Csor.00g253470 (gene) Silver-seed gourd (wild; sororia) v1
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Overview
Sequences
The following sequences are available for this feature:
Legend: CDSinitialstart_codonpolypeptideintroninternalterminalstop_codon Hold the cursor over a type above to highlight its positions in the sequence below.ATGGAGGATAGTTTCTTTGATCTTGTTGAGTTTTTGAAGAGGCCCTCGATTGCCGAAACATTTGTCGACATTTTGCTATGTGCAGTTCCGATCTGGCTCGCTGTTATGATCGGCTTGGTTATCGGTTGGTCGTGGCGTCCTCGGTGGACGGGATTGGTTTTCCTCGGCTTTCGGAGCAAGTTCAGATTATTGTGGACTGCTCCTCCCGGATTTGGAGCTCGGCGGCTTTGGTTGGCCTTCACGGCTCTCTCTGCCTTCTCGGTCTGCCGGACTCTTTGGTCCAATTTTTATTGGAAGAGGAAAGCACCGCCGGCGCCAGCGGACTCGGATTCTCCGGTGGCTTCTACGTTGAAGCACTCGGCAGAAGGGAGCGGGGGTGTAATTGCGTGAGTATGAAATTTATTTGGTTGCGTATCAATATTTGTGGTTAGTCTCTTATTTGCCAATCTTTTAATTCTGTGTGTAACTGACGGTATTTGAGCTTGTTGAATTTATGAGGTTTCGTCGTTCGTCTAGACTCCTGTCATTGACATTAATTGTTTGCCTGTTGTTTTGCTTTGAAAAATCCTTGCGGCGTTGTTGAGGCGGAGTTAGAATTTTCTTGGAAAAATTTTTACATTCCAACTTTTTACGTTTAGTCTTTCAATTTTGAAACCAAGGGATGATCAATTGCTTCCTTCTTTCTTTGCTCGATCCTGGTTGACTGTTAAACTCTGAAGGCTTTGGGATTCATTGAACAATATCATTAATTAATACCCTCGCTTAAGGCAAATGAAGAAGAAGTTGTGATCATAATATGGATGCCATTAGATGAGACTGTTTCTGATGATAATTATCTTGTCCACTTCTTCAGCAATAATGATGTGGAAAAAGAGCAGGATATTGTTACAGAGAATGATTTAGATCACCTATTGCAACTGCTTGAAGGAAGGGATGAACAGGCAGAATGGCAAGGTATGATGCAAAGGTCGACCCCAAATTTCGCATATGAAGCTTGGCGCCTTGAGCCTGAGGTATGGTATTCAGCTATGTGGATGGTAGATTGTGTTTCCTATTATAAGTTTGAAGAGCTCTCTTGCATTTTCCTTTTCTTTCTTGCCAAAGTTGGATTAGTCTTTTGCCATTTTTTAGAATTCTTGATTTTGCACATTTTTTTTTATTATTTCCTTTTGAACCCCTTTCTATAAATCATTTTCCCATGTTAGGAACTTTAAAATTTTTCGTTAAGATTTTACTATGATTAAGACATCACAATTTTTCTACACTTAATCTTTTGTGTTCTGTTTTTCCAAAGCTATGATCTAATATCAGAACCTAAACTGCCCTGCTTAAACTAAAAAATTTTGTTCTGAAATTTGTAGGATACCACATTGTTATGTTTGAACTCCACCATGGGTTATTTCTACCTTTTGTGTGCTTGTACCACATACAGTATTGAACCATTGTCTATGGGGAATACGTAGCTGCTTCAAATTGTTGTTGTCAGCTGCTTCAATTTTGCATTTTATTGTTTTAGATGTAACATAAAGCTCCAACGTCTTTCTTTTTCTCCTCACCAGAACAGACCAACAGTTTATCGTAGTAGAACTGTCTTTGAGGATGCAACTCCAGAGATGGTTAGAGATTTCTTTTGGGACGATGAGTTTCGGACTAAATGGGATCCCATGCTTACATATGTCAAGATATTGGATGAATGCCCTCATACAGGGACCATGATTGTGCACTGGATTAAGAAGGTTTGTAAGACATGGGAGATACTTGAATGTTATTGTTGTATGGTACCATTAAATGCCTCAATTGTATTTCCATTTTGCAGTTCCCCTTTTTCTGCAGTGATAGAGAATATGTCATGGGTCGAAGAATATGGGAGGCTGCAAAAACTTACTATTGTGTAACAAAGGTATATATTCCACCGTGTTCTAGGAATTTCTCCTGCTACTCTATGTTGCTAGCTACGTTGTCTGTACTTGATCTAGCCATCCTCCCCCTCCCTGGCTTATTTTAGTTATTTTTTTAGATAAGTTCTATCATGCACTGTTATTCAGTTTGACATGGCTGTATACCTGGACTGCCAGATGTCCGAAGTTTCCTTAGGATGGTAACAAGATTCTATGGAAACATGTATTATCAGAGGGAAGAACATACCAAAAAAATTAATAGCAATTAGCAACTGGTTTTAATTGATCAAGTTCAGCCTCTTTGTAAATTACCGAACGCTATAACGATTGGCTGTTTGTCCAGTCAAACGAGTTACCAACGGATTTAAATGATCTGTAATAAATTATAGAATTACTAAGCTTTCCTTGCTGACTTGCAGAATTGAAATATGATTACATGCTCCCTGTTAATTAAGACCTTTGCTTGTATTTTGATGTGATTAAGTTGAAACGTGAAACTATTTCTTCAGGGCGTACAGTATCCAAGCTTACCTAGACGTGACAAACCTAGGCGTGTTGATCTTTATTTTTCAAGTTGGATCATCAGGGCAGGTGAGGATTAAGATAATGTATTGTTCCTCTTTCAGAAAACTGCAGGATTTCACGTGAAAATTCGTTTTAATTAATATCCTAACTTCATAAATTTGGAAATGACAGTGGAGTCTCGTAAAGGAGATGGATTGTGGTCTGCTACTGAGGTTATCCTAGTGCATTATGAAGATATGGGAATCCCCAAGGATGTGGCTAAGTTGGGAGTCCGTCACGGAATGTGGGGAACTGTCAAAAAACTGCACTCTGGTTTCAGAGCATACCAAAACGCTAGGAAATCAGACATTTCTGTTTCCAGAAGTGCACTGATGGCCAGAATCACCACGAAGATTGCTTTTGACAGAAGCTCGGAGTCCTCAGAGTCAGAATCAGGTGAAGTACGAACTCAGGTAATGAGGAGAAAGCACCAAAATGATTCTGGCTTAGATTGGAAATGGATAGTCATTGGTGGGGCAGTGGCTGTAGTCTGTGGACTTCGAACAGGTGCAATTGGGAAAGCCTTGTTACTTGGGGCAGGACAGAGAATGGCTCGAAGGTGAAAGATGTCTAAATTCGGCGCAGAATCTGTATCTCAATGCATTTTGAAGCTCGAGAAGTTTCTTATAGTAGACGGACGCATCAACCAATATAGAGATTAACAGCATATGATCAAGTTTTCTGAATGGCTGTGATAGAGCCAACCTCTACAAACTTCCGGTATTCCTGAGCTCCCTACTTTTATATGTCAGTCTTTTGCTGAAATGATTGAGTATGGCATGTGTAATGGAACTCAGTTGTGACTTGAATCAACCTTTGCACCTAATCAGATCATGCTTGTGTTTAGCTCTAAGCTTGATTAGGATTGTGGATATGTAAATTAATGGGGGGGCTTTGTTAATGTATTGATATCCAAAGCTAAGATTGTTGAACTCTAGGACTACTCGGTTATTTGATTGTTTGTAGATGACTTTTGGAGAAACCCAACCCAATTCGAGCCATTTCTTTCTCCTTTAGCCATCAACGAAGTGGTCTAGTCATGGTCCTTGACAACTAGGAATGACCCATAAATTTAATATGATAGGCGAAGGAATGGTACATTGTCCATTTGATAGACAGAAAGATGGACCTTATTGGTGGTTGCTTGCCACTCTCCCTGGCGGCTGTGGCCCTTTAACCAAAGACCTAATAAATGGGGCTGTGAATTTAGTGCCAAAATGGGGTCCCAACTCCATTCAACATCTTATTTCCATTTGTCAAATTGGTTGCCCGCATCTTTTCGTTCCTTTTAGCAAGAACATCTGAAACCATTCCAAGGAAGAATGAAGCCGAAACAATAACATCAACGACCGCTTATGATAGGAGGAGTGGTCAGCCATTTTGTATGTGTGTATGAATGCATATCTGACGAATATAGGATGCCAAATTGCTTTACAGCTCCAAGAGCTGATGTACAAGTTGCTCTCGTTGTTTATTGTTGCTATGTGTGCTTGTGAGAGTTTTTTTCGTTTTTATGTGCTGTCCCACTCCTTTTCCAGGACGAAAGGGTAAGTCCTTGACTCTATATCAATCGATTGGGCAAATGGCTTCTTGATTAAAAAAAAAAAAAAAAAAGTCAATTTCTTAGCCGAGCTTCAAAAAGGTTCATTTGTCGTTTCGTCCCTAATACTTCTTTAAAGACATTAGTCAACAAAAGTACTCCCTTTTTTGGTTACTCAATTCTCTAAGTCGAACCCAACTGGACGGACCTGATGATCCGCAAGAATCTCCCTAGAAAGAAATTGCGCTAACATCCGATCTAATCATCTTCCCACTAAATATTTCAAGACTCACCAATTTCATCCCTCATATATACTTTTTACATATCAAATTCATTTAATAATATTTTTTTTTTCATCGATCATTCAAATAATAAAAGGTAGAAATTGTAATACTTGGCTTATCCAGCCAAGCATATTATTCAATTAAATAAAGTTAAAGTTGGACACGTTAGTATCAATAATTCATAGACCTTGCCTTGTAATATTAACATGTGATCCTTAATTTGCATCAAATTTAGGGCATATTTGTTATCCTTTTTTTCAATTTTTTTTTTTTTTTTTAAAATTAACTGTTTAGTTTTGGTACAGTAGTAAGATGAAGATGTTTAGTTTTTAAAAGTTCAATGTTTGTTCGTTTTTGGTCGGTTCAATTTTGAGTTGGTTCGAGAATCTTTTTAAACTTCAAAAAATTTATAAGAATCATTTAGAGTTACGCCCGTTAAACTTTAAATTATCAAATATCATTATTGAAATTTAAAAATGTTATAAAATCTTTGACATAAATTACCAACAAAACTTTAAAAATTAATTTTTTTCAGTTTATAAAATTTATTTAAAAAAAAAAATACACCGAAGTAGACAACAAATTAATGAAACTATTTATAAGTTTGCTTCCAAAATTTTTCTAACAAATATTTAAAAAAATCTTCAAATTTTTTATGTGGGTTTAATAAGCTCAAAAATTTTAATTTTGTGACGAGTGGGTTCAACCGTTTCTCCCCATAATTTAGAACGTGTTTAATTCAAACTAATAATTCACGTGTTTATTATATAATTTAAAATTTTATTATAAAAAACAAAAAGAAAAGGTGGTAGAAACTAGAAGGTTTTGAGGGGTCGAATGAGGAATTGAAATATCCATAAAGAAAAGTCCAATTTTGAGATGTTCAATGCCAAAATAATAGTGATTTTTTAAACGTGTTCATATTGGATGAACCTTCTAAACTAAAACACGTAGCTCCCTTCCCCTTTCAACTTTATTTATTTTATTTTATTTTTTCAATTTTTTTTTATTTCTTTATTTCTTTTCTAGGAAGGATTTTTTTTTTTTTTTTATATATACATCAAAATTATATCAATTACGATTTCAAAATAGAATTTTTTTTATGAAATTTACTCGCGTGTGACAATTTTAATGCATGAACGATTAAATTCATTATTTATAAAAATCTGCACGCTCGTGAACTAACATTTTAAAACGAAATCTAACCAACAATGTAAATTGATATATCTATTATTTTAAATTTTAAATTGATAAAACTCCTAATATTTATGCATAAATTGATTTATAGATTCTCGTATGTCCATTAATTTTTATTAAAATAAAGCACGTGACAGGTTGGTTATCTATATTCGACATTAACATAAAGAAATGAAAAGGTTGGGCACTTATCAACTTTATTTACTTTTTGACGAGTTTGCAAACTCGACCGTATCTGTTCTCTTTTATCTCCTTCATTATTAAATTACTCGTAAATGAATGCGGTCTCAATTTTAGATTCTATTCGATAATTATTTAATTTTTTAAAATTAAATTTATAAATATTATTTTTAAATCTAATCCAAAAGTATATATATATATATATATATAAAGTAATTTTTGTTTATAAATTTAGCTAAAAATTTTAAAGATTCAATTATTGTAAAAAAAAAACAGGGAGAAATTAAATCTAATGATAAAAAACTAAAAATTAAATATCCAATAATTACGAACAAGTTTAAAAAATTGAAATTTTCAATTACAATTCAAAATTAAAAATATTTTTATTTTCGAAAATTAGGAATAATTCCAATTTTTTATTTTGAGAAATATAAAATATTGGTAAATAAATTATGGAAAACCAACAAAAAAAAAAAAAAAAACCGAACCGTTTGGTTTAAAAAGTGCGAAAGTCTGACCCCACATGTTTTCAAATCAGTGGAGCTTTAAGCCTATAAATATATGAACCTCCAAATTTCAAACACCAACGAAGCCGAGGACTAGCAATCAGAGATCCTCATCTTCTACCTCCGATCTCTCTGGTTTTTTTTTTTTTTATAAAAAATTTCATCATGAAGCATGAAGGTAATCGAAGCTGTTTTCCTAACATTTCTTTGATTTTAATCTTTGAAATTCATTGAATATTAAAGACTAACTTTTCTGCTACATGCTCTGTGCTCAGATGGCGGCTTCGGGAAGGTCATTCCATCGTCGCACCATCTTAGCCCTTCGTTCGTCGGAGGCATCGCTGCTATCGGGAAAAGCCATTTCCGGCGGACTTCGAAGGCTGTAATCAACAATCACAAGTTGATTCCGCATCTACATATAATGGAGTCCGGCCGCGTTGGTTTCTTGGAGAGATTTTCGCATTATGTTGGTAAAGTCCTCCTTCGCTTTTACTGACTACAAACCTAATTCCATGTAAAATGGAATATCTAACCCTAATATTTTGAGGTTTTCATTTTGCAGCGAGGCAATTAGGGATTTCAGATGCAGATGAGTATCCTCAACTCTGCAAGCTAGCGAACAATTATTTGAGGAAGACGAATGGATGCGTGGAAGAAATTTATGCATATTTCGCGAGTGAATCCGAGGCGGAATCTCTGTATCTGAAGTTAATGGATGAGTTTGATCAATGCATCTCGAGTTATTTCGCATTCCATTGGAGCCAAGCTCCCTTGTTGATCAGTCAGGTAAATTCGTCAATCCTCCCCCAAAAAATGATGAACACGATGTTAAAATTTCAGTATATCCCTTAATTAATGGCGGATTTAATGATAGGTTTTGAGTGTCGACTCCGAGCGCAAGAAGCTGAAAGATCTTGTGGTGGCAGCGACTAGGTATTTTCATTTTAGATCTGTCAATTTGCTTGAGAAGTCAAATTTGGTTCCTGAGTTTGAACTTTGAAACTTCAATCATGGTGCATCTTCTAGAATAGAATTAAGATCCATTTGATAACTTCAATAAGTGAAGATTCTGAGTATTTATTTTCCTATATTGGTTTCTGGCCATTTGATAGGAAGGAGAGGTTCGATAGGGTGTGTAAGGATCTGAAAGTGACAAGGGTATTCTCTACTTTGGTGGAGGAAATGAAGAAGATAGGTTGTGCTCCATCTAAGGGCGAGTCGAAATTCTCCCACACGATACCGCCATCGTCTCGAAGAGATAGGAGGCCTGTGCTTCTTCTTATGGGTGGTGGCATGGGCGCTGGCAAGAGTACTGTCCTCAAAGACATTTGCAAAGAGTGCGTAATATTGATATAGAAGCTCGTTTAGAAATTTTATATCGAAGTTTGTTGATAAACAGTTGCTAATTATGCAGGCCCTTCTGGTTGGAAGCAGAAACAAATAGAGTGATGGTAGAGGCAGATGCCTTCAAAGAGACTGATGTTATCTACAAAGCCATCAACTCAATGGGCTATCACGACGACATGCTTCAAACTGCCGAATTGGTGAGGTCTTCCTACCCAAACATTAAATTACATCTCGAATTGTTTCAATGAACAAACCAACTAACTACGACGAATCGTAACAGGTACACCAGCCATCAACCGATGCTGCATCATCGTTGCTGGTCACAGCATTAAACGAGGGACGGGATGTGATCTTGGATGGCACTCTGTCTTGGGAGCCATACGTTATGCAGACAATTGAAATGGCTCGAAACATTCACAAGCGTCGATATCGAATGGGAGTTGGGTACAAGGTAGAGAATGGAAAAGTGATAGAGAATTACTGGGAGGCTATGAGTGAAGAAGAAGAGAAGGAATTGAGGAAGGAGCATGGAGAAATGCAAAATAGAATGGCGTATAGAATAGAGTTGGTTGGAGTTGTTTGTGATGCTCATCTAGCTGTTGTTAGAGGAATAAGGTAAGGATCGAAGCCAAATTTTGGCGCTTTGGTATTGATATCTTGAGCCATTTATGGTTCTAATGAAGGCTGTGATGATTTGTGCAGGAGAGCCATAGTGATGGGAAGGGCTGTAAGGGTGAATTCTCAGTTGCAATCCCACAAGAGATTTGCTAATGCTTTTCCAAAATACTCTAAAGTTGTTGATAGTGTCAGGCTCTATTCCACCAATTCCACTGGCAATCCACCCAAGGTATTTTTAACTATTTTAAACTTATTTGGTTGGATCTTAGACATCATGAATGGAATTTAGATTATGTGAATAGTTGAATAAAATAATGGTATGGTATGGATCATTTATCTCATATCGGGAGGAGAATGAAATACCCTTTCAGAGATGTGGAAGCATCTCCCTCGATGAATTTTAAAAATCTTGCGGGGAAGTACGGAGGAAGGAAAAGCTTCCTTCCTAAGAGAACAATATCTACTAGTGGTGGGCTTACGCCGTTACAAAAAAAACTTTATAAAATTATACATGGAATTCGAGTTTAAATGTTTGGTGTATTCATTATTTTTAATGTTTTGAATTTTGCAGTTGATCTATAGAAAAGATAGCAACAAGTCGTTTGAGATGGTTGACCCAAAGGCACGTGCATGGTTGACAACGTTGAGTAATTTAAACATCGATGCAGAATCAGTTTATGAGCTTTACCCAAACTCGAGCCTATTTTCTGAACCTAGTTCCATTTTGAAAGAAATGACTCCGACCTCTTTAAGGCTCAGTTGTCAAAAAGAGCTTAGATATGTGATTAAAAAGCTAGAAAGTTCAAGAACAATCTCAAATGAATTTTTACGATGAATGGAGGATAGTTTCTTTGATCTTGTTGAGTTTTTGAAGAGGCCCTCGATTGCCGAAACATTTGTCGACATTTTGCTATGTGCAGTTCCGATCTGGCTCGCTGTTATGATCGGCTTGGTTATCGGTTGGTCGTGGCGTCCTCGGTGGACGGGATTGGTTTTCCTCGGCTTTCGGAGCAAGTTCAGATTATTGTGGACTGCTCCTCCCGGATTTGGAGCTCGGCGGCTTTGGTTGGCCTTCACGGCTCTCTCTGCCTTCTCGGTCTGCCGGACTCTTTGGTCCAATTTTTATTGGAAGAGGAAAGCACCGCCGGCGCCAGCGGACTCGGATTCTCCGGTGGCTTCTACGTTGAAGCACTCGGCAGAAGGGAGCGGGGGTGTAATTGCCAATAATGATGTGGAAAAAGAGCAGGATATTGTTACAGAGAATGATTTAGATCACCTATTGCAACTGCTTGAAGGAAGGGATGAACAGGCAGAATGGCAAGGTATGATGCAAAGGTCGACCCCAAATTTCGCATATGAAGCTTGGCGCCTTGAGCCTGAGAACAGACCAACAGTTTATCGTAGTAGAACTGTCTTTGAGGATGCAACTCCAGAGATGGTTAGAGATTTCTTTTGGGACGATGAGTTTCGGACTAAATGGGATCCCATGCTTACATATGTCAAGATATTGGATGAATGCCCTCATACAGGGACCATGATTGTGCACTGGATTAAGAAGTTCCCCTTTTTCTGCAGTGATAGAGAATATGTCATGGGTCGAAGAATATGGGAGGCTGCAAAAACTTACTATTGTGTAACAAAGGGCGTACAGTATCCAAGCTTACCTAGACGTGACAAACCTAGGCGTGTTGATCTTTATTTTTCAAGTTGGATCATCAGGGCAGTGGAGTCTCGTAAAGGAGATGGATTGTGGTCTGCTACTGAGGTTATCCTAGTGCATTATGAAGATATGGGAATCCCCAAGGATGTGGCTAAGTTGGGAGTCCGTCACGGAATGTGGGGAACTGTCAAAAAACTGCACTCTGGTTTCAGAGCATACCAAAACGCTAGGAAATCAGACATTTCTGTTTCCAGAAGTGCACTGATGGCCAGAATCACCACGAAGATTGCTTTTGACAGAAGCTCGGAGTCCTCAGAGTCAGAATCAGGTGAAGTACGAACTCAGGTAATGAGGAGAAAGCACCAAAATGATTCTGGCTTAGATTGGAAATGGATAGTCATTGGTGGGGCAGTGGCTGTAGTCTGTGGACTTCGAACAGGTGCAATTGGGAAAGCCTTGTTACTTGGGGCAGGACAGAGAATGGCTCGAAGACTAACTTTTCTGCTACATGCTCTGTGCTCAGATGGCGGCTTCGGGAAGGTCATTCCATCGTCGCACCATCTTAGCCCTTCGTTCGTCGGAGGCATCGCTGCTATCGGGAAAAGCCATTTCCGGCGGACTTCGAAGGCTGTAATCAACAATCACAAGTTGATTCCGCATCTACATATAATGGAGTCCGGCCGCGTTGGTTTCTTGGAGAGATTTTCGCATTATGTTGCGAGGCAATTAGGGATTTCAGATGCAGATGAGTATCCTCAACTCTGCAAGCTAGCGAACAATTATTTGAGGAAGACGAATGGATGCGTGGAAGAAATTTATGCATATTTCGCGAGTGAATCCGAGGCGGAATCTCTGTATCTGAAGTTAATGGATGAGTTTGATCAATGCATCTCGAGTTATTTCGCATTCCATTGGAGCCAAGCTCCCTTGTTGATCAGTCAGGTTTTGAGTGTCGACTCCGAGCGCAAGAAGCTGAAAGATCTTGTGGTGGCAGCGACTAGGAAGGAGAGGTTCGATAGGGTGTGTAAGGATCTGAAAGTGACAAGGGTATTCTCTACTTTGGTGGAGGAAATGAAGAAGATAGGTTGTGCTCCATCTAAGGGCGAGTCGAAATTCTCCCACACGATACCGCCATCGTCTCGAAGAGATAGGAGGCCTGTGCTTCTTCTTATGGGTGGTGGCATGGGCGCTGGCAAGAGTACTGTCCTCAAAGACATTTGCAAAGAGCCCTTCTGGTTGGAAGCAGAAACAAATAGAGTGATGGTAGAGGCAGATGCCTTCAAAGAGACTGATGTTATCTACAAAGCCATCAACTCAATGGGCTATCACGACGACATGCTTCAAACTGCCGAATTGGTACACCAGCCATCAACCGATGCTGCATCATCGTTGCTGGTCACAGCATTAAACGAGGGACGGGATGTGATCTTGGATGGCACTCTGTCTTGGGAGCCATACGTTATGCAGACAATTGAAATGGCTCGAAACATTCACAAGCGTCGATATCGAATGGGAGTTGGGTACAAGGTAGAGAATGGAAAAGTGATAGAGAATTACTGGGAGGCTATGAGTGAAGAAGAAGAGAAGGAATTGAGGAAGGAGCATGGAGAAATGCAAAATAGAATGGCGTATAGAATAGAGTTGGTTGGAGTTGTTTGTGATGCTCATCTAGCTGTTGTTAGAGGAATAAGGAGAGCCATAGTGATGGGAAGGGCTGTAAGGGTGAATTCTCAGTTGCAATCCCACAAGAGATTTGCTAATGCTTTTCCAAAATACTCTAAAGTTGTTGATAGTGTCAGGCTCTATTCCACCAATTCCACTGGCAATCCACCCAAGTTGATCTATAGAAAAGATAGCAACAAGTCGTTTGAGATGGTTGACCCAAAGGCACGTGCATGGTTGACAACGTTGAGTAATTTAAACATCGATGCAGAATCAGTTTATGAGCTTTACCCAAACTCGAGCCTATTTTCTGAACCTAGTTCCATTTTGAAAGAAATGACTCCGACCTCTTTAAGGCTCAGTTGTCAAAAAGAGCTTAGATATGTGATTAAAAAGCTAGAAAGTTCAAGAACAATCTCAAATGAATTTTTACGATGA ATGGAGGATAGTTTCTTTGATCTTGTTGAGTTTTTGAAGAGGCCCTCGATTGCCGAAACATTTGTCGACATTTTGCTATGTGCAGTTCCGATCTGGCTCGCTGTTATGATCGGCTTGGTTATCGGTTGGTCGTGGCGTCCTCGGTGGACGGGATTGGTTTTCCTCGGCTTTCGGAGCAAGTTCAGATTATTGTGGACTGCTCCTCCCGGATTTGGAGCTCGGCGGCTTTGGTTGGCCTTCACGGCTCTCTCTGCCTTCTCGGTCTGCCGGACTCTTTGGTCCAATTTTTATTGGAAGAGGAAAGCACCGCCGGCGCCAGCGGACTCGGATTCTCCGGTGGCTTCTACGTTGAAGCACTCGGCAGAAGGGAGCGGGGGTGTAATTGCCAATAATGATGTGGAAAAAGAGCAGGATATTGTTACAGAGAATGATTTAGATCACCTATTGCAACTGCTTGAAGGAAGGGATGAACAGGCAGAATGGCAAGGTATGATGCAAAGGTCGACCCCAAATTTCGCATATGAAGCTTGGCGCCTTGAGCCTGAGAACAGACCAACAGTTTATCGTAGTAGAACTGTCTTTGAGGATGCAACTCCAGAGATGGTTAGAGATTTCTTTTGGGACGATGAGTTTCGGACTAAATGGGATCCCATGCTTACATATGTCAAGATATTGGATGAATGCCCTCATACAGGGACCATGATTGTGCACTGGATTAAGAAGTTCCCCTTTTTCTGCAGTGATAGAGAATATGTCATGGGTCGAAGAATATGGGAGGCTGCAAAAACTTACTATTGTGTAACAAAGGGCGTACAGTATCCAAGCTTACCTAGACGTGACAAACCTAGGCGTGTTGATCTTTATTTTTCAAGTTGGATCATCAGGGCAGTGGAGTCTCGTAAAGGAGATGGATTGTGGTCTGCTACTGAGGTTATCCTAGTGCATTATGAAGATATGGGAATCCCCAAGGATGTGGCTAAGTTGGGAGTCCGTCACGGAATGTGGGGAACTGTCAAAAAACTGCACTCTGGTTTCAGAGCATACCAAAACGCTAGGAAATCAGACATTTCTGTTTCCAGAAGTGCACTGATGGCCAGAATCACCACGAAGATTGCTTTTGACAGAAGCTCGGAGTCCTCAGAGTCAGAATCAGGTGAAGTACGAACTCAGGTAATGAGGAGAAAGCACCAAAATGATTCTGGCTTAGATTGGAAATGGATAGTCATTGGTGGGGCAGTGGCTGTAGTCTGTGGACTTCGAACAGGTGCAATTGGGAAAGCCTTGTTACTTGGGGCAGGACAGAGAATGGCTCGAAGACTAACTTTTCTGCTACATGCTCTGTGCTCAGATGGCGGCTTCGGGAAGGTCATTCCATCGTCGCACCATCTTAGCCCTTCGTTCGTCGGAGGCATCGCTGCTATCGGGAAAAGCCATTTCCGGCGGACTTCGAAGGCTGTAATCAACAATCACAAGTTGATTCCGCATCTACATATAATGGAGTCCGGCCGCGTTGGTTTCTTGGAGAGATTTTCGCATTATGTTGCGAGGCAATTAGGGATTTCAGATGCAGATGAGTATCCTCAACTCTGCAAGCTAGCGAACAATTATTTGAGGAAGACGAATGGATGCGTGGAAGAAATTTATGCATATTTCGCGAGTGAATCCGAGGCGGAATCTCTGTATCTGAAGTTAATGGATGAGTTTGATCAATGCATCTCGAGTTATTTCGCATTCCATTGGAGCCAAGCTCCCTTGTTGATCAGTCAGGTTTTGAGTGTCGACTCCGAGCGCAAGAAGCTGAAAGATCTTGTGGTGGCAGCGACTAGGAAGGAGAGGTTCGATAGGGTGTGTAAGGATCTGAAAGTGACAAGGGTATTCTCTACTTTGGTGGAGGAAATGAAGAAGATAGGTTGTGCTCCATCTAAGGGCGAGTCGAAATTCTCCCACACGATACCGCCATCGTCTCGAAGAGATAGGAGGCCTGTGCTTCTTCTTATGGGTGGTGGCATGGGCGCTGGCAAGAGTACTGTCCTCAAAGACATTTGCAAAGAGCCCTTCTGGTTGGAAGCAGAAACAAATAGAGTGATGGTAGAGGCAGATGCCTTCAAAGAGACTGATGTTATCTACAAAGCCATCAACTCAATGGGCTATCACGACGACATGCTTCAAACTGCCGAATTGGTACACCAGCCATCAACCGATGCTGCATCATCGTTGCTGGTCACAGCATTAAACGAGGGACGGGATGTGATCTTGGATGGCACTCTGTCTTGGGAGCCATACGTTATGCAGACAATTGAAATGGCTCGAAACATTCACAAGCGTCGATATCGAATGGGAGTTGGGTACAAGGTAGAGAATGGAAAAGTGATAGAGAATTACTGGGAGGCTATGAGTGAAGAAGAAGAGAAGGAATTGAGGAAGGAGCATGGAGAAATGCAAAATAGAATGGCGTATAGAATAGAGTTGGTