Csor.00g210670 (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.ATGGTTGGACGAGGACGAGGAGGAGGAGGAGGAGGATTCTTTCTTCCATGTTTCGGATCCTGGATGCCCGAATCCGAACCCGAACCCGATCGCGACCCGGTTCTTCTCGTCTCCGGCATTGGCGGCTCCATCATTCACGCCAAGAACAAGAAATTGTTCGGCTTACAGACTCGCGTATGGGTCCGAATCTTCTTGTCTGACCTGGTGTTCCGTGAGAACCTCATTTCCATCTACAATCCCGGCACAGGTCCTTACTCATTCTTTCCAATTGTCTCTCTATGTTTGTTTGTTACCTTTTATATTTCAGCGTTTCTGGTTGATTCGGCAGTGATGGAACTTAGGTGGGTTTATTTTATTCCATCTGCACGTGTTTTGGGGTTCCTTTTAGGGTGGGGCAAATTTCAGACCACCTTTTCCTCTTCCTTTTACATTATGTTCCCCACTCCTTTTCTTAAAGCTGCTTTTAATCAAATTTTGTGTTTTCTTTTGCTTTCAGAATCATATCTTGAATGTTTCTTAGATCATTATGATATTTTTTGTGCATAAAAAAAAAAAAAAAAAAGGAAATAGCTTATAGTTGTCTAGAGAATTTCTTATTTTACCACGATTCTGTTTACCAACTCAAACTGGTGGTAGGAGAATGATGAACACTCAAGACTAAACTAAACTACTACAGTGTTCCCTTCTATTTATAGCAAACTCTAATTGTTTTTGAAAATTAGGCTTGTTCCTTCTTAATTTATTTACTATAATTTTTACTACATTTGTTTATTTTGTCAACTTTACTTTTTAAAATCTAGCTTTTTTTAGATTCTAAAACTTGACTTGAATTTTGAAACCATTTTTAGATATAGATAACAAAATATAAAAAACTAATGGGTGGGGATGGAACATTTATGAATTTAATTTTAAAAGCCTGAATGGTTATCAAATTGGTCGCTTTAGGTGATGTAGTTCCATATTTCTTAAGTCATTTTATTTGTTTTAGGGAGATTTTTTTTTCCTTCACTAATCCTCGCTGATTCATTGCTTGATCAGTAGGAAGAAAATTTTCTCTTTTGTATTTCAGGTCGAAGTTAATGTTTATTTTTAATATAAAAAGAAGATTAAAATACTATTAGTCTCTGTACTCTTAACTTTTGTTTGTTTTAACCTTTGTACTTTCAAAACGACTATTTAGAACTATATGCTTTAAGAAATTTTACTTGTTGAATAAGGAATGACCTTGATTTAAGAAATATTTGTGTAAATCGTAGCCTTTATGTTAAAGAGATATTTACATAATCTCGTTAAAGAACTAGTTGATCTTCCTACTTTATCTGTATTATTACACGAGATTTAATTAGCTTTTTGTATTATAAAAGGTACATGTACGAAAAGTCACAAGATAATTTAGACTAACAACAATATCGAAATGAGAAAAAGTCGAAAGTACTAAGACCGAAAAGAAAAATACGAAACTACTCTATATGATAAAAAAGAAAGGGTTGATGCAAAAACAATTACCAAGAGGATCCAACTAGGCACGTAAATGAGAGCCAACCCTACTTTACACTTTTTATCTTGCATGCCAAAGATCTTCTTATCCTTCCAAATCTCACAAACGAAAACTAAAACCATGGTGGATTCCAACCTCCTAGCTTTAGGACGGAGATCAGATGTTCAAAAGGGAGGGATGAACTTTAGGCTGAAGGAGGACATTGAAGCTAAACGGAGAGACTTTCTTTTCAGCCCTGAAGGAGAACATCGTAAACGATTGCTATCATCAACATATGAAGCCAGGTTATCAGCTATCTAGTCGGCATTGATTGGCACCCTCCTCAAATCCTTGTCCATTTTTAGTTTTTTTTGGGCCTTTGTGGATAAAGGGCTCTTGAATCTGATGAGGGGATTTTTATGGGAAGGGCTGCAGGAAGGTGACCTGACTTGGTTAGTTATAATCTCTATTAGATGGTTTGATTTAAGAGTTGACAGTGTTATTAAATGAACAACAGAACAGGAACCAAACAACTACAGATATGATCAAATTTGGAATCTACATCCATCATTTAAGTTTTCAGTTACATCTTTATTCAATATTCTGATGGGAATAAGAGTCCTTGAAAGGTGACATTACAAAGTCATTTTTGGAAAAGGAAGAATTAGGAAAACGTAAGTTTTTACTTGGACCTCGACCCTCTATCACGAAAGGATTAACATAGTCAACAGAGATTCAATCAAGATGTCCCAAGATTTTCCTTAAACCCAAATTGGATTAATTCTCTAAAGAGGCTAAAGAAGACTAAGCTCGTTTATTCTTCCATCGTGCACATAACAGGAAATGTAAGGCATCGTTAATGTTAGAATTGGTCTGCATTTGGATTTATGATAAGTTGGTAAGAAACGATATGGATCAGTGGGTAGGTGGATATATAATTTTGGAGGAAAGGCAAAAGTCTTAGGGCCGAATGCAATTACTCTCATTTGGGGTATATGGTTGGAAAAAGCAACAATGAAGTCTTTAATGGAATGAGTGTTGTTGGGTTGATGGTTCTTACTTACTAAGAAGGCTCTCTTCGAGACTCCAAAATAGGTAGGGCCTCTGAATTGACAACTTTCCTTTTTCCCGAGTACTTCTCTATCTTTATTCTCAACCTGCAGGCTTCTTGGTCTAAGATGAAGTTATGGGTCGCACCTGAATCTACCAAGGTGTTCTTACTCGGCCGAGAATTGATCATAATATCGACAAACATTAGTCCTTTCTCGACTACTTCTTTTGGATCCACTTTCTTTTGTATGACCGATAAAAATTTTAGCGCTCCCATTCTGGGGGCATTGTGTTATTCTTCTTTATCAATTGCTGGTTCTGCTTCAAGGTCATTCCCTCCTTGTACCAAGACTTGAAGTGCAATGAGTTCTGCTCGTAGGAACAATGGAAAAGTCTGGGGGTGGCTTTTGCATAGAAGACGCTTTAAGGGCATCGTTTGATTGTTCCTTTGAGGGTAGGATCCTCGAGAGGGGCCAACATTTAGGTTCTGAAGCGGTTTATCTGTTCCCCCACTTGGTCTATCATCCCCTCCATTCGGTCTATTGGTGCCCTCATTCCTCTGACCTATGGGCTTGTAAGGTGAGCCCTAGGCGTTTTGGGATGAAGTTTGTTTCTTTTGAAAATTCGCTGCCCCACAAAAATCTAGGAGTCTCTCCACGGGGCCAAATGCAGCGACAAGATCTTGAACTTTCTGTTCGTTAATTTTGTTCTTACCCATGGTTGAAATCCTTCGACTTCGACAAAGTAGAATACCTTGTTCTTCTCTGACATGCCCTTGATGTTCAACATCAACACGAAAAATTATTTGACATAGTCTCTTATTCCTTCGGTGCGCCTTAATTACTGCAACTTCTGCCTTGCAATGAATTTTACGTTCTCAGGGAAGAACTGAGTCCTCAACTCCTTCTTGAGATCTTCCCCTGAGTTAATGGCACATGATCCATTTTGGATGTTGTTCACCTTTGAATGCCACCATAGTTTTGCATCATCCGTTAGGTGCATCGTGGCCACGGTGACTTTAAGTTTTTCCAAGTAGGTTCCCGTGGCTTTGAAATATTGCTCAACATCGAAGATATAATTTTTGAGTTCTTTGGCATCTTGGTTCCCTTTGAAAGCCTTGGTTCTGGGATGTTTAGCTTGTTAAGCCCAACCTGAGCTTGACCTAGGGTTTGATTCTCTACGGCCCTCATGGTCAAGTTTACTCGATATTCATTTTGCCCTTCTCTGTCTTGATGGCATCTATTGTTGCCTTGAAATCTTCCGTCAACTCATTGAAAAGCTTCCGCATTATCTTTTGTGAACTATCTACCTCTTTGACACATTCTTGTATGCGTGCGACAGAGCTCTCAGAGCTACCTCCGCATTCTAAGCTACTTAGTCATGTAGCTCTTTATAAGTAGCTCTTTCTTCTAAGGAGTCAACCCTAAATATGAATTCCTTGATTGGCAACCCAACCAAACAAGTGCTCACAACATCGATTCCACCAAAATTTCATTTAGTTCGGCCGCTTGTTCTTCTAGGAAGCGGAATGTGTTGGGGACTTCTTTAAAGAACAACATTTCATGTTGAATCTCAGTGAGTTGCTCACCTTGTGACTTAGCCACCTATTTTGTTGCCAACATCGTTTCGGTCTTTAACGAGACTAGGAGCTAACGCAACTCTGATACCACTTATCACAATCGCACTCTTTTTGGCAGTGAGACAACGATTGTGCAACACTTGTTCTAATCCAGCAAACAAGTCAGCTATGTAAAAATCGTAATTCGTGGACAATCCAGACATATGGTTGATCCTCGAGCTACATTTTGAGAGAAAATGTTTAGAAAACATGAGTGAAGAAAATCGTTGAGAACAAGTTGAAAATAAACATTGTGAAAGTCAATTCCATAGAAAACACGTAGGCAAGAGCGATTACAATACTTGAACAGGGGAGGTCTGACGACTACTTGGTCCCCTTTAAAACATTTTGAGGTGATTCATGTCCGGCAAGAGTAGACACGATTTTGTTGAATGGTCATACAACAAAAATGCAATAAGAAAGTAATATAACATGAAAGCAAGTAAAGGGTTTGGCGTGGCACAGACAGGCGGTCACATACAACACGTCCTGGACAAGCATGACCATGACACTTTGCTTGATGTTCCTTTCTAGTTTTTTTATAATTACGCACCCCTTATTAAATTCAAACCATAGAGGTCTTTGTAATTCTTCATTGGAGGAATAGGGAATGCATACTATTATAGATCTTTCCATTGAAAAGTGTCTTCTATTTCGAAGAATACATATTTTTTCCTCATCTGGTCCTCTTTTTGATGGATATCTCTTTTATTTGGCTAAGCTCTAGAAGTTGAAAGTTTTGAAGAAGAGTACGCACTTTTCTTGGTTGGGGCACTATATGGGAGGGTTAACACCATCTTTTTTTCCAGCAATTGGGAAGCGTACTAGTAAATTTACCTCCAGTTTTGGCCTTTTTTTACATCAAACCCAATGTTCTGTCAGTGGCCTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTGTAGTTGTGCACTTTATTGAAAAAAAGGAAAATCTTCCAATTCAATCAGGATGGATTTTCCAAGCGCATGGGACAAAGACGACTTTAAAGTGATATATTGACATGTCGATTGTTAGGTTAGTACCACTTTTTTTGGGATCTTTTAATTTAATATATACCTGCAATTATGTCCTTATAAATATTCGAAGTACATAACGTTTTCCACTTTTTGTTCTTAAGTTTGCTAAGTCTTAATATGAATTTCCTAAATGAACATTGGAGGATTTTTGTTTTTTCAGGCTATACGGAATGCGTGGATGATAACATAGAAATTTTGGTCCCTGATGATGATGATGGCCTGTATGCGATTGATATTTTAGATCCGTCTGCGGTAAGATCACATGAAACTACTTTTTCAACTTTTTTTTTTTTTTATAAGAGATAATTTCAAGGATATTTGAAACACCAAAAGGATGTGTTATCATGATGCTGACAAAAACCTTCTCAATTTACAATGAGGGAAGTATTACTATAGGAAGTAAAAGTGTTAGATGAGTTTCACCAATAAATGGTTAGGTAAACAACATTTTCGAAGAGCCTAGTATAAGTATGTCTCTTATTCGTGAATACTCTTTCTTTCCATAGGTTCCAAATGAAAGCCATAATTAGTTTTGTCCATAGTAGAGCCTTTGTATTCTTGAAGGGGTGGATGTTAAAGACCGTTTCCAATAACTCATTTGCCTCCGTAGGAAAGGTGAGGTGACATATGAAGATATAGAGGATCTTTACCCAGAAACTTAAGTGTATATATACTGCATAAATAGATGGTTTTGTGATTCGTTGTCTTTCTTGCCCAAAGGGCACCAATTTGGAAATAAAGCTAGGTAGGACATTCTTTTTTTTTTTTTTTTTTTTTTTTTTTTGTAGGTTTTCATATGTGCTAATGAATTTACGCATCATTTCCCTTAGGAAACAATGTACATTTTATACGATGATTTCCTTTCCATTTTATCTTTGCTAGTGTGGGGTTATGGCTTCCACCTTTTTGTGGAGAAAACTCCATCTGCACTAGGAAGTCATTTCAACGAGTCCACTTCATGGGATAACATAATTTGAGTAAGGTCAAGACTTAATTCGGCCATTTTATTGCTTCGTTATCCTTTAAGGTTCCACTGAGCTGTAGGTTCCAAAATTTGTTGGCATCTTTCCATATTTTTTTTATCATGGCCATCTTGTAATGACAGAGTCTATACAAAAGAGGATAGCACAAAGCTAGCATGGTGTTGTCAATCCAAGAATCAATTCAGCAAGATGTGTTTCCTCCATCACCCACCCATTGGTGAATGTGGTCGGTGATGAGGTTTTGGTGCTTGTTTATGCACTTCCATGGCCCCTTTGTAGAAGGTGGGGGGACAGATTTGCACATTATTTAGGAGCGTATTTAGTCTTTAAAGATTTCTCGACAAGGTGGTGCTTTCATGGTAATATTTCCATATCCATTTGGCTAGGAGGACTTTGTTCTTCTCCTCTATCGAATATAGGCCAAGACCTCTCTTGTCTAACGGGAGATTTATGGTATTCTATCGAACAAGATGTGATCCCACTTTCCACATATAGTTTCTGAATAATCTTTCTACGTCTATAGTCACTTTGAGACATTTCGAATAGAGACATATAATAAGTAGGAAGGTTAGACAATGTTTCTTGTGTTAGAGCGAGTCTTCCGCCTTTGGAACTGTAGCGCGATGATCATGTCTATAACCTTATTTCTATGTTTTCAGTGATGGTCTTTCAAAAGGATAAAGGTTTAGGGTTCCCATTCAGGGGCATTCCCAAGTACATATTCGATCATTCACCATTTTTACGACCTTATTTGTTGACGGAGTTGTCAATATCCTCTGTGCTAACAAGCACATTGATGTCCATTATCTCTATTTCTTGTCGGTTGATGCTTTGTCTTGAGAATCTCTGGAAGGTTTTCACTGTATCAAGCATGTTTTTCACATTTTTAATTTAAGATATTAGGGAACAAGAAACAAGAAATGATTACAAATATGAAGGAAAAAAATTTACCAATCACAATTTAAAAAATAAAATAAAATAGAGGGTACAAAAAACAAGAAATAAAAAACTAAAATCGATAAACATGAAACAAAAACTTTACCAAAAGGGCCTCAAAGTGTTTTTTTTTAATTGTTTTCTTTACTCTTCTTTTTCTGTTCTTGAGTGTGTACTAGAGGCCAGAATTGCTAATGCTTAATATGAATTTCTTGCGAGACATAGGCTTCCTTCAGTTACTGACTTCCACCTTTTATTGTCGATTTCATTCAATGATTCAAGTTGATTGTTGTCCCTGCTGTAAGAGTGATTAAGCAACTCCTCCTGCTATGTTTCTTCTTCATTACTATTATCATGCTTCCAAAATGACTCAACAATTGCATTATATCCGGTTCTTGGGATATTGATCTGAAGAATTTTACTAATTTGCTTGATCTGTTTTTATCCATCATACTATACCAGAGTTTTCTTTTTACTGTTACAGGTGGTAAAATGCCTCCATGTGGATGACGTTTATCACTTTCATAATATAATTGATATGCTTGTTGGATGCGGCTACAAGAAGGGAACGACATTGTTTGGTTTTGGTTATGATTTCCGGCAGAGTAATAGGTAGATCATTCTTCATCTCTTGTTTTAGTATCAAAATTTCATGAATGATTTAATTGCTAGTAGCCGAAAGTGTATGCATGAATCAACATTGATGTAGGAGCATTGGTTGTTGGTGACAGAATTGGCAAGGCTATGGATGGTCTTAAAGCGAAGCTGGAAACTGCTAGTAAAGCTTCTGGTGGTAGAAAAGTGAACATAATATCTCATTCTATGGGTGGGCTGCTACTTTCGTGTTTCATGTCACTCCATAATGATGTACGCATGTATTCTCTTGACTAGTTGAAACTTGCATCTATGAGCACGAACTTGTTTTATGGATTCGGCATGATGTGCTTATTGTTAATTGGCAGATTTTTTCCAAATACGTAAATAAGTGGATTGCTATAGCTTGCCCTTTCCAAGGTAATTCAAACCTATTGCTTATTTCCATTCGTCAATAGCTGTAATCTGAATCTAGTCCAATCATTGAAACTGTTCCTTATGTGAACAAATTCCTTTGATCAAGTTGTCCTTCTAACTTAGTTTCTCATTATTATTTATTTGATAGTAAACATTAGGAAAAATTGAATGTATGACCGATCTAACACAAAATAATAGCAAATATAGCACAAGCTCAAAATATTTGCCAATATGACACAATTGTAAGCCATATCAGTCTGGACTGAGGTCTATCACTGATAAACCTATCACTGACTGATATCGATCTATGATTGAGGTCTATCACTTATAAACCTCTCAATGATTGAGGTATGTCAATGATTGTTTGCATGCTTGTTTGCTATTACGTTATTACTAATATATTATTATCATAGAATATAAATGTAGTGGCTTCTTCTTGTCGCACTCTATATCTTTGTTTTTGTTCGTTTTGTCTTTTTCTTTCAATATCCTTTAGGCTAGTGAATATTGTGTTCCATGGAGGTGATGAGCTTCTGCATCCATAACATTAACTTTTGTATTTGGCTTGAAATCGACATGAGTTTGTTGAAGACATGAAGTACAAGTTGAAGATTCCCTTCTGTCTTTCATCTGTTTTGGATAATTCTCTAATTGATCCATTGCAAAATCCTTTACACTTATTTTTTCTTTGTAAGCAAGTCAAAGATGTTTCTGAGACTATCCGTTTGGCCAAGTATAGGATTCCCCAAGAAAGAAAATTCAAGTATCAGTTGGAAATTCGAATGTATAGTTTTTTGGGAAATGATTAGAGATTTTCTCTTAAAGATTGAGAAAAAGCACTCATCTTTCACTTTTCCGAATCATGTCAGGGAAAAATATTGTAGTCGGAGCTAGTTAAAGATAATCAACTTCATAAAAGAAAAATAAAATGCTTGTACATTTTGAGTGAGGAAAGAAAAAGAAGTGGAAATGAACTTCAATTTTGTCTCGGTGGTTTCTAGATTGCTAGCTCACAATTCTTGGAAGGACATTCATGATTGGTACATGATCATTAGAAGCATACAATCCTTGCTCAACCATTTCTTCCATCTAAATCCTTTTAGGGTGGACAAGGCGTTCCTCTGTTGCACGAAAAAAGTGGCAAGCTCTCGGTTGTAAATAGAACCATGGTAGATGAGGAACACTTGAACAACCTAGTGGTTCCTTCATATGGAGGATGAATTAAAATAAAAAACCTACATCTCACCATTAGGATTTTGAGATGCTAAAACACGTAGGAAATATCTGTGGAGGTTTTGTTGAGATTGCCAAAAAGACCTCATCGTGCGTGGATTTGATGGCAGCCATCATTTGACAAGGAAAACTCATGGAGTTCATACCAGAGAAAGTCTCTCTCCCATCATCATTGAAAAATCCTCTTTTGTTCAACATAAACCCCTATTTTAATGGCGATTTTTTTTGTTGATTTTATGGCTGGTTTCCATGGCACTAGAGTAGCACTAAAAGGAATCCACATTGTTAATGATACTGAGGTTATCACTAACAACTCAGGAGGCATTTTTTGGGCCGCTCCCTCGGTCAACCCTCTGGGGTTCAGGGTTCATCACTGAAAGGGACTTATACTTGGTCGAACAACAGACCTCTGGATAAGAATCTATGTGTTCCACTAGTTTCAACTTGACCTATTACACGATCGAAGACCAAGAAGATTCAACAAGCGTTCATTTTAAATCTACATGACCATTTAGAGCTTTGGAAGTTACGATTTGCAAGATTGAAGTGAAGCATGTGATTGTCATAAATTTCACTTGATTGATAATTTCTTTGAAGAGTTTATTTATTATTTTAATTTCATAACTTCTTTTAGTGGGTATTTGAAGGGTAGTGGGATGAACTTGACAATCATGGCCACTAACTTCTTTTAGTAAACATTTGAAGGGTTGAGGGTTTCTTTTGTGGGAAGGCTATCTATACCCACAAAATGGTATGTAAAAAGAAAATTATGAGATTTTGGGGGAATGAAATTGAGCTCTCAATTTAGACTTTCACCCTTAAAAATTTGATCCTCATCTTTTCCATTTCTAAGACTTGAAGCAACTCTTGTGGTAGATTTCATCTAAACCATTTAATTAAGCCTTAATTAAGTCTGATTGTGGAGTAACGTAATTTAAAACAAGGTTTCAAATCTGGTTTCTAGATCTTTGATCATTAATTCTAGCCTTATCTCTTGGCTGATTCAAATTTTGTACTAGGAGGTCTAGTTTCTTTAATTCAATGGTTCTTGCTTCAACAAAAACTTGGATTGTTGGGCTGAGGATTAGGATTGCCTTATCATCCCCACCCACCTTTAACAATCATTGACAGACTTTTGTCCAAGGTCTCCTAGGAAAATTTAGTAATGCTGGTGTTGAAGACTGAATAGGCCTACATCATATCATTATCTCATTGTCCTTTCTATGGGTTGCTTCAAATGGCCCCTCACCCTTCTGTTTTGAGTATATGTGGCTGGAACACACTGATTTTTTGCCCACAATAGAATACAAGTGGAAGAATATGCCCCTTTGTGGATGACGAGACACAAAATTCATTAACAAACTCAAAGGGCTAAGAGAAGTCTTCAAGCAATGGAACAAGAACAATTTTATCCATGAAAAAGTTATTACTTATGGACACATTAATGGTCTATCAGTAATAGACACACAAATTGTTTATCAGCGAAAGACATAAAAATGGTTGATAAGTGACAAAAATAATGAGACCTAGAAATGGTCTATCAATGATAGAGATATATCATTGATAAACTATAAAAATAATCGATCGGTGATAGAAGTCATCATCGATAGATTATAAAAGCTGACATATTAGTGATATACCCAAAAAAATTTTAAAAAAATTCATATTTGCAAATTTGACAACTAATTTTACCTCACCCATTTCATTCTAATAGTTCGTTATGAAGCAGTCGACGATATTCACTGTACAAATGATTGACAGGGGCACCAGGATGCATCAATGATTGTCTGCTGACTGGATTGCAATTTATCGAAGGCTATGAAAGCCAATTTTTCGTATCTAGATGGACATTTCACCAGCTGGTAACTTTCCTCCTGTCAGTGTCTAGGTGGTTTAGTTTACACCTAAAATGATTGCAAGGGTATTTTTTTAATCATTATCGACAAGTTGGATACCTTATCAACCATTTTTTCATGCATATCTTTGTCTCATTAATGATATTGTGCTTTTGTTCTCAATGATACCATTTCTTTGTGTATGATATGTCATAGGTCTACTAATGATATTTACGTGCAGTTGGTTGAATGTCCTTCAATTTATGAGATGCTGGGAAATCTAGGATTCAATTGGCATGCACAACCACAGATCCAAGTTTGGCAAAAGAGTTCTGTTGATGGGAAAACTTCTGTTGAATTGAAATCATATGGCCCAACTGATAGCATTGCTTTATTTGAAGAAGCATTAAGAAATAACCAGGTACGACACTTCACGTTGATTCTGTTAAAAAGTCATCTGGCACAAGCTAATTTTAATTTCAATTATTGCAGATAAAATTTCATGGAAAGACTATTCCTCTGCCCTTTAACTTGGATATTCTCAAATGGGCTACTGGTACTCGCCAAGTAATTGATAATGCAAGGCTACCAGATGGAATCTCCTTCTATAATATTTATGGGACATCGTTCGATACGCCTTTTGATGTGTGGTATGTTAATGAACTTTGCATTATTATGTGTTAGATGCATATTTAGTTTTCAGTAAAAAGACTGTCTTTCATATCATTGTAATGATAAATTATGAATGGGTCAGTGTAGTAGTCCAGAGGTATGGCTGTTTTCTCATTGCTTTGTATAAATTTGATATCAATTCATTGATGTTAATGCCTCTGTTTCAAATTAAATAATGAACATATGGTATTAACTATGATGCAGCTATGGTTCCGAGTCATTGCCGATTGAGGACTTGTCTGAAATCTGCAAAACTTTGGTGAGTGATTCAATTTCCTTTTGCTTTTATGTGTTAGGCCTTTCTTCTTCTACTTAAGATAGACATTGTTCGGGATTTCAACCATTTTTTTTTTCTGATTGGATTGTTTTTTGGGTTCACTGTTCATGGTTTTAAGATGGTCTATTTGTTTGGACAATCGCATCATCTTTTAGTCTCTTGTTTGAATATGCTGTGTGAGATCCCAGATCGATTGGAGAGGAGAACGAAACACCCTTATAAAGGTGTGGAAACCTCTCCCTAGTAGACACGTTTTAAAAACTTTGATGGGAAGTCCGAAAGGAAAAGTCCAAAGAGGACAATATCTCCTAGCGGTGGGCCTGGGCCGTTCCATACACAATGTTAAAAGACAAGTCATTGATGGCTAAAGTTCCTGACACATGCTGAACAACCTTACTGTCTAAATTACTACTATTCGACATAATGGGGATGTCTTTCTTCATTGGTCCCGAACTGTTTGGATCGATTTCTTAAGTATCATACCAAATCCTATCAATAGAATAGCTTTCTCGAGAAATACGAGACATAAATCCTTTTTAGCCCAAATTTTTGTCAGTGGCGATCTCCAATTACAAAGAGACTTTCGACACCCAAACATCATCTGTCCTGAGCTTACTAGCCCTTCAACACCAAACATGGAAAATTCTTCTTAAAGAGGAGAAATATTACTAAATGACCTTTATCTTTATTTATTTTTTGTTTTTAATTTCCCGTCTTTTCTGGCTTTGATGAATTTATCAACAGTTTGGATGTTGAAGTAAATACTGTTTTTGATGCATTCCCATTTTCACTGATCAACCGAATAACAATTTTTTAAATGTGATAACAATGAGGTGAATGGGGACCTCTGAGTAATATGATATTCTTTATTGTGTATAAGAACTAACAATATATGACTGACTGCTTATCACCCTTGTTTCTCTTCCTCTCGGCAGCCTCAGTATTCTTATGTGAACGGAGACGGTACAGTTCCCAGTGAATCAGCCAAGGTATGCTATTTCACCAAATTTAGTTCATGCATTCAAAAAACATGTTTGTTGTCGTTGTGTTCGTGTGCGCGTGTGTTTTATTTACATAACGTGCATCTTTCCTTTGGAAGGCGGATGGTTTTGAAGCAACTGAGAGAGTAGGAGTCGCAGCGAGTCATCGAGGACTTTTGAAGGACGAAACAGTATTGCAGCTTATCCAGAAATGGTTGGGAATTGATGAGAAGGTTAGTAAACACCCAACAACTTCCAAAGTGTTCGATGCTTCTCTGAAGTAG