![](http://cucurbitgenomics.org/sites/default/files/styles/slideshow/public/carousel/101322_web.jpg?itok=EG-G51x6)
Bhi03G000139 (gene) Wax gourd (B227) 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.ATGGCCTCTAATTGCCGTGCTCAACACAGGTTGTTTGTAAGTACACCATACTCCGTAGACACCATTAACTTAGATTGGAAGGTCTTTTTGTAACCCTTCCTTTTGGAAAGGGGATGGCTTATCCCCTTGTCCTTTAGGTGTTTTGTCGAAGCTTTGGGTTGTTATGAATGATATCCTTTGTTTCTCATAAAAAAAAAAAAAAAAAAAATGAATTGTTTGCCCTCGAGGAATGCACCTTAGGACTGGACAATAGAACTTTTCTCAACCTATTATCCCACACTTTCACAATAATTATTTTAAAGAAACATTTTATTGATAAAATGAAATAAGGGAGACCCCAAACACCAATAGGTGATTGCAATAAAGATTTCCAATTGGAAACTAATTAAGAAGATTAAAACTCTTAAAAAGGGTGCTTAGATTGCACCAGTACAATTCGCTAGATAGAACCAAATCCATGAAACTATCAAAACAAGTAGATTCTGGAAGAAAGGAATTCTAGGACTTTTAAAGGAAATGAAAGATCTCTCGTGGATGTTCTTGATTCATCCATCTTCAAGCCCTGTTTAGGTGTAAAGACATACAACCCCTCAATAGTTACAATTTAATTTCCTTGAATATAATTTGAGGAATCTTTTGTAATCCTGTGTGGGCCGCCCTTTTTGTACTCTTTGAAGATTTCATTCATCAATGAAATAGTTTCTTATCTAGGAAAATACATCCTTCTTCGCATCCTTGTGCTGAATTCTATTTTTAAGCTTAATTGGTGCTTTCCAATGAGTTGTCCTGGGCTATTGTTAAGTGCTGTGGCTTCTTGTGGCAAGGAAAAACTTCTTTAAGTCAACATGATTGATAGCTCTTCTATGGAGAAACCAAGCAAGATGTGTTTTGGGAGTTTGTTTGCTTCTGGTGTTTAATGTTTGATGAATTTTGGGAAGATTGGTGAGTGGGTGATAGATCTCTGTCTTCACATGTACCATCTTTCAGACAAAAGGTTGTTTTCTGTGGCCTTTTTCCTTCCCTCTTTAGATTCCCTGCCATTTTCTTTTATTTATTTGGGATTCAACCGCCCTTTGACTGATAGGGAAGCTTATGATGTTGTGATCCTGATCTTGTTGACTGGTGACTCTTTGGTAAGTCTGGGGAGAAGGAATATTGGCTTTTGGTCCCCCCAATCCTCGGGAGATTTCTATTCTGGTTCATTTTTCCACTTGTTACATGTGCCCCCTCCTCCCTCTGGAGCTTCTGCTTTCTCCTCTTTTTGGAAGGTAACGATTCCCAAACAAGGTCAAATTCTTTGGGTGACAGGTTTTTCATGAGAAAGCTAATGTTCTGGATCATGTTCAGAAGCATTCTTCCTTTGTGTTGGGCTTGCAATGGTGCCCTTTATCAAGCATCAGGAGATTTGTATCATATTTTGGGTTACTGAAGTGCCCTTTACCCGTTTGGGAATGTTGTTGGGACTCTTCAGGATCGTTGGGTTGTTCATTTGAATACCTCATCATAGGTTTCAGAGAATTTAGAATCTAGTCATGCAAGGACACTTTTATATTGCATTCTCCTAGTTCAGTGAATAGGAATATAACAATCGTCTGGATTTACTTGAGTTTTAATGTAAATGTGTTTTTCTTACTCATTTCATTTTCATTTTTTGCAGGTGGAGACAATTTTGGATAAGGAAAATTTTACTTTAGAGGAGCTTCTAGATGAGGATGAAATAATTCAGGAATGCAAAGCACTTAACAGTCGACTTATTAACTTGTAATATTTCTTCCGACTTTGATTTATCATCTTGCTTTTTCTTCTATGTTGCTGGTCCATAGGTCACATCTTTTCTTTTGGTTGATAGGTTGCTAACACATGCATAGAAATTAATTGATGGGATCATGTAACTCTGATTGTATTTGACTTTGATATTACTTGCTGTACTAGTCTTCCAGTAGTAATGTAATTTCCATCCATCCTACTTATTCTTATTTGCTGCTATATTGTTAGTCAGTCTTTTAAATTTGTACTACATTGGTTAAGCTAACTGCCTCACAGCAGCTAGCCCATATAATAAATACCAACCTTAGTGGTCAGGCAGATACAAAGTGGAATGGATAAATACGAGAACTTTGCCAAGTAGATTTCATCATATTTTGTTAATTAAAGATGGTTGTGCCTGCTTTCACGCCTTGCAGCTTGAGAGACAGAACACAGATTGAACAGCTCATCAGATATATTGTTGAAGAAACTCCTGAAGAGGCTGAGAAGAAACGAAGTTTTAAGTAATTTTTGTTTGCACATTCCAGATGTCATTTCTCGTGGCTTCTCTCTCTAATGTTAATTTTGGCCATTCTCACATATTCTTGCCCAGGTTTCCTTTCATTGCTTGTGAGATTTTTACTTGTGAAGTTGATATAATTCTCAAAGCATTGGTGGAGGATGAAGAGGTGAACTTGCTTTCTTTCTCCTATCAAATTATTATCGATGAAAATAGATTAATTACTGATTTTGCTGATGTGGTTGTTTGCAGTTGATGAACTTCTTGTTTTCCTTCCTAGAACCGAAGCCTTCTCATAGCACGCTATTGGCTGGCTACTTCAGCAAGGTATCGCTTTCATAATATTTTCGTTCTGAATTATCTTTTCCATATTAGGTCATTCTTTCACTTGTTTCAACTTTCAACCACTGTTGATGTCTTACACGGGAAAGATTTTTGGAACATCCGTGATGTAAAAATTCCTTGCCAGGTTGTCATATGCTTATTGTTGCGGAAGACAGTTCCATTTATGCAATATGTTCAAGTAAGTTTATATGTCATTTTCACTTAAATTTTCTTAACCTGTTTTTAAAGAGTTTGGTCAATCGAGACATTCTCAATTTCACTTTACCTTCTGCATTTTATACATGACCAAAGTACGGTGTGAAACAACATGGTTTGCCAGGTAAAGCTGTGTTTGACCTGTTTGATATCACGTAGTCTATAGATAATAGAAGGAAGCAGGGTTTAAATGGGCAATGCTGTTGTTTTCTAAGTTAAGCCTGAGGGTATTGATGATAATGAGCTAGGTTCTAGTTCAATTTTGTATGTTTAGAAAGTCTCTTATCAAAGAGTTAGCCGACGAGTCGTATACCGTTTAGTCTAATTAACTTTTTACTTTTTGTACATCTGCAAATCGTTTATTGCATTTTTTTTTCCTGAAGTTGTCGCTATTCCATTTTTTATTCCTTTTTTTAGAGAACCCATTTTTAATCATTCAGTTCTCTATACCTTTTCCAATAACATTTTACTGTTTTCCAATGTAATGACATTAACTCTTAGGGTGGTTTCATTAGAGAAAAATTAATGCAAACATGTTATAGAAGCGAGGAACACACTTGACCAATGTATGGCCTTTCAATGGAATTCTCTGTAAATTTTGTGTGTTTGTATCCCTGGAACAAATTGTTTTTCTTCCATTTTTTTAGAGTGTGTTTGTCTGTCTCCGTCTTTTGAACTCATGTGAAAAGCTTCCATTTTTTATTTTATTCAGTTCAAGCAATAAATCTTTTCTATTTTAGTTCTTATCGAATCATTTCTTATCCAAAAAAGATTAAGCTACATATACAACCGTTTTAATGCTGATGATCTACTTCTCACTTGGATTTCCAGGCACATCAAGCAATTGTAAAGAAGCTAGTTGATCTGATAGGAATTACTTCCATCATGGAGGTTGGTTGTTGGTCACCTTTCTTTGTTGCATCTGGTATTTTAACTCTTTCATTACAATAATGGTTTATGCTAGTTGCAATAGGGTATCCGAATTAGTGTTTTTGCTTTGTAGTGGTTACTTCTACTCTTTAACTTTTTTCATTCTTATTTTTAAATTATTATTATTATTATTATTTTAAATTACATGGATAGAGCAACATCTTTGGGGCATTAGTTTCTATGTGCATTTTATTTCCTCTTTAATTCTTATGGTCTGCATAGTTATTTGAGTATTATGGATCATGATTTCAGACTATGGCCATCCCTCTTCTCTATATGAAAATCGTTGGGCTTTGACATCTTTACCGACTGTACATTGTCAAGCTCATAGGAATGGTTCTCTCTCAACAGGTTTTGATAAGGCTTCTTGGTGCTGATGAACATCTGTATTCAAGCTATGCAGAGTCGATGAAGTGGATTGAAGAGACTGATGTGCTGGAGATGATAGTGGACAAGTTCAGTTCTTCAGTAAGTAGCTTCTTGACGAAGTTATTCATCCCATAAGAGTGTTTACTTGCCTTTTCATTTAGTGAGGACTTCTTTATCTTAGTGAATTCACTTAACCTTTCAGCTTTCGCTAGCCAATTTTTCCTGGGACCTTATTGAAGCTTTTAGGAAAGAATAACATTCCCAAGATTGTCACATTTTTTCCTTTGGACCCTTGCTTTTGGTGGTATCAATACTCCTGATAAGAGCCCAATGGCAAACTTCTCATATTTTCAAATAATGATTAAAAGGGTATATTAGTAAAATCCTTTTTTTCTCTCCAAAAAAGTTTGATTTTTTTACTTCATTCGGAACGAGAAAGATTTGAAATGAATGTATTTAAAAATTTGTATGTGAATGGTAACTAGAAAAAAAAAGAAAGTCAACGTTTACTAATATGGGCTTTTAATTATGATTTGTTAACTGGAAATCAAAATTGACAGTTAAATAAGTAATTTACCTCTCAATTTCATGAAATCCCGCAAAATCCAACCATTTTAGTTAGATTTTTTTAATAGTAAAAGTATAATTTGAAATCACAATAGATTTCATATTGTTCTCTTTCTTGTGGTAGCAAATAATGGAATTCAATTATAATTCGTTATGATTTAAAATCCCTTAGTGAGCTAAACAGAGCATTAGCATCCAAATAAAGAATTTAAACCACATGCATCTCAAATCTCTCTCATGTCATATAAGTATGAAATTTAATGAGAAATTCTAGTATTTCCAATCAAATCATTTTAAATAATTTATAATAATTTCTTGATTCTAAATGGAAGGTTAGAAATTATGTTCTCATGCAGAAAGAACTTCACATTGCAAATCACCTACTATACTTCTTTTGTTTTGCTCCGTTGTCAAATATGTGGAGCTTATTCAAAATAAGATAAGGTTTTTGCCTTTTGCCTTTGCACATGACAAATATAGAACAGAAGGAACCTCTTCATTGTGGAGCTCTTTTGTTTGTTTTGTTTTTGTTTTTGTTTTTGTTTTTTTTGTTTTTTAACAAGAAACGACCTAAAGATATATTCCAACAAAGAAAAAGAACAGCCTAAGGGCAGGGTAGATGGGTGCCCCCCAGCAAAGCTACAATGAGCACTTTCGAATCGTCATGGGCGAATCTTTAATGGGGTCATTCTTTCAGGATTGTTCAGAAGTTCATTCTAATGCAGCAGAAACACTTTGTGCTATCACTCGATTTGCTCCTCCTGGTCTTTTGGCTAAAATTTCCAGCCCAAGGTAGTGTTTTCCAATTCTCAAGTCTTTAATATACCTGCATTTTGTCATTGGTCAACTGATATTGGTTCTCTTATTCAAATCAGTTTTGTAGGAAGATTGTTTTGCCATGCCTTGGAAGATTCACGGCCAACGTCTGTTTTAATAAATTCGTTATCAGTGTGCATATCCTTGTTAGATCCTAGGAGACTAACTGCTGGAACAGCTTATTCATACAACCGCCAAATAGCACATGGATCTACTGTTTCAGCAACTATGGAAACTGTAGAAGGCATGTTGGAGAGTTTAGGTATCATATTGGCCATTGGATCTTGTCAAGTCAATGATTTCTTACTTTTTAAGCCCTATTAATCATAGGTATTAATAGTCATCATATGAATCATCCAATTTGATAACCTTTTTTTGGGAAGTGCAATTATGACAAGAACTTAGAAGTGGAAGGGAAAAAAACATGACAACCACCGTGACAGTTGATCTAACAAGTTAGACTGGCAACACGAACAAATTCATGCTGATTAACAAATTAAAAACGTCACATTTGGAAAGTCCAATTTGATAACTTGTACTTGCCTGGTTTTCATAGTCAAATAATTTCTTACTTTATTAATTATGATATTTGAAGATATTTTATTTTCCTGGAAAAATAGATTTCATTCAAGTAAGAAATGTACAAAATAGGTTGAAGACAGAATATGTGATCTTGCTTGCCTGTGTTATTTGACCTTTTACGGAAGATGTTGAATACTATGCTGGTCTCTATTCGTTCAGGTAGGTTGCTCAAGCTTCTGGATGTTTCTTCATCAGATAAAGTTTTGGTTACTACATACGGAAAGTTACAGCCACCTCTTGGGAAACATCGTCTGAAGGTATCTTTCATTTGGTTTTAGTGAATATAGGCTACTATAAACTTGATACTTAAACATTTATTTATTTTTTAAAATGTCACTGATGAAAAGAAATATGGTTAAAAGAGAAACGGAACCCTTTAAGGTGGGTTGTTGACATCTTTTCACCTCTCTTTTTTAAGCCTTTTCACCTCAATGAAACCATAGCGTTTCTATATGAAAGAAAGAAAGAATTCAAGTGTACATGATGGAGAAAAGACAAATAAATTGGCTCTTGCCTCTTGGTAAAGTTGCGTTGTTTTGTTCCCCACGTATTTTGAAGGTTATTGAATAAATACTAAATAATAATTCACGATATTGATTGTCTTCCATTAAGTAGAGTAACCTTTAGGAGATGAACTGAAATTGAAATTAAAACTATACATTGCACTTAGCTGAGGCTGTAGAACCTGAAGTTCTAAGGGGAATAGCCACAATGGAAGATGTTGGGAAGTATCCTTTCAGCCAAAGTTGTTGTTGGGATCATATGAATTGTTATGGCTCTACGCTTTAAACATAAGGCTAAGTGTTGTGTTCATGACTAAATACTTTTGAAGTTTTTTTTTTCAAATTGACGGGCTGTTAGAAATGTTGGAGAGAATTGGGATACTTTGGTTTTTATTGTCTTCTTGGAGTTCTTTTTCCTTCTTGATTTGCAAGTATTCTCTTTTTACCATTTGGCCAATTGGTCAGGACTTTTGTAGCTCCGTGATTCTCTGGGTCCCTTCTATATTTTATTCTTCAATAAAATGTTTTATTTCTTATTTAGAAAAGTTTCCCTGATTGTTCCTTGAGATGTTTTCTCAGATTGTAGAGTTTATATCGGTGTTACTCACGGTGGGTAGCAAGGCTGCAGAGGAGTTGATTAACCTTGGAGCAATCAAACGTATTTGGGATTTGTTCTTTGAGTAAGTTTCTGCATTCTACTATAACTTGAATGTTGATGAGATCCACAATGACAATTGCTTCTCTATGACAATGTCACAATAGGTACCCGTACAATAACTTTCTGCATCACCATGTAGAGAATATTGTAGTGTCATGTTTAGAGAGCAAGAATTCTTCACTTGTAGAGCACCTTCTTCATGAGTGTAATCTTGTGGGGAAGATACTGAACGCAGAAAAGCATTTCACTTTGTCAGTTGATGCGAACAAGGTAAATGTCTAGTTTCCAGTGATGTTTGGCAGTTAGAAGTTATGTATGATCTATATGAAAAATTATGATCTCGAGAAAAACAAAGGGATTGCCAAAGACCCACTGTAGATTAATAGTTACTTTTCTTTAATTTTTGCTCCTGAAAGTCATTCTGTTTTCTCATTTTTCCAACTTCTTTCAGCCAACAGTTTCTGCAGAAGGCAGATCGCCACCTAGGATAGGGAACATTGGCCACTTAACACACATATCTAACAAACTTGTTCAACTGGCAAACAACAGTAGTGAGATTCAATCTCATTTGCAGGTCAGTTCTATTTTTTGAATTCTCGGTGACATCATTTCAGTGCTTAAATTTTCCCATGCTTCCCTGAAACAGGAAAACACTGAATGGAATGACTGGCAAACAAATGTCCTTTTGAAGCGTAATGCTTTGGAAAATGTCTACCAGTGGGCGTGTGGGTATGTCTTTCCTTCACTATTTTTCACTTCCTTTCATTACAAGCACCAGCAGTCAGCACAACATCTAGATCACAACTGTTTCCATCTTAAGGCTACCCAGCCAAAAAAAAAAAAAAATCTGCACATAGATAGGAGAAGCAGATTTTTAGTTTTCCATGATGTTGTGGTTACGCTATATAAGTATTATGGGCCTTTTTTCTTTTGAAAATGATACCACACAAAAGAGACAAATGCTCCAAAAGTCACACAACAAGACAATTCTAAAGGATAATGGCACAAAAAGTACAAAAGAACAATTAGTGAACATAGAGAGAAAAATAACTTGTGAAGAACTATAAAGCTCTTCCAACACTTGTTCAAAACAATTAATTACTATGTTCTTGTCTGACATTAATTGAAATGTGCTTGAATAGATATATTGAGCTATTGGAATTCATGGAATCGTTGTGGTGTGAGCTGACCAAATCAGCTATAATATGTGATCAAACATTATTTTAACTGATTTTTGTATTGTTATTTTATTTGCCTGAGAAAACTAGAACAGGGACGTTAATACATTCAGACACTTGGAAAGACCATGCTTTTGTTTAGGAACTTGGTGTTGACGATAACCTTGTCCGACTCTTTAAGAAGTTTTTCATTTACATTTATTGGTTATGATGGTCAGGCCTTGAAGAGAGAAGTTTCTAAAAATGGCCAGTAGGTCGTGTACTTTTCATCATGTTATGTAGTATTAGCTCTCCAATTTACAGAAGGGTTTTGATAAGCCCTTGATAACCAAAGTTTACCAAAGAAGAAAGAAAAAGAAGGAAAATGAGTAAATATCAAAGTAAATAAAGGATAGGGAATATTGTTAGTTAGAGAGGGGTCAAAACAGAAAAGAGAGAGAAAAGGAGGGGGCCATAGGTAGAGGAGGTTATTTGTAAGAGGAAGTGAGACCATGAGGGGGTATTGAGGATTTTGTAATCAAATCTCATATTTTGAGACGGATGGGAGAGAAGGGAAGCTCTCTAATTCTTTCCTACTGTTAATAAAATAAGGAGAGAGGTCCATTCTTATCAACTGGTATCAGAGCACTCACCTGGGCATGGTGGGGAAGATGGAAGCTCGATTAATTACAATGGAAGAAAAACAACTGGAGATGGAGGAAAGGATGGCAGTACAAGCGAAAGAGGTTAAAGATTGGATGGGTAGCATGTCGGCTCAGATGGCCTTAGTGTTGTCAAAAATTGAAACAATGGGCAATCCAGAGAGGCAATCGCCATCATTGGAAAGAACTCCAATAGATAAAGGAAAGCAAGTAACGGAGGGTTCATCATCCAAAACCTGTCTCTTATACACATCTAGATGTGTATAAGAGACAGAATAAAGAGATCCCGTTGTTTGATATGCGGCTGAGGAAATTGGAGGTACCTATCTTCAAAGGGGAAGAGGACGAGAATCCGGACGGATGGTTACACCGGGTGGAGAGGTATTTCGTTGTGACAGGCTATCGGAGAAAGACAAGTTGGACGCGGCGGTTCTATGTTTGGAGGGGGAAGCACTCAACTGGTATCAATAGGAGGACGATTGGTCGCCGGTGAGCAGTTGGTTGCAGTTCAGAGAATTGTTTTTAACAAGATTCCGGCCGGCGAGTGAAGCGGATCGTTATGCCCGAGTGATGCAGCTGCAGCAGGAGACATTAGTAAGGGACTACCGGAGGAAGTTTGAGAGATACTCTGCTGGGCTGAAGGAGTTGGGCGATAAGGCTTTGGAGAGTAAATTCGTTTGTGGGCTTAAAGAAGAAATCCAAAGTGAGATGAGGAAGTTGAGCCCGAAGGGTTGAAGGCAAATGGGCCAGTTGATTGAGGAAGACCAAATATTGCAATGGCATCTGGGCAAGGGGGCTGGGTCGGAGGGGATCCATAACCCGAACGCGAAGACGGGGGGGAACACGGGTGGATCGAACAGCCGTGGGTCAAGTAATTCGATTAATCGAACCATCACAATCAACCCGAACTGGGGAAGGTCAACTGGGTCGTCTACCACGATTGTCGCGCGAGGAGAAACAGGAACAAAAGGGATCGCCGGTGGCTCGTTTCAGAGACTTTCTGATGCGGAGATGAAGGAGAAACGGGATAAGGGTTTGTGTTTTAGGTGCAACGAGAAGTTCAGTTTTGGCCACCGTTGTAAGAAAAAAGAACTGCAATTCATGTTTGTTCAAGAGGGGGAAGATTTAGCAAAGGAAAGGGAAGAACCGGATATAGTTGAATACAAACCAGATAGAACATCACCGGAGGATGTGAAGGAGATCGCGAATCTGTCTCTAAATTCATTAGCCAGACTGAGTTCACCAAAAACGATCAAGGTGAGGGGAATCATTGGTGAAAGGGAGGTGGTTGTATTGATCGACGGGGGAGCAACTCACAACTTCATTACTTCAGAATTAGTCACAGAACTACAGCTGCCCATATCACCCTTTGAAGGTTACGATGTAGTGCTGGGCTCGGGGGGATCAGTTCAAGCCGCGGGAGTGTGCAAAGGTGTGTATATTACCATCTCTGATCTATCCATTATTCAAGATTTCCTTCCTCTATCGTTGGGTAGTGCGGATGTTATCCTGGGAGTAGTGTGGCTGGAAACTCTTGGGCAAATCATTTTTGACTACATCGAAAGGATGGTGAAAGAGATGCTAATGGTAGGAGTCATTCAGCCAAGTCGAAGTGCTTTTTCTAGCCCAGTCTTGTTGGTTAAAAAGAAGGATGGGAGTTGGCGTTTCTGCGTAGACTACCGTGCCATGAATAGTGCAACCATTCCAGATAAACACCCTATTCCTATTGTAGATGAGTTATTAGATGAGTTATATGGTGCCACAATCTTCTCAAAGATTGATTTAAAATCAGGTTATCATCAAATTCGAGTCCACCCAAAAGACATCCACAAAACGGCTTTTAGAACACATGAGGGCCACTATGAGTTCTTGGTGATGCCATTCGGGTTGAGGAATGCTCCATCTACTTTCCAAGCAATTATAAATGAAATCCTTAAACCATATCTCCGTCGGTTCGCGTTGGTCTTCTTTGATGACATTTTGATTTATAGTAGGACATTGGAGGAACACATGGGTCATCTAGCAACTATATTGGAGGTATTGATTGATAACCAACTGGTAGCCAATTGGAAGAAGTGTCAGTTTGGGGCAACGGGTATTGAGTATTTGGGACATATTATTTCTGCCAAGGGAGTATCGGCCGATCCATCTAAGTTAGAAGCTATGAGTAGCTGGCCTACGCCACGTAATGTGAAGGAGTTGAGGGGTTTCCTCGGCCTCACCGGATACTACAGAAAGTTTGTGGCCAACTATGGCACCATACTTTGCCATTGACTCAGTTACTGAGGAAGGGAAACTTCCAATGGAGTGAGGAAGCGGAGGACGCATTCCAACGTCTCAAATCAGCCATAGGTTCTGTACCAGTGTTGGGATTACCCAACTTTAACGAGCCGTTTGTGGTAGAGATGGATGCATCAGGTGTAGGAGTCGGGGCTGTATTAATGCAAAACAGAAGGCCACTAGCGTATTTCAGCCAAGCGCTGCCTCCCACTCATCGCTTTAAGGCAGTGTATGAAAGAGAACTAATGGCTATGGTGTTTCCCATTCAAAAGTGGAGACCTTACCTTCTAGGGAGACACTTCATAGTCAGGACGGACCAAAAAAGCTTGAAGTTCCTTCTAGAACAAAGGGTAATTGCCGGAGAGTATCAAAGATGGATTGCCAAACTCATGGGATATGATTTCAGCATTGAATATAAGAAGGGAACTGAAAATTCTGCACAAGAATGCCCTCTCCCGACTACCTACTTCACTGGAACGAGATGCTAAGTGTAATAAAGGGGCTGAATACAGCGGTGTTTGTTGAGCAGGTGGGTGCGGATGAGGAACTGAATGGGATACGACAAGCTTTACTAACTGCTCAGCCAGCCTCTGCCGAATATAGTCTGAAAGGTAAAGTGCTTTACTACAAAGGGAGGATTGTCCTACCGACCACTTCTCCTACAATACCCCTATTGTTACATGAGTTCCATAACAGTCCCATAGGAGGACATCAAGGGAGCTTGAAGACTTATCAAAGAATGTCCAAGGAAGTCTATTGGAAGGGGATGAAGAAGGCTGTCCAGCAGTATGTGGCAAATTGTGGGATTTGTCAGTAGGCCAAATACTTATCCCTGGCACCAGCGGGTCTCCTACAAGCATTACTGGTCCTGGACAGAGTATGGGTGGATATCTCCATGGACTTCATTGAAGGACTGCCCAAGTTTGAAGGATTCAATACCATCATGGTGGTAGTAGACCGTTTGTCCAATTATGCCCATTTCATCACCTTAAAGCATCCATTTTCTGAGTTTTGTTATAATACTTCATTTCACACATCTGCCTAAGCCACTCCCTTCGAGGTTTTGTATGGCTGCCCCCCACCACTAGTACTCGGGTACATAAATGATTCAAGTTTAGTCAGTGAAGTTGACATCCAGCTGCGGGATAGGGATATGATGATGGCCAAATTGAAGAACTCCCTACACAAAGCTCAACAATGGATGACGAAATCGGCTAATGCCAAGAGGAGGAATGTGGAGTTTGGCATAGGTGACTGGGTCTACCTCAAACTCAAACCCTATAGGCAGTCATCTATAGCTAAGCATAAACATCCAAAGCTGGCACCACAGTTTGTAGGACCATTTCAGGTGATCGACCACATCGGGAAGATAGCATACAAGCTTGCACTACCAGCTGGAACCGGTATACATCTTGTATTCCATGTCTTAGTCCTTTGAAAAGCAGTTGGTTGTAATTTACCACAGATACCGATTCCCCCTAATATGACTGAAGAGTTGAGCTTTATAACACAACGTGCTGAATTGTTAGGCATCATAACATCACCTTCCGGAGATCAACAAACAGAAGTACTGATTCGTTGGGAGAATGGAGACCATACCGAGGCAACATGGGAGCTTCCAGATGTAATCAAGGATCAATTTCCTGATTTCCACCTTGAGGACAAGGTGGCTCTTTGGGGGGCAAGCATTGATAAGCCCTTGATAACCAAAGTTTACCAAAGAAAGAAAAAGAAGGAAAATGAGTAAATATCAAAGTAAATAAAGGATAGGGAATATTGTTAGTTAGAAAGGGGTCAAAACAAAAAAGAGAGAGAAAAGGGGGGGACCATGGGGAGAGGAGGTTATTTGTAAGAGGGAGTGAGACCATGAGGGGTATTGAGGATTTTGTAATCAAAGCTCATATTTTGAGACTGATGGGAGAGTAGGGAAGCTCTCTAATTTTTCCCTACTGTTAATAAAATAAGGAGAGAGATCCATTCTTATCAGGTTTCTATTGCCTATGCTTTCTCAACTTCTTTGGGTTTTCATGGTCTAAGCTTGATTTCATTATTTTGATTTGAAAAGCAGTTATTTGTTTGTTTGGCTTGTTTTCTGTTTTATTTTGTACTTGGTCTAAGCTTGTTTACATTATTTTGATTTGAAAAGCAGTTATTTGTTTGTTTGGCTTGTTTTCTGTTTTATTTTGTACTTGGTCTAAGCTTGTTTACATTATTTTGATTTGAAAAGCAGTTATTTGTTTGTTTGGCTTGTTTTCTGTTTTATTTTGGTACTTCATTCTTTTCCTTTTTTCCATTCCTCTTGGAGTTTGTTTCTTTGAGCATTCTCTTTTCATTGCCGTTTACTCTTAACAAGAAAAAATAAAACACAAGAAACTTTCATTAAAATATTCCTTTGTTATTGTTCTAAATTATTTATAAAAATATTTTGTTTTAATCAATCAACACAAGAAGTGGCAGTATGACATGGTTCATCGTTATTATTATCTTTTATATATTTTCACCAAATCTTATGCTGCCTGAGTTTTTTTTTCATCTGGCCATCGTCCAATTTACATTTGTGCACTTGAATTCTTCTACTAACTGAGCTACTGTCATCATGACGTCGGGTTATTTTTTAGCACTTAAAATTGAACTTTCTAACATATCTTCTGAATGTGAAATGATTATTTCCTATAGACGCCCAACAGCACTGCAGGATCGAACTAGGGATAGTGATGATGATGATTACCAAGACAGAGACTATGATGTTGCAGCTCTAGCTAATAATCTGAGCCAGGCTTTTCGATATGGCATTTACAGCAATGATGATATGGACGAGGTACTGAAGGATTTTGTATTACCCTTGTTTGTCCCTCTAAAATGATAGTTCATTGTACAAGGAACTGATATGGAGAGGATCTATATGAAAGTGTATTCTGATTTTTCATCCGGAGCAAAACTGATTAGTTAAAATGCAATGAACATTGAAAGTTATAATAATAAAATATCATAAGAAAAATTTGAGGATGATGAATAAATGCTCTGTTTCAGATATTTTATATTTTTCCTGTAAAGTATGGGAGAAATATTAATATGTGATTCCTTGGGAGAAGTTAGTTGTTTGCTCTCATGAGGATGTTCTCCATCTTCTAATGAAAAAGATTTATACTTGTACTTGAACCCTACAAAATTCTTGATTACATGGGCATTATATATTCTTGATTATATCTCTTGTTCATCAATTATTTTCTTACTTTTCAGGCTCATGGCTCACTTGAACGTGATGATGAG ATGGCCTCTAATTGCCGTGCTCAACACAGGTTGTTTGTGGAGACAATTTTGGATAAGGAAAATTTTACTTTAGAGGAGCTTCTAGATGAGGATGAAATAATTCAGGAATGCAAAGCACTTAACAGTCGACTTATTAACTTCTTGAGAGACAGAACACAGATTGAACAGCTCATCAGATATATTGTTGAAGAAACTCCTGAAGAGGCTGAGAAGAAACGAAGTTTTAAGTTTCCTTTCATTGCTTGTGAGATTTTTACTTGTGAAGTTGATATAATTCTCAAAGCATTGGTGGAGGATGAAGAGTTGATGAACTTCTTGTTTTCCTTCCTAGAACCGAAGCCTTCTCATAGCACGCTATTGGCTGGCTACTTCAGCAAGGTTGTCATATGCTTATTGTTGCGGAAGACAGTTCCATTTATGCAATATGTTCAAGCACATCAAGCAATTGTAAAGAAGCTAGTTGATCTGATAGGAATTACTTCCATCATGGAGGTTTTGATAAGGCTTCTTGGTGCTGATGAACATCTGTATTCAAGCTATGCAGAGTCGATGAAGTGGATTGAAGAGACTGATGTGCTGGAGATGATAGTGGACAAGTTCAGTTCTTCAGATTGTTCAGAAGTTCATTCTAATGCAGCAGAAACACTTTGTGCTATCACTCGATTTGCTCCTCCTGGTCTTTTGGCTAAAATTTCCAGCCCAAGTTTTGTAGGAAGATTGTTTTGCCATGCCTTGGAAGATTCACGGCCAACGTCTGTTTTAATAAATTCGTTATCAGTGTGCATATCCTTGTTAGATCCTAGGAGACTAACTGCTGGAACAGCTTATTCATACAACCGCCAAATAGCACATGGATCTACTGTTTCAGCAACTATGGAAACTGTAGAAGGCATGTTGGAGAGTTTAGGTAGGTTGCTCAAGCTTCTGGATGTTTCTTCATCAGATAAAGTTTTGGTTACTACATACGGAAAGTTACAGCCACCTCTTGGGAAACATCGTCTGAAGATTGTAGAGTTTATATCGGTGTTACTCACGGTGGGTAGCAAGGCTGCAGAGGAGTTGATTAACCTTGGAGCAATCAAACGTATTTGGGATTTGTTCTTTGAGTACCCGTACAATAACTTTCTGCATCACCATGTAGAGAATATTGTAGTGTCATGTTTAGAGAGCAAGAATTCTTCACTTGTAGAGCACCTTCTTCATGAGTGTAATCTTGTGGGGAAGATACTGAACGCAGAAAAGCATTTCACTTTGTCAGTTGATGCGAACAAGCCAACAGTTTCTGCAGAAGGCAGATCGCCACCTAGGATAGGGAACATTGGCCACTTAACACACATATCTAACAAACTTGTTCAACTGGCAAACAACAGTAGTGAGATTCAATCTCATTTGCAGGAAAACACTGAATGGAATGACTGGCAAACAAATGTCCTTTTGAAGCGTAATGCTTTGGAAAATGTCTACCAGTGGGCGTGTGGACGCCCAACAGCACTGCAGGATCGAACTAGGGATAGTGATGATGATGATTACCAAGACAGAGACTATGATGTTGCAGCTCTAGCTAATAATCTGAGCCAGGCTTTTCGATATGGCATTTACAGCAATGATGATATGGACGAGGCTCATGGCTCACTTGAACGTGATGATGAG ATGGCCTCTAATTGCCGTGCTCAACACAGGTTGTTTGTGGAGACAATTTTGGATAAGGAAAATTTTACTTTAGAGGAGCTTCTAGATGAGGATGAAATAATTCAGGAATGCAAAGCACTTAACAGTCGACTTATTAACTTCTTGAGAGACAGAACACAGATTGAACAGCTCATCAGATATATTGTTGAAGAAACTCCTGAAGAGGCTGAGAAGAAACGAAGTTTTAAGTTTCCTTTCATTGCTTGTGAGATTTTTACTTGTGAAGTTGATATAATTCTCAAAGCATTGGTGGAGGATGAAGAGTTGATGAACTTCTTGTTTTCCTTCCTAGAACCGAAGCCTTCTCATAGCACGCTATTGGCTGGCTACTTCAGCAAGGTTGTCATATGCTTATTGTTGCGGAAGACAGTTCCATTTATGCAATATGTTCAAGCACATCAAGCAATTGTAAAGAAGCTAGTTGATCTGATAGGAATTACTTCCATCATGGAGGTTTTGATAAGGCTTCTTGGTGCTGATGAACATCTGTATTCAAGCTATGCAGAGTCGATGAAGTGGATTGAAGAGACTGATGTGCTGGAGATGATAGTGGACAAGTTCAGTTCTTCAGATTGTTCAGAAGTTCATTCTAATGCAGCAGAAACACTTTGTGCTATCACTCGATTTGCTCCTCCTGGTCTTTTGGCTAAAATTTCCAGCCCAAGTTTTGTAGGAAGATTGTTTTGCCATGCCTTGGAAGATTCACGGCCAACGTCTGTTTTAATAAATTCGTTATCAGTGTGCATATCCTTGTTAGATCCTAGGAGACTAACTGCTGGAACAGCTTATTCATACAACCGCCAAATAGCACATGGATCTACTGTTTCAGCAACTATGGAAACTGTAGAAGGCATGTTGGAGAGTTTAGGTAGGTTGCTCAAGCTTCTGGATGTTTCTTCATCAGATAAAGTTTTGGTTACTACATACGGAAAGTTACAGCCACCTCTTGGGAAACATCGTCTGAAGATTGTAGAGTTTATATCGGTGTTACTCACGGTGGGTAGCAAGGCTGCAGAGGAGTTGATTAACCTTGGAGCAATCAAACGTATTTGGGATTTGTTCTTTGAGTACCCGTACAATAACTTTCTGCATCACCATGTAGAGAATATTGTAGTGTCATGTTTAGAGAGCAAGAATTCTTCACTTGTAGAGCACCTTCTTCATGAGTGTAATCTTGTGGGGAAGATACTGAACGCAGAAAAGCATTTCACTTTGTCAGTTGATGCGAACAAGCCAACAGTTTCTGCAGAAGGCAGATCGCCACCTAGGATAGGGAACATTGGCCACTTAACACACATATCTAACAAACTTGTTCAACTGGCAAACAACAGTAGTGAGATTCAATCTCATTTGCAGGAAAACACTGAATGGAATGACTGGCAAACAAATGTCCTTTTGAAGCGTAATGCTTTGGAAAATGTCTACCAGTGGGCGTGTGGACGCCCAACAGCACTGCAGGATCGAACTAGGGATAGTGATGATGATGATTACCAAGACAGAGACTATGATGTTGCAGCTCTAGCTAATAATCTGAGCCAGGCTTTTCGATATGGCATTTACAGCAATGATGATATGGACGAGGCTCATGGCTCACTTGAACGTGATGATGAG MASNCRAQHRLFVETILDKENFTLEELLDEDEIIQECKALNSRLINFLRDRTQIEQLIRYIVEETPEEAEKKRSFKFPFIACEIFTCEVDIILKALVEDEELMNFLFSFLEPKPSHSTLLAGYFSKVVICLLLRKTVPFMQYVQAHQAIVKKLVDLIGITSIMEVLIRLLGADEHLYSSYAESMKWIEETDVLEMIVDKFSSSDCSEVHSNAAETLCAITRFAPPGLLAKISSPSFVGRLFCHALEDSRPTSVLINSLSVCISLLDPRRLTAGTAYSYNRQIAHGSTVSATMETVEGMLESLGRLLKLLDVSSSDKVLVTTYGKLQPPLGKHRLKIVEFISVLLTVGSKAAEELINLGAIKRIWDLFFEYPYNNFLHHHVENIVVSCLESKNSSLVEHLLHECNLVGKILNAEKHFTLSVDANKPTVSAEGRSPPRIGNIGHLTHISNKLVQLANNSSEIQSHLQENTEWNDWQTNVLLKRNALENVYQWACGRPTALQDRTRDSDDDDYQDRDYDVAALANNLSQAFRYGIYSNDDMDEAHGSLERDDE Homology
