![](http://cucurbitgenomics.org/sites/default/files/styles/slideshow/public/carousel/101322_web.jpg?itok=EG-G51x6)
MS017990 (gene) Bitter gourd (TR) v1
Overview
Sequences
The following sequences are available for this feature:
Legend: polypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below.ATGGACGGTCGCGCTCTCACGGCCTCTTCATTCTTCACCTGCATTGATTTATTGCGACCTAGAAGAGGAGCTGTTAGAAATCTGTGTGTTAATGGCAGACCCAGTAGGTTTTCGGTTCTTGCTTCCAAAGAAGAGGCTGAGCTCGACCGTTGGGACCAAATGGAGCTCAAGTTCGGCCGCTTGATTGGGGAAGACCCCAAATTAACATTAGCCAAGGTCTCTCCCTCTCCTTTATCTCTTTAGAATCATCGTTATCGAAGGTTTCTAAAATTATATTGAATTGAAAGTATTGGCCGGAGCTGAGGCTCGTGTTGAAGAGTATGAATACTAAGACTAAAATTTACCGTTGGTTAAGTGATGGCTTACCATAGTAGAGTAATGTTAGTTCCTTTTCGATTAATATTGATAATTACTTGTTGGACTTGTACAAATTGGAGCGTTAAAAAATATGAATGGAAGATTAAAATTTATGCTAATCTATCGGCTTGAGTTTTTGGGTAGCTTGTTCTGACCATATTTTTGTTCGTGGCTTGAAATTATGGTTTACTATGTGTCTAATCTGTTCTGTTCTTTTCACGGTGAATTCCTACTCTTATATCTAAATTGTTGGTATGTGTGTTGATAAGTCAGATAATGAGCAAAAAGATGAATCCGGATGCTTCTTATCTTGAAGTTGAGAAATCGTTTTACCAGAAGAAGGGTAAATCCAATGAGGTAGAGGAACTTTCTCTTGATGGTTTGAATTTGATCAGACCTCAGTTAAAGAAGGAAATGAAGTTAAAAGCTGCCGGTAAGCCACCTCCATCAGATATAAAGAAACCAAGCCAAGCAATTGCAAAGGCAGCAGTTAGTCCTAAAGGTAGAGTTCCTAATGTTATTTTGAGAAAGCCAACTATCTATAACGAGGATGATGTCGAAGATAAGCCGTCCAGGATAAGAATGAAGCCGAATTTATCGTTGAATATGAACAATGGATTGACAAAGGAGAAATATAGTGACATGACACTGTTGAGGAAGCCTGAACCAATGACGTCAGATGAAGCTATTGAAAAGAAGGAAAAGCCCTCTGGTGATGAGTATGTTGATATTGCTCAGAATATCAAATCTCAAGCTAGTAAGGGATCATCAAGCGACCCAGTTGATGATTTTACTCTCTCTAAGAAGCCAGAAATAAGAGGTGACGAAAGAAGGCTTGGAAATGAAAATGATCGTAAAAATCTTGTGTATTCAGAAAGTGATACTATTGATGGTAAAAAAGAAAATTACATTGAAGACCTGTACATCCTAAAAAGGCCTTTAAATGTCATGTCTGGTAAGTCTGGAGAAACTGAAGAAGCCACATCGTCAACGGAAAACAGGCAAGATATTGATGATTTTGCTCTAGGTATACTCTATTTAAAGTGTTTCCCTTTCAACTTTATATTAAAAGTTACAACATATGTTATTAGTTAAAATTGAGAAAATTTCAATTTGTTTGGTTGTCTGAAGAATTACAGCCACACGAGCCAAGTAATATGAAATATGATGAGGACCCAGCAGCTCCGAGTGAACCATTTAGTGATATTTTGGATCCATCGGTAAAGTTGTCCATCGAAGCTACATTATTGGGTAAACCAGAAAGGTATTATAGTTTTATGTCTGTAATATCCCGTTTCTTTTATAACCAAATAAATTTTATTGAATAGAACTGTAATACAGATTAGATCATTCTTCAAATGAAACGTTAAAACTCAGTACAGAAGAGGCAGTTGTAGCCACCCCTGAAACTGATGTCAATAGCGCTGTTGAGACACAGAATTTTTCTGCTATCCCAGCTTTGAAGGTCAGGATATGCATGTTATTGTTTATGTTCCTTATTTATTTCAATCATTAGTCTGTAAATCCCAGGTGCAATATTTTTGTAGGAACATGAACTTGCTGACTGGACTAGAGCAGAGGATCTGGCTAAGATGGGAGACAGAGCTGAAGTGGAAGTAATAAGCTCGAGTACCCGAGGTTTTGTTGTAAGTATATTATGGTCAGTACATGTGCTTAATCTAGCTTGTATTGGAAGTTAACATTTTTCATTTTGATGTTACTTTTTCTCGACTGCATTTGTGAAGGTATCATTTGGCTCCCTAGTAGGATTTATTCCATATCGTAATCTTGCTGCCAAGTGGAAGTTCTTAGCTTTTGAGTCGTGGCTAAGACAGAAAGGTTTGGATCCATCAATATACAAGCAAAACTTGGGAACCATTGGAAGTGCTGATAGTGGAAGCCAGAATTTTTCTAGTACTAGGCCGGATTTAGAAAAAGATGTAAAAAATGGGGGAGAACTTACACCTGATATGAAATTGGAAGATCTTCTTCAAATTTATGACCGAGAAAAAATCAAATTCTTGTCATCATTTGTTGGGCAGGTATAGAAGTCTTCCTTAATTTCAGGGAACACAACTTTATTCATGGTAGAGTACTGACAAATTGTATTGCTTGCAGAAAATCAAAGTAAATGTGGTGTTGACTAACAGAAAATCAAGGAAGCTTATATTTTCCATAAGGCCGAAAGAAAGGGAAGAATTGGTCGAGAAAAAGAGAAGTTTAATGGTTAGCTACTTAATCTTGTTGTAGCATTTCTTGGATGCTAGAATCAAGAATGTTCGATTCAGTTTTTTAACTCATTATGCTTGCAGATAATTAATCTTGTTTTCTCTGGCTTTTAACATTATTAAGAAGATTTCATGCAATGCAAGAAACAATTAGCATTTTTGAGATCAGCACTTCTCTTTTGATACATAACAATATTCCTTTATTTTGTAGTTGAAATTTCCATTACTTCACATTCCACCTTCTACACATCTATTTCACGGTTGAAGCACATACCAAAATAAAACTTGGCACTGATAAATGTGGAAATGCTTCAAGTAGCTGAATTCTACATTTCAAAATTTGGTCATAGGCTTCATTTTTTCATATTCTCTGTGTCTATGTTCTTTGTTACTGCTAATCTGTGGCACAAACTCTTGTATTTTCAGTGCTGATTAATATTTTTGTCTTCTATATAAAATCAAAGGTTTGTGGTGTGGTGCTCCTGTTTGAAGATAAATTTAAACTCTTATTTAATTGCTTTTCCAGGCTACGCTGCAAGTAGGTGATGTTGTCAAATGTTGCATCAAGAAGATTGCTTATTTTGGCATCTTTGTTGAGGTAAACAGAAGATTTTCCTGTCAACTGTGAGATTTTTTTTTTCACACCGTATAATGGGTACAACAGTGTGGTGTGGTGCATTCTTTGAAAAATATAGTTTATAATGAAATAGTTGGTGGTTCGTTTCCAATTGGAAATAAACATTCTTTGGTTCAAGTTGCTCTTGAAGACACATTTACTTGTATTACTGGTTATATATGTTTCTAAATTTTGAGATTTTTATATAGATTGAGGGAGTGCCCGCTTTAGTTCATCAGACAGAGGTGTCCTGGGATGCTACCTTAAACCCTGCATCATACTATAAAATTGGTCAGGTATTTGTCGTCATACTTTGCCAAATATTCTTATTTCCATTAAATAATAATAAAGAAAAACTAACAGAAAATTGGCTGCTGTCAAGATTAATTTCATTAAGAGATCATTTAATGAACCACACATAAGTAGGATGATAAATCTAATATGACCCTACCCACTCGATTACAGAAATTTTAGAGTCAAGTTGCAATTTCTCTGCTACTTTTTTTTTCTTTGAAAGTATTACATTACACCACAAATTTTGGGGAGGGGAAAATTGGGGCTCAAACCCCTCCCACGGAGGGGGAACATGGCCACCAAACCTATGAGCTACCTATGGAAGCTCATAAATCAAACTTTCATTTTCCTCTTTTTTTACCAATATATTTTTGTCTCCTTATCTTACTTTTGTAGGTTGTCGAGGCAAAAGTTCACCAGTTGGATTTTTCACTTGAACGCATATTCTTATCGTTGAAGCAGATTACAGTAAGATGCGTTCACATATTACAAACATTTTAATATAGTTTTAGCAACTGTTCTGAGTTGAATGCTTGTTTTTCTTTATGCAGCCAGATCCACTAACTGAAACCTTGGAGTCTGTGGTTGGTGATCATGATCCCATGGATGGAAGATTAGAATTAGCAGAAGTAGATACCGAGGTGTTTGTATTCTCTTGTTAATCAGCATTATAAATTCTTTCATCGGTGATTATCTCATAATTTATCATCGGACTAACAGTCACCTTTGTGCATTTAAGAAAGTTTTACATAGTATCTCTCCAATTTTTCATACATTCTTACGGTTCTGTGAAGCATGCCAATGCTAGAAAACGAGCATCAATCCACCCAATTATCAATCTATTTCTCTTTCCAACCATTATCAAGGGAGCATGAATTCCATGTTTCCAAATAAAATCTGGAATGCCAATGAATCATCGTAGCACTCATAAAACTCTTACAAATTTTGGTTTGTAACTTCTATTTCCTTGTTTGATAATATCCTTGCAAGGAGTAGGATGAAACGCAGCTGATTAAATTGAATGTGAAATATCAACTTTTCTCGTTTGACTTACTTTGGAAGTCTTTGAATTGTTTTCCCTTACAAATTCTATTTTGGATAGTGGGCTGATGTAGAATCTCTCATCAAGGAACTGCAAAATATTGAAGGTGTTGAGGCTGTATCCAAAGGGCGTTTTTTCCTTAGCCCTGGCTTGGCTCCAACCTTTCAGGTAAAAGGAAAAAAGAAAAAAAACAAAATGTTTGTGGGTCCAAGGAAAGCATATCAAACTAAATGATTCTTACATTTTGTGGCTCATTACTATCATTGTTTATCTGGAAACCCGAATATATGTAATCCATTTAGAGTAACTTTAGACCAAGAAAATTCTGTGCTCTTAAAAATTATAAGAAAAACTCTCCTTATTTTATTCCAAGCTTCGTGTGATCTATAGTCTATGTGGTGAATGAGTAAAGTATTATCTAGTCTATATGGCTTAAGCACAGCTCAGTGTCACGGATCATTTTCTAAACTTTCCATTTGATGCAGGTTTACATGGCTTCCATGTATGAAAATCAGTACAAATTACTTGCTCGATCTGGAAACAAAGTACAAGAGGTAAATATTCAGAAACATTACTGTTTTTCCATTGCCAAAAAGTCACTAAAATTCTTATGAAACTTGGGATTGGAAGTCGATTTGTTTAATCTAGGTTTGTGATAGAACTCAATTCTATTATTGATGTTCAAAGAGACTACAAAGAGTCAAGTGAAAAGAGCTCCAACTCAAACAGATAATTCCTTACTGATAATTACAAAACAACTTCAAAACCAACCCCGTGGAGAAGTACTAAATCTAATGAGCTTCCAAATATACTTCTTAGCTCTTACCACCCCTAAAGAACTCTTTCCACTCCTAAAGATTCTATTATTTCTATCGATTCAAATCCTCAAAAAATAACAAAGAAGCACCTCACCCGGGCACCTAACCTGTTTGAACTAGTGTAATCTTGTGATTTTATTCTTGTATCTATTCAAGAATGGTATTTGAAATATGAATATTTCAATTTTTATGGTGCAGCTAATGGTTCAGACATCATTGGATAAAGAAACAATGAAATCTGCTATCTTAACTTGTACCAACAGGGTAGAGTAGCAGATTCTTGATTTTATGAAGCTTTCACTTCAAAGGAAAACTTGATTGTGAATTGTAGAAAGGCACATAAAAGAAAGCAGCATTAGATCTGATCCTCTGATTAGAAGAATAGGAAAATAGCTCTCTTCCAATTTGCTTCATAGTGAGAAGAAGCCTTTGTAATTTTTTTTGCCCAATCTCTTGTGGGGAAGTAGAAGGAATGAACTCAGCTACTATTTATTGAAATACAACCACATGATGGTATTTTTCTTCACTCAAAATAGAAATTCAATATCGTTCTGTGTGTAAATTCATTGTTGTTATTAGGTTAAATGATAAATTGAATTAGTATATACTTAAAGTGATGTGTTTATTCTGTCGCCAAATTTTAGGAAGTTTTAATTATATTTCTAAACTTTAGATTGTGATTTAGTTTAACTTTTGTTATAAACACCGCTTATAGGATGCTAACGAAATATATATGCTGTCAAAATTTTGGCTAAGTTGGTCTGAAATAAGTCAATGATTCAAAAGTTTAGAGAAATAATTGAAACTTTTCTTAATTAAGAGACTAAATATGCAGAATATTCAAAATACCTTGCTAAATCTATCACTTAATCTAATGGTAAGCCCATGTTACAAAGGGGGTACAGGTAGAAATTGTTGCTCACTCTTTCTAAGTCATCGATTTTTTTCCTCATTTTGGAGATGGGGAAGAATTTAGGGTTGGTTATACATGTAATAATAAAATATTTTTTCTTTTTTCTTTTATTTTTTTAATAAAATAACGTTATTGATAGTCAAATCTATTCATTAGAATTTATCAGTTTAAACATAATTAAATTGGTTAAAGCATATATATTGTATTTTGAGGTTACATGTTGAAAAAAGAAACTAAAATTTGAAATGAGAATTGATGTGACATTACCCCATTCTTCTAGATAGAAACAATAAATAGTATCAAAGGAAATAATATATCTTTCATAGGGTTGTCTATGTAATTTTTTTTTTCTCTTTTACTTTTGTCTAACAAAGGAAAAACTCCAACCACTCCATAAAGTTGTAGATATTGTTTATTAAAAGTTTAAATGACAACTTTAGACCTTAAACTTTTAGATAAATTTTTACTTTTAAAATTATTTAAAGGTTTCTAATACAACATGTGGGGTTGGGGATTGAATTTCCAACCTCTTGGTTTATCGAATTATTCAACAGTTTTCTAAACTTTTATTTATATATCTACTATATTTTTACACTTTAACATGTCATTCAACTTTTAATTTAATTTTTTTCTTTTTAGTATAATGTGTTTTCAATTTTGTGATTATTTAAAAAGTTAATAAATAAGTGGTCTATTAGATAAAAAATAAAAAATTTAATGGAGCATAGTTTAACGTTTAACTAGTTAAAGCACATAATCTCTACCCATGTATTAAACTCAAAAAGAAAAAAAATATAATAAATAATAAAAGTTGAGTAGATACCATCTTTGACAGTTTTTTTAGACAAAAAGAAAATATTAAAGAGAAACACAAACATGGCTTTGGGTTACAATTGAAGTGTAGGTTCTATCCCCTTCACTTAAAAACCATGCAAGAAAATAATTATCCCATAGGATGAGATCTTAGAGGAAATGGCTTTTTTAGCTTGAATATCAGCCAACTTATTACGAGTACGATTGATGTGGATGAAATTTAACCCCTCCATGAGTTGCTTCGAAATCAAGAATATCAGTAACCAGATTTGTAGTTTTATTTCGCATTTCAATCTCTCCTTTTAGCATAAAAATTATCTCCAGATAGTTTGAAAGAATCACGATTTTACGAGACTTCAATCGATTTGCAAGACGAAGAGCCTTTTTGATGGCAAGAAGCTCGGCATGCAACGACGAATACCCCACTGACATGAACTTGGACAAAACAAAATATAAGAAATATTGACTTGAATGAACTATAACCCTGAATTCTATATGTGTCAGAAGTTTATTAACTTATTATACGCTTTAATAATGATCTATTATACATAATCCGAAAAGTAAAAATAATGTATCACGATTCACAGGTCCAGATTCTTCATATTTGAACTAAAAATAAATAAGCCTTAATTGCTAAAATATAAAGAAGTGTCTTCATATCATATCCCGCTCATACATTCAAACACACATATTTATTTTAAATATAATTAGAATCAACACTAAAATCCACTTAGAAAAAAAAGTACTTTTATTATCGCCCAACACTGCATAATCTATAAACACACAAAAAGATCCTAAAGGAGCATTTTATGCAGAGATATGGGAAAGATTCTAACTTTTGAAGTATGGCAAAGTGCTGACCCAGAAAGATAAAAGAAGAAAATGAAAGGAAAAAAAAGCAGCAAAATTTGTGAAAGAAAAAACAAACCCAGGTGGGAAATAAAGAGAGATTAATTAAAGGAGACGAGGGTCCATCTTTAAGATTAATTAGATTGATAATTTGATTTCCCCCCAAATTTAAGTCCTTAATCACGGCTTTTCCTTTTTTGGGTGTCTTGTCGGGTTGTGTTCTGTCTCGTTTCTTCTGCTAAAACATCAGGGCTCATTCATGGAGCCATGTGATTCTTCTTTTTCTTTGACGAAAGTGCCCTTGCCCTTCTTACATTATCCCCACTCCACCCCACCTTCTCAGCCTAGCCCAGCCCTTCTCTTTGCTTGCAGTGCAAGTGCCACTTCCACACCTAAGCCCTGAAGAAACTCCACTCTTGCATTTTCATATTTCCCCATTTAACTTTCTTGCCCATAAATTTATTTTATCCCCTTTTTGGCCCTCTCCCTCTCTCTGTTTCTGGGTGTGACATTGGGGATAAGGAGGCAAAAGGAGCAGGAGGAGAATGGGGATGGGAACTAGCATCTTTATCATCAGATGGATCAATTTTCTGACCATGGTATGGTTTGATTCCTCTTGATTTTTCTTGTTTTTCTTTCTGAGATGGCATTTCTATGTTACATTGCTTAAGAACATCTGTTCTGTTTTTGCTCCCATGTCTTTGGATTCTGTATCCCCTCTGTCAGATGTCCTGTACATGGGTTTTGTTTGTGTTGTTGTGATGTTTTATGGGTTTTGCCAGCATGTCTGTTGAAAATTTTTCTTTTGTTTTGTCTGTTGTGGCTTGAGGTACTTGTTCTATTGTCTTTGACATTGGATTGAATAGTTGTTTAGCTTTTTCAAATTATTCATGCTTGTTTCACACTGTGTTTTTTGGAATACAGCTTTGTGAACTTCTCCTTCTGATGTCAAATAAAATAGAAGGATAACTTATGTTTTTGTTCTATGAGATTTGGACTTCCATTTATATTCAGTTCTCAGTGTTTCAGTATCTGATAGTTTGGTTCCTCGGAGAGACTCGTTTATAGCTACATATATATGTATTATATATACTTGTAGTTCTTGAGTTTTGAACTTAGTTTTTATTTAGCTCCTAACATTTCAAAATTGATCCTGTAGTTAGTCAGAAACAACAATAGAGGTGTTTAAGTAGACTTTATCCATCACTAAGAAACGAAAATAGAGTTGTTTAAGTAGACATGATGAATTGAAAATAAATGATAGAAATGAAAATGGAGTTGTTATTCTTTTGAGTTTGACTGTGCATCCCTAAAAATCTACCAATGTTTGAGGGGAAAGAAATGAGTCGAGACGTCTTCCCGAGCTCAAGAATCAAGAGAGACTATAATGATGTTCTCGAATTGACATTAATCAAGAAAGGGACATATTTACAAAAACAAGAAAGGGACATATTTACAAAAAGTTCAGCTAGATAAATCCACCTACAAGCTAGAAATCATATTACATCAAGAACAACCTTCACATCCCTACTATTATTATAAAAGAAATACAAGATTTGAAGATGATCTAATTCAATGGGTTATTGGAGCAGGGTTTTAAAAATTAGTTAACTAATTGAATCACTCTATATCTTCTTTTTACAGCTTCTAGCTATTCTTGTCATAATATTCGGGATATGGATGGGCTCTCACCACGACGGTTGTCGAAAATCTCTCACTTTTCCTGTCATGGGACTCGGTGGATTTATCTTTGTGGTGTAAGTTTTCTATCTGTTTAGGAATATAATCTGATTCACTCACCCAATCTTATTGTTACCAATATTTTTGATCCAGGTCCATAGTTGGTTTCTTGGGCGCTCTTAAGAACAATTCCATATTGCTGTGGATTGTATCCTTTTTGATGAAAACTTACATTAATGGTTTGATATCAATCCTCCCCGTTCTTGCTCGACCTTGACCTTTCTGCTCGCAGTACCTGATCATGTTGTGCATTACGTTGATCGGTATTCTGGTGTTTACAGTGCTGGCGTAAGTACATGTCCGAAGTAGTTTCATAATCAAAACCCATGACTGTAATTTGTAACTCATCACATGTTCTTGTAGTTTATCATATCACATATTCCCTTCAAGATATAAAAGGAAGTATCAACATTGCATGACTCACACTTCCTCTTTCCGAATGCTTTAATCTTTACTTTGCTGGCTTTGTAGTTGGTATGATTATGTACTCTTCTTGGTTCTAAAGTAATCATTTGAATTTCATTTAGGTTTATTGTTACGAATAATGGATCGGGACATTCCGTTGCTGGCCTGAGGTGAGGATATATTTAATTCATCAACCAACCAAAAGTGCATTTTGTTTAAATTTCTGTTGAGGATACTTAATTGAGAGAATGGAAATTATTCAACTTTTTATCTATACTAATAAGAATAACTGTTGCTGACAATTCTCAAAGCTTGGTACTTGTTACATCGATAAGTTGGCATTTCTATGATGGACTGAATTTTATTTTTCCATTTTTTCCTATTGATAAGGTATAAGGAGTATCAACTACAAGACTATAGTACATGGTTTCTAAAACAGGTGAGAACTATGTAACTTTTCGTGGAGGGAGAGAGGGAGATTATTCATTTCTGCTAACCTTGGCTCGATCCTTTCAGCTTAATAATACCGATAACTGGATGCGTTTGAAGAGCTGTCTCGTCAAATCCGACGACTGCAATGATCTCTCAAAAAGATACAAGGTCCTTGTTTCAAGCTCGGCTGATTCATGTTACAGACTATTTGATTTTTCTAATAATCTCTCTCTCTCTCTTTTTTTTAAGTCGTTTTGTTTGACAATTTCAGACTCTCAAGCAGTACAAGTTAGCAAAGCTGACGCCAATCGAAGCCGGTTGTTGCAGACCTCCATCTGAGTAAGTGTAACTTTCAAGTTCTTACTCTTTTTCTTCCATTTTTATAACTGCGACAAAGGAAAGAAGAAACTAAATGTAAATCCGTGACCTTTCCAATATGGCCAAAGACTTACTTTTTGTTCTCTGCAATTTTTGATGAAGTGAATAACAATTTATCGCTGTGAATTCGACTTTGTTTCGGACAATGTTTCGAAAATGGCTAATTCTCGTCAGTGATACTATCTTTCTGGTGTTCTGATACGACTGACAGATGTGGTTATCCTGCTGTTAATGCATCATACTATGACTTGAGTTTTCATCCTGTTAATTCAAACCATGACTGCAAACTATACAAGAATTCCCGGGCAGTCAAGTGTTACGATTGTGATTCTTGCAAGTAAATATCAAGTAACCTTATTCTTCCATTCTCCGTCCACCCTTCTCCATCCCCGTGGAAATTTGCATGGTCATTTCATTGTTTGATCATTCAGGGCTGGAGTTGCACAGTACATGAAGATTGAATGGCGATTGGTTGCGATCTTCAATGTCATTCTATTCGTAGTCTTG