ATGGTTGGACGAGGACGAGGAGGAGGAGGAGGAGGATTCTTTCTTCCATGTTTCGGATCCTGGATGCCCGAATCCGAACCCGAACCCGATCGCGACCCGGTTCTTCTCGTCTCCGGCATTGGCGGCTCCATCATTCACGCCAAGAACAAGAAATTGTTCGGCTTACAGACTCGCGTATGGGTCCGAATCTTCTTGTCTGACCTGGTGTTCCGTGAGAACCTCATTTCCATCTACAATCCCGGCACAGGCTATACGGAATGCGTGGATGATAACATAGAAATTTTGGTCCCTGATGATGATGATGGCCTGTATGCGATTGATATTTTAGATCCGTCTGCGGTGGTAAAATGCCTCCATGTGGATGACGTTTATCACTTTCATAATATAATTGATATGCTTGTTGGATGCGGCTACAAGAAGGGAACGACATTGTTTGGTTTTGGTTATGATTTCCGGCAGAGTAATAGAATTGGCAAGGCTATGGATGGTCTTAAAGCGAAGCTGGAAACTGCTAGTAAAGCTTCTGGTGGTAGAAAAGTGAACATAATATCTCATTCTATGGGTGGGCTGCTACTTTCGTGTTTCATGTCACTCCATAATGATATTTTTTCCAAATACGTAAATAAGTGGATTGCTATAGCTTGCCCTTTCCAAGGGGCACCAGGATGCATCAATGATTGTCTGCTGACTGGATTGCAATTTATCGAAGGCTATGAAAGCCAATTTTTCGTATCTAGATGGACATTTCACCAGCTGTTGGTTGAATGTCCTTCAATTTATGAGATGCTGGGAAATCTAGGATTCAATTGGCATGCACAACCACAGATCCAAGTTTGGCAAAAGAGTTCTGTTGATGGGAAAACTTCTGTTGAATTGAAATCATATGGCCCAACTGATAGCATTGCTTTATTTGAAGAAGCATTAAGAAATAACCAGATAAAATTTCATGGAAAGACTATTCCTCTGCCCTTTAACTTGGATATTCTCAAATGGGCTACTGGTACTCGCCAAGTAATTGATAATGCAAGGCTACCAGATGGAATCTCCTTCTATAATATTTATGGGACATCGTTCGATACGCCTTTTGATGTGTGCTATGGTTCCGAGTCATTGCCGATTGAGGACTTGTCTGAAATCTGCAAAACTTTGCCTCAGTATTCTTATGTGAACGGAGACGGTACAGTTCCCAGTGAATCAGCCAAGGCGGATGGTTTTGAAGCAACTGAGAGAGTAGGAGTCGCAGCGAGTCATCGAGGACTTTTGAAGGACGAAACAGTATTGCAGCTTATCCAGAAATGGTTGGGAATTGATGAGAAGGTTAGTAAACACCCAACAACTTCCAAAGTGTTCGATGCTTCTCTGAAGTAG ATGGTTGGACGAGGACGAGGAGGAGGAGGAGGAGGATTCTTTCTTCCATGTTTCGGATCCTGGATGCCCGAATCCGAACCCGAACCCGATCGCGACCCGGTTCTTCTCGTCTCCGGCATTGGCGGCTCCATCATTCACGCCAAGAACAAGAAATTGTTCGGCTTACAGACTCGCGTATGGGTCCGAATCTTCTTGTCTGACCTGGTGTTCCGTGAGAACCTCATTTCCATCTACAATCCCGGCACAGGCTATACGGAATGCGTGGATGATAACATAGAAATTTTGGTCCCTGATGATGATGATGGCCTGTATGCGATTGATATTTTAGATCCGTCTGCGGTGGTAAAATGCCTCCATGTGGATGACGTTTATCACTTTCATAATATAATTGATATGCTTGTTGGATGCGGCTACAAGAAGGGAACGACATTGTTTGGTTTTGGTTATGATTTCCGGCAGAGTAATAGAATTGGCAAGGCTATGGATGGTCTTAAAGCGAAGCTGGAAACTGCTAGTAAAGCTTCTGGTGGTAGAAAAGTGAACATAATATCTCATTCTATGGGTGGGCTGCTACTTTCGTGTTTCATGTCACTCCATAATGATATTTTTTCCAAATACGTAAATAAGTGGATTGCTATAGCTTGCCCTTTCCAAGGGGCACCAGGATGCATCAATGATTGTCTGCTGACTGGATTGCAATTTATCGAAGGCTATGAAAGCCAATTTTTCGTATCTAGATGGACATTTCACCAGCTGTTGGTTGAATGTCCTTCAATTTATGAGATGCTGGGAAATCTAGGATTCAATTGGCATGCACAACCACAGATCCAAGTTTGGCAAAAGAGTTCTGTTGATGGGAAAACTTCTGTTGAATTGAAATCATATGGCCCAACTGATAGCATTGCTTTATTTGAAGAAGCATTAAGAAATAACCAGATAAAATTTCATGGAAAGACTATTCCTCTGCCCTTTAACTTGGATATTCTCAAATGGGCTACTGGTACTCGCCAAGTAATTGATAATGCAAGGCTACCAGATGGAATCTCCTTCTATAATATTTATGGGACATCGTTCGATACGCCTTTTGATGTGTGCTATGGTTCCGAGTCATTGCCGATTGAGGACTTGTCTGAAATCTGCAAAACTTTGCCTCAGTATTCTTATGTGAACGGAGACGGTACAGTTCCCAGTGAATCAGCCAAGGCGGATGGTTTTGAAGCAACTGAGAGAGTAGGAGTCGCAGCGAGTCATCGAGGACTTTTGAAGGACGAAACAGTATTGCAGCTTATCCAGAAATGGTTGGGAATTGATGAGAAGGTTAGTAAACACCCAACAACTTCCAAAGTGTTCGATGCTTCTCTGAAGTAG MVGRGRGGGGGGFFLPCFGSWMPESEPEPDRDPVLLVSGIGGSIIHAKNKKLFGLQTRVWVRIFLSDLVFRENLISIYNPGTGYTECVDDNIEILVPDDDDGLYAIDILDPSAVVKCLHVDDVYHFHNIIDMLVGCGYKKGTTLFGFGYDFRQSNRIGKAMDGLKAKLETASKASGGRKVNIISHSMGGLLLSCFMSLHNDIFSKYVNKWIAIACPFQGAPGCINDCLLTGLQFIEGYESQFFVSRWTFHQLLVECPSIYEMLGNLGFNWHAQPQIQVWQKSSVDGKTSVELKSYGPTDSIALFEEALRNNQIKFHGKTIPLPFNLDILKWATGTRQVIDNARLPDGISFYNIYGTSFDTPFDVCYGSESLPIEDLSEICKTLPQYSYVNGDGTVPSESAKADGFEATERVGVAASHRGLLKDETVLQLIQKWLGIDEKVSKHPTTSKVFDASLK Homology