BLAST of Bhi03G000139 vs. TAIR 10
Match: AT1G30470.2 (SIT4 phosphatase-associated family protein ) HSP 1 Score: 810.8 bits (2093), Expect = 6.6e-235 Identity = 407/540 (75.37%), Postives = 472/540 (87.41%), Query Frame = 0
BLAST of Bhi03G000139 vs. TAIR 10
Match: AT1G30470.1 (SIT4 phosphatase-associated family protein ) HSP 1 Score: 806.2 bits (2081), Expect = 1.6e-233 Identity = 406/542 (74.91%), Postives = 470/542 (86.72%), Query Frame = 0
BLAST of Bhi03G000139 vs. TAIR 10
Match: AT1G30470.3 (SIT4 phosphatase-associated family protein ) HSP 1 Score: 722.2 bits (1863), Expect = 3.1e-208 Identity = 375/542 (69.19%), Postives = 431/542 (79.52%), Query Frame = 0
BLAST of Bhi03G000139 vs. TAIR 10
Match: AT3G45190.1 (SIT4 phosphatase-associated family protein ) HSP 1 Score: 662.9 bits (1709), Expect = 2.2e-190 Identity = 333/541 (61.55%), Postives = 432/541 (79.85%), Query Frame = 0
BLAST of Bhi03G000139 vs. TAIR 10
Match: AT1G07990.1 (SIT4 phosphatase-associated family protein ) HSP 1 Score: 659.4 bits (1700), Expect = 2.4e-189 Identity = 336/541 (62.11%), Postives = 425/541 (78.56%), Query Frame = 0
BLAST of Bhi03G000139 vs. ExPASy Swiss-Prot
Match: Q8R3Q2 (Serine/threonine-protein phosphatase 6 regulatory subunit 2 OS=Mus musculus OX=10090 GN=Ppp6r2 PE=1 SV=1) HSP 1 Score: 224.9 bits (572), Expect = 2.2e-57 Identity = 169/594 (28.45%), Postives = 294/594 (49.49%), Query Frame = 0
BLAST of Bhi03G000139 vs. ExPASy Swiss-Prot
Match: Q5F471 (Serine/threonine-protein phosphatase 6 regulatory subunit 3 OS=Gallus gallus OX=9031 GN=PPP6R3 PE=2 SV=1) HSP 1 Score: 223.8 bits (569), Expect = 4.8e-57 Identity = 175/575 (30.43%), Postives = 288/575 (50.09%), Query Frame = 0
BLAST of Bhi03G000139 vs. ExPASy Swiss-Prot
Match: Q7TSI3 (Serine/threonine-protein phosphatase 6 regulatory subunit 1 OS=Mus musculus OX=10090 GN=Ppp6r1 PE=1 SV=1) HSP 1 Score: 221.5 bits (563), Expect = 2.4e-56 Identity = 161/518 (31.08%), Postives = 268/518 (51.74%), Query Frame = 0
BLAST of Bhi03G000139 vs. ExPASy Swiss-Prot
Match: Q922D4 (Serine/threonine-protein phosphatase 6 regulatory subunit 3 OS=Mus musculus OX=10090 GN=Ppp6r3 PE=1 SV=1) HSP 1 Score: 220.3 bits (560), Expect = 5.3e-56 Identity = 153/512 (29.88%), Postives = 263/512 (51.37%), Query Frame = 0
BLAST of Bhi03G000139 vs. ExPASy Swiss-Prot
Match: O75170 (Serine/threonine-protein phosphatase 6 regulatory subunit 2 OS=Homo sapiens OX=9606 GN=PPP6R2 PE=1 SV=2) HSP 1 Score: 218.8 bits (556), Expect = 1.6e-55 Identity = 159/504 (31.55%), Postives = 258/504 (51.19%), Query Frame = 0
BLAST of Bhi03G000139 vs. NCBI nr
Match: XP_038881900.1 (serine/threonine-protein phosphatase 6 regulatory subunit 2 isoform X2 [Benincasa hispida]) HSP 1 Score: 1052.7 bits (2721), Expect = 1.1e-303 Identity = 538/538 (100.00%), Postives = 538/538 (100.00%), Query Frame = 0
