGCTATAGAACTATCGTTGATGAACTAGAAGACCTTATAGCTGTTTCACAGTAGAGGCTCGAAACGGTATGGTTAATTCTCAGATGCTATCTTCATAACTTGTTTTTTAATTTCTTTTTAATATTATGACATTAAGTTAAAGAATAAGTAATACAACGTTCCTCCTCCCTTTATAAAGTTCTGCAGGATATCGTTTCCAACCCAATTGCAACTGCTCGTTAATCTTTTGACTGACAGACTAACAATGGACTATATGTGGGGTCGGGGGTTTTAGATGTATAAAGAACTTGCTCGATTTTACCTCACAGCATTCATGAAATCAGCAGCTGTGCTTCCAGGAAGTTGATTTTCTTGAACAACCGTTACAGAGAATGTGCTAACCAACTAATTTTCTCTTATGGTGCTCACCATTGAGCATTTCAATAGTTGCTTAAATTGAACAAAATTGAACCATTATGAATTCAGGCATTGAATTTTTTAGATTCAAATATTTTGTGGCAAACATTT AGGAAGAATTCCATTGGAGAAACAGAGAAAGAAGAGCATCAGATGCTCATGAAATGAGGAATGAGGAAATGAAATGATAAAGCAAGCGCACTCATCGATTCAAATTCCCAACGAAATCCAGTTTATCGGATTCGGAACCATTACCAAACTTACATTTTTTTCCTCCATCCTTCATCCCTCTTCCGCCTTACAAGTCAGACCGCTGGGGAACCTCACTTCCACACGTTCCCGGAGCCATCATCGCCGGCATCCCATGGCCGCCGCCACCTCTTCATCCTCCTCCAACACTTCTATTTTCTCCCCCGATTCTCCCCCCACACTTGCTCTCAAACCCCATCAGATTAAGCTTTGTTCCCAAGCTCTTGAGGCCTTCACGGACAAGCTCCAGAAGCCTGATGTCATCAACCAGGAGTTCGCTCGATTGCAGGCCAAGAGAATAACTGCATCTGATATGAGGAGAAGTTGCTCTGTGGCACTTGACAACGTCAACGTAAATAAAAATCGTTACATGGATGTATTACCCTTTGATGAGACTAGAGTTGTACTTGACTCATGTAAGGATTACAGACCTTCTGTAAGGGGTTATATCAATGCTAGCTTTATTTCGACTTCCTCCTCAAAAAGCCTTTCTAAGTTTATTGCCACACAAGGTCCGTTACCACACACTTATGAGGATTTCTGGGAGATGGTATTTCAGTATAAATGCCCTGCAATCTTGATGCTTACTCGTCTTGTTGATAATTACAAGATGGTAAAGTGTGGAGATTATTTTCAGGCAGAAGATGGTCCTAGAGATTTTGGTAATCTAATTGTTGTATCTAAATGGATAAAATCTTCCAACTCCTCTCTTATATTGCGCCATTTGGAGGTGAACCATAAAGAGTCGGAAGAATCTGTGGCTGTTCTACATATTCAGTACCCAGAATGGCCTGACCATGGAGTTCCTAATGACACACTTGCTGTTCGTGAAATGTTGAAGAGGCTGTATCATTTACCTCCCGATCTTGGTCGAATAGTGGTGCATTGCAGTGCAGGTATTGGAAGAACCGGAACATATTGCGCAATTCATAACACAATTCAGAGAATTCTTATTGGAGACATGTCTGCTTTAGATCTTGTCAGTACCATTTCTTCATTTAGGTCCCAGCGAATTGGAATGGTTCAAACCCTGGATCAATACTTTTTCTGCTATAGAACTATCGTTGATGAACTAGAAGACCTTATAGCTGTTTCACAGTAGAGGCTCGAAACGGTATGTTCTGCAGGATATCGTTTCCAACCCAATTGCAACTGCTCGTTAATCTTTTGACTGACAGACTAACAATGGACTATATGTGGGGTCGGGGGTTTTAGATGTATAAAGAACTTGCTCGATTTTACCTCACAGCATTCATGAAATCAGCAGCTGTGCTTCCAGGAAGTTGATTTTCTTGAACAACCGTTACAGAGAATGTGCTAACCAACTAATTTTCTCTTATGGTGCTCACCATTGAGCATTTCAATAGTTGCTTAAATTGAACAAAATTGAACCATTATGAATTCAGGCATTGAATTTTTTAGATTCAAATATTTTGTGGCAAACATTT