BLAST of Csor.00g210670 vs. ExPASy Swiss-Prot
Match: Q93V61 (Phospholipase A(1) LCAT3 OS=Arabidopsis thaliana OX=3702 GN=LCAT3 PE=1 SV=1) HSP 1 Score: 604.4 bits (1557), Expect = 1.1e-171 Identity = 291/441 (65.99%), Postives = 355/441 (80.50%), Query Frame = 0
BLAST of Csor.00g210670 vs. ExPASy Swiss-Prot
Match: Q71N54 (Lecithin-cholesterol acyltransferase-like 4 OS=Arabidopsis thaliana OX=3702 GN=LCAT4 PE=1 SV=1) HSP 1 Score: 435.3 bits (1118), Expect = 8.7e-121 Identity = 209/414 (50.48%), Postives = 287/414 (69.32%), Query Frame = 0
BLAST of Csor.00g210670 vs. ExPASy Swiss-Prot
Match: Q9FZI8 (Lecithin-cholesterol acyltransferase-like 1 OS=Arabidopsis thaliana OX=3702 GN=LCAT1 PE=2 SV=1) HSP 1 Score: 67.0 bits (162), Expect = 6.2e-10 Identity = 74/313 (23.64%), Postives = 119/313 (38.02%), Query Frame = 0
BLAST of Csor.00g210670 vs. ExPASy Swiss-Prot
Match: Q8VEB4 (Phospholipase A2 group XV OS=Mus musculus OX=10090 GN=Pla2g15 PE=1 SV=1) HSP 1 Score: 60.8 bits (146), Expect = 4.5e-08 Identity = 58/226 (25.66%), Postives = 112/226 (49.56%), Query Frame = 0
BLAST of Csor.00g210670 vs. ExPASy Swiss-Prot
Match: Q8NCC3 (Phospholipase A2 group XV OS=Homo sapiens OX=9606 GN=PLA2G15 PE=1 SV=2) HSP 1 Score: 59.3 bits (142), Expect = 1.3e-07 Identity = 54/209 (25.84%), Postives = 100/209 (47.85%), Query Frame = 0
BLAST of Csor.00g210670 vs. NCBI nr
Match: KAG6598962.1 (Phospholipase A(1) LCAT3, partial [Cucurbita argyrosperma subsp. sororia]) HSP 1 Score: 944 bits (2439), Expect = 0.0 Identity = 455/455 (100.00%), Postives = 455/455 (100.00%), Query Frame = 0
BLAST of Csor.00g210670 vs. NCBI nr
Match: XP_023546771.1 (phospholipase A(1) LCAT3 [Cucurbita pepo subsp. pepo]) HSP 1 Score: 918 bits (2373), Expect = 0.0 Identity = 445/455 (97.80%), Postives = 447/455 (98.24%), Query Frame = 0
BLAST of Csor.00g210670 vs. NCBI nr
Match: XP_022933151.1 (phospholipase A(1) LCAT3 [Cucurbita moschata]) HSP 1 Score: 914 bits (2363), Expect = 0.0 Identity = 447/457 (97.81%), Postives = 449/457 (98.25%), Query Frame = 0
BLAST of Csor.00g210670 vs. NCBI nr
Match: XP_022973913.1 (phospholipase A(1) LCAT3 [Cucurbita maxima]) HSP 1 Score: 909 bits (2350), Expect = 0.0 Identity = 439/451 (97.34%), Postives = 445/451 (98.67%), Query Frame = 0
BLAST of Csor.00g210670 vs. NCBI nr
Match: XP_004138893.1 (phospholipase A(1) LCAT3 [Cucumis sativus]) HSP 1 Score: 850 bits (2196), Expect = 3.53e-310 Identity = 404/448 (90.18%), Postives = 432/448 (96.43%), Query Frame = 0
BLAST of Csor.00g210670 vs. ExPASy TrEMBL
Match: A0A6J1EYB8 (phospholipase A(1) LCAT3 OS=Cucurbita moschata OX=3662 GN=LOC111439951 PE=4 SV=1) HSP 1 Score: 914 bits (2363), Expect = 0.0 Identity = 447/457 (97.81%), Postives = 449/457 (98.25%), Query Frame = 0
BLAST of Csor.00g210670 vs. ExPASy TrEMBL
Match: A0A6J1IEK6 (phospholipase A(1) LCAT3 OS=Cucurbita maxima OX=3661 GN=LOC111472543 PE=4 SV=1) HSP 1 Score: 909 bits (2350), Expect = 0.0 Identity = 439/451 (97.34%), Postives = 445/451 (98.67%), Query Frame = 0
BLAST of Csor.00g210670 vs. ExPASy TrEMBL
Match: A0A0A0LHR5 (Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_2G093800 PE=4 SV=1) HSP 1 Score: 850 bits (2196), Expect = 1.71e-310 Identity = 404/448 (90.18%), Postives = 432/448 (96.43%), Query Frame = 0
BLAST of Csor.00g210670 vs. ExPASy TrEMBL
Match: A0A1S3B3Q4 (phospholipase A(1) LCAT3 OS=Cucumis melo OX=3656 GN=LOC103485824 PE=4 SV=1) HSP 1 Score: 836 bits (2160), Expect = 5.44e-305 Identity = 401/449 (89.31%), Postives = 429/449 (95.55%), Query Frame = 0
BLAST of Csor.00g210670 vs. ExPASy TrEMBL
Match: A0A6J1CRS5 (phospholipase A(1) LCAT3 OS=Momordica charantia OX=3673 GN=LOC111014171 PE=4 SV=1) HSP 1 Score: 785 bits (2027), Expect = 9.23e-285 Identity = 371/446 (83.18%), Postives = 409/446 (91.70%), Query Frame = 0
BLAST of Csor.00g210670 vs. TAIR 10
Match: AT3G03310.1 (lecithin:cholesterol acyltransferase 3 ) HSP 1 Score: 604.4 bits (1557), Expect = 7.7e-173 Identity = 291/441 (65.99%), Postives = 355/441 (80.50%), Query Frame = 0
BLAST of Csor.00g210670 vs. TAIR 10
Match: AT4G19860.1 (alpha/beta-Hydrolases superfamily protein ) HSP 1 Score: 435.3 bits (1118), Expect = 6.2e-122 Identity = 209/414 (50.48%), Postives = 287/414 (69.32%), Query Frame = 0
BLAST of Csor.00g210670 vs. TAIR 10
Match: AT1G27480.1 (alpha/beta-Hydrolases superfamily protein ) HSP 1 Score: 67.0 bits (162), Expect = 4.4e-11 Identity = 74/313 (23.64%), Postives = 119/313 (38.02%), Query Frame = 0
BLAST of Csor.00g210670 vs. TAIR 10
Match: AT3G03370.1 (BEST Arabidopsis thaliana protein match is: DegP protease 7 (TAIR:AT3G03380.1); Has 55 Blast hits to 55 proteins in 11 species: Archae - 0; Bacteria - 0; Metazoa - 0; Fungi - 0; Plants - 55; Viruses - 0; Other Eukaryotes - 0 (source: NCBI BLink). ) HSP 1 Score: 54.7 bits (130), Expect = 2.3e-07 Identity = 25/29 (86.21%), Postives = 27/29 (93.10%), Query Frame = 0
BLAST of Csor.00g210670 vs. TAIR 10
Match: AT3G03370.2 (FUNCTIONS IN: molecular_function unknown; INVOLVED IN: biological_process unknown; LOCATED IN: cellular_component unknown; EXPRESSED IN: 13 plant structures; EXPRESSED DURING: 7 growth stages; BEST Arabidopsis thaliana protein match is: DegP protease 7 (TAIR:AT3G03380.1). ) HSP 1 Score: 54.7 bits (130), Expect = 2.3e-07 Identity = 25/29 (86.21%), Postives = 27/29 (93.10%), 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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