BLAST of Bhi03G000139 vs. NCBI nr
Match: XP_038881899.1 (serine/threonine-protein phosphatase 6 regulatory subunit 2 isoform X1 [Benincasa hispida]) HSP 1 Score: 1052.7 bits (2721), Expect = 1.1e-303 Identity = 538/538 (100.00%), Postives = 538/538 (100.00%), Query Frame = 0
BLAST of Bhi03G000139 vs. NCBI nr
Match: XP_004134561.1 (serine/threonine-protein phosphatase 6 regulatory subunit 2 [Cucumis sativus] >XP_011658318.1 serine/threonine-protein phosphatase 6 regulatory subunit 2 [Cucumis sativus] >KGN49455.1 hypothetical protein Csa_003849 [Cucumis sativus]) HSP 1 Score: 1015.4 bits (2624), Expect = 1.9e-292 Identity = 518/538 (96.28%), Postives = 527/538 (97.96%), Query Frame = 0
BLAST of Bhi03G000139 vs. NCBI nr
Match: XP_022146511.1 (serine/threonine-protein phosphatase 6 regulatory subunit 2 [Momordica charantia]) HSP 1 Score: 1015.0 bits (2623), Expect = 2.5e-292 Identity = 517/538 (96.10%), Postives = 527/538 (97.96%), Query Frame = 0
BLAST of Bhi03G000139 vs. NCBI nr
Match: XP_008439556.1 (PREDICTED: serine/threonine-protein phosphatase 6 regulatory subunit 2 [Cucumis melo] >XP_016899299.1 PREDICTED: serine/threonine-protein phosphatase 6 regulatory subunit 2 [Cucumis melo]) HSP 1 Score: 1013.8 bits (2620), Expect = 5.5e-292 Identity = 519/538 (96.47%), Postives = 527/538 (97.96%), Query Frame = 0
BLAST of Bhi03G000139 vs. ExPASy TrEMBL
Match: A0A0A0KI97 (Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_6G525410 PE=3 SV=1) HSP 1 Score: 1015.4 bits (2624), Expect = 9.1e-293 Identity = 518/538 (96.28%), Postives = 527/538 (97.96%), Query Frame = 0
BLAST of Bhi03G000139 vs. ExPASy TrEMBL
Match: A0A6J1CZK7 (serine/threonine-protein phosphatase 6 regulatory subunit 2 OS=Momordica charantia OX=3673 GN=LOC111015714 PE=3 SV=1) HSP 1 Score: 1015.0 bits (2623), Expect = 1.2e-292 Identity = 517/538 (96.10%), Postives = 527/538 (97.96%), Query Frame = 0
BLAST of Bhi03G000139 vs. ExPASy TrEMBL
Match: A0A1S4DTI2 (serine/threonine-protein phosphatase 6 regulatory subunit 2 OS=Cucumis melo OX=3656 GN=LOC103484319 PE=3 SV=1) HSP 1 Score: 1013.8 bits (2620), Expect = 2.7e-292 Identity = 519/538 (96.47%), Postives = 527/538 (97.96%), Query Frame = 0
BLAST of Bhi03G000139 vs. ExPASy TrEMBL
Match: A0A5D3CT01 (Serine/threonine-protein phosphatase 6 regulatory subunit 2 OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold255G009530 PE=3 SV=1) HSP 1 Score: 1012.7 bits (2617), Expect = 5.9e-292 Identity = 518/538 (96.28%), Postives = 527/538 (97.96%), Query Frame = 0
BLAST of Bhi03G000139 vs. ExPASy TrEMBL
Match: A0A6J1IIS2 (serine/threonine-protein phosphatase 6 regulatory subunit 2 isoform X1 OS=Cucurbita maxima OX=3661 GN=LOC111477833 PE=3 SV=1) HSP 1 Score: 1006.1 bits (2600), Expect = 5.5e-290 Identity = 515/538 (95.72%), Postives = 525/538 (97.58%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Wax gourd (B227) v1
Date Performed: 2021-10-22
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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