ATGATAAAGCAAGCGCACTCATCGATTCAAATTCCCAACGAAATCCAGTTTATCGGATTCGGAACCATTACCAAACTTACATTTTTTTCCTCCATCCTTCATCCCTCTTCCGCCTTACAAGTCAGACCGCTGGGGAACCTCACTTCCACACGTTCCCGGAGCCATCATCGCCGGCATCCCATGGCCGCCGCCACCTCTTCATCCTCCTCCAACACTTCTATTTTCTCCCCCGATTCTCCCCCCACACTTGCTCTCAAACCCCATCAGATTAAGCTTTGTTCCCAAGCTCTTGAGGCCTTCACGGACAAGCTCCAGAAGCCTGATGTCATCAACCAGGAGTTCGCTCGATTGCAGGCCAAGAGAATAACTGCATCTGATATGAGGAGAAGTTGCTCTGTGGCACTTGACAACGTCAACGTAAATAAAAATCGTTACATGGATGTATTACCCTTTGATGAGACTAGAGTTGTACTTGACTCATGTAAGGATTACAGACCTTCTGTAAGGGGTTATATCAATGCTAGCTTTATTTCGACTTCCTCCTCAAAAAGCCTTTCTAAGTTTATTGCCACACAAGGTCCGTTACCACACACTTATGAGGATTTCTGGGAGATGGTATTTCAGTATAAATGCCCTGCAATCTTGATGCTTACTCGTCTTGTTGATAATTACAAGATGGTAAAGTGTGGAGATTATTTTCAGGCAGAAGATGGTCCTAGAGATTTTGGTAATCTAATTGTTGTATCTAAATGGATAAAATCTTCCAACTCCTCTCTTATATTGCGCCATTTGGAGGTGAACCATAAAGAGTCGGAAGAATCTGTGGCTGTTCTACATATTCAGTACCCAGAATGGCCTGACCATGGAGTTCCTAATGACACACTTGCTGTTCGTGAAATGTTGAAGAGGCTGTATCATTTACCTCCCGATCTTGGTCGAATAGTGGTGCATTGCAGTGCAGGTATTGGAAGAACCGGAACATATTGCGCAATTCATAACACAATTCAGAGAATTCTTATTGGAGACATGTCTGCTTTAGATCTTGTCAGTACCATTTCTTCATTTAGGTCCCAGCGAATTGGAATGGTTCAAACCCTGGATCAATACTTTTTCTGCTATAGAACTATCGTTGATGAACTAGAAGACCTTATAGCTGTTTCACAGTAG MIKQAHSSIQIPNEIQFIGFGTITKLTFFSSILHPSSALQVRPLGNLTSTRSRSHHRRHPMAAATSSSSSNTSIFSPDSPPTLALKPHQIKLCSQALEAFTDKLQKPDVINQEFARLQAKRITASDMRRSCSVALDNVNVNKNRYMDVLPFDETRVVLDSCKDYRPSVRGYINASFISTSSSKSLSKFIATQGPLPHTYEDFWEMVFQYKCPAILMLTRLVDNYKMVKCGDYFQAEDGPRDFGNLIVVSKWIKSSNSSLILRHLEVNHKESEESVAVLHIQYPEWPDHGVPNDTLAVREMLKRLYHLPPDLGRIVVHCSAGIGRTGTYCAIHNTIQRILIGDMSALDLVSTISSFRSQRIGMVQTLDQYFFCYRTIVDELEDLIAVSQ Homology
BLAST of MELO3C018159 vs. NCBI nr
Match: XP_008461477.1 (PREDICTED: protein-tyrosine-phosphatase PTP1-like isoform X1 [Cucumis melo] >XP_016902703.1 PREDICTED: protein-tyrosine-phosphatase PTP1-like isoform X1 [Cucumis melo] >XP_016902704.1 PREDICTED: protein-tyrosine-phosphatase PTP1-like isoform X1 [Cucumis melo] >XP_016902705.1 PREDICTED: protein-tyrosine-phosphatase PTP1-like isoform X1 [Cucumis melo]) HSP 1 Score: 777.3 bits (2006), Expect = 6.1e-221 Identity = 388/388 (100.00%), Postives = 388/388 (100.00%), Query Frame = 0
BLAST of MELO3C018159 vs. NCBI nr
Match: XP_038898518.1 (protein-tyrosine-phosphatase PTP1 [Benincasa hispida] >XP_038898519.1 protein-tyrosine-phosphatase PTP1 [Benincasa hispida]) HSP 1 Score: 688.0 bits (1774), Expect = 4.9e-194 Identity = 346/395 (87.59%), Postives = 363/395 (91.90%), Query Frame = 0
