![](http://cucurbitgenomics.org/sites/default/files/styles/slideshow/public/carousel/101322_web.jpg?itok=EG-G51x6)
Spg009839 (gene) Sponge gourd (cylindrica) v1
Overview
Sequences
The following sequences are available for this feature:
Legend: polypeptideCDSthree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.ATGCATTACTGGGTGAAAGCTTCTCCCTCTGATTTCAGTGGAACTCTTCCCAGACCTCGCAGGCATTTATCTCTTTCTTCGTGTGCGAATTCTCTACGATTTATCTTTGCAATAATTGTTACGGATGACTACTTCTTTGGAGTTTCAGTGGCCACTCTGCGGTTAGCATCGGGAATTCGAAGGTCGTCGTGTTTGGTGGCCTCGTCGACAAGAAATTTCTGAGCGATATCGCTGTTTATGACATCGGTACTTCTCATTTCTGATGGTTTTTTACTCTCTCATTTCCTTTTTGTCATCGGAATTGTACTTCTCTGTTACGTTCTTCCTCGTTGTGTTCTTAATTTTGTTCAAATTGTTCTTTATGTGATTGTTTTTATAGTTTGATCGACCTTTTATTTATTTATTTATTTTTGGTGTGGTTTGGAGTTGTATTTTGTGTAATAAACACGATTCTTAATTCCGCGTTTGTAATCTTATGTTTTGTTGATATTGTAATTCGATTTTACAGAGTGCGGAGTTATATAATTATTAGATGGATTTCTTCGTTGCTAATGCCTACACATTTGGCGTACGGAGATTTATTCACTAGAATTTTTGCGATAGCTGTAGAGATCGGTTAGGTTGAAGTCTTGGTGTAAACGATAATGATAGAAGGAGATATTCGTTAGTCTAGCTACTAGGATAACGATTAAATGGTCTAATGAATTTTATACCTGAGAAAAATTCGTAGGCAAGTGTGCGATTCTTTCATTCAGGAAGAATTTATGTACTGTTTGTCTGGAATTGGTTTAAGAAAAAAAAAAAAATCTAGAAGGAAGCAAATGGACGGGTGTTGAAGGTCAATCTCGTTCCTACTTGTTATGCAGCTATTGTCTTCATTTTACAACAGAGTTGCTGAGGAAAATGTTGAAGATCAAATACTAACCGTAATTCACATTGAAAGCATTAGATTTACGCTCATATTCGACTATGTTGACTTATATGATGAAAGTACCTCGATTTAGATCAGATGTTTTATTTTAGAAATGGATAGGCGTTGGCTCAGATCATGGATTGATCAAGGATTTCATCTCTCAAAAAGATTTAGATGTTGGCAGGGAATTTATTAGAGTACATAAATTAGAAGAATAGTGAATGTAATTTGTTGTGGAAGTAAATTTAGGTTGCTAGATTGAGATTAAGCTACGCAGTTCAGTTCATGAAGTCTTTGATTTTGTTTGTATACTGCACAATATTAGGTCATTTGAATGAGTTAATTGTGGTAGATTCTTACCTATGTAATCATGGTCCTATTCTATTCATGCTAATCAGATTTTAGAGTGAAAGCAAAAGTTATAGTGGTTTTACTGTTATTAGTTTGACTGTAGCTGTACTCTTACTCTGATATTTACTGCAGAAAATAAATTATGGTTTCAGCCAGAATGCACTGGCAATGGCTCAAAAGAACAAGTTGGTCCGAGTCCACGAGCTTTTCACATTGCAGTTGCAATTGACTGCCACATGTTTGTTTTTGGTGGACGTTCAGGTAGCAAAAGGTATTCACTCCAAGAAGATAAAAATGTAGGAATGCTGTGATGTTTCCGTCACTTAGTTCAGGTGTACTGTGTAATAATAGAATGAGGACAATCATCTATATCTAGAAGTTTGATTATTATATTGTCTACTTTTTGATATTTGATTCTAATCTGGTAAATATTTAGCTTTCTTATTAATGTTTGAATTTCTTTTTGTGAGAAACATAAATTGTTGTTAAAGAGAAAAACAAATGCGAGAGTACGGGAAAATAAGACATCTTCCCCAGCCAAAAGTAGATGGAGACTTGAAGAGTACTCTACAGTTTGTATTAATAGAAAGGGGAGTAGTTACAAAGTTCTTAGATAAAGAACTTCCAAGAATAGACCAAAAAACATACTAGCTCCAACAATCAATGGTATATATCAAGTATCAACTCTGAAAAATCGTACCAAATACTTCCAGCTAAATTTCCCTAACTCGGGAATTACTGAACAGTTTTATTACCGTTACAATGGTTTCCCATGAATTTGAGGACCATGGGCTTTCCTGTTCTCTGGGTTTTTCCTATCCAGTCCTGTACTTCCTTCTCCCTTTTTATACTGAAGCTATTGGGCATTTTCTGAGTAACAACTACAATTGTCAGCTATAACAGCCCCCAATTCCAGCTAACTTACTACCTTCACTTAACAGCTACCAACCCTGGTAACAATTCTCCATCCTATATAGACATGTATACCTTATTATTGGTGATCTTTCTTTCTCATAGATTCTTGCTGCTCAAAATTTTACCCTGCCCTCAAAGTGAAATCAAGGAATGGATAACTGAGAACAACTTCCAATAAGCATCTGCCTTCGGCCAATTACACCATTGGATCAGTACTTCTAACTCTAAGGGTGCATGTTGAGAGTAGGTTGAATCTCTAAAATGAAAGCGAGTTGTAGCATTGATTTCAAGTTGGAATAAAGTTGGGGAGGAAGTATATGAGAAGAGTTGACACTTCAGCGGCTCATAACTAAGATGGTGTAGGAAGTAAATAATTAGTCTATGATTTTTTTATTTAGCTAATTAGTTTAGTTTAATTTTAATTGTAATTAATTACCTTATCTTTAAAAAATAATTATTTTATCAAAAAGTGAATTAGTGATTTAGGATGTATTTGTAGTCCCTTTAGGGACATCCAATCAAATTAGAACAATTTAGGATGTATTTGTATTGATCCCCTTACATGGTTCAGAAAACTGCTGCATCATTTTTTTTTTTTAAAGGCTGCATCATCTAGTTTGTTCCTCCACAATGAGAACTTTTGGTTTTTTTGATTAGAAGAAAAATGGAACTGAATATGGAGTACTTCAGTATATGTAATCGCTATCTTATAGTCCTCCTGATCTACACTCTAAATTACTCTTGATTCATCTTGTAATTTTCACAATACATGTACTGATACTGACATTGTATATGTAGGATGGGTGATTTCTGGGTTCTAGACACTGGTAAGGTTCTCTATTGTACCGAAGACTTGCAATTATAATGGACAGTAACTGCTATATTTGAAACTTAAACTACGTTTTCTATCCTTTGGCTCACCAATTCAACTTGTGTGTCTTCAAGATATCTGGCAATGGTCAGAGCTAACTAGTTTTGGTGACTTGCCTTCACCGAGGGACTTTGCTGCAGCATCTTCTTTTGGGAACCGTAAAATTGTCATGTGAGTATTAATATTTGCATTCTTCATCGCTGTTAATCCTTTCTTTTTATATGATAAATTCAAATATGCTTAAACTGAGTGCAGGTATGGGGGCTGGGATGGTAAAAAGTGGCTGTCAGATGTATATGTCCTAGACACAAGTAACTTCTGTGACTTCTGCCTCTTTAGTTTCTTTTTCATTTCTTCTGTTTGTTATCTCAAAGTTTTTTCTCCTTTGCTGTTATTCTTCTTCTTTTAAGTTATATTGTATATTATTCTGTAAGTTGGTCTTTTTTTTTTTTTTTGGTAAGCAGTGTCACTTGAATGGACTGAACTTTCAGTTGCTGGATCCCTGCCTCCTCCAAGATGTGGCCATACAGCAACTATGCTTGAGAAAAGGTTGCTTGTCTATGGTGGAAGAGGTACAGTCACGTGTAATATTCTCCCTACAATTGAGTTCTTAAACGATATTTTTCTCTGTTAATTACCAATTGCTCATTGAATATGTTTATATTTCATCAATGCGAGAGTGGTGGCATATAAGTACTCTGGTCTAGTGATGTGTGCTTTTTTTCCATTATGATCTTAGAAATGATGAATTAGTTGAAAAATGAATCTTGTACACAAATAAGAAGAGATGGAGAAAGATTTCGTATCATGTTGAGTGTTGCAAGTAATTTTGGAGAGGGAGATTTGATATAATGAGCGTTTGAAGCAATTGATCTGCTTTGTTTTCTTGTATTTGGCTGTTTAGCTGGCTTGGTTTAGCCCTTCCACATTAGGAACACTTTTGTTTTGATTAATATAATAGAGACTAAACCTGTGAAGTGAAGGATTTTTTAAAAAAATTAAAATCTAGAACTTTTCAATTGATTAATGCTGTTAGTAGGTCATTGTCATAAATGAGACAAAACTTATATGTAGGGCTTTGGCATTATTTGCTTTGTCTATGCTTTAATTTTATGTTTTCTTTGATCTTCTAGTTGCAATTGTTGGACATGTTATGACCAATCTCCTTTTATTCTGCTGCTGAAATTCAAAACAATGATCGGGTAACATACCATGATTCTAAATTGTGTTATCTGTACTTCTATTTATGGTGCGTACGATGGTGAGGATTTGGTGGACTGTGTTTACTGTTTTTTTAGGTGATAATAGGTGCATATGTAATAACTTACTGTTTACAGTGAGTGTGCCCTCGTTAGCATGACTTATTCTTCAATGAGAACATGAGCCAAAAAAAAAAAACATGAGCCTACAAAAGTGTGATACTGTGACCATGGCGGGAGGTTGTTTTAGGGCGATCTGTGTGTGGCTTTAAGAACAGGGGGGCATTATCCCTTTGGATCCCAGGCATTGGAGAATGATACAACAACATGAACGTATACCTTGTCTCTGTGCCTAGAAGAGGATAGAAGAAAAAATCGCTGAGAGGAAGAAAGGAAGAAGCAATAGGGAACTGAGGAATTTAGTCTCCATGATGAACTCACCGTAACTCATGCTCAAAAGTGTCAAGAGATCTACTTGTTCTTCATGTCAGTTTTAAGCTGAAGTGCAAAAGTTCTTGTAGGTAGGACTAGGAGGAAGTGAAATTTGATCAAGTATCTTAAATTCGGCCCTGCATTTTCATTTTCCAGGAGTCTGAGTCAGGAAGGTAGATGGAAGTATAGTCAAATCTCTTGCAACATTTGTTGTTCTTTTGTGGAATTCGTAGGGTTTTGACCAACATTCTTATTCCCTGGAATCAATCTTCCCTTTCAGTAAAAGGTTCTTTAACTTTCAACAGGCTAATGGTTTTCTTAATGAATTTCAAGGCATATTGGATCTGCCTTTTTTATCATGAAAGTAGTTTTTTAGGTAGAGAATAAAGCTCCTGCTGGTGTTAGGGTGACAACTTTAATTTGATAAGATGAAGCAACAAGAGATCCTCCAGTGGTAGAGTAACCTAGAGCATGCAGAGAATCAATAGGATCAACAAAGATCTTTGTTCGTTCAGAACTTTCTCATGAATGGCAACTGCATCTGGTTTAACAAGTGAGATCACTCAAGTTTCTCCCTTCTAGATAGATCGTTGTGTCACTTATGGTTGGCTGAACAATTTTATATGCTCCAGATTTTTAGAAAGTCTTGAGTTCTATTAGACCATTTTTCCATTATGCCTGAAACAGGTAATCTAAACAGGGTCCTTTTGCTTTAAATTTAAGAATATTTGGCTTTGCCATCGGCTAGGTTTCTTCACCATTTGAATTTAAAGATGATTAAGAGTAATTGAAAATGTTGGAACTTTTTTTTTTTTAAACAAGAAACACAACTTTTCATTGAAGTGATGGAAAGAGATTGATGCTAAAAAATACAAACTCCCAAGAGGAGTGAATTAAAACAGAGAAAATAAAACATTACAATAATAACTAAAAAGGATATGAAAAAGCATTCTAATTGAGGCAAATGTCCGGTAAAGAAAACCCCACGAACAACTTTGACAAAGAATACCAGGAAGAAGACTTTAAACGAGTTGATTCAAAGCGATCAATCCAAGAGAGTTGCTTGCTTTGGAAAATTCTTTGGTTTCTTTCCAACCAAAGTTCTGATAAAATAGCTTTCACCACATTAATCCAAATTAGCTTAGCCTTAGGGTTCAAGAAAGGACCGATAATAAGCTATGTAATGTTGCTTCTGAAAACGTTGGAAAAAACCCATTGAAGATAGAAAACCTCAAATAATTTGAACCGACAAAATCTAGCAAAGGAACAATCAACAAACACATGGTCGAGAGAATCTTCATCCCTAAAACATAAGGAACAAACTGAAGTCATAATACAATTAGAAGGAAGTTTCTTTTGCAAAATTTCTGATGTATTGAAGCTTCCATTAATCATAATCCATAAAAGGATATTGATTCTTTTTGGACTCTTAGACTTCCATATAGCCGAGAACAACTCTTTCTCCAAAGGCGACGATGATGCCAAATTCTGAGTTAGAGATTTTACAGAGAAAATACCAGAAGGATCAATAGACCATCACCTATAATCATCATATGTACCAATGTTTACAGCAGAAATGATCAATAATAATGACTGAAAATCATCCATCTCCTCATCCTTTAATAGCCTTCGAAAAGTAATATTCCAAGAACAGTGTGTCTACACTTGGTAACATGCCTTTAAGTCCTGTAGTTAAGTTATACCATTGTTATTATTATTATTATTTTCTTGAAACAACCATTGTTATTTATTGGTTGTATAAAGAAGCTATAGAATATTCATTTATAAGATTTTGGTCTTTCAAGATTCAGTAAAATATCTTTCTTCCATGCACCAGGATGTCTATTAAGAATGATGCTGGTACATTTTCATTGAACTTGCTAGCTTCTTACATTGTAAGAAATCATTATGTTGGGAGACAGATATTTGGCTTGCCTTTTTGTTCCAGACCATGTTATATATTAGTTGTCGGTTCTCACATGTGTGATGCTGATTTTAATTACTATAACCTAGAATTTGAAAGTATGAAAACTAGGAATTCACTATTTTATGCTTTGATTTTACAAAATTGAAAACTTTTTATCCAACCCATTTTCAAAATATCAAATGGATGGATAAAAATCTTTAGTAAGTCTTTCGTTTGCCTATAATTATATACATTACCATCCATATTATCTATGGAATTCAAACCCAAACTCTATTTATGAGTCATTTTTTTCATTTCATTGGTCCTTATTTCTTATTTCAGCATATCGATTTAGGTCTAATCTATAAGTTTTTTCTTTTTTCTACCTATACCCTTTTTGGTATGATACCTTAGTCCTTAACTATAGTTAAGAAAACTTGTTGCTAATACAACTGAATTATACTAACTAATGTTTTCATCATTTTAAATGAAGTTCTGTAAATTTGGGGTTTTCTGCTAAACTAATTGGCTCTTTTGAATTGACAGGAGGTGGTGGGCCAATACTGGGTGACTTATGGGCTTTGAAAGGACTCATTGAAGAAGGTCAGTTGTTGGTTGTTTTATCTTTTCTTATCACATTATCACATCAAAAGAATTTTTCTGCTTTTATAGTTTTTCAAATTCTACCTTATTTTTTTATGGCCATTTAGATCGTACGAGAAATGATGTTGTTTTCTTGATCTTGCTGATTTTCTATGACATTATTGTTTGAAGGTTAATGACACATTTATCCTCTGTGCTCAGGTTCTACACCCCAAATATCCATGGATGAGTGATTGACCATTAAGATATATGTGCTAAGATTTAATTTTCTTGCTTTCATTGTGAAGCTACATCTTTATTTGCATTGTTACGAAGTTCAATTTCGAGTTGTGGATCCTTGATCTTCATTTTAAGGATATCATATCCTACTTCTCTGTAATCTGTTTGTTCAATAATTTTTTTGTTTTCTTGATCCAAATATAGATGGATATGTGCTTTTATCTGCTCCAATGTTATCTGGTAGACTATCGTGTATTTAGTAGAAATTTTTTGAGGACATGCATTCTCTGATCATTTTAAATACATGGAAGGATGAAATCTGTTGGGGCAGTGTTGCTGTCTGCTTGGTTTCTTTGTTTGTAAAATATTTTGCATGAGGTCTAGAAGTTCAGGCTGGTATAGTTTCAGATGGTTTTTTTCCCTCTGTCTGAGGCCCAGTATGTACGAGTTTTTTTAGTCAGCTAATGAAATGTCTCTCTTTTTTGTAGAGAATGAAACCCCTGGATGGACCCAGTTGAAGCTTCCAGGTCAAGGTCCTTCTCCCCGTTGTGGACATACCATTACATCGGGTGGACATTATGTAATTACATTTTTCCAGAATTGTTGTTCTTTTTCACCTTTCTTGTTCGTACTTCACTTTGAAAGGGGTCTTGTGTATCTGTCGTGATAACTCTAGCATTTAGTCCTGTCAGTGCTATCTACTGATTGGCTTCATCAGAAATGAAAATTCTTAAGGAGCGCTCAAGTTTTAAACTCCTATTGGTGGCTAGGATATCATCTTTTATTATTATTTTTTAAACTAACAGACTTGTTTCCAAGAAAGTTTGTTTATTCAAAATGAATTAGACGCCAAAGAGCAAGGTGAAGGAGCATGGATCCTCCCTCTTGCACCTGAATTTATGACTGAATAGATGTTAGTGTAGGAAATCCTGAATGTTACTATGGATGCACAACTGGAGATTGAAAATGCCAAAAATCTTCAACCAAACTCCCTTGGAGCAATGTCAATTGGGGAAGAGATGATGTTGAATCTTTATTTTCACTATGAACTGTTAATTATCTTTCAGTAAATCTTTATTTTCACTATTAAGTATTAACTGTTAATTATCTTTCAGTAACGTGTTACATCATTTTACAGGGCTATCATTATTTCCTCTAAATTTATAGGCTTATAGCCTACCACTCTTCCATCAGTATTACTTCTACTTGATTATAAACCCCTTTTTGTCTTGACAATTTTACAGGGCTATCATTATTTCCTCTAAATTTATGGCCTACCACTCTTCCATCAGTATTACTTCTACTTGATTATAACCTCCTTTTTGTCTTGACAGCTATTGTTATTTGGAGGGCATGGGACTGGTGGTTGGCTCAGTCGCTATGATGTTTACCACAATGATTGCATTGTGTTAGACAGGGGTGAGTGCATCATTACTTCATTATGCTGCTAAAAGACAATTTCTTCTGCAGTTTTTATGTTCACACGCAAAGAGAATGCTATTTATTTAGGGGGCTGCTTTGGGGGTGGGTGAGGTTAGGAAGAAGAGGATGGTTATATGCTCAATGATTTTTTAGTTTGGGACTTCCTACGCTAACTTGTAAATATAATGAGAGAAATCTGAGGGAGAATAGGTTGTACACTCCAGTAATATCTTAAACTTGTCAAACTTTCCTGATATGATAGATGACCATCTTTGCTTCATCTATTGAATGGTTTACAGTTCTGTCGTTAGCATCCTTTTCCTTTTTGAAATGCAGTGACTGCTCAGTGGAAACGGTTGCCTACTGGAAATGAAGCACCTTCAGCACGGGCATACCATTCAATGAACTGTATTGGATCACGTTATTTGTTATTTGGCGGCTTTGATGGGAAATCAACCTTTGGCGATCTATGGTGGTTAGTTACTGAAGGTATTTAATTTCTTTTCAGAAAGCTGTTCACCCAATCTTGTCTGCATTGTTCGTTCATTGAAAGTTTGAAGTTTTATCGCTTTTATGCCTGTGTACTTTCCATTACTATATTTTGACGGTGAATCTGAAAGAGCCCTTTCCAACTTGACCTGCAAATAGTGAGGGTCAACAATTACAATTTATTTACTCCATGGATATAATGTTTTGCTGTTCTTTCTTGTTTTCTTTCTTGGAGTATTTTGCTCAATGAAAGTTTGGCTTCTCATTGGAAAAAAGAAATATATTGGCTTATAATAATACCTTAGGTGGTCTCTTCATTTAAATTTCCCCCCTCTGCTAACCGAGGGAAAAAAGAAATGCTCCTTCAAACTGTAGAGATACTAATGAAATAGCGTATGATTGATGATTCTGTAATTTTCTTTTTGTTGACTTATTAGTTTAATAGTCCTCATAAAGTATATTATGCCTTACAGAGGACCCAATTGTAAAGAGGTTGTTTTCCGCATCACCCAATGATCTCCCTCAAAATAAGGATTTGACATCGTTGAATCATGAAGATTCTAATTCCGCACACGAGGTATTGGAACAAAGCCTCACTTGATGAACGCATAGCCTTTAATTATGAATTCTTAGTTCTAGTAGGTTCATTTGCGATATTAGTTTAGCGGAAACATAACATTTATATTATTAAAGAGAAAAATTACGAAGATAACAAGAGGATAAACTTCCTCTTTACTAAGAGAGAGAATTACAAAAACAATACCACTAATGAAAATGGTCAGAAGTCAAAATTCTTTTTTTTCTTTAATCTGATAACTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGAAGAGAAACACATTTCATTGATAAATGAAATAAAGGAGAAAAACTCCAAACACCTAAAGGTGAATTACAAGAAAACTTTCCAGTTCGAAATCAAAAAAGAGAAAGTATAATCAGAGAACAAGTGTTTACATTTACACCAGTATAAAGCATAAAAAAGAATTAATTCCATGAATTTTGGAAAGGAAGAAAAAGAATCCCTAAATATTCTGCCATTCCTTTCTCCCCATAGATACCAAAGAAATACTCTGTTGATAGCAAGCCACAAAATCTTCGTTTCTCCATGAAAAGGGTGACCCACAAAGATAAGAGCTAGTGCATCTTGAATATTATTGGGTAAAACGGTGGACCACCCAAAAACATCAAGAATTGTTGCCCAATATCTGTAAGCAAAAGAGCAATGAAAAAAAAGATGTCCAGGATTTTCAGAACTAGCTGCACACATGATGCACCAAGATGGAGAAAGGTGGAAATGAGGCATACATTTCTGAAGTCGATCAGCTGTGTTTATTGCCCCAAGACTAAGCTCTCAAAGAAAAATTTTAATTTTCTTAGGATAGGAATCTGTCCAAATCACCTTATGAAGACCATTCAAATGAATATGATGGTAATCTCCAAGAGCTTCCATAAGTGATTTAACTGTAAAAGTATTGGATGGATCTAATGGCCAAGACCAAAAGTCATTACAATTTCGAAATCTGACTGAGGAAAAAAGATATGAGAGGTTGGTCTACTCTGCTGCTTCCAAATCATTTAAATTTCTTCGAAGATTCAGATCCCAAGCTGACTGTGTGGCAATCCAATTTTCACCAACCATACTCCTTGGCCGATTAGTTAAACGATACAGTCGAGGAAAAACTGTAGCAATAATTCCACAACTTAACCAAGAATCATGCCAAAAAGAAGTAGAAAGACCATTACCCAAACATTGATTAGCACGGGAAGATACAAGATCAACGGTAGAACATATAAATCGCCATGGGGATTTGTGAGAGCTTCTTTGAATAATTCTTGGCCAAAGACGAACCATCTCAGAGTTATAGTATTTAGCTACAATGAGCTTATGCCAAAGAGTATTATCCTCGTGTAGGAATCTCCAAATCCATTTTGCTAAAAGGGCTAAATTCTGATGCTGAAAATTACCAATGCCAATACCCCCCAATAATTTAGGAAGTTGCATTGTAGCCCAATTAAAATTGTGCATACCACCCTCGCCTCTGGATCCTTCCCAAAAAAATCACGAAGAAGCTTTTCAAGAGATCGTGCCACCTTCAAAGGTAATTTGAATAAGGAGAAGTAATAGATAGGCATACTAGAGAGAACTACTTGAGAAAGAGTATGACGACCACCTTTCGAAATATAAGTATACTTCCAACTATGAAGCTTATGATGAATTCTTTCAATAACCGGTTGCCAAAACTGATTTGTTTTGGAATTGCCACCTAAAGGCAAACCAAGGTATGTAGAAGGCCAAATCCCTTGCTTACATCCAAAAGTTGTTGTCAACCAATTCAATTCCGAATCATCTAAGTAGATCCCCAAAAACTCACTTTTGGCATAATTAATATTCAATCCATAAGCCATCTAAAAAATTTTGATAATATCAAATAAGTGAATTAAAGCATCCTTGCGATAAATGGAGAACAATAACGTGTCATCAGCAAATTGCAAATGATTCACACAAAGCTGAGAGTTTCCATCCGGATGCGAAACAATTCGACCCAAATTTGCAGCATGAGATAATAAACGGCTGAGGCAATCTGAAACCAAAATGAATAGAAAGGGGAAAGGGGATCCCCTTGACGAATACCTTGAGAGGGGATAATCTTACCTCTTGGCCTTCCATTGATAATAATCAAGTAGTTAACACTAGAGAGGCATCCATAAATCCATTTCCTCCATACAGTACCAAATCCCTTGGCATAAAGAATGGCATCCTGGAAGTCCCAATCAACTTTATCAAAAGCTTTTTCTAGATCCAACTTAATTATCGCACCTTTCTTACGAGAATTAGTCCAACCATCAATCATCATCCTGTTCAAACATTCTCAATATCTTCATATTCTTATTCAAAATTGTTATATCCACAAAAACCTTAAAATGTTCAAAGTTGCAAACTTCGATAATATCTTCCTCTTTCTGGGTGCTCCTCCCAAAAGTTTTCCTGCATAGTATAGACCTAGCTAGAATGAACCCCCTCAATGCATTGAACTCTGGGGAAGCCTATACTCAACACTTGCAAAATCACAATGAAGAAACATAAGTGATGATGAGGTCACTCTTAAAGTGTTACATGTTAATTTGCATTATTTTGTGGAGGCTTAGCAAAGCAATGCTTGAAATAAAAATATTTTAAACTACAGAAAGACACGTAAAGTTCAAGGGATATATAACCGGTTCTGCTTATTGTTTGTAGCCTTGATAATGAACTACTCTATTTTTCTCGCCAGTATGGATTGGACCCCTTATCTCCTAGCTGTTATTACCTGCTCTATTTTCAAATAGGATTTTTCTCTTATAAAAGGAAGGAAAAAAAAACTGTAGTAGATGTTTGAATGCATAAACTAATAGTCTTGAAGAATCTCAAATCACTCAAATTACTACTATCATGTTTTATCTTTACCTATACCCAAAATTGTTTCCTGTTGGTATTTGTAAAATACATTCCCATTACTTTAAACAGGATTCTCATGGGAGGCACGATGCAGTCGTAGAGTTAGGGAAAAGTTTGGGGATTAGTATCTCATTCTCTAATCCTGGAGTTCCTGTTGTAGGCGAGATGGAGGACAAAGAGTTCCTTAATCTAGCATATAGTTTAAGTGAAGTTAAACCTTCCATCTCTGGACAGATCACGCATATTGAGGTGAGTTGGTAGTATTTCGATGCAAGACCATACAAGTAGTTTATCTGACAGTTTTTCTTTTTTCCCTTTCTTGTGGAAGGCCACCCAGGCACTTCGGAACCATTGGAGGAACTCTAATCCTAGGTTAATTCCACTGAAAGAGCTTGGGCCCTTACTTCGTGATTACCAGCGCTTGATCACCCATAATTATTTGTAAGAATGAAGCATTACCACATATCAGATCTATTAAATCGTATAAGAGTTTTATCATTTTTCATCTCTTCAAATATGAGTCTGTTTTGTGTGTTTTGAAATCTCATTAATTCTATGTGCATTTGCATTGATTAATTTGATTTCTAGTGGCATCCATCTTCTTATAAGACTGTTGATGTGTAGAATAGGATGTGGGGTTTTTGTTTAGTAAGTCTTGATGATATTCATGATAACAGAAGGGAAAATTTTAGTTGATTTTTCCTATTTATTATTATTATTTTTTTACCACTATATCTTTTAGCTATATTTATGTTGGTGGTGTTTGGTATCATTATGAAATAATTGAACGTGATTAACATGAATATGCACCAACTTATTCCATTGAAATGAAAAAGATAAAAGAAACATGAAAATAAAGAGTTGCATCGCATTTGCTTTTTTAAATAACCATGTTTGTCTCCCGTAAAGTCATTATCAACTTTAACTCTAGATGGTTTTGCCGAGTTATATACACGATATGGTTTAGGTTACTCGGTAGTTGAACTGAATGAAGCTTGCAGTCAAGCTGAATACCAAATGTTATTGTTTATTTGGTAGTTGGTGTGATTTGTGAAAAGCATGAACACCTCTCCTAATTTTATTTTCATGTTGAAAATGATGGTCATTGTTGTTTAATTTATGTTGAAAATGACAGTACAAATGATGGACCTCATTCAGAATTCATTAGTACCAGTCTTTCTGGAAAAGATGCTTATCAATTTTACCATATTAACAACTTTCGTCAGGTATGAACAGTATGCTATGAAGTGGTAAACAGGTGAATGCTTTTATACGCTGTTGTCATGTTTGTGGTGTTCTCTTTTCTGGCATATTTCAACCTCAAATATTACTTTCACCTTAGGGTAACTTTACATACGGTACAACGTCACTCGGTCCGAAACAGACTCCCCCCCCAAATATGCCACTGTTTGATTTCCATGATAGGTGTAGGGAATGGTTCTTAAAATTCTCCAATATGATGGAATTTCCCTTGTGTTCTCGCTTCAAGCCCTACCTCTACATTCTCTTACCTCCTCAGTTAGTACAAGAGATATAAACACTATGAAGTTGAATTAACAGTTGCTCTTCAGAGATCAAATGACTGAAACTGAGGCCATACTCTTGAACATGGCTGTAATTACCACATTACGTGACAATGAAGTTTGACCGACTTAGAAGTTAGACATTAGATTTTACCAATTGGTAAATATTGGTTTCTAAGCATATACACTTCACACATTAAAATTTCAATATCTGAGAATTGTTTCAAACATCCTTTTTTTTCTTCCAATTGAATTTTTAGCTATCGTATTTTTTATTCCTTTTTTTTTTATTCTCGTCATTCTATTCAGGTCTGTTATGCAAAAATCCTTTTTTTTCTCTTTCCAACTTAACTTTTAGCCAACATAATTTTTATTCCTTTTTTGATTCTCAGTTACGCATGGACGATATTCCTAAGCTTCTGGCAGAGTACAAACGGCTTCGTCTACCTGAATGATGGTTTCAACGTATTTTGTAAGTCATCTGTTCGTTCATACACATTCTTGTAATTTGAGAGCAGAACATTTGCAGTCGAAATACGGTGCCTATCATGCATCTCATTTATCCAACCCATTCTTATAGGCATCAGTTGCTTGTGAAATGCATGATCTTTCGTCCCACCTTAATAAACTGTAAAAGAAGAGGGGGAAAAAGGATACTTTCTTTTTCCTTCAATTTCTTGCATGTTTATTTGTTATGGGTCATCTGTTTAATTTGCACGGGGTAAACCAAAACTATACCCTTACACTCGTTCGGCCCGTGCACAAATATCATCCCTGGTTTTGTTCATTAAGGCCCCGTCTGATAATCATTTGGTTTTTGGTTTTTGGTTTTTGAAAATTAAGCTTATACACGCATACTTTCACCTATGAGTTTCTTGGTTTTAGTATCAATCTCCTACCTTGTTTTCAAAAATCAAGTCCAATTTGGAAAAGAAAAAAAAGTAGTTTTCAAAAACTTGTTTTTGTTTTTAAAATTCAAATGCAACTTTAACTAGGATGAAAGTCATGGTAGGAAATCTAGGAGAAAACAAGCATAATTTTCAAAAACCAAATGGTTATCAAACGGAGCCTAGATTATAAGAGTTCGAGAAAGAGCAGTTTTAAGGGCTAGTCATTGTATGATAAAAGGATTGATAATATTATTGATTCTGATTATGATATTGATCAGAAAACTCTCTGCATTGCATAGGGATGATATGTCCTGCCCTGCATGTTTATTTCTAAACACTTTCTGAGACGCGTCATTTCTTAAAAATACAAGTTTAAAAAGAACAGAAAAAATAATCATTCATATTTTTTCGTTTAATATACTCGTCGATCAGTTCGTTGATTCTATATTCTTACTCAATTCCTCAAGCTTTTTCATCCTCCATCTCTCACTCTGACCCAGCAGCTGATAACAAGATTAGACGGTTGTTTTATAGACTGTTTGGTTGCCAAGAAAATGGAGGAAAAGTTACAGATGGGGTTTAGAATTATTATACCTCCATTAGTTTAGCCAGCAGCTGAGCTTTCTCGTTGCTTTTTTCGTTGAATATTTCCAGTACTTCTTTATATTCTTTTTCCTGTTACCATTTAGAAGAAATGATTTTCAACTTATATCTTCCCTTTTTAACTGAAACTTATGGTTATCAAATTAGTGTAGTTAGAACCAGAGTAAAACTTAAAATAATTGTACAAATGAAGATCAGATCTTAAAAAGAACTGAAAGTAAAAGAAATTCTTGACATTGAAGCACCTTCTTTTGGCAGATCTGTCCCAGTGATTTCAGTTCTCTCTTGGCTGTGTCTATTCTTTTTCGCACATTACCAACTTCCTTCCCCATTGGATCTCCCATTACCTCCAGCTCCTTAATCATCCACAACATCATTATAGTAATTTATTTATTTATTAAGAACATGCATATTGCTTTTTACTTTAATTACATTGGAGAGTTTATTTGATAGCAGACAGCTTGAATCCAATTATATGATAATTAATTGCTTTCATTATTATATTGTGTGCATGTAAGTTTCTTTTCATTATTTTGTGGATATTTTGGCGTTTCTCAGTAATATCTTTG ATGCATTACTGGGTGAAAGCTTCTCCCTCTGATTTCAGTGGAACTCTTCCCAGACCTCGCAGGCATTTATCTCTTTCTTCTGGCCACTCTGCGGTTAGCATCGGGAATTCGAAGGTCGTCGTGTTTGGTGGCCTCGTCGACAAGAAATTTCTGAGCGATATCGCTGTTTATGACATCGAAAATAAATTATGGTTTCAGCCAGAATGCACTGGCAATGGCTCAAAAGAACAAGTTGGTCCGAGTCCACGAGCTTTTCACATTGCAGTTGCAATTGACTGCCACATGTTTGTTTTTGGTGGACGTTCAGGTAGCAAAAGCTACCAACCCTGGATGGGTGATTTCTGGGTTCTAGACACTGATATCTGGCAATGGTCAGAGCTAACTAGTTTTGGTGACTTGCCTTCACCGAGGGACTTTGCTGCAGCATCTTCTTTTGGGAACCGTAAAATTGTCATGTATGGGGGCTGGGATGGTAAAAAGTGGCTGTCAGATGTATATGTCCTAGACACAATGTCACTTGAATGGACTGAACTTTCAGTTGCTGGATCCCTGCCTCCTCCAAGATGTGGCCATACAGCAACTATGCTTGAGAAAAGGTTGCTTGTCTATGGTGGAAGAGGAGGTGGTGGGCCAATACTGGGTGACTTATGGGCTTTGAAAGGACTCATTGAAGAAGAGAATGAAACCCCTGGATGGACCCAGTTGAAGCTTCCAGGTCAAGGTCCTTCTCCCCGTTGTGGACATACCATTACATCGGGTGGACATTATCTATTGTTATTTGGAGGGCATGGGACTGGTGGTTGGCTCAGTCGCTATGATGTTTACCACAATGATTGCATTGTGTTAGACAGGGTGACTGCTCAGTGGAAACGGTTGCCTACTGGAAATGAAGCACCTTCAGCACGGGCATACCATTCAATGAACTGTATTGGATCACGTTATTTGTTATTTGGCGGCTTTGATGGGAAATCAACCTTTGGCGATCTATGGTGGTTAGTTACTGAAGAGGACCCAATTGTAAAGAGGTTGTTTTCCGCATCACCCAATGATCTCCCTCAAAATAAGGATTTGACATCGTTGAATCATGAAGATTCTAATTCCGCACACGAGGATTCTCATGGGAGGCACGATGCAGTCGTAGAGTTAGGGAAAAGTTTGGGGATTAGTATCTCATTCTCTAATCCTGGAGTTCCTGTTGTAGGCGAGATGGAGGACAAAGAGTTCCTTAATCTAGCATATAGTTTAAGTGAAGTTAAACCTTCCATCTCTGGACAGATCACGCATATTGAGGCCACCCAGGCACTTCGGAACCATTGGAGGAACTCTAATCCTAGGTTAATTCCACTGAAAGAGCTTGGGCCCTTACTTCGTGATTACCAGCGCTTGATCACCCATAATTATTTTACAAATGATGGACCTCATTCAGAATTCATTAGTACCAGTCTTTCTGGAAAAGATGCTTATCAATTTTACCATATTAACAACTTTCGTCAGTTACGCATGGACGATATTCCTAAGCTTCTGGCAGAGTACAAACGGCTTCGTCTACCTGAATGA ATGCATTACTGGGTGAAAGCTTCTCCCTCTGATTTCAGTGGAACTCTTCCCAGACCTCGCAGGCATTTATCTCTTTCTTCTGGCCACTCTGCGGTTAGCATCGGGAATTCGAAGGTCGTCGTGTTTGGTGGCCTCGTCGACAAGAAATTTCTGAGCGATATCGCTGTTTATGACATCGAAAATAAATTATGGTTTCAGCCAGAATGCACTGGCAATGGCTCAAAAGAACAAGTTGGTCCGAGTCCACGAGCTTTTCACATTGCAGTTGCAATTGACTGCCACATGTTTGTTTTTGGTGGACGTTCAGGTAGCAAAAGCTACCAACCCTGGATGGGTGATTTCTGGGTTCTAGACACTGATATCTGGCAATGGTCAGAGCTAACTAGTTTTGGTGACTTGCCTTCACCGAGGGACTTTGCTGCAGCATCTTCTTTTGGGAACCGTAAAATTGTCATGTATGGGGGCTGGGATGGTAAAAAGTGGCTGTCAGATGTATATGTCCTAGACACAATGTCACTTGAATGGACTGAACTTTCAGTTGCTGGATCCCTGCCTCCTCCAAGATGTGGCCATACAGCAACTATGCTTGAGAAAAGGTTGCTTGTCTATGGTGGAAGAGGAGGTGGTGGGCCAATACTGGGTGACTTATGGGCTTTGAAAGGACTCATTGAAGAAGAGAATGAAACCCCTGGATGGACCCAGTTGAAGCTTCCAGGTCAAGGTCCTTCTCCCCGTTGTGGACATACCATTACATCGGGTGGACATTATCTATTGTTATTTGGAGGGCATGGGACTGGTGGTTGGCTCAGTCGCTATGATGTTTACCACAATGATTGCATTGTGTTAGACAGGGTGACTGCTCAGTGGAAACGGTTGCCTACTGGAAATGAAGCACCTTCAGCACGGGCATACCATTCAATGAACTGTATTGGATCACGTTATTTGTTATTTGGCGGCTTTGATGGGAAATCAACCTTTGGCGATCTATGGTGGTTAGTTACTGAAGAGGACCCAATTGTAAAGAGGTTGTTTTCCGCATCACCCAATGATCTCCCTCAAAATAAGGATTTGACATCGTTGAATCATGAAGATTCTAATTCCGCACACGAGGATTCTCATGGGAGGCACGATGCAGTCGTAGAGTTAGGGAAAAGTTTGGGGATTAGTATCTCATTCTCTAATCCTGGAGTTCCTGTTGTAGGCGAGATGGAGGACAAAGAGTTCCTTAATCTAGCATATAGTTTAAGTGAAGTTAAACCTTCCATCTCTGGACAGATCACGCATATTGAGGCCACCCAGGCACTTCGGAACCATTGGAGGAACTCTAATCCTAGGTTAATTCCACTGAAAGAGCTTGGGCCCTTACTTCGTGATTACCAGCGCTTGATCACCCATAATTATTTTACAAATGATGGACCTCATTCAGAATTCATTAGTACCAGTCTTTCTGGAAAAGATGCTTATCAATTTTACCATATTAACAACTTTCGTCAGTTACGCATGGACGATATTCCTAAGCTTCTGGCAGAGTACAAACGGCTTCGTCTACCTGAATGA MHYWVKASPSDFSGTLPRPRRHLSLSSGHSAVSIGNSKVVVFGGLVDKKFLSDIAVYDIENKLWFQPECTGNGSKEQVGPSPRAFHIAVAIDCHMFVFGGRSGSKSYQPWMGDFWVLDTDIWQWSELTSFGDLPSPRDFAAASSFGNRKIVMYGGWDGKKWLSDVYVLDTMSLEWTELSVAGSLPPPRCGHTATMLEKRLLVYGGRGGGGPILGDLWALKGLIEEENETPGWTQLKLPGQGPSPRCGHTITSGGHYLLLFGGHGTGGWLSRYDVYHNDCIVLDRVTAQWKRLPTGNEAPSARAYHSMNCIGSRYLLFGGFDGKSTFGDLWWLVTEEDPIVKRLFSASPNDLPQNKDLTSLNHEDSNSAHEDSHGRHDAVVELGKSLGISISFSNPGVPVVGEMEDKEFLNLAYSLSEVKPSISGQITHIEATQALRNHWRNSNPRLIPLKELGPLLRDYQRLITHNYFTNDGPHSEFISTSLSGKDAYQFYHINNFRQLRMDDIPKLLAEYKRLRLPE Homology
BLAST of Spg009839 vs. NCBI nr
Match: XP_008446772.1 (PREDICTED: acyl-CoA-binding domain-containing protein 5 isoform X1 [Cucumis melo]) HSP 1 Score: 999.2 bits (2582), Expect = 1.3e-287 Identity = 473/518 (91.31%), Postives = 492/518 (94.98%), Query Frame = 0
BLAST of Spg009839 vs. NCBI nr
Match: XP_038892382.1 (protein GLUTELIN PRECURSOR ACCUMULATION 3 isoform X1 [Benincasa hispida]) HSP 1 Score: 999.2 bits (2582), Expect = 1.3e-287 Identity = 474/518 (91.51%), Postives = 490/518 (94.59%), Query Frame = 0
BLAST of Spg009839 vs. NCBI nr
Match: XP_038892383.1 (protein GLUTELIN PRECURSOR ACCUMULATION 3 isoform X2 [Benincasa hispida]) HSP 1 Score: 990.3 bits (2559), Expect = 6.1e-285 Identity = 472/518 (91.12%), Postives = 488/518 (94.21%), Query Frame = 0
BLAST of Spg009839 vs. NCBI nr
Match: XP_022968559.1 (acyl-CoA-binding domain-containing protein 5 isoform X2 [Cucurbita maxima]) HSP 1 Score: 987.6 bits (2552), Expect = 4.0e-284 Identity = 471/518 (90.93%), Postives = 489/518 (94.40%), Query Frame = 0
BLAST of Spg009839 vs. NCBI nr
Match: XP_023542301.1 (acyl-CoA-binding domain-containing protein 5 isoform X2 [Cucurbita pepo subsp. pepo]) HSP 1 Score: 984.9 bits (2545), Expect = 2.6e-283 Identity = 470/518 (90.73%), Postives = 487/518 (94.02%), Query Frame = 0
BLAST of Spg009839 vs. ExPASy Swiss-Prot
Match: Q10AZ7 (Protein GLUTELIN PRECURSOR ACCUMULATION 3 OS=Oryza sativa subsp. japonica OX=39947 GN=GPA3 PE=1 SV=1) HSP 1 Score: 679.5 bits (1752), Expect = 3.0e-194 Identity = 326/516 (63.18%), Postives = 382/516 (74.03%), Query Frame = 0
BLAST of Spg009839 vs. ExPASy Swiss-Prot
Match: Q8RWD9 (Acyl-CoA-binding domain-containing protein 5 OS=Arabidopsis thaliana OX=3702 GN=ACBP5 PE=1 SV=1) HSP 1 Score: 112.8 bits (281), Expect = 1.1e-23 Identity = 84/317 (26.50%), Postives = 145/317 (45.74%), Query Frame = 0
BLAST of Spg009839 vs. ExPASy Swiss-Prot
Match: Q7M3S9 (RING finger protein B OS=Dictyostelium discoideum OX=44689 GN=rngB PE=2 SV=2) HSP 1 Score: 112.1 bits (279), Expect = 1.9e-23 Identity = 79/297 (26.60%), Postives = 126/297 (42.42%), Query Frame = 0
BLAST of Spg009839 vs. ExPASy Swiss-Prot
