Csor.00g001520 (gene) Silver-seed gourd (wild; sororia) v1
Overview
Sequences
The following sequences are available for this feature:
Legend: polypeptideCDSinitialstart_codonintroninternalterminalstop_codon Hold the cursor over a type above to highlight its positions in the sequence below.ATGCAAATTGGGCTTCCAACAGATGTCAAGCATGTTGCCCATATTGGCTGGGATGGTCCTTCTGCCAATAATCCAAGCTGGGTAACATTTTTATTTATTCCACTCCATAATTGCATCGAGTTATGATTAAATTGACGATTTAATAATCTCATGGTGGCTAATTTTTTCAGATGAATGAATTTAGTACGGCACCATCGATTACATCCGCTCCTTATAATCGTTCTACTTGTGCAAATATCAAAGACAAAAACGACGTTCCTACAAAACAGGCCGGTGAAGGTAAGCTAAACACTTTGATATTATTTTAGGGTTTGAGATTTGTGTCTATTTGATGTTACGAATTTATAAACAAAATGGTTTAGATGATAAGGAAAGTGGAGAGAAGGGTTCAAACAGCTCGCCGGACGTGCGGCCTAAATCATCAAAACACCGGTCGTCAAGTGAGTCTCCAACCAGCCATGAAAGATCAGAGAGACACAAAGCAAGACGGTCTTCCAAGTCAAAGGAGAGCTCCGACAAAAAACAAAGCAGCCGAGGAGGGGAGGAGCAGAATGAGTCGCCCAACTCGAGCCTCCCAGACATCCCAAGACACGGGCGGCGGAAGAAAACGAGCAGATCCAAGCCCCATGCTGCGGATACATACAAGTCCTCGCATTCGGATCCTGGTCCCAACTCTGGAACGGAATCCATATCTGTATCCCTGGAAACCACCATGTGTCAGACACCTTAGAATTCAAACCATTTTGACATATTTAATCATTCAATTCAATAATTCAATAATTCATAATTTTAAGTGTTATTACTGTATCAAACCATTTTAATCCAATCCAATTTAATTAAGCTTCTTTTAGCTAACCATTCATAAATTCTAAAATCGTCTTTAACCGAATCTAATTTTATCTATCACGTTTCATGAGATCCGCCATAAAAATTATTCATGAAGCTGCTATAACTTAATTATCTTAAAATCAATCCTAAGTCCGAGCCGGCTCAATTAGGTCGACAACCCACTGAACCGGTCTAAAATAGGTAAAACAAGCCACCAAGTTGTCTGGAGCTGCCATCAGCTGACTACAAGCTGACAGCTTGGAGACGAGCCGTTCTTGAGCTGCACGTGTGCCAAACGGATGAGCTATCGACTTGGAGGAGCTGGGATCATAAGCTGGTGTGAGAAGACAGCTTGGACGCGCGCCTAAGCTGAGGCTCCGAAATGATTGGGTCGTGCACGGGTCTAGCCCAACTTGGATTGGGCTGGCTACAAGTGTGTACGTGGGCTGGGCCTGATCGCATGCCTTATTGACTATAATGCATAATTCATACAAAATAAAAAAAAAATAATAAAAAATAAAATAACTATGAGTTTAAGCGGTAAATTAGGAGGGCGATAGTAGTAAAGAGCGGGTGAAAAAGTGATTAGTATTGTATTTATTCACTGTCGTGGCCTTCGGTCATACGGGGTATTGATTTGGTTTGGTTTTGGGTCAAATTTAGCGGCAAAACCAGAGTCTTCGAGTCAGCCGCGAGAAGTGGCGAGAAGAGACGATTCACTTACCAATTTCATCGTTCGAGTGTTCGTCGTTGATTCATTTTGTCATCAAATTTGTGAAACTTTTGAAAATGGCTATGGCGGGGTTGTATAGGCGGATTCTTCCTTCTCCTCCAGCGATCGACTTCGCTTCCTCCGAAGGGAAGGTATGTACTCGCTTGCTCTGTTATCTTTCATTTTTCTCGCCGTTGTTCCACTGGTGTTCATTACTATCTCTCCCTTCGTTAAAATTTAGTCTGTGAGTCCCTACTTTTCCTTTTCTGTAATGTGGATTTGAGTGTGTTCGCTAGTGTGCAGCATTTTATAAAATACTTCAATCTAATCCATGAATTTCTGTTAATGCTTCTGTTAATCGATTGCCGCTTTCCAGGCGGATAATTTTTCTGGTCGTAGGTTGCTTTTTGAAATCATGATTGTATACCAATGATAACTGAATCGAAGTCTCAAGAAACGAATGTGATGCACCTAAATAGCGAATTGAAGTTCTTGTTTTCTAGATTAGAAGTTATTTTAATGAGACGAGGGTTCGGATTGAATGTAAGTTGTTACACTTATAGGAAATTAATTTTGTAGTCATCATGTAAATCATTCCTCGTCCTTAGATATTGTGATGCCTACTGTGTTGCCAACGGATATATTTCTGAAGTACAAAAAATAATTTACTTTGATCACTTCATATCTTGCCTCAATTCTCTTTTCGTACGTCGTTTATGAATATTAAATAATTGAAACGTTTGTATATATAGCCATCTGAACACAGAGTTTGTTTGGTTATGATCTTATGAAAATAATACCCACTTATTACAATCTTTCCTTACAACTTAAAACGTTTGAAATTGGGATTGCTCAACCGATCATTTATCCAGCACAATCAGTAAAACGAAAATATTGACTCCCACTAATTATATGCATCATTTGTAACTGCAGCAACTCTTCATAGAAGCTGTTCAACATGGGACTATGGAAGGTTTTTATAGGTTAATCTCTTATTTTCAAACACAATCAGAGCCTGCATATTGTGGTCTGGCCAGCCTATCAATGGTATTAAACGCACTTGCCATTGATCCAGGAAGAAAATGGAAAGGTACTGTGAGAAGTTTTTGCCTCCGTTCATTTTATAGATAAGATGTGCATTTAAACGAAGTCTATTAAGGAAACCTAGTTGAATCATTGATGGGATAATTCCAAACGAAAGGGAGCTAAATCTGTTTTGATAGAATCTCTTAAGAAGCATCGGTATATGAAAATAATGACAGTAAAACTGCTGAGTCTGGTATGGCCTTTGGGAAATGAAAATAAGGGCATCCAAATGACTAACCAGATTATACAACATTATCAGTAGTATTTATCTCGTGTTGATGATGTAGACCATTACAGAGGTATGGGGGGACATTTGAGGGCTTTCTGCTCGGCTTTCAGAATTTTCAGCCAATTTCGTCTTTTTCTTGTGCCCTTTCATTTATGTTTTATTCTCCTGTCTAGTCTCTTTCGCTTTTTAGTCTTCAATAAAAAGTTCTGTTTCATGTTACAATAATTATTAAGGAATTCCAATTAATAAGAAGAAGAAGAAATCATTGAGCTTGGCTAAGTTGAACTACCTTCCCATTCCTTAGCTTTTGTTTACTGAAACTTTATGGCCATCCTTTTATTTTCATGTTGATCACTATATTAATTTGAGCGTAGTCAGTAAAAGGGTATTCATACTTTCTATTTTTGTGAAAGGACCTTGGAGATGGTTCGATGAATCTATGTTGGATTGTTGTGAACCATTGGAAAAGGTAAAAGCTAGAGGCATCTCATTGGGAAAACTTGTATGTCTGGCTAACTGTGCTGGAGCAAAAGTCCAAGCCTTTCGGACAAACCAAAGTACTATAGATGATTTTCGCAAATACATACATAGATGCTCCACTTCTGATGATTGTCATATCATTTCGTCTTATCATAGAGCAGCATTGAAACAGGTTAGTGTTGATATGTTTAATACTTTCTTTTCACAATTTCTCACTTATTCATTGGTTAAGGTGCTTTTTCAATTCACAATAATGATCAAAGAGATATGTTGGATCATTACAGTAGGTAACAAAGCCTGTAATGTGAGTATCCTCAATTTGACAATATACTCCTAAATCTTGATGCAATGAACTTTATTGGCTTAAAGAATTGATAAACATTTGTTCTTGTCGTGCAGACAGGAACTGGTCATTTTTCGCCTATTGGTGGCTATCATGCTGGGCAGGACATGGCACTTATTTTGGACGTTGCACGCTTTAAGTATCCTCCTCACTGGGTTCCGGTCAAACTTCTTTGGAAAGGTATGGAACACGTGGATGAAGCAACAGGACAACATAGAGGGTAATTGGCTTTGTGCTTGAATGAAATGCTTGTATCTAATGATCACAGACAAATAGGCACATATAGGGGAGCATATCTTAATTGTTTCAGTCCATTGGTTGATCTGCATTATTCCTTCTATTCTCTCTCTTTAATGTGAGCCGTTATAAAAGGTTCATGTGAGATTGAAGAAGGGGCATGCACAGAATTTTTAAATTTTATAAAATCTTATAAAAGTCTCGTTATATAAAATCATCTTTTATTATATTTTTTCAGACTATTTCTTGAGGCATACTCTTTCTCTATCAATAATAACAAGAAAAACATGTTTAAATAAGTAATAATGTCATTCTCGAAGTCTTTATACAACCCAACATAGAGTTCATTCTAATGATGAAATGAAAGGGTACGTACTTGTTTGATATTCGGCAATGATCTTGAGAGGAAATTAACAAGATTCCTACATGAGATATAATATGATCATAATGGATATGCGATTTGTGAATACAGCTGTTGGATGAAAATTATTCGGCTAGATTTTGTTGTCCTTTATGAACTTCCCGCTTGTACTTTTGTAGTTTAGGTTTCTGATGAAATAGAAGTTACTTCGCTGTATTAAAGGAGGGAAATAAATTATCTTGAATTTCTTAGTTGGAAAAATGTAAAATGAGTGGAATTATCAACTACATGAATAGAATATCAAAGGACACAAATTTTCTTGACTGTCAACATGGAGGAATTTAATGATATGCCGCTTTGAAAGCATTTCTGACCTTTGGTTTGGCTCCTTTTTCAGTTCACTTTCTTGTTTGGTGTTGCATTATGAGTTCGAAGGAAAATTCTTGATGCATATGTAAATAATGAGATTAGCATTTGATGGATTTATTGGTTTATGAAGTTCATCCTACTTCTTGATAAGATTGCGTCTAGTCAATTATTTCCCTAATGTTGCTCGTACCTGTTGCAAATAATATGCATTTACCTTTAAACCTTTGTTTTCCTTTGCTCATCAGGTTCATGCTTATATCTAGGCCGCACAGGGAGCCAGGATTGCTCTATACTCTGGTGAGATGACAATTTTATGATTTTTAAGTTTACACATAGGTGAGAGAAACAAGCACAAGCACCAATGTAGGCACTTTTCAACACATGGTTTATTTTTTCTACTTTTCTTCCATTTTTCTTGCGTGATGAACAGATAGTCACCAAAATAATTTGAAATAACTATTTCCATGACATATTTATATTATGAAGGTGCTTGTCTGTCAAATTATTTAGTGACAAGCACATTGACAAAATCAAGAGGCCAGAAGATATCTTATTCCCTATGATCCTCGTCTGAGTCAATATTGGTATTACTAATTGTGATCAAGATGTTTTTTATATGATAACCCATCAAATCCCAATTAGTTAGGTTGAAGGATTTTTTCTTTTTTTTTTTTTTTTTTTTTAAACTATAGTACTCTTTTTCTGTGATTTGTACGCATGCTAATTTTAAGAGCCTAAGAGGTATATTCATTTATGACCATTGTTTATGGAAGCTGCAGGTTCTTTTAGTTACCTCTGTTGTGTGCCGAGCAGAGAACATAAACAATTGGATCTCAAGTACCATTTTATTAATTCTAAGCAATAGCCTTTACAATCAGGTTGAACCTAAAAATATCAGTAGAAAGGAACTTAAAATCCTAAAGAATAGGACTAATTCGTCCTAAAGGATAGGACTCCCTAAACCAGAACTATATCAACTATAGAAGACCAGACTAGTAACTCCAAACAAAACTCTCCCAAATCCCAATATCAAATTCAGATATCCTCAACCTCCTAGACACACCCTTTATATAGGGACAATTGTTTGGATCATCAAACGTTATGGAATTAAATAAGATTAATATTAAAATGGTTACAAAATTAATAACCAAATCAATAATATTTTTACTTAATCAACCGTTACAAATTGATGAGAGTTAATGACTAAATTAAGTAAAAAACTTATGACAATTTACAACAATCTCCACCTTGTCATAAGATCTCAAGTTTAACTGATTTGGTTGCCACCACCTCAAGCCTTGATACGTATGCCAAAAAGAATTTTCTTTTTCTTCATAAACCCATTTATAACCAATTTCCTTTTTACCTTTTCGGAGTTGTACCAAATCCCAAGTTTGATTTATTTGCTGATTCATATTCTCTTGCAAGTGTAAGCTATTCGGGTTCTGAATAGCATCTTTGTAACTGTCGAAAACTCCATCAATCATAGAGAAAGCATATGCTATCGTATCATCAAACCTTGCAGGTTTTCGAATTTCCCTTCGTGGTCTATTTCTGGCGATAGACTCAAGTTTCTCCACTCTTTTATTTACAATATAAGGCTTTGCTCCTCCTGTTCTTAGACATTAGAGTTATTATCTACCTGATCAATAGGTTCTTCAGTAGAAGCAACCATATCAGGAGAGAACACCACCTTCTCCACCTGCTTCAATGTCTCGTCATTATTTTCAATTTTCTGCAAAAACATTCCAGACTCATCGAATGTCACATCTCGACTACTAACAATCTTACTTGTTTCTGGACACCATAACCTATAGCCCTTCACGCCTTTGTTAAAACCCATAAACTTGGCTTTTTTTGCCCTAGGATCCAGCTTTGAGTCTGTCACATGATAATAAGCAGAACACCCAAACACATGCAATTTATCATAATCATTAACAGGAGTACCCGACCATACCTCAAGCGGAGTTTTCCCACCATTTCCAGAAATAGATAAACGATTCACCAAGTGAACTGCATAACTGAGAGCCTCAGCCAAAATGCCTTACTCAATCCTGTTTGAGACAATATGCATCGAACCTTCTCTATTAATGTCTGGTTCATTCTCTCAGCAATTCCATTTTGTTGTGGCTTACCAGGAACAGTGAAGTGTCGAACGATCCCTTCATCTCAGCATACTTTAAGGAATGGATCATAAGTATATTCTCCACCGTTGTCTGATCTCAGCTTTTTGATTTTCCTGTCCGTCTGATTCTCTACCATTTTCTTCCACTCTAGAAAGATTTGGAGAACCTCGTTTTTTTGCCTCATGGGATACATCCAAACTCTCCTCGAGTAGTCATCAATAAAGGTGACAAACCACCTCTTTCCTCCCATTGAGACATTCTTCGTGGGACCCCATACATCAGTGTTTACATAATCCAAAATGCCCTTTGTTTGGTGTATAGCTGTACCAAACTTCACATTTTTTTGTTTACCAAATATACAATGTTCACAGAAATCAATTTTACCAGTTGTGACACCCTTAAGGACTCCTTGGTTCACCAATGTCTAAAGCACCTTCTCACCAGCATGCTCAAGTCTCATGTGCCATAATTTCGATATGTATTGTTCTTTCGAACTTGCCACAACAGCATGCCCAATTATTGTGGTTCCGTTGAGGTACTATATGGCAGTGGGAACATTTGAGCTAGAGTCTTGATATGCCTCCTTTTCCTTCTTTCGCATCTCATTATTTATTAAGACATTTGAAACATCTTCAAAATCAATATCAGTGATTCCATCAATAAAAATGTACTTGCAAGATGATGGGATCGGCTTAGTACAAATCAAGATGTTTGATGGGGTTATACGAAAACTCAATGATGTGAGGTATGTCCCTGACTTGAAAATAAATTTGATTTCCCTTGGCGTTTTGGATGCGAGTGGTTATCGTATCATTTTGGAAGGAGGGAATTTGAAAGTAGCTCGTGGAGCTTTGGTGACAATTAAAGGAACTAGAAGAGGTAGCATATACTACCTCGACGGAACCACAATAATTGGGCATGCTGTTGTGGCAAGTTCGAAAGAACAAGACATATCGAAATTATGGCACATGAGACTTGGGCATGCTGGTGAGAAGACGCTTCAGACATTGGTGAACCAAGGAGTCCTTAAGGGTGTCACAACTGGTAAAATTGATTTATGTGAACATTGTATATTTGGTAAACAAAAAAATGTGAAGTTTGGTACAACTATACACCAAACAAAGGGCATTTTGGATTATGTAAACACTGATGTATGGGGTCCCACGAAGAATGTCTCAATGGGAGGAAAGAGGTGGTTTGTCACCTTTATTGATGACTACTCGAGGAGAGTTTGGATGTATCCCATGAGGCAAAAAAACGAGGTTCTCCAAATCTTTCTAGAGTGAAAGAAAATGGTAGAGAATCAGACGGACAGGAAAATCAAAAAGCTGAGATCAGACAATGGTGGAGAATATACTTATGATCCATTCCTTAAAATATGTCGAGATGAAGGGATCGTTCGACAATTCACTGTTCCTGGTAAGCCACAACAAAATAGAGTTGCTGAGAGAATGAACCAGACATTAATAGAGAAGATTCGATGCATATTGTCTCAAGCAGGATTGAAAGGCATTTTGGGCTGAGGCTCTCAGTTATGCAGTTCACTTGGTGAATCGTTTATCTATTTCTGGAAATGGTGGGAAAACTCCGCTTGAGATATGGTCGGGTACTCCTGTTAGTGATTATGATAAATTGCATGTGTTTAGGTGTCCTGCTTATTATCATGTGACAGACTCAAAGCTGAATCCTAGAGCAAAAAAAGCCAAGTTTATGGGTTTTAGCAAAGGCGTGAAGGGCTATAGGTTTTGGTGTCCAGAAACAAGTAAGATTGTTAATAGTCGAGATGTGACATCCGATGAGTCTGAAATGTTTTTGCAGAAAATTGAAAATAATGACGAGGCATTGAATCAGGTGGAGAAGGTGGTGTTCTCTCTAGATATGGTTGCTCCTACTGAAAAACCTATTGATCAGGTAGATAATAACTCTGATGTCTTAGAACAGGGGGAGCAAAGCCCTGTATATGAAAGAGTGGAGGAACCTGAGTCCATCGCCAGGAATAGACCACGAAGGGAAATTATTCGAAAACCTGCAAGGTATGGTAATACGATAGCATATGTTTTCTCTATGATTGATGGAGTTCCCAACAGTTACAAAGATGCTATTCAGAGCCCAGATAGCTTACACTGGCAAGAGAATATGAATCGGCAAATAAATGATACGATAGCATATGCTTTCTCTATGATTGATGGAGTTCTCAATAGTTACAAAGATGCTATTCAGAGCTCGGGTAGCTTACACTGGCAAGAGAATATGAATCGGCAAATAAATCAAACTTGGGATTTGGTACAACTTCCAAAAGGTAAAAAGGAAATTGGTTATAAATGGGTTTATGAAGAAAAAGAAAATTCTTTTTGCTGTATACTTATTGAGGCTTGAGGTGGTGGCAACCAAATCAGTTAATCAACCATGATGTCCACTTTGAGCATAAGCTCTCATGGCTTTGCTTTGGACTTCCCCAAAATGCCTCATACCAATGGAGATAGTATTCCTCACTTATAAACCCATGATCTTCTACTAAATCAACGAATGTGGGACTCACTCCCAATAATCCTCAGCAACCTCATTATGCTGAAGTAATTACTGAATACTCCATACTCCATACAACAGTTTAGGTTTAGAAATGTCTTTGATTATGAGATGTGTGATTGTGTATAGTATTAATATACACATTTTTAATATGCACGTACTACACAATAGGGATATAGGAATTGATAAACTTTACCCTTTCGATCTATTTTTTTTCCATAGAAGACAATTTTTTTATTGTTAGTGATAGATACTCTTTTGATTTTGACGTAATCTTGTCGAATGGATAGAGTTCTTAACAGTTTGCATTGTTGCTCTGAGCCAAAACTCTTATCCTTCATTTTGAATATCGATGGATTGATATGTCATTCATCTTCTGGTTTCAGGGCTACTTCTCTTTTTGTCTAAATTAAAGCTTTATTGTATGATATCTGAAAGTATAAAAAAATCGAACTTTTTGGTTCACATCTAGGCACATTAGAATTTAGCATACGGAATTGGCTATGGAATGAAATTTATTATATCTGCCATAGTAATATATATACTGCTAAATATTTAGAGTGCGCTGTGCCAGTGTCTGAAGTGGATTAAGTGGCTAGTAGCCTCAGATTGTTTTCTGTGAGAACTTTTGGGTTTTTGGGTCCTACTTTGGCTTTTGTTTCCCAGTGCTTTGACGTTTCACTGCTTCACCCTTAAAAGGGGGTCCTTGTCAAGGAATTCTGCCCCTTAGCCTCACTTTTTGTTCAATTTAGCAAAATAGAAGGCTATTTTGTTTTACGAATGGATTAATGGAACCAATTTTCTCCCTTTGTTTTTCCATCTTCAATATGTTATATTAACATTATTGGCTCTACTACATGTAGAGGCTTATAAAATAAAGCTTATATTTTATTAGACTTTACTTTGTTGAAGCTATTAAGTTCGTTTCATTTTAAAGTTGATCTGGTTAAACCAAGATCTATCTTTAGTCCCAATTAGATGCATGCTGCGACAAACGATTATCCAATGTATAATAAGGTTATTTCTGCCAACAATAATTGTACTCCGGAACTTCTGTAGAGCTGTAAACATGAGGACTGGGTGAACATAGCGAAGTACTTGATGGATGATGTTCCTCTTCTCTTGAAGTCAGAGGACCTTAAAGACACAGAGGATGTTTTAACTGTTATTTTTGCATCACTGCCCTTAAATTATAGTGATTTTATCAAGTGGATTGCTGAGGTCCGAAGGACAGAAGATAGTGGTCAAAGTTTAAGCCCAGAGGAGAAAGCAAGGCTTGCTCTGAAGGTGTTGGTCATATACTTGCCTCGTCCTTTGTTACTATCTATGATATACCTATCTGTGTTCTTACCAGAGCTTGCCATTTTGCTTGCAGGAAGAGGTGTTGAAACAGGTACAGGAGACTGATCTTTTCAAACACGTAGAACAATGTCTGTCTCTAGAAAGTTCGTGCCACAAGATGGTTACATTGTCTCATGAAAACAATTTGCCTGAGATTGCTGCGAGTGTATGTTGCCAAGGAGCAGAAATATTGAACGGGAATGCAGGTGTCTCAGCTGGTTATTGCTGTCGTGAAACATGTGTGAGATGCTTCAGTGCTAATGGCGACAAGCCTGTTACAGTTGTGTGTGGAATGGTTGTTAATGGCAACGATGAACAGGAGTTTGACATGTTGGTTCCATCATCATCTCAAGTAAGATCTGGGTGCTGCTTTTCTGGCACGAAAAATGGAATCGGGATTCATCCAGCCGCCAGTGATGTGTTAACAACACTTCTTCTTGCCTTGCCCGCGGAAACATGGATTGGTATAAAAGAAGAGAAGCTTTTGCGGGAACTACAGAAACTTGTTTGCACGGAAAATTTTCCCACCTTGCTTCAAGAAGAGGTAACTATTATCTTGCCATCTTTTCTTTTTGTTCTTCCCAAGCTAAGGCTATTTTTCTTGTCCAAGCTTCCTTACTCTGTTACGACATGTGGCACTTGATGCTAATAGGTCTTCATAGTGATTCTATATCTATTCATATTGCTTCCATAAATATCTGACTTAACGTTCCCCATAAATATACATATGAACACTTGGAGGTCAAAGGCCTTTCAACTTACTTTAAAATTGGGCAAAAAAATCAACCAGGAGTAGATATAGTTACCAAATTCTTGATTCAATGAAATGGTTTTGGCTAGTCTTTGATCTCTTATATACTTCTGAATGGAAATTCACCGAAGACCTAGTCGCATTTACAAATATCTTGGTTGCCTGAATCTTGTATTCTATGAGGTCTGGTTTGGAATATTGGTAGAAACCTGCTTCCATCAATTGGTGCAGTTTTTTTCCTGAAATTCCATGATAGGAGAGGTGTTGTAACCTTATGCTTGGTTGGAAAATTATAAGCAATATTGTTGAAGGTTCGACTTTAGTGATTGAAGCAACTATTAAAAAGCTTCAAATTATCAAGGTAAAGGGACAAGAATCCTCGTATAATAATCCTTGTCACACTCATGAAACTTGCTAGAAAATTCATGGAAGGCAGGCAAATCCAAAGGGAAATAAACTTGGTAAGAGAGCAATAACCAATGGTTTTCTAGTGCAAATACAACAGACTCTTATGGAGAAAACTTTAAAGTAATATTCCTTTAGGAATGGAATTTACTGGATCAAAAAAAAATGATCTCTTGCTAATTGGAAGAAATCTGATATTGATTTACTTGATGAGACATGTTTACTCGGTTGTGAGTAGTTGAAACTCCTACTAAACCGAATTTGAAATTGCAAGCTGCAAGCTGCAACAAGTGAATAGATCAAAGATAAGGAGAAATATCAAACAGTTGTGGGAAAACACATTTATTTGTCTCACACACAACTTTATATTACCTTTGCAGTGATCATGGGAAAGTCAGTTCATGATGTTTCTTGGTTTTGAGATATTTGAAAATGAGCCCTAGGTAAAGGTATATGGTTTAGAAAGCATGTTCATCTATTTGTAGGATGAAGTTTCTATTGATGCCAATTGGGCCGATAGTATTGTACATGAATTATCTTGGAGTCAACCTAGTGACCCGGTGAAGCAAAAAACAAAACATAGTGTCATAGAAGTAGTGCTGAAGTTGAGTTTAAAGTTTTAGTCCATGATATTTGTGAGGGTATATGGATAAAAGGAGTTGTTAAAGAATTGAAGTTATCAGAGAATGCATAATTACTGTGATAAGAAGGCTGCCATTTCCATGGCTCACAATCCCGTACAAAATATATTGAGATCAATAAACATCCCATTAGGAGTAATATATACTCCCATCCATAGTCCCTACCTTCTTACAACAGACAAATTGTTGATGTGTGGACTAAGGGACTTCCAAAACTACAATTCAACATGTCGATAACCAAGCTCGCCATAGAAGATTCCTTCAAACTAGCTCGAAGGCCAGTCTTGGTTTTATTTTGAGTAAATATTTATTGAAAATATCTTCTTCTTTTTTCCTTTTTGGATGCCAACTGATACAATCTTAGTTTCCATGAGTTCTGCGGTAGCCATAATAGCTATATGTATGAATGTCACAAACCTATAAAGGCAAAGTCCAGATATTTCAGTTTTGACGTATGTGATTCCAGGTTTTGCACTTGCGGCGTCAGCTCCATCTTCTCAAAAAATACCAGGAGAACAAGGTCGATCTGGATCTAAGTGCACCACCTCCTTAG ATGCAAATTGGGCTTCCAACAGATGTCAAGCATGTTGCCCATATTGGCTGGGATGGTCCTTCTGCCAATAATCCAAGCTGGATGAATGAATTTAGTACGGCACCATCGATTACATCCGCTCCTTATAATCGTTCTACTTGTGCAAATATCAAAGACAAAAACGACGTTCCTACAAAACAGGCCGGTGAAGATGATAAGGAAAGTGGAGAGAAGGGTTCAAACAGCTCGCCGGACGTGCGGCCTAAATCATCAAAACACCGGTCGTCAAGTGAGTCTCCAACCAGCCATGAAAGATCAGAGAGACACAAAGCAAGACGGTCTTCCAAGTCAAAGGAGAGCTCCGACAAAAAACAAAGCAGCCGAGGAGGGGAGGAGCAGAATGAGTCGCCCAACTCGAGCCTCCCAGACATCCCAAGACACGGGCGGCGGAAGAAAACGAGCAGATCCAAGCCCCATGCTGCGGATACATACAAGTCCTCGCATTCGGATCCTGGTCCCAACTCTGGAACGGAATCCATATCTCGGCAAAACCAGAGTCTTCGAGTCAGCCGCGAGAAGTGGCGAGAAGAGACGATTCACTTACCAATTTCATCGTTCGAGTGTTCGTCGTTGATTCATTTTGTCATCAAATTTGTGAAACTTTTGAAAATGGCTATGGCGGGGTTGTATAGGCGGATTCTTCCTTCTCCTCCAGCGATCGACTTCGCTTCCTCCGAAGGGAAGCAACTCTTCATAGAAGCTGTTCAACATGGGACTATGGAAGGTTTTTATAGGTTAATCTCTTATTTTCAAACACAATCAGAGCCTGCATATTGTGGTCTGGCCAGCCTATCAATGGTATTAAACGCACTTGCCATTGATCCAGGAAGAAAATGGAAAGGACCTTGGAGATGGTTCGATGAATCTATGTTGGATTGTTGTGAACCATTGGAAAAGGTAAAAGCTAGAGGCATCTCATTGGGAAAACTTGTATGTCTGGCTAACTGTGCTGGAGCAAAAGTCCAAGCCTTTCGGACAAACCAAAGTACTATAGATGATTTTCGCAAATACATACATAGATGCTCCACTTCTGATGATTGTCATATCATTTCGTCTTATCATAGAGCAGCATTGAAACAGACAGGAACTGGTCATTTTTCGCCTATTGGTGGCTATCATGCTGGGCAGGACATGGCACTTATTTTGGACGTTGCACGCTTTAAGTATCCTCCTCACTGGGTTCCGGTCAAACTTCTTTGGAAAGGTATGGAACACGTGGATGAAGCAACAGGACAACATAGAGGGTTCATGCTTATATCTAGGCCGCACAGGGAGCCAGGATTGCTCTATACTCTGAGCTGTAAACATGAGGACTGGGTGAACATAGCGAAGTACTTGATGGATGATGTTCCTCTTCTCTTGAAGTCAGAGGACCTTAAAGACACAGAGGATGTTTTAACTGTTATTTTTGCATCACTGCCCTTAAATTATAGTGATTTTATCAAGTGGATTGCTGAGGTCCGAAGGACAGAAGATAGTGGTCAAAGTTTAAGCCCAGAGGAGAAAGCAAGGCTTGCTCTGAAGGAAGAGGTGTTGAAACAGGTACAGGAGACTGATCTTTTCAAACACGTAGAACAATGTCTGTCTCTAGAAAGTTCGTGCCACAAGATGGTTACATTGTCTCATGAAAACAATTTGCCTGAGATTGCTGCGAGTGTATGTTGCCAAGGAGCAGAAATATTGAACGGGAATGCAGGTGTCTCAGCTGGTTATTGCTGTCGTGAAACATGTGTGAGATGCTTCAGTGCTAATGGCGACAAGCCTGTTACAGTTGTGTGTGGAATGGTTGTTAATGGCAACGATGAACAGGAGTTTGACATGTTGGTTCCATCATCATCTCAAGTAAGATCTGGGTGCTGCTTTTCTGGCACGAAAAATGGAATCGGGATTCATCCAGCCGCCAGTGATGTGTTAACAACACTTCTTCTTGCCTTGCCCGCGGAAACATGGATTGGTATAAAAGAAGAGAAGCTTTTGCGGGAACTACAGAAACTTGTTTGCACGGAAAATTTTCCCACCTTGCTTCAAGAAGAGGTTTTGCACTTGCGGCGTCAGCTCCATCTTCTCAAAAAATACCAGGAGAACAAGGTCGATCTGGATCTAAGTGCACCACCTCCTTAG ATGCAAATTGGGCTTCCAACAGATGTCAAGCATGTTGCCCATATTGGCTGGGATGGTCCTTCTGCCAATAATCCAAGCTGGATGAATGAATTTAGTACGGCACCATCGATTACATCCGCTCCTTATAATCGTTCTACTTGTGCAAATATCAAAGACAAAAACGACGTTCCTACAAAACAGGCCGGTGAAGATGATAAGGAAAGTGGAGAGAAGGGTTCAAACAGCTCGCCGGACGTGCGGCCTAAATCATCAAAACACCGGTCGTCAAGTGAGTCTCCAACCAGCCATGAAAGATCAGAGAGACACAAAGCAAGACGGTCTTCCAAGTCAAAGGAGAGCTCCGACAAAAAACAAAGCAGCCGAGGAGGGGAGGAGCAGAATGAGTCGCCCAACTCGAGCCTCCCAGACATCCCAAGACACGGGCGGCGGAAGAAAACGAGCAGATCCAAGCCCCATGCTGCGGATACATACAAGTCCTCGCATTCGGATCCTGGTCCCAACTCTGGAACGGAATCCATATCTCGGCAAAACCAGAGTCTTCGAGTCAGCCGCGAGAAGTGGCGAGAAGAGACGATTCACTTACCAATTTCATCGTTCGAGTGTTCGTCGTTGATTCATTTTGTCATCAAATTTGTGAAACTTTTGAAAATGGCTATGGCGGGGTTGTATAGGCGGATTCTTCCTTCTCCTCCAGCGATCGACTTCGCTTCCTCCGAAGGGAAGCAACTCTTCATAGAAGCTGTTCAACATGGGACTATGGAAGGTTTTTATAGGTTAATCTCTTATTTTCAAACACAATCAGAGCCTGCATATTGTGGTCTGGCCAGCCTATCAATGGTATTAAACGCACTTGCCATTGATCCAGGAAGAAAATGGAAAGGACCTTGGAGATGGTTCGATGAATCTATGTTGGATTGTTGTGAACCATTGGAAAAGGTAAAAGCTAGAGGCATCTCATTGGGAAAACTTGTATGTCTGGCTAACTGTGCTGGAGCAAAAGTCCAAGCCTTTCGGACAAACCAAAGTACTATAGATGATTTTCGCAAATACATACATAGATGCTCCACTTCTGATGATTGTCATATCATTTCGTCTTATCATAGAGCAGCATTGAAACAGACAGGAACTGGTCATTTTTCGCCTATTGGTGGCTATCATGCTGGGCAGGACATGGCACTTATTTTGGACGTTGCACGCTTTAAGTATCCTCCTCACTGGGTTCCGGTCAAACTTCTTTGGAAAGGTATGGAACACGTGGATGAAGCAACAGGACAACATAGAGGGTTCATGCTTATATCTAGGCCGCACAGGGAGCCAGGATTGCTCTATACTCTGAGCTGTAAACATGAGGACTGGGTGAACATAGCGAAGTACTTGATGGATGATGTTCCTCTTCTCTTGAAGTCAGAGGACCTTAAAGACACAGAGGATGTTTTAACTGTTATTTTTGCATCACTGCCCTTAAATTATAGTGATTTTATCAAGTGGATTGCTGAGGTCCGAAGGACAGAAGATAGTGGTCAAAGTTTAAGCCCAGAGGAGAAAGCAAGGCTTGCTCTGAAGGAAGAGGTGTTGAAACAGGTACAGGAGACTGATCTTTTCAAACACGTAGAACAATGTCTGTCTCTAGAAAGTTCGTGCCACAAGATGGTTACATTGTCTCATGAAAACAATTTGCCTGAGATTGCTGCGAGTGTATGTTGCCAAGGAGCAGAAATATTGAACGGGAATGCAGGTGTCTCAGCTGGTTATTGCTGTCGTGAAACATGTGTGAGATGCTTCAGTGCTAATGGCGACAAGCCTGTTACAGTTGTGTGTGGAATGGTTGTTAATGGCAACGATGAACAGGAGTTTGACATGTTGGTTCCATCATCATCTCAAGTAAGATCTGGGTGCTGCTTTTCTGGCACGAAAAATGGAATCGGGATTCATCCAGCCGCCAGTGATGTGTTAACAACACTTCTTCTTGCCTTGCCCGCGGAAACATGGATTGGTATAAAAGAAGAGAAGCTTTTGCGGGAACTACAGAAACTTGTTTGCACGGAAAATTTTCCCACCTTGCTTCAAGAAGAGGTTTTGCACTTGCGGCGTCAGCTCCATCTTCTCAAAAAATACCAGGAGAACAAGGTCGATCTGGATCTAAGTGCACCACCTCCTTAG