![](http://cucurbitgenomics.org/sites/default/files/styles/slideshow/public/carousel/101322_web.jpg?itok=EG-G51x6)
PI0014514 (gene) Melon (PI 482460) v1
Overview
Sequences
The following sequences are available for this feature:
Legend: polypeptideexonCDS Hold the cursor over a type above to highlight its positions in the sequence below.ATGATATTCCACAATATACTGATTCCTAATTCCTTCTCCAAACTCGAAAGTCTAGAGATTGGTAAATGTAACAATCTTGAAAAAGTGTTTCCTTCCAACATAATGAGTAGACTTACATGTCTTAAATTATTGATCATTAAGAATTGTAATTTATTGGAAGGAGTATTTGAAATGCAAGAGCCAAATGGTACAAAAAAGAGCATTGATTTGCTCCCAAGTTTGAGACGCCTGGAGTTAATTGAATTGCCAAATCTCCAATACATCTGGGAGAATAATTTTTACGAACTTCTGAATGTTAAAAATATAGAAAACTTGGACATTCGCCAATGTCCAAAACTTAAAAGAGAATATCCAATGAAAGTTCTTCGTCAACTAGAAATGTTGACAATAGATTTAAGTGATTTAAAAGCGATTCCAGTGAAAGAAAAGTCGACACAAATGTTGGAACTTGAAGAAATGGAGACTTCAAAGGTAAATCTTCCACATCATATACCTTTATTAAATATTTTAAGAAATATATTATTGTCTTAATTAGAATAATGTGATCTGCTGTTGTTTCAAAGACATGAATTATTAGTCTTTTCTGCCGTTGATTTTTATATATGATCATATATCATCTAGTTTGAGAGCATTGTTTGATCGTCTTATTTTACACATATAGTTTTCTCTTTCAATCGATAAAATTTATGTTTGATAAATATTTTTACTATTTCTAAATGTACACAGGATGAAATCATACCATTTCGAAATGGTCCAAAATTATTTTCCAGACTTAAATACTTGAGGTTATATGGTTCTTTTGACTATCGCCAGACTCACTTGCCAATGAGAATAATACAAATATTACACAATATTGAAGTGTTTGAAGTGAGAAAAACATTCTTTGAAGAAGTGTTTCCAATTGAGAGATCATGGGATAATGTTGAAGAATGGCAAAATGAAAGATATAAGCTTTCAAGTTTGAATTTATTCGAACTACCCAAGCTTAGGTATCTGTGGAGTGGAGGCTTACAAAAGAATTTCTCGATACTTGAAAATTTGACGGAGTTAAATGTATTGGGTTGTGGCATATTGACTATGTTAGTGCCATCTTCAATGTCGTTTAGAAACTTGACATGGCTAATTGTGCAAAAATGCCACAAGTTGACCTATTTGCTAAATCCTTCAGTTGCTAGAACCTTGGTGCAACTTAAATTTTTGGGTTTAAGAGAATGCAAAAGGATGACTACTGTGATTGTTGAAGAAGTAGAGGAAGAAAATGACGAAATCCTATTGAATAGATTAGATTCGATGGATCTTAAAGATATGCTCAAACTAACAAGTTTTCATTCTGGAAAATGTACCATTATGTTTCCATGCTTGGACCATGTAGGTATTGAGAATTGCCCTGAAATGAGAGATTTCTCTCTTGGAATTGTAAGCGCACCACTTTTGCTAACAGAAAAAATTGGATTCTATGGTCTGACCTTTAATATGTGTCCAATCCTTGAAGATTCAAAAGAGATTTATGTGTCAAATATCAATGTTACGATTCGACAAGTTTGGGAGGACCATTACGATACCAACCTTCAGTATTTGTTTGAAGAAGAGGTTAGTATAAATATATTTCAAATAACCATAAAAGTTGTCAAATATTAAAATTTCCTTATGAACTTATTTTATGTAGAATACGGAGGAAAACCAATGTGATCCTTCTTCTTCACATGTTGAGGAATGAGACTTATAATGGTATCTCATTACTTTATGAGATTCCATCATCCATAATCAAGGTCAGTCACTTGAACCCTTATTTTATTATATTCCTTTTTTGTTTTTGATGGCCATGTTGAAAACATTAATGGTTTCACATGTTCACATTCATGATAGTATTCACCCCTTTCTTTTTTTAGTGATTTGATGGCCAAGAGGCTAATAATAATGTTTCAGAAAAGTTATACTACGTTAGGATCCTTTAAGGAAAAGTGATCAAAGACTTCTGCTTAATGATGAAATTACTACGACATTACATTGAAAAATTTATTGTTCACTACAAGAAATAATAGATGGGGTAGCTAACAAAAAAAGCTATATAGACTTTGTAGAGCTTTTTACAAAGATCCTGACAGTCCATCCTATTAAACGTCTTGGGACTTTTTATAGCGTTCTTTTAAAGTAGTATATGAAGGTATAACTTAAATATGTTGCTATAAAAACCTTTTTTTAGTGTTTTTTTAAAGGATATAATATAAAAAAAAAAAAAAAAAAAAAAATTGTAGTGGGTGATAATTTGAGTTTAGGGATCCAAGTGATACAACTAATACACTCGATATACACCTGATACACCTGATGTTCCTAATATGCCTAATACACATACTTATGTACATAAATGTTGAAAATGACTAAGATATTAAAGGTTTTTAATTACATGGCAATTAAGTAACTTTTAAAAAATGGGTTGCTTGCATCATTAGCAAAAGATATTAATAACATTAGGCTCGTGTACAACCCATATTCCATTAAGCAAAAATGGCAAAGTTTATAATCCAACTCAATTTCGCTAATGGGCTTAAGTGAAAAAGTCAAAAATACCCCTCATCTTTTTAAACAATTTTGTGTGCTTCAGATTGTGCTTCACGAATTGGGTTTCTTCAGTTCGTTTCTTTTCTTCATGGTTTCTTTTCAACAACGCGACAAGAAGTAATCTGTGGTGTAGTTCGTTTCCGATTTTTGTTCATACACTTCCGAAAATGGGGTATCTTTCTCACTTCTTGATTATTTTCGTTGCTTGTTCTATACAAGTTTAAAGAGAGTGTGTTTGTTTGGTTGTGTTAAGATTCTACTTATCACCAAATCCTAACAAAAAGAGCTAAAACAGAGGTCGCACTCTGTTATTTATATTAACTTTAGCCAAAATAACACAGTTTCAGAAGAAATAACCAAAGAAAAGTAAAAACAAGCTAAGAACATACCCAACACCTATGAAAGGAGGCTGGGAAAAACCTTCTGCCTTGAGCAGCCTTTACTAAAAGATGACCTACCCTACCCAATCCCCAAAAGGATACATTTATAGTACTCCCTTTTTCTCTCCTACTCGTGGGCCCCATCTGGCACGATCCCTCCTTCAATCATTTGCCCTTCTTCCCTTTTCTTTTATACGTATGGATGGTTGGAGGTCTTACAGGTTGATTGAAAAAAGTAAATAGAAATTGCAATTATTTTAGGAAGTGAAGTTCAATTGTTGGAGTTTTTTTTCTCAGATCTCACTCTTGCCGTGATCTAATTTTGTTTTTGTGATCTCTTCATAATTTCTGTAATTTCCGTTTGTGGTTGAATCTTCAGATTGTGATTGACTCATTCTCTTTGTAATCTATGTTTGTGATGACTCATTCTGTTCATTCTTTCTGATTGCATCCTGCCTTGCCATGGTTTCAGTAATTTGAAGGCATTATGATTGCCTATGAGTTTTTTGTGATGTTGAAGTTACTAGAAAGTAGAATGATTGTCATCTGAGTACTTTCTTATTGTCATATGATTTTAGTGATTACACATAATAATAGAGATTGTCATATGATGTTGCTATTTGATGTTTTAGAGTTGAGTAACATTTTATAGTTGTAAAAATAACTGAGATTACCATTTGATCACCACTTGATTGTTATTTGAGATTGAAAATATTGTTTTTGCTTTTTAAAATACTGTTTTTTTGCTTTGTTTTATTATTGCAAAAAATAAAAGTAAAATAGGAAGCCAAGGTAGAAGAGAAAAGTAAAAAACGAGCGAGAAAGATTGAGATTGAAGAAAAGTCTATTAAAAGACAAAAGAAAAAAAAAAAGCAAAGAAAGCAGTGAGGTAAGTAGCATATTATAACATGATTCATTGATTATTATTGTTACACTCATTTATTACAACTAACAAACGGTCAATATGGTTTTAGAGGACACTCCACCTCATGGTCTCAAAGTTCACTACTATTCAAAGATTGAAATCATAGAAAGTTTGCTAAAAATACTCATAATGGAACAACAGTACAAATTTAGAAGTGGATCTTTTGAATATTTTCTAGACTTTGTGCTAATGTTTCAAGGACAAATAATTGTTCATCTAATAGGTAGGCTATCTGAAAAATATAGCAATGATGAACGACCATCTAGAAGGATACAAAGTACGCTTTACTTTAAGAGATTTTTTTTTTATAACTGGGCTTCAATGTCACCCATTCCCAAAGTCTTTAGAACTAAGATATGAGGAGGATGTAAAACATATGTTGAGAGAGAAACTCTTCAATAACTTTGATGTTATTGATAGGAGCAACATTGTTGCTTTTTTCGCTTTACGTAAAGATGATGATGAATCAATGTTCAAGCTTGCAAATTTGTATATGTTAGAATGTTTGGGCTTGGCCCATGGAGAGATTTGCCCTAAATCTCTTTCCTTTTTTATTCTTGTTGCTCTTTTTTTATTCAGCCCCTTGTAATGTTTGGATTCATTAGAAAATAATAATATAATGTAGACTCGTGGTTTTTCTCCCGGTACTCAAGTTTCTACGTAATTCGGTTTTCCTCTCTTACTACTTTCAATATGGTATCAGAGATGGGTAAAGATGAAACCCTAGACACCGAACGTGATGAAACTAGAGTAGACCACGAGTCCGTCGTCGTCGCCGCCGCCATGGAAAAATTGGTCCATCAGATTTAGAAGACGCTGGTGGTCACGTCTGTCTCACCCTCGGAGTCATCCGCGCAGTACAGCCTCCAGGATCTACCTCACGCGTGGTCACTGCCAGGCGTGTGGGCCCACGTGCCGCCGTCGATTCATCTCACTGCTTAGTCCAATGGATCCCTGGTGTTGTCAGCTGTCCAACCGTCTTGCCCTCCTTCCCATCCGCAAGCCCACGCGCCGCCACTGGTCTCCAGTAATGGGCAGCCGCCGATTCAAGTATCCCAGTCGTTGCTGTCTTTTAAACCTTCACTGCAGCCTTATTTCCATGGTACTGGAGTTGACCAAAACTACAACAGACTTGGGTTTGAAGTTGGTGAAACCTCGGCGCAATCCAAAAGCCCGGTAAAATCGTTTCCTACTCGAACATCAAATTATATAACTGGTTCTATGACTCCCTCCACAGGTATCTTTCCAGGAGAAAAGCTGAATGGGCAGAATTTCTTCTATTGGTCTCAATCGATCAAGATGTTTCTTGAGGGACGCCAACAATTTGGTTTTCTGATCGATGAGATTCTTCGTCCTCCACCCGGTGATGATCAAGAGCGCCTTTAGAGAGTAAAGGACTCCTTTATTTGGTCCATGTTGATCAATAGTATGGAGTCTCAAATAGGCAAGCCCCTCCTGTATGCAGCTACTACAAAGGATCTCTGGGATACTACTCAGAAACTCTACTCGAAACGTCAGAATGCTTTCCGTTTGCATACCCTGAGGAAACAAGCCCATGAGTGCAAGCAAGGAACAATGGATGTAACCTCATATTTCAACAAACTTTCCCTGTTGTGGCAAGAGATGAATTTATGTAGAGAAACTGTTTGGGATACTTCCAATGACAGTTTACAGTTTGCTAGGTTGGAAGAAGCTGATCGGGTTTATGATTTTCTTGCTGGTCTCCATCCTAAGTTTGATACTGTTTGTAGTCGTATTCTTGGCTAAAGACCCTTTTTGTCCCTGATGGAAGTCTGCTATGAAGTCCTTCTTGAAGAATATCGCATGAATACCATGAGTATCCTAACTATCCCTGCCACTGACTCAGTTGCCTTTAGTGCTCGTTCCTCCTACCTCAATAGTGAGAAAAACAATGGCCAACCAGTTCCCACCTGTGAGCATTGTAAGAAACAGTGGCACACTAAAGATTAGTGTTGGAAGCTTTATGGGCGTCCTCTAGGAGGTAAGAAACGCTCCTCCAACGACAAACAGAGTTCGGGATGTGCTTACATGAGTGAGTCTGCGGGAACATCTCAACCGTCTGGTCCTACTGCTAACCAGAACGGTGCCAGTACATCCTCCACTTTAGGCGCCCTTGCTCAGTTAGGTATGCGTCAGTCCCTTAGTCTTATTAGTGTTGATGGGAAGAATCCCTAGATTCTAGACTCGGGTGCCACAGATCACCTGACAGGGTCTTTAGAGCAGTTTGTTTCTTATACTCTGTGTGTCAGTAATGAAAAGATAAGAATTGCTGATTGTTCCCTAGCCGCTATTGCTAGGAAAGGGCACATTGTTCCTTTTAACGGGCTATCTCTCCAGAATGTGTTGCATGTGCCTAAGATTTCCTATAACTTACTTTCTATAAGCAAGATCACTAATGAGTTGAACTGCAAAGCAACTTTCTTACCTGATTCTGTTTCTTTTCAGGACTTGAGCTTGGGGAGGACGATTGGCACTGTCCGGCATAGCAGGAGACTCTATCTCCTTGATGATGATACCTCTATTAGTAGTGTCTCTAGGACTGGTTTACTTTTTTGTTACTTTACAACCTCTGAACGCGATTGTATGTTGTGGCATTTCTGTTTAGGCCACCCAAACTTTACATATACGAAGCATTTATTTCCTCATCCCTTTTCTAACATTGATGCTTCCTTGTTAACTTGTGATGTGTGTATTCAAGTCAAACAACATCGAGTCTCCTTTCCCTCTCAACCATATAAACCAACTCAACCATTCACTCTTATCCATGGTGACGTGTGGGGTCCCTCCAAGGTCACCACTTCATCTGGGAAACGGTGGTTTGTGACCTTCATTGATGATCATACCCGTCTTACCTGGGTCTACCTTATCACTGATAAATCCGAGGTCCCCTCTGTTTTCAGAATTTCTATCACACCATCAAAACACAGTTTAATGCAAAAATTGCAATCCTTCAAAGTGATAATGGTCGAGAGTTTCAAAACCATACCCTCCGTGAGTTTCTGTCCACCAAAGGGATTGTCCACCAGAGCTCTTGTGCATACACCCCTTAACAAAATGGGGTTGCTGAGCGGAAAAACCGTCACCTTTTGGAGATTGCTCATTCTTTCCTGCTCTCTACTTCCCTTCCCTCCTATCTATGGGGCGATGTTGTCCTTACTGCCGCTTATCTCATCAATAGGATGCCCTCCCGTGTCCTTCACCTTCAAACTCCCTTAGAGTGTCTTAAAGAGTCGTATCCCTCCACCTGCCTCATATCGGAGGTTCTCCTCTGTGTGTTTGGGTGCATCGTCTATGTTCATAGCTTTGGCCCTAACCAGACTAAATTCACTCCACGGGCTCAGACGTGTGTGTTTGTTGGCTATCCCCTCCACTAGTGGGGTTATAAATGTTTTCACCCCTCTTCCCGAAAATACTTTGTTACTATGGATGTCACCTTTCGCGAGGATCGCCCTTTCTTTCTTGCTAGCCATCTTCAAGGGGAGAGTGTGAATGAAGAGTCTATCAGTCATAACCATATTACCTTATCTGACCCAGATTCCTATACCATGGTCCTACCTACAAACCAAGTTCCCTGGAAAACCTATTATAGGAGAAATCTCAGAAAGGGATTCCTATACTATGGTCCTACCTACAAACCAAGTTCCCTGGAAAACCTATTATAGGAGAAATCTCAGAAAGGATATACAATTACCTGTTGATCAGCCGGCTTCGGTCCAAGACTCTGAACCTTCACGAGATCAAGGTATGCCTGATCTTATTAACTCATGTGTTTACTGTAAAATGAGTAAAAATGACAGGTCCAATAGTGATGTGCCTGAAGAAGTGGGAGGAGAAAACAATGTTGATGAGACTGAGATCAGAATTGAAACTGGTGGAAATGAGGTTGAACAGGATCATTCAGGTAATTGTGATGAGTATGATCCTTCTCTTGATATTCCTATTGCCCTGAGGAAAGGGACCAGGTCGTGCACAAGACACCCCATTTGTAACTATGTTTACTACAAGAATCTATCTCCTCATTTCAGAGCCTTCACAACTAGCTTAGACTCTACTGTGATACCGACAAATATCCACAAAGCTCTTGAATGTCCTGAATGGAAAACAGCAGTTATGGAAGAGATGAAAGCTCTTGAAAAAAATAAGACTTGGGAAATCTACACTCTTCCCAAGGGACATAAAACTGTGGGATGCAAATGAGTGTTCACTCTAAAATACAAGGCTGATGGAACTCACGACAGACATAAGGCCAGGTTAGTTGCAAAAGGGTTTACTCAGACTTATGGTGTTGACTATTCTAAAACGTTTTCGCTAGTGGCAAAACTAAATACCGTTAGAGTCCTATTATCAGTTGCTGTGAATAAAGACTGGCCCTTATATCAGCTAAATATTAAGAATGCATTCCTAAATGGAGACCTGGAAGAGGAAGTCTATATGAATCCCCCTCTGGGGTTTGAAGCTCAGTTTAAACATTGGGTTTGCAAACTTTAGAAATCCTTGTATGGGCTGAAACAATCACCGAGGGCGTGGTTTGATAGGTTTACTACTTTTGTCAAGTCCCAAGGGTACAGTCAGGGGCATTCTGATCATACTTTATTCACAAAGGTTTCCAAGACAAGGAAGATTGCAGGTCTGATAGTTTATGTGGATGACATTGTTTTTTCGGGAGATGATCAGGCAGAAATCAGTCAACTAAAGCAGAGAATGGGTGATGAGTTTGAAATCAAGGACTTGGGAAAACTAAAATATTTCCTTGGAATGGAGGTGGCTAGATCTAAAGAAGGGATCTCCGTGTCTCAGAGAAAATACACCCTTGATTTGCTAACCGAGACAGGTATGTTGGAATGTGTCCTGCTGACGCTCCTATTGAAGTCAACTGTAAACTAGGAAAATCTGATAATCAAGTTCCAGTTGATAAAGAACGATATCAGCGCCTTGTGGGTAAATTGATTTACTTATCCCATACTCGTCCTGATATTTCCTTTGTTGTGAGTGTTGTTAGTCAGTTTATGTAGGCTCCCAATGAGGGACACATGGAAGCTGTCAACAGAATTCTGAGATACTTGAAAACTACACCTGGCAAAGGGTTGATGTTCAGAAAGACAAACAAAAAGGCTATTGAGGCCTACGCTGACTCTGACTGGGCCGGATCTGTTGTTGATAGGAAATCCACCTCCAGTTATTATACTTTTGTATGGGGTAATCTTGTAACTTGGAGAAGCAAGAAGCAAGGGTTTGTGGCTAGAAGCAGTGCTGAGGCTGAGTATCGAGCAATGAGTTTGGGGATATGTGAGGAAATTTGGGTCTAGAAAGTCTTGACAGATCTTCGTCAGAAGTGTGAGGTGCCAATGAAACTATTTTGTGATAATGAGGCAGCTATTAGTATCGCGAACAATCCTGTCCAGCATAATAGAACGAAACATGTGGAGATTGACCGACACTTCATTAAAGAAAGACTGGACAATGGTAGCATTTGCATCCCATATATTCCCTCGAGCCAACAGGTTGCCGATGTTCTTACCAAGGGTCTCTTCAGACAGAACTTTGACTTATGCATCAGCAAGTTGGGTCTCATTGACATTTATGTCCCAACTTGAGGGAGAGTGTTAGAATGTTTGGGCTTGACCCTTGGAGAGATTTGCCCTAAATCTCTTTCCTTTTTTATTCTTGTTGCTCTCTTTTTATTCAGCCCCTTGTAATGTTTGGATTTATTAGAAAATAATAATATAATCTAGACTCGTGGATTTTCTCCTGGTACTCGGGTATCCACGTAATTCGGTTTTCCTCTCTTTACCGCTTTCAATAGTATATATTTGAATGTTTTCTTAATTGTAATAAAAAACATAACAACGTAGATTGAAAAAATGTTGAGATGATTGAGAATGATGAGACTTTAAAAACCTTCCTTTGTAGTAGATTAGTGTTTAGTTTCACAGTAGTATTTTTTAGGATGGTTGCTCAAACTAAAATTTCGAATTGAACATTGCAAGGATTCCCTCGGGCTATTTTATGTTGGGTGTACGAAATAATACCCAAGTTTTCTGAGCAAAGTGTTGGGGTTGTCACTCAAGTGAGTGAGGAATGTCTGAGAATGCAAGAAGCCTAGTTGGAACTACCTCCAGGATTGTATCTTCAAGACGATCAATGTAAGTTTACATTCTGATTACTTTTTGATTGTCGTATGATTGTCATGTGATTACCTAACTCATTCATTTGTTTTCTTTTTTTACAGTTTAAAGTGATCCCTCAAAATCCCTTTGAAGATGAAAGACTATCAAACTACTTCCAGTATTATGCAAATGAGCCATTGGAAGTAATTGATGAAAGATGGAAATAAAAGAGGTCGATCTGCCTGGACGATGAACAAGAAGTTTGGAAACATCAAGAGGCTGAAAGCTCCGATACAAATGATTCTATTTGAGGTGACATACGAAAAATGAAAGAGGACCTGGAATATTCGAGGGAGGAGAATATTAAAATTTCAAACAATGTAGCTGCACTATTTTAATTGCTTAATTCAACTAATGAAAATTTAAATTTTAAGAAACATGGAGAAATAATCGAAAGACTCCTTCCATTCAAATAGATCTCTAACAACAAGCCTACAAATAATAGGAGATGAGATGAACATCGAACGTTTGGATGACAGTGGATAAATATTTGATTACCAAACAATTTGATGTCTATTAACAATCTAATAATGATTTTTTTCTTAGCTTTCGGAGCAAGAAGAAGAAAAGGATAAAGAACATGATGGAGATGTGAAAGAGAAAAGATGTTGCAAAAGTTGAAGGAGAAGTGGAAAAGGATAAAACTGAAGAAAATAAAGAGGATGAAGTAGACGTGAAAAGACAAAAAGATGGGCCAGAAGTTTATGGAAAAGACCAAGTAGTTGATGAAAAAGTAGAAAAAGGAGAAGAGGAAAACTTAGATGAATGTTTAATCGATGAAGTACTCAACATTAACAAGGTGATTGCATTAATTAGTTTTTGATTTTAATCTAAATGATTACCATCTAATGTCCGTCTGATTTCCATTTGATTGCATTTGGATTTCTATTCGATTAAATTCTTGTTTTGTACATCAATTTTTTATTTCTAATTTTCATTGGATTACAATCTCAGTTTTATGAATTTGTATATAATAGCTTGTCCAAGAAGTTCAAGAAAAAGGAAATGAAGAAGTTAAAGCGGTAGAAGACCATTGCATTATAGGTACTTAATAATAAATGTGATTTGTACGTTTTCTTAAATAGGACGTGAGGCATAAAAATGATGAAGAAGAAAGAAAACAAGAAAAAAGAGAAGAGAGAGAAATAAGAATAAAGAAAAGGAATGACAAAGGAAAAAAAAAAGGTACAACATTATCTTAATATTAACCTTGTGATACATTTGAAATAATACACTTGGTAATGTGTATTTTAATAACAAGTCGAAGAAGATAAACCCCACAAGAAAATGAAGATAAAACTTGACAAAGGAAAGAAATCGTAATAATATTTTCTGATTACTATGTGATTGCTTATGATTTATTTTTTATTACCTTGTAATTGTTTTTCGATTACCTTCTGATTCTTGTTTTATACTTATTTTTAAGTTATTCTCTATTTGTTTAGGTGGTTGAAAACATAATGCAAACAAAAGTCTTTACAAGAAAATAAGTTTGAAGTAGAATATGAACGACCAAAAAGAAAAGTGAAACCAACACCTAAGGCTATTGGTTTGGAAATGGTGAAAAAACACAAATCTCCAAAGAAATCTCCAAAAAACATGCAAAATACAAGCAACCCTACTTTTGAAACCCCTTCTTTTGATTTGAACATTTCACAACCAAAATGAAACCAAAAAACCTTTGTAGACTTTGGTCTTAATGTGGACTTCATTGACTAGTTTTTGTGTTTGTTTTTTTCTTTGTTGATAATATATTCAACAATATTTTGTCATTTACTATTAAACAGTTGGAACATTTTGTTGATAATGACTTTGATATTAGCACATAAGTTGATAGTGAAATAGACGTACTTGCATTGTTATTAAGAAATGACAAGTTCTTAATTACCTAAATTGTGTATTATCAAGAATTTTTATTATTTGTTAGATAGTGAGATTACTAATAGATTTCTTTTTTATTACTATCTGATTAAATGGAAATATTTTGAAGAATGTGGATTTTGCATTTAGTACTTGGAAAACAAGTTTCAAGATGGAAAACAGATTTCGACCTCAACTTACATTTATAAAACCAAAAAACCTGCTTAAATGATAGTAGCAACTTCATTGATATACTAAAAAACCACTAAAACAAATACAATGTTTAGTACTTAACCTAACTAAAGCAACATTGTTCTACTCAAATGAGAAAAAAATATACTCAAATGAACAAATAATAAGTTGTCTTTGATGCTCATAATACGTGATCATTCAAATATGTTGGTTTTTACATCTTCTTTTATTATGACCAAGTCCTTTGCAATGGGTACACCTCTTCTCCTTTTCATTATGCTTTTCCAATTTACCAATTGAAGGGATCTTTTGCTTCCGGGTCTTCCTATTAGATGCTAAACAATTGGAGGCAATACAATGTCATTCACTACTACGATACTCTATTCATTATGGTTAGCATAAGGACGAACTGCATCATTATAAGTTTATGATAATGTGCTATGAACATCATGATATAAAACAATATAAATCAAGATTTTTGAATTAGATGTCTTTCACAATAACCTAAGTTAGTGTAACATGTGTTCATATATGATACTGATGATCTATGAATTATGTTTCTCTCTTTGCATTTCTTATAACTTAATTAGATTTCTTGATGAGATGAAAAAAGAACCAATCCACAAGGTTGTTTGTGGTTATATAGACACCTCCAATTACTGTTTAATTAATGAAGTTAATAATATGAGATGTGTCACAGTAATGATAATTTTGAATTTAAGATAAATTTAACTCTAAATTTTTGGCTTCAAATATGTATAAAAAATTACGAAGAATTGCTCCAAAATATCTGGAAAAGATAATTTTAAACGGTTAAAAGTGAAATTTAATTGGAGTAAATTTAGATCACTCTTGTTATTCATTTTGTAGAGTACCTTTATACATTACAAATATGTATTGTTGGTCTCTCCACAAAATTCTAGTGAAGCTCTAAGCAATTAGGAAAAGAGTAATAACAATAATATTGAATTAAATATTTTACACGTGTTGTATGACCTCAAATTGGTATCCCTTACTATGTGTTAAGTTTTGAGTTATAAATATATTGAAGCCGGCTTGCATCATTAATATAACATCTGTTCTTTTTAGTTTCCAAATTTTGAAGAATACGTACGTTTGAATTTTAAAAAATATATCTTTTTAGTCCAAGATTTATAAGAATAGATCTATTTGGTATCTAAGTCATTGACAAAAAATTAAGTTTGTAGAGTAGTGTTATAATGTCTTGATTTTGTTTTCAGTATTATTCTCTTTAATAAAATTGTTCTTCCTTGTTTTATGATGTAGCTAACCCTGCTACTAAACTACATAATAAATCTAAGTGCTGAATGTTTACTATTTTTCGATGTTTTTTCTTTTATTTGTTGATTCCATAACAAGTAGTTTCAATTTTCTGAATGACTAAAGAATTATAGAAACTAATTGCAGGATGGTGGAGAGTTATTTGGAAAACTTGAATCTTTGGACTTGTACGGTTCTCTTAGTCATGATTACAGAAGGATTACTCATTTGCCAATGGAAATGGTGCCAATATTACACAACCTTGAAAATTTTAATGTGGGTAGGACATTCTTGGAAGAAATATTTCCAATGACAAGATTGGATAATGTTGAATGGCATAATAAAAGATCCAAGCTTTCCTTTTTGACATTATATGAATTGCCCAAACTTAGGCATTTGTGGAATGAAGACTTGCAAAAGAATTCTTCGATGCTTCAAAATTTGAAGTTTTTAACCATAGATGGATGTGGCATATTGAATACGTTTGTTCCATCTTCAATGCCGTTTAGAAACTTGGTCATTTTGGAAGTGAAGGAATGTCATAAATTGACCTATTTGCTAAATCCTTCGGTAGCTAGAATCATGGGTCAACTTATATCGTTGAAAATAAGAGGATGCAAAAGAATGACTAGTGTGATCGCTAAAGAAGAAAATGGTGAGATTTTATTCGACAAATTAAATAGATTGGATATTGTGGATTTGCCCAAATTGCTAAACTTTCATTTCGGAAAATGTACCATTAGTTTTTCAGTCTTGAGACAAATAGTTGTTGAAAATTGTCCTGAAATGAAGAAATTTTATATTGAAATTGTTAGCACGCCTCATTTGCAAACTGAAAATATTGGACCCTACGATGAATGCATTCCAATACTTAAAGATTATTCCAAAGAGATCATTGTAAAAGATATCAATGTTGCTATTCGACAAGTTTGGGAGAACCATTACGACTTCAACCTTCACTCTTTGTTTGAAGTAGAGGTTAGTACATACATAAGTTTCATTTACAAGTAAAAGTTTATAAGATTCATTGTTCTATATATATGTGTGTACGTGGATGTGAATTCTTATAAATTTATTTATGTAGAATCTGAAGGAGGAAAACCAATGTGATGATTCTTCTTCACATGTTGAGCAGTTAGAGTCATGA ATGATATTCCACAATATACTGATTCCTAATTCCTTCTCCAAACTCGAAAGTCTAGAGATTGGTAAATGTAACAATCTTGAAAAAGTGTTTCCTTCCAACATAATGAGTAGACTTACATGTCTTAAATTATTGATCATTAAGAATTGTAATTTATTGGAAGGAGTATTTGAAATGCAAGAGCCAAATGGTACAAAAAAGAGCATTGATTTGCTCCCAAGTTTGAGACGCCTGGAGTTAATTGAATTGCCAAATCTCCAATACATCTGGGAGAATAATTTTTACGAACTTCTGAATGTTAAAAATATAGAAAACTTGGACATTCGCCAATGTCCAAAACTTAAAAGAGAATATCCAATGAAAGTTCTTCGTCAACTAGAAATGTTGACAATAGATTTAAGTGATTTAAAAGCGATTCCAGTGAAAGAAAAGTCGACACAAATGTTGGAACTTGAAGAAATGGAGACTTCAAAGGATGGTGGAGAGTTATTTGGAAAACTTGAATCTTTGGACTTGTACGGTTCTCTTAGTCATGATTACAGAAGGATTACTCATTTGCCAATGGAAATGGTGCCAATATTACACAACCTTGAAAATTTTAATGTGGGTAGGACATTCTTGGAAGAAATATTTCCAATGACAAGATTGGATAATGTTGAATGGCATAATAAAAGATCCAAGCTTTCCTTTTTGACATTATATGAATTGCCCAAACTTAGGCATTTGTGGAATGAAGACTTGCAAAAGAATTCTTCGATGCTTCAAAATTTGAAGTTTTTAACCATAGATGGATGTGGCATATTGAATACGTTTGTTCCATCTTCAATGCCGTTTAGAAACTTGGTCATTTTGGAAGTGAAGGAATGTCATAAATTGACCTATTTGCTAAATCCTTCGGTAGCTAGAATCATGGGTCAACTTATATCGTTGAAAATAAGAGGATGCAAAAGAATGACTAGTGTGATCGCTAAAGAAGAAAATGGTGAGATTTTATTCGACAAATTAAATAGATTGGATATTGTGGATTTGCCCAAATTGCTAAACTTTCATTTCGGAAAATGTACCATTAGTTTTTCAGTCTTGAGACAAATAGTTGTTGAAAATTGTCCTGAAATGAAGAAATTTTATATTGAAATTGTTAGCACGCCTCATTTGCAAACTGAAAATATTGGACCCTACGATGAATGCATTCCAATACTTAAAGATTATTCCAAAGAGATCATTGTAAAAGATATCAATGTTGCTATTCGACAAGTTTGGGAGAACCATTACGACTTCAACCTTCACTCTTTGTTTGAAGTAGAGAATCTGAAGGAGGAAAACCAATGTGATGATTCTTCTTCACATGTTGAGCAGTTAGAGTCATGA ATGATATTCCACAATATACTGATTCCTAATTCCTTCTCCAAACTCGAAAGTCTAGAGATTGGTAAATGTAACAATCTTGAAAAAGTGTTTCCTTCCAACATAATGAGTAGACTTACATGTCTTAAATTATTGATCATTAAGAATTGTAATTTATTGGAAGGAGTATTTGAAATGCAAGAGCCAAATGGTACAAAAAAGAGCATTGATTTGCTCCCAAGTTTGAGACGCCTGGAGTTAATTGAATTGCCAAATCTCCAATACATCTGGGAGAATAATTTTTACGAACTTCTGAATGTTAAAAATATAGAAAACTTGGACATTCGCCAATGTCCAAAACTTAAAAGAGAATATCCAATGAAAGTTCTTCGTCAACTAGAAATGTTGACAATAGATTTAAGTGATTTAAAAGCGATTCCAGTGAAAGAAAAGTCGACACAAATGTTGGAACTTGAAGAAATGGAGACTTCAAAGGATGGTGGAGAGTTATTTGGAAAACTTGAATCTTTGGACTTGTACGGTTCTCTTAGTCATGATTACAGAAGGATTACTCATTTGCCAATGGAAATGGTGCCAATATTACACAACCTTGAAAATTTTAATGTGGGTAGGACATTCTTGGAAGAAATATTTCCAATGACAAGATTGGATAATGTTGAATGGCATAATAAAAGATCCAAGCTTTCCTTTTTGACATTATATGAATTGCCCAAACTTAGGCATTTGTGGAATGAAGACTTGCAAAAGAATTCTTCGATGCTTCAAAATTTGAAGTTTTTAACCATAGATGGATGTGGCATATTGAATACGTTTGTTCCATCTTCAATGCCGTTTAGAAACTTGGTCATTTTGGAAGTGAAGGAATGTCATAAATTGACCTATTTGCTAAATCCTTCGGTAGCTAGAATCATGGGTCAACTTATATCGTTGAAAATAAGAGGATGCAAAAGAATGACTAGTGTGATCGCTAAAGAAGAAAATGGTGAGATTTTATTCGACAAATTAAATAGATTGGATATTGTGGATTTGCCCAAATTGCTAAACTTTCATTTCGGAAAATGTACCATTAGTTTTTCAGTCTTGAGACAAATAGTTGTTGAAAATTGTCCTGAAATGAAGAAATTTTATATTGAAATTGTTAGCACGCCTCATTTGCAAACTGAAAATATTGGACCCTACGATGAATGCATTCCAATACTTAAAGATTATTCCAAAGAGATCATTGTAAAAGATATCAATGTTGCTATTCGACAAGTTTGGGAGAACCATTACGACTTCAACCTTCACTCTTTGTTTGAAGTAGAGAATCTGAAGGAGGAAAACCAATGTGATGATTCTTCTTCACATGTTGAGCAGTTAGAGTCATGA MIFHNILIPNSFSKLESLEIGKCNNLEKVFPSNIMSRLTCLKLLIIKNCNLLEGVFEMQEPNGTKKSIDLLPSLRRLELIELPNLQYIWENNFYELLNVKNIENLDIRQCPKLKREYPMKVLRQLEMLTIDLSDLKAIPVKEKSTQMLELEEMETSKDGGELFGKLESLDLYGSLSHDYRRITHLPMEMVPILHNLENFNVGRTFLEEIFPMTRLDNVEWHNKRSKLSFLTLYELPKLRHLWNEDLQKNSSMLQNLKFLTIDGCGILNTFVPSSMPFRNLVILEVKECHKLTYLLNPSVARIMGQLISLKIRGCKRMTSVIAKEENGEILFDKLNRLDIVDLPKLLNFHFGKCTISFSVLRQIVVENCPEMKKFYIEIVSTPHLQTENIGPYDECIPILKDYSKEIIVKDINVAIRQVWENHYDFNLHSLFEVENLKEENQCDDSSSHVEQLES Homology
BLAST of PI0014514 vs. ExPASy Swiss-Prot
Match: Q9LVT3 (Probable disease resistance protein At5g47260 OS=Arabidopsis thaliana OX=3702 GN=At5g47260 PE=3 SV=2) HSP 1 Score: 51.6 bits (122), Expect = 2.7e-05 Identity = 72/298 (24.16%), Postives = 132/298 (44.30%), Query Frame = 0
BLAST of PI0014514 vs. ExPASy Swiss-Prot
Match: O22727 (Probable disease resistance protein At1g61190 OS=Arabidopsis thaliana OX=3702 GN=At1g61190 PE=3 SV=1) HSP 1 Score: 48.5 bits (114), Expect = 2.3e-04 Identity = 35/114 (30.70%), Postives = 57/114 (50.00%), Query Frame = 0
BLAST of PI0014514 vs. ExPASy TrEMBL
Match: A0A0A0LKS9 (Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_2G096940 PE=4 SV=1) HSP 1 Score: 589.0 bits (1517), Expect = 1.7e-164 Identity = 322/458 (70.31%), Postives = 363/458 (79.26%), Query Frame = 0
BLAST of PI0014514 vs. ExPASy TrEMBL
Match: A0A1S3B439 (probable disease resistance protein At4g27220 OS=Cucumis melo OX=3656 GN=LOC103485808 PE=4 SV=1) HSP 1 Score: 582.8 bits (1501), Expect = 1.2e-162 Identity = 321/466 (68.88%), Postives = 366/466 (78.54%), Query Frame = 0
BLAST of PI0014514 vs. ExPASy TrEMBL
Match: A0A5A7UB75 (Putative disease resistance protein OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold55G002020 PE=4 SV=1) HSP 1 Score: 481.1 bits (1237), Expect = 5.1e-132 Identity = 268/409 (65.53%), Postives = 312/409 (76.28%), Query Frame = 0
BLAST of PI0014514 vs. ExPASy TrEMBL
Match: A0A5D3DG21 (Putative disease resistance protein OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold333G00880 PE=4 SV=1) HSP 1 Score: 459.1 bits (1180), Expect = 2.1e-125 Identity = 256/402 (63.68%), Postives = 296/402 (73.63%), Query Frame = 0
BLAST of PI0014514 vs. ExPASy TrEMBL