Match: Q9MA55 (Acyl-CoA-binding domain-containing protein 4 OS=Arabidopsis thaliana OX=3702 GN=ACBP4 PE=1 SV=1) HSP 1 Score: 110.5 bits (275), Expect = 5.6e-23 Identity = 100/407 (24.57%), Postives = 172/407 (42.26%), Query Frame = 0
BLAST of Spg009839 vs. ExPASy Swiss-Prot
Match: P80197 (Actin-fragmin kinase OS=Physarum polycephalum OX=5791 PE=1 SV=2) HSP 1 Score: 109.0 bits (271), Expect = 1.6e-22 Identity = 80/285 (28.07%), Postives = 122/285 (42.81%), Query Frame = 0
BLAST of Spg009839 vs. ExPASy TrEMBL
Match: A0A1S3BGP3 (acyl-CoA-binding domain-containing protein 5 isoform X1 OS=Cucumis melo OX=3656 GN=LOC103489401 PE=4 SV=1) HSP 1 Score: 999.2 bits (2582), Expect = 6.4e-288 Identity = 473/518 (91.31%), Postives = 492/518 (94.98%), Query Frame = 0
BLAST of Spg009839 vs. ExPASy TrEMBL
Match: A0A6J1I000 (acyl-CoA-binding domain-containing protein 5 isoform X2 OS=Cucurbita maxima OX=3661 GN=LOC111467750 PE=4 SV=1) HSP 1 Score: 987.6 bits (2552), Expect = 1.9e-284 Identity = 471/518 (90.93%), Postives = 489/518 (94.40%), Query Frame = 0
BLAST of Spg009839 vs. ExPASy TrEMBL
Match: A0A6J1G1P1 (acyl-CoA-binding domain-containing protein 5 isoform X2 OS=Cucurbita moschata OX=3662 GN=LOC111449847 PE=4 SV=1) HSP 1 Score: 983.8 bits (2542), Expect = 2.8e-283 Identity = 467/518 (90.15%), Postives = 489/518 (94.40%), Query Frame = 0
BLAST of Spg009839 vs. ExPASy TrEMBL
Match: A0A6J1HYD0 (acyl-CoA-binding domain-containing protein 5 isoform X1 OS=Cucurbita maxima OX=3661 GN=LOC111467750 PE=4 SV=1) HSP 1 Score: 982.2 bits (2538), Expect = 8.1e-283 Identity = 471/521 (90.40%), Postives = 489/521 (93.86%), Query Frame = 0
BLAST of Spg009839 vs. ExPASy TrEMBL
Match: A0A6J1G1M0 (acyl-CoA-binding domain-containing protein 5 isoform X1 OS=Cucurbita moschata OX=3662 GN=LOC111449847 PE=4 SV=1) HSP 1 Score: 978.4 bits (2528), Expect = 1.2e-281 Identity = 467/521 (89.64%), Postives = 489/521 (93.86%), Query Frame = 0
BLAST of Spg009839 vs. TAIR 10
Match: AT2G36360.3 (Galactose oxidase/kelch repeat superfamily protein ) HSP 1 Score: 688.7 bits (1776), Expect = 3.5e-198 Identity = 335/519 (64.55%), Postives = 396/519 (76.30%), Query Frame = 0
BLAST of Spg009839 vs. TAIR 10
Match: AT2G36360.1 (Galactose oxidase/kelch repeat superfamily protein ) HSP 1 Score: 688.3 bits (1775), Expect = 4.6e-198 Identity = 334/515 (64.85%), Postives = 395/515 (76.70%), Query Frame = 0
BLAST of Spg009839 vs. TAIR 10
Match: AT2G36360.2 (Galactose oxidase/kelch repeat superfamily protein ) HSP 1 Score: 688.3 bits (1775), Expect = 4.6e-198 Identity = 334/515 (64.85%), Postives = 395/515 (76.70%), Query Frame = 0
BLAST of Spg009839 vs. TAIR 10
Match: AT2G36360.4 (Galactose oxidase/kelch repeat superfamily protein ) HSP 1 Score: 687.6 bits (1773), Expect = 7.9e-198 Identity = 336/523 (64.24%), Postives = 397/523 (75.91%), Query Frame = 0
BLAST of Spg009839 vs. TAIR 10
Match: AT2G36360.5 (Galactose oxidase/kelch repeat superfamily protein ) HSP 1 Score: 681.0 bits (1756), Expect = 7.4e-196 Identity = 335/528 (63.45%), Postives = 396/528 (75.00%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Sponge gourd (cylindrica) v1
Date Performed: 2022-08-01
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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