MQIGLPTDVKHVAHIGWDGPSANNPSWMNEFSTAPSITSAPYNRSTCANIKDKNDVPTKQAGEDDKESGEKGSNSSPDVRPKSSKHRSSSESPTSHERSERHKARRSSKSKESSDKKQSSRGGEEQNESPNSSLPDIPRHGRRKKTSRSKPHAADTYKSSHSDPGPNSGTESISRQNQSLRVSREKWREETIHLPISSFECSSLIHFVIKFVKLLKMAMAGLYRRILPSPPAIDFASSEGKQLFIEAVQHGTMEGFYRLISYFQTQSEPAYCGLASLSMVLNALAIDPGRKWKGPWRWFDESMLDCCEPLEKVKARGISLGKLVCLANCAGAKVQAFRTNQSTIDDFRKYIHRCSTSDDCHIISSYHRAALKQTGTGHFSPIGGYHAGQDMALILDVARFKYPPHWVPVKLLWKGMEHVDEATGQHRGFMLISRPHREPGLLYTLSCKHEDWVNIAKYLMDDVPLLLKSEDLKDTEDVLTVIFASLPLNYSDFIKWIAEVRRTEDSGQSLSPEEKARLALKEEVLKQVQETDLFKHVEQCLSLESSCHKMVTLSHENNLPEIAASVCCQGAEILNGNAGVSAGYCCRETCVRCFSANGDKPVTVVCGMVVNGNDEQEFDMLVPSSSQVRSGCCFSGTKNGIGIHPAASDVLTTLLLALPAETWIGIKEEKLLRELQKLVCTENFPTLLQEEVLHLRRQLHLLKKYQENKVDLDLSAPPP Homology
BLAST of Csor.00g001520 vs. ExPASy Swiss-Prot
Match: Q2TSC7 (Glutathione gamma-glutamylcysteinyltransferase 1 OS=Lotus japonicus OX=34305 GN=PCS1 PE=2 SV=1) HSP 1 Score: 745.0 bits (1922), Expect = 8.1e-214 Identity = 359/501 (71.66%), Postives = 412/501 (82.24%), Query Frame = 0
BLAST of Csor.00g001520 vs. ExPASy Swiss-Prot
Match: Q9S7Z3 (Glutathione gamma-glutamylcysteinyltransferase 1 OS=Arabidopsis thaliana OX=3702 GN=PCS1 PE=1 SV=1) HSP 1 Score: 667.5 bits (1721), Expect = 1.6e-190 Identity = 321/501 (64.07%), Postives = 400/501 (79.84%), Query Frame = 0
BLAST of Csor.00g001520 vs. ExPASy Swiss-Prot
Match: Q9ZWB7 (Glutathione gamma-glutamylcysteinyltransferase 2 OS=Arabidopsis thaliana OX=3702 GN=PCS2 PE=2 SV=1) HSP 1 Score: 627.9 bits (1618), Expect = 1.4e-178 Identity = 312/501 (62.28%), Postives = 381/501 (76.05%), Query Frame = 0
BLAST of Csor.00g001520 vs. ExPASy Swiss-Prot
Match: Q9SWW5 (Glutathione gamma-glutamylcysteinyltransferase 1 OS=Triticum aestivum OX=4565 GN=PCS1 PE=2 SV=1) HSP 1 Score: 619.0 bits (1595), Expect = 6.7e-176 Identity = 298/486 (61.32%), Postives = 371/486 (76.34%), Query Frame = 0
BLAST of Csor.00g001520 vs. ExPASy Swiss-Prot
Match: Q2QKL5 (Glutathione gamma-glutamylcysteinyltransferase 3 OS=Lotus japonicus OX=34305 GN=PCS3 PE=2 SV=1) HSP 1 Score: 583.9 bits (1504), Expect = 2.4e-165 Identity = 283/478 (59.21%), Postives = 355/478 (74.27%), Query Frame = 0
BLAST of Csor.00g001520 vs. NCBI nr
Match: KAG6576091.1 (Glutathione gamma-glutamylcysteinyltransferase 1, partial [Cucurbita argyrosperma subsp. sororia]) HSP 1 Score: 1437 bits (3721), Expect = 0.0 Identity = 719/719 (100.00%), Postives = 719/719 (100.00%), Query Frame = 0
BLAST of Csor.00g001520 vs. NCBI nr
Match: XP_023548578.1 (glutathione gamma-glutamylcysteinyltransferase 1-like [Cucurbita pepo subsp. pepo]) HSP 1 Score: 1026 bits (2654), Expect = 0.0 Identity = 499/503 (99.20%), Postives = 501/503 (99.60%), Query Frame = 0
BLAST of Csor.00g001520 vs. NCBI nr
Match: XP_022953841.1 (glutathione gamma-glutamylcysteinyltransferase 1-like [Cucurbita moschata]) HSP 1 Score: 1025 bits (2651), Expect = 0.0 Identity = 499/503 (99.20%), Postives = 500/503 (99.40%), Query Frame = 0
BLAST of Csor.00g001520 vs. NCBI nr
Match: XP_022992018.1 (glutathione gamma-glutamylcysteinyltransferase 1-like [Cucurbita maxima]) HSP 1 Score: 1023 bits (2645), Expect = 0.0 Identity = 497/503 (98.81%), Postives = 499/503 (99.20%), Query Frame = 0