ATGGACGGTCGCGCTCTCACGGCCTCTTCATTCTTCACCTGCATTGATTTATTGCGACCTAGAAGAGGAGCTGTTAGAAATCTGTGTGTTAATGGCAGACCCAGTAGGTTTTCGGTTCTTGCTTCCAAAGAAGAGGCTGAGCTCGACCGTTGGGACCAAATGGAGCTCAAGTTCGGCCGCTTGATTGGGGAAGACCCCAAATTAACATTAGCCAAGATAATGAGCAAAAAGATGAATCCGGATGCTTCTTATCTTGAAGTTGAGAAATCGTTTTACCAGAAGAAGGGTAAATCCAATGAGGTAGAGGAACTTTCTCTTGATGGTTTGAATTTGATCAGACCTCAGTTAAAGAAGGAAATGAAGTTAAAAGCTGCCGGTAAGCCACCTCCATCAGATATAAAGAAACCAAGCCAAGCAATTGCAAAGGCAGCAGTTAGTCCTAAAGGTAGAGTTCCTAATGTTATTTTGAGAAAGCCAACTATCTATAACGAGGATGATGTCGAAGATAAGCCGTCCAGGATAAGAATGAAGCCGAATTTATCGTTGAATATGAACAATGGATTGACAAAGGAGAAATATAGTGACATGACACTGTTGAGGAAGCCTGAACCAATGACGTCAGATGAAGCTATTGAAAAGAAGGAAAAGCCCTCTGGTGATGAGTATGTTGATATTGCTCAGAATATCAAATCTCAAGCTAGTAAGGGATCATCAAGCGACCCAGTTGATGATTTTACTCTCTCTAAGAAGCCAGAAATAAGAGGTGACGAAAGAAGGCTTGGAAATGAAAATGATCGTAAAAATCTTGTGTATTCAGAAAGTGATACTATTGATGGTAAAAAAGAAAATTACATTGAAGACCTGTACATCCTAAAAAGGCCTTTAAATGTCATGTCTGGTAAGTCTGGAGAAACTGAAGAAGCCACATCGTCAACGGAAAACAGGCAAGATATTGATGATTTTGCTCTAGAATTACAGCCACACGAGCCAAGTAATATGAAATATGATGAGGACCCAGCAGCTCCGAGTGAACCATTTAGTGATATTTTGGATCCATCGGTAAAGTTGTCCATCGAAGCTACATTATTGGGTAAACCAGAAAGATTAGATCATTCTTCAAATGAAACGTTAAAACTCAGTACAGAAGAGGCAGTTGTAGCCACCCCTGAAACTGATGTCAATAGCGCTGTTGAGACACAGAATTTTTCTGCTATCCCAGCTTTGAAGGAACATGAACTTGCTGACTGGACTAGAGCAGAGGATCTGGCTAAGATGGGAGACAGAGCTGAAGTGGAAGTAATAAGCTCGAGTACCCGAGGTTTTGTTGTATCATTTGGCTCCCTAGTAGGATTTATTCCATATCGTAATCTTGCTGCCAAGTGGAAGTTCTTAGCTTTTGAGTCGTGGCTAAGACAGAAAGGTTTGGATCCATCAATATACAAGCAAAACTTGGGAACCATTGGAAGTGCTGATAGTGGAAGCCAGAATTTTTCTAGTACTAGGCCGGATTTAGAAAAAGATGTAAAAAATGGGGGAGAACTTACACCTGATATGAAATTGGAAGATCTTCTTCAAATTTATGACCGAGAAAAAATCAAATTCTTGTCATCATTTGTTGGGCAGGCTACGCTGCAAGTAGGTGATGTTGTCAAATGTTGCATCAAGAAGATTGCTTATTTTGGCATCTTTGTTGAGATTGAGGGAGTGCCCGCTTTAGTTCATCAGACAGAGGTGTCCTGGGATGCTACCTTAAACCCTGCATCATACTATAAAATTGGTCAGGTTGTCGAGGCAAAAGTTCACCAGTTGGATTTTTCACTTGAACGCATATTCTTATCGTTGAAGCAGATTACACCAGATCCACTAACTGAAACCTTGGAGTCTGTGGTTGGTGATCATGATCCCATGGATGGAAGATTAGAATTAGCAGAAGTAGATACCGAGTGGGCTGATGTAGAATCTCTCATCAAGGAACTGCAAAATATTGAAGGTGTTGAGGCTGTATCCAAAGGGCGTTTTTTCCTTAGCCCTGGCTTGGCTCCAACCTTTCAGGTTTACATGGCTTCCATGTATGAAAATCAGTACAAATTACTTGCTCGATCTGGAAACAAAGTACAAGAGCTTCTAGCTATTCTTGTCATAATATTCGGGATATGGATGGGCTCTCACCACGACGGTTGTCGAAAATCTCTCACTTTTCCTGTCATGGGACTCGGTGGATTTATCTTTGTGGTGTCCATAGTTGGTTTCTTGGGCGCTCTTAAGAACAATTCCATATTGCTGTGGATTCTTAATAATACCGATAACTGGATGCGTTTGAAGAGCTGTCTCGTCAAATCCGACGACTGCAATGATCTCTCAAAAAGATACAAGACTCTCAAGCAGTACAAGTTAGCAAAGCTGACGCCAATCGAAGCCGGTTGTTGCAGACCTCCATCTGAATGTGGTTATCCTGCTGTTAATGCATCATACTATGACTTGAGTTTTCATCCTGTTAATTCAAACCATGACTGCAAACTATACAAGAATTCCCGGGCAGTCAAGTGTTACGATTGTGATTCTTGCAAGGCTGGAGTTGCACAGTACATGAAGATTGAATGGCGATTGGTTGCGATCTTCAATGTCATTCTATTCGTAGTCTTG