Match: A0A6J1DAA6 (uncharacterized protein LOC111018819 OS=Momordica charantia OX=3673 GN=LOC111018819 PE=4 SV=1) HSP 1 Score: 381.3 bits (978), Expect = 5.5e-102 Identity = 226/468 (48.29%), Postives = 302/468 (64.53%), Query Frame = 0
BLAST of PI0014514 vs. NCBI nr
Match: XP_011650138.2 (probable disease resistance protein At4g27220 [Cucumis sativus] >XP_031736521.1 probable disease resistance protein At4g27220 [Cucumis sativus] >KAE8651742.1 hypothetical protein Csa_006538 [Cucumis sativus]) HSP 1 Score: 589.0 bits (1517), Expect = 3.6e-164 Identity = 322/458 (70.31%), Postives = 363/458 (79.26%), Query Frame = 0
BLAST of PI0014514 vs. NCBI nr
Match: XP_008441731.1 (PREDICTED: probable disease resistance protein At4g27220 [Cucumis melo] >XP_008441732.1 PREDICTED: probable disease resistance protein At4g27220 [Cucumis melo] >XP_008441734.1 PREDICTED: probable disease resistance protein At4g27220 [Cucumis melo] >XP_016899499.1 PREDICTED: probable disease resistance protein At4g27220 [Cucumis melo]) HSP 1 Score: 582.8 bits (1501), Expect = 2.6e-162 Identity = 321/466 (68.88%), Postives = 366/466 (78.54%), Query Frame = 0
BLAST of PI0014514 vs. NCBI nr
Match: XP_038890456.1 (probable disease resistance protein At4g27220 isoform X1 [Benincasa hispida]) HSP 1 Score: 524.6 bits (1350), Expect = 8.3e-145 Identity = 284/455 (62.42%), Postives = 341/455 (74.95%), Query Frame = 0
BLAST of PI0014514 vs. NCBI nr
Match: KAA0051446.1 (putative disease resistance protein [Cucumis melo var. makuwa]) HSP 1 Score: 481.1 bits (1237), Expect = 1.1e-131 Identity = 268/409 (65.53%), Postives = 312/409 (76.28%), Query Frame = 0
BLAST of PI0014514 vs. NCBI nr
Match: XP_038890457.1 (probable disease resistance protein At4g27220 isoform X2 [Benincasa hispida]) HSP 1 Score: 461.5 bits (1186), Expect = 8.6e-126 Identity = 246/392 (62.76%), Postives = 294/392 (75.00%), Query Frame = 0
BLAST of PI0014514 vs. TAIR 10
Match: AT5G47260.1 (ATP binding;GTP binding;nucleotide binding;nucleoside-triphosphatases ) HSP 1 Score: 51.6 bits (122), Expect = 1.9e-06 Identity = 72/298 (24.16%), Postives = 132/298 (44.30%), Query Frame = 0
BLAST of PI0014514 vs. TAIR 10
Match: AT1G61190.1 (LRR and NB-ARC domains-containing disease resistance protein ) HSP 1 Score: 48.5 bits (114), Expect = 1.6e-05 Identity = 35/114 (30.70%), Postives = 57/114 (50.00%), Query Frame = 0
BLAST of PI0014514 vs. TAIR 10
Match: AT1G61310.1 (LRR and NB-ARC domains-containing disease resistance protein ) HSP 1 Score: 43.9 bits (102), Expect = 4.0e-04 Identity = 83/338 (24.56%), Postives = 140/338 (41.42%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Melon (PI 482460) v1
Date Performed: 2021-10-25 Position : 0 Zoom : x 1
Relationships
The following mRNA feature(s) are a part of this gene:
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