BLAST of Csor.00g001520 vs. NCBI nr
Match: XP_038874485.1 (glutathione gamma-glutamylcysteinyltransferase 1-like isoform X2 [Benincasa hispida]) HSP 1 Score: 963 bits (2490), Expect = 0.0 Identity = 466/502 (92.83%), Postives = 482/502 (96.02%), Query Frame = 0
BLAST of Csor.00g001520 vs. ExPASy TrEMBL
Match: A0A6J1GP77 (Glutathione gamma-glutamylcysteinyltransferase OS=Cucurbita moschata OX=3662 GN=LOC111456254 PE=4 SV=1) HSP 1 Score: 1025 bits (2651), Expect = 0.0 Identity = 499/503 (99.20%), Postives = 500/503 (99.40%), Query Frame = 0
BLAST of Csor.00g001520 vs. ExPASy TrEMBL
Match: A0A6J1JXW2 (Glutathione gamma-glutamylcysteinyltransferase OS=Cucurbita maxima OX=3661 GN=LOC111488495 PE=4 SV=1) HSP 1 Score: 1023 bits (2645), Expect = 0.0 Identity = 497/503 (98.81%), Postives = 499/503 (99.20%), Query Frame = 0
BLAST of Csor.00g001520 vs. ExPASy TrEMBL
Match: A0A5A7TDZ7 (Glutathione gamma-glutamylcysteinyltransferase OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold122G001580 PE=4 SV=1) HSP 1 Score: 940 bits (2429), Expect = 0.0 Identity = 454/502 (90.44%), Postives = 478/502 (95.22%), Query Frame = 0
BLAST of Csor.00g001520 vs. ExPASy TrEMBL
Match: A0A1S3CBD2 (Glutathione gamma-glutamylcysteinyltransferase OS=Cucumis melo OX=3656 GN=LOC103498912 PE=4 SV=1) HSP 1 Score: 939 bits (2426), Expect = 0.0 Identity = 453/502 (90.24%), Postives = 478/502 (95.22%), Query Frame = 0
BLAST of Csor.00g001520 vs. ExPASy TrEMBL
Match: A0A0A0K9D9 (Glutathione gamma-glutamylcysteinyltransferase OS=Cucumis sativus OX=3659 GN=Csa_6G088130 PE=4 SV=1) HSP 1 Score: 933 bits (2412), Expect = 0.0 Identity = 452/502 (90.04%), Postives = 474/502 (94.42%), Query Frame = 0
BLAST of Csor.00g001520 vs. TAIR 10
Match: AT5G44070.1 (phytochelatin synthase 1 (PCS1) ) HSP 1 Score: 667.5 bits (1721), Expect = 1.2e-191 Identity = 321/501 (64.07%), Postives = 400/501 (79.84%), Query Frame = 0
BLAST of Csor.00g001520 vs. TAIR 10
Match: AT1G03980.1 (phytochelatin synthase 2 ) HSP 1 Score: 627.9 bits (1618), Expect = 1.0e-179 Identity = 312/501 (62.28%), Postives = 381/501 (76.05%), Query Frame = 0
BLAST of Csor.00g001520 vs. TAIR 10
Match: AT2G20430.1 (ROP-interactive CRIB motif-containing protein 6 ) HSP 1 Score: 66.2 bits (160), Expect = 1.2e-10 Identity = 66/156 (42.31%), Postives = 81/156 (51.92%), Query Frame = 0
BLAST of Csor.00g001520 vs. TAIR 10
Match: AT4G28556.1 (PAK-box/P21-Rho-binding family protein ) HSP 1 Score: 61.6 bits (148), Expect = 2.9e-09 Identity = 60/165 (36.36%), Postives = 83/165 (50.30%), Query Frame = 0
BLAST of Csor.00g001520 vs. TAIR 10
Match: AT3G23380.1 (ROP-interactive CRIB motif-containing protein 5 ) HSP 1 Score: 53.9 bits (128), Expect = 6.1e-07 Identity = 50/150 (33.33%), Postives = 73/150 (48.67%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Silver-seed gourd (sororia) v1
Date Performed: 2021-10-25
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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