ATGGACGGTCGCGCTCTCACGGCCTCTTCATTCTTCACCTGCATTGATTTATTGCGACCTAGAAGAGGAGCTGTTAGAAATCTGTGTGTTAATGGCAGACCCAGTAGGTTTTCGGTTCTTGCTTCCAAAGAAGAGGCTGAGCTCGACCGTTGGGACCAAATGGAGCTCAAGTTCGGCCGCTTGATTGGGGAAGACCCCAAATTAACATTAGCCAAGATAATGAGCAAAAAGATGAATCCGGATGCTTCTTATCTTGAAGTTGAGAAATCGTTTTACCAGAAGAAGGGTAAATCCAATGAGGTAGAGGAACTTTCTCTTGATGGTTTGAATTTGATCAGACCTCAGTTAAAGAAGGAAATGAAGTTAAAAGCTGCCGGTAAGCCACCTCCATCAGATATAAAGAAACCAAGCCAAGCAATTGCAAAGGCAGCAGTTAGTCCTAAAGGTAGAGTTCCTAATGTTATTTTGAGAAAGCCAACTATCTATAACGAGGATGATGTCGAAGATAAGCCGTCCAGGATAAGAATGAAGCCGAATTTATCGTTGAATATGAACAATGGATTGACAAAGGAGAAATATAGTGACATGACACTGTTGAGGAAGCCTGAACCAATGACGTCAGATGAAGCTATTGAAAAGAAGGAAAAGCCCTCTGGTGATGAGTATGTTGATATTGCTCAGAATATCAAATCTCAAGCTAGTAAGGGATCATCAAGCGACCCAGTTGATGATTTTACTCTCTCTAAGAAGCCAGAAATAAGAGGTGACGAAAGAAGGCTTGGAAATGAAAATGATCGTAAAAATCTTGTGTATTCAGAAAGTGATACTATTGATGGTAAAAAAGAAAATTACATTGAAGACCTGTACATCCTAAAAAGGCCTTTAAATGTCATGTCTGGTAAGTCTGGAGAAACTGAAGAAGCCACATCGTCAACGGAAAACAGGCAAGATATTGATGATTTTGCTCTAGAATTACAGCCACACGAGCCAAGTAATATGAAATATGATGAGGACCCAGCAGCTCCGAGTGAACCATTTAGTGATATTTTGGATCCATCGGTAAAGTTGTCCATCGAAGCTACATTATTGGGTAAACCAGAAAGATTAGATCATTCTTCAAATGAAACGTTAAAACTCAGTACAGAAGAGGCAGTTGTAGCCACCCCTGAAACTGATGTCAATAGCGCTGTTGAGACACAGAATTTTTCTGCTATCCCAGCTTTGAAGGAACATGAACTTGCTGACTGGACTAGAGCAGAGGATCTGGCTAAGATGGGAGACAGAGCTGAAGTGGAAGTAATAAGCTCGAGTACCCGAGGTTTTGTTGTATCATTTGGCTCCCTAGTAGGATTTATTCCATATCGTAATCTTGCTGCCAAGTGGAAGTTCTTAGCTTTTGAGTCGTGGCTAAGACAGAAAGGTTTGGATCCATCAATATACAAGCAAAACTTGGGAACCATTGGAAGTGCTGATAGTGGAAGCCAGAATTTTTCTAGTACTAGGCCGGATTTAGAAAAAGATGTAAAAAATGGGGGAGAACTTACACCTGATATGAAATTGGAAGATCTTCTTCAAATTTATGACCGAGAAAAAATCAAATTCTTGTCATCATTTGTTGGGCAGGCTACGCTGCAAGTAGGTGATGTTGTCAAATGTTGCATCAAGAAGATTGCTTATTTTGGCATCTTTGTTGAGATTGAGGGAGTGCCCGCTTTAGTTCATCAGACAGAGGTGTCCTGGGATGCTACCTTAAACCCTGCATCATACTATAAAATTGGTCAGGTTGTCGAGGCAAAAGTTCACCAGTTGGATTTTTCACTTGAACGCATATTCTTATCGTTGAAGCAGATTACACCAGATCCACTAACTGAAACCTTGGAGTCTGTGGTTGGTGATCATGATCCCATGGATGGAAGATTAGAATTAGCAGAAGTAGATACCGAGTGGGCTGATGTAGAATCTCTCATCAAGGAACTGCAAAATATTGAAGGTGTTGAGGCTGTATCCAAAGGGCGTTTTTTCCTTAGCCCTGGCTTGGCTCCAACCTTTCAGGTTTACATGGCTTCCATGTATGAAAATCAGTACAAATTACTTGCTCGATCTGGAAACAAAGTACAAGAGCTTCTAGCTATTCTTGTCATAATATTCGGGATATGGATGGGCTCTCACCACGACGGTTGTCGAAAATCTCTCACTTTTCCTGTCATGGGACTCGGTGGATTTATCTTTGTGGTGTCCATAGTTGGTTTCTTGGGCGCTCTTAAGAACAATTCCATATTGCTGTGGATTCTTAATAATACCGATAACTGGATGCGTTTGAAGAGCTGTCTCGTCAAATCCGACGACTGCAATGATCTCTCAAAAAGATACAAGACTCTCAAGCAGTACAAGTTAGCAAAGCTGACGCCAATCGAAGCCGGTTGTTGCAGACCTCCATCTGAATGTGGTTATCCTGCTGTTAATGCATCATACTATGACTTGAGTTTTCATCCTGTTAATTCAAACCATGACTGCAAACTATACAAGAATTCCCGGGCAGTCAAGTGTTACGATTGTGATTCTTGCAAGGCTGGAGTTGCACAGTACATGAAGATTGAATGGCGATTGGTTGCGATCTTCAATGTCATTCTATTCGTAGTCTTG