BLAST of MELO3C018159 vs. NCBI nr
Match: XP_004139702.1 (protein-tyrosine-phosphatase PTP1 [Cucumis sativus] >XP_011659095.1 protein-tyrosine-phosphatase PTP1 [Cucumis sativus] >KAE8646170.1 hypothetical protein Csa_015592 [Cucumis sativus]) HSP 1 Score: 679.9 bits (1753), Expect = 1.3e-191 Identity = 347/377 (92.04%), Postives = 351/377 (93.10%), Query Frame = 0
BLAST of MELO3C018159 vs. NCBI nr
Match: XP_016902706.1 (PREDICTED: protein-tyrosine-phosphatase PTP1-like isoform X2 [Cucumis melo]) HSP 1 Score: 663.3 bits (1710), Expect = 1.3e-186 Identity = 343/388 (88.40%), Postives = 343/388 (88.40%), Query Frame = 0
BLAST of MELO3C018159 vs. NCBI nr
Match: XP_022932558.1 (protein-tyrosine-phosphatase PTP1 [Cucurbita moschata]) HSP 1 Score: 662.5 bits (1708), Expect = 2.2e-186 Identity = 334/395 (84.56%), Postives = 358/395 (90.63%), Query Frame = 0
BLAST of MELO3C018159 vs. ExPASy Swiss-Prot
Match: O82656 (Protein-tyrosine-phosphatase PTP1 OS=Arabidopsis thaliana OX=3702 GN=PTP1 PE=1 SV=1) HSP 1 Score: 431.0 bits (1107), Expect = 1.4e-119 Identity = 211/326 (64.72%), Postives = 259/326 (79.45%), Query Frame = 0
BLAST of MELO3C018159 vs. ExPASy Swiss-Prot
Match: A1L1L3 (Tyrosine-protein phosphatase non-receptor type 20 OS=Rattus norvegicus OX=10116 GN=Ptpn20 PE=1 SV=1) HSP 1 Score: 157.5 bits (397), Expect = 3.0e-37 Identity = 105/333 (31.53%), Postives = 178/333 (53.45%), Query Frame = 0
BLAST of MELO3C018159 vs. ExPASy Swiss-Prot
Match: Q90687 (Tyrosine-protein phosphatase non-receptor type 11 OS=Gallus gallus OX=9031 GN=PTPN11 PE=2 SV=1) HSP 1 Score: 154.1 bits (388), Expect = 3.3e-36 Identity = 104/258 (40.31%), Postives = 138/258 (53.49%), Query Frame = 0
BLAST of MELO3C018159 vs. ExPASy Swiss-Prot
Match: Q06124 (Tyrosine-protein phosphatase non-receptor type 11 OS=Homo sapiens OX=9606 GN=PTPN11 PE=1 SV=3) HSP 1 Score: 154.1 bits (388), Expect = 3.3e-36 Identity = 104/258 (40.31%), Postives = 138/258 (53.49%), Query Frame = 0
BLAST of MELO3C018159 vs. ExPASy Swiss-Prot
Match: P35235 (Tyrosine-protein phosphatase non-receptor type 11 OS=Mus musculus OX=10090 GN=Ptpn11 PE=1 SV=3) HSP 1 Score: 154.1 bits (388), Expect = 3.3e-36 Identity = 104/258 (40.31%), Postives = 138/258 (53.49%), Query Frame = 0
BLAST of MELO3C018159 vs. ExPASy TrEMBL
Match: A0A1S4E3A2 (protein-tyrosine-phosphatase PTP1-like isoform X1 OS=Cucumis melo OX=3656 GN=LOC103500065 PE=4 SV=1) HSP 1 Score: 777.3 bits (2006), Expect = 2.9e-221 Identity = 388/388 (100.00%), Postives = 388/388 (100.00%), Query Frame = 0
BLAST of MELO3C018159 vs. ExPASy TrEMBL
Match: A0A1S4E3A1 (protein-tyrosine-phosphatase PTP1-like isoform X2 OS=Cucumis melo OX=3656 GN=LOC103500065 PE=4 SV=1) HSP 1 Score: 663.3 bits (1710), Expect = 6.2e-187 Identity = 343/388 (88.40%), Postives = 343/388 (88.40%), Query Frame = 0
BLAST of MELO3C018159 vs. ExPASy TrEMBL
Match: A0A6J1F227 (protein-tyrosine-phosphatase PTP1 OS=Cucurbita moschata OX=3662 GN=LOC111439047 PE=4 SV=1) HSP 1 Score: 662.5 bits (1708), Expect = 1.1e-186 Identity = 334/395 (84.56%), Postives = 358/395 (90.63%), Query Frame = 0
BLAST of MELO3C018159 vs. ExPASy TrEMBL
Match: A0A6J1IKU0 (protein-tyrosine-phosphatase PTP1 OS=Cucurbita maxima OX=3661 GN=LOC111477151 PE=4 SV=1) HSP 1 Score: 656.8 bits (1693), Expect = 5.8e-185 Identity = 331/395 (83.80%), Postives = 358/395 (90.63%), Query Frame = 0
BLAST of MELO3C018159 vs. ExPASy TrEMBL
Match: A0A1S3CG38 (protein-tyrosine-phosphatase PTP1-like isoform X3 OS=Cucumis melo OX=3656 GN=LOC103500065 PE=4 SV=1) HSP 1 Score: 641.7 bits (1654), Expect = 1.9e-180 Identity = 318/318 (100.00%), Postives = 318/318 (100.00%), Query Frame = 0
BLAST of MELO3C018159 vs. TAIR 10
Match: AT1G71860.1 (protein tyrosine phosphatase 1 ) HSP 1 Score: 431.0 bits (1107), Expect = 1.0e-120 Identity = 211/326 (64.72%), Postives = 259/326 (79.45%), Query Frame = 0
BLAST of MELO3C018159 vs. TAIR 10
Match: AT1G71860.3 (protein tyrosine phosphatase 1 ) HSP 1 Score: 431.0 bits (1107), Expect = 1.0e-120 Identity = 211/326 (64.72%), Postives = 259/326 (79.45%), Query Frame = 0
BLAST of MELO3C018159 vs. TAIR 10
Match: AT1G71860.2 (protein tyrosine phosphatase 1 ) HSP 1 Score: 317.8 bits (813), Expect = 1.2e-86 Identity = 155/259 (59.85%), Postives = 200/259 (77.22%), 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 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.
|