MDGRALTASSFFTCIDLLRPRRGAVRNLCVNGRPSRFSVLASKEEAELDRWDQMELKFGRLIGEDPKLTLAKIMSKKMNPDASYLEVEKSFYQKKGKSNEVEELSLDGLNLIRPQLKKEMKLKAAGKPPPSDIKKPSQAIAKAAVSPKGRVPNVILRKPTIYNEDDVEDKPSRIRMKPNLSLNMNNGLTKEKYSDMTLLRKPEPMTSDEAIEKKEKPSGDEYVDIAQNIKSQASKGSSSDPVDDFTLSKKPEIRGDERRLGNENDRKNLVYSESDTIDGKKENYIEDLYILKRPLNVMSGKSGETEEATSSTENRQDIDDFALELQPHEPSNMKYDEDPAAPSEPFSDILDPSVKLSIEATLLGKPERLDHSSNETLKLSTEEAVVATPETDVNSAVETQNFSAIPALKEHELADWTRAEDLAKMGDRAEVEVISSSTRGFVVSFGSLVGFIPYRNLAAKWKFLAFESWLRQKGLDPSIYKQNLGTIGSADSGSQNFSSTRPDLEKDVKNGGELTPDMKLEDLLQIYDREKIKFLSSFVGQATLQVGDVVKCCIKKIAYFGIFVEIEGVPALVHQTEVSWDATLNPASYYKIGQVVEAKVHQLDFSLERIFLSLKQITPDPLTETLESVVGDHDPMDGRLELAEVDTEWADVESLIKELQNIEGVEAVSKGRFFLSPGLAPTFQVYMASMYENQYKLLARSGNKVQELLAILVIIFGIWMGSHHDGCRKSLTFPVMGLGGFIFVVSIVGFLGALKNNSILLWILNNTDNWMRLKSCLVKSDDCNDLSKRYKTLKQYKLAKLTPIEAGCCRPPSECGYPAVNASYYDLSFHPVNSNHDCKLYKNSRAVKCYDCDSCKAGVAQYMKIEWRLVAIFNVILFVVL Homology
BLAST of MS017990 vs. NCBI nr
Match: KAE8647864.1 (hypothetical protein Csa_000384 [Cucumis sativus]) HSP 1 Score: 1369.8 bits (3544), Expect = 0.0e+00 Identity = 747/1071 (69.75%), Postives = 801/1071 (74.79%), Query Frame = 0
BLAST of MS017990 vs. NCBI nr
Match: XP_022159776.1 (uncharacterized protein LOC111026097 isoform X1 [Momordica charantia]) HSP 1 Score: 1342.8 bits (3474), Expect = 0.0e+00 Identity = 699/745 (93.83%), Postives = 704/745 (94.50%), Query Frame = 0
BLAST of MS017990 vs. NCBI nr
Match: XP_022159777.1 (uncharacterized protein LOC111026097 isoform X2 [Momordica charantia]) HSP 1 Score: 1313.5 bits (3398), Expect = 0.0e+00 Identity = 688/745 (92.35%), Postives = 693/745 (93.02%), Query Frame = 0
BLAST of MS017990 vs. NCBI nr
Match: XP_011654764.1 (uncharacterized protein LOC101217667 [Cucumis sativus]) HSP 1 Score: 1096.3 bits (2834), Expect = 0.0e+00 Identity = 584/746 (78.28%), Postives = 632/746 (84.72%), Query Frame = 0
BLAST of MS017990 vs. NCBI nr
Match: KAA0042780.1 (protein MLP1 [Cucumis melo var. makuwa]) HSP 1 Score: 1090.9 bits (2820), Expect = 0.0e+00 Identity = 581/745 (77.99%), Postives = 633/745 (84.97%), Query Frame = 0
BLAST of MS017990 vs. ExPASy Swiss-Prot
Match: F4I214 (Tetraspanin-10 OS=Arabidopsis thaliana OX=3702 GN=TET10 PE=2 SV=1) HSP 1 Score: 275.8 bits (704), Expect = 1.7e-72 Identity = 137/230 (59.57%), Postives = 158/230 (68.70%), Query Frame = 0
BLAST of MS017990 vs. ExPASy Swiss-Prot
Match: Q9M1E7 (Tetraspanin-3 OS=Arabidopsis thaliana OX=3702 GN=TET3 PE=1 SV=1) HSP 1 Score: 112.5 bits (280), Expect = 2.5e-23 Identity = 62/231 (26.84%), Postives = 109/231 (47.19%), Query Frame = 0
BLAST of MS017990 vs. ExPASy Swiss-Prot
Match: Q9ZUN5 (Tetraspanin-2 OS=Arabidopsis thaliana OX=3702 GN=TET2 PE=2 SV=1) HSP 1 Score: 107.5 bits (267), Expect = 8.1e-22 Identity = 75/243 (30.86%), Postives = 114/243 (46.91%), Query Frame = 0
BLAST of MS017990 vs. ExPASy Swiss-Prot
Match: Q9LSS4 (Tetraspanin-4 OS=Arabidopsis thaliana OX=3702 GN=TET4 PE=3 SV=1) HSP 1 Score: 104.4 bits (259), Expect = 6.8e-21 Identity = 67/231 (29.00%), Postives = 106/231 (45.89%), Query Frame = 0
BLAST of MS017990 vs. ExPASy Swiss-Prot
Match: Q8S8Q6 (Tetraspanin-8 OS=Arabidopsis thaliana OX=3702 GN=TET8 PE=2 SV=1) HSP 1 Score: 104.0 bits (258), Expect = 8.9e-21 Identity = 63/228 (27.63%), Postives = 104/228 (45.61%), Query Frame = 0
BLAST of MS017990 vs. ExPASy TrEMBL
Match: A0A6J1E4Z1 (uncharacterized protein LOC111026097 isoform X1 OS=Momordica charantia OX=3673 GN=LOC111026097 PE=4 SV=1) HSP 1 Score: 1342.8 bits (3474), Expect = 0.0e+00 Identity = 699/745 (93.83%), Postives = 704/745 (94.50%), Query Frame = 0
BLAST of MS017990 vs. ExPASy TrEMBL
Match: A0A6J1E0R7 (uncharacterized protein LOC111026097 isoform X2 OS=Momordica charantia OX=3673 GN=LOC111026097 PE=4 SV=1) HSP 1 Score: 1313.5 bits (3398), Expect = 0.0e+00 Identity = 688/745 (92.35%), Postives = 693/745 (93.02%), Query Frame = 0
BLAST of MS017990 vs. ExPASy TrEMBL
Match: A0A0A0KKL1 (S1 motif domain-containing protein OS=Cucumis sativus OX=3659 GN=Csa_5G154850 PE=4 SV=1) HSP 1 Score: 1096.3 bits (2834), Expect = 0.0e+00 Identity = 584/746 (78.28%), Postives = 632/746 (84.72%), Query Frame = 0
BLAST of MS017990 vs. ExPASy TrEMBL
Match: A0A5A7THK9 (Protein MLP1 OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold44G002810 PE=4 SV=1) HSP 1 Score: 1090.9 bits (2820), Expect = 0.0e+00 Identity = 581/745 (77.99%), Postives = 633/745 (84.97%), Query Frame = 0
BLAST of MS017990 vs. ExPASy TrEMBL
Match: A0A1S3AU41 (uncharacterized protein LOC103482723 isoform X1 OS=Cucumis melo OX=3656 GN=LOC103482723 PE=4 SV=1) HSP 1 Score: 1090.1 bits (2818), Expect = 0.0e+00 Identity = 581/745 (77.99%), Postives = 633/745 (84.97%), Query Frame = 0
BLAST of MS017990 vs. TAIR 10
Match: AT1G12800.1 (Nucleic acid-binding, OB-fold-like protein ) HSP 1 Score: 585.9 bits (1509), Expect = 5.5e-167 Identity = 369/763 (48.36%), Postives = 484/763 (63.43%), Query Frame = 0
BLAST of MS017990 vs. TAIR 10
Match: AT1G63260.1 (tetraspanin10 ) HSP 1 Score: 275.8 bits (704), Expect = 1.2e-73 Identity = 137/230 (59.57%), Postives = 158/230 (68.70%), Query Frame = 0
BLAST of MS017990 vs. TAIR 10
Match: AT1G63260.3 (tetraspanin10 ) HSP 1 Score: 275.8 bits (704), Expect = 1.2e-73 Identity = 137/230 (59.57%), Postives = 158/230 (68.70%), Query Frame = 0
BLAST of MS017990 vs. TAIR 10
Match: AT1G63260.2 (tetraspanin10 ) HSP 1 Score: 268.9 bits (686), Expect = 1.5e-71 Identity = 132/224 (58.93%), Postives = 152/224 (67.86%), Query Frame = 0
BLAST of MS017990 vs. TAIR 10
Match: AT3G45600.1 (tetraspanin3 ) HSP 1 Score: 112.5 bits (280), Expect = 1.8e-24 Identity = 62/231 (26.84%), Postives = 109/231 (47.19%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Bitter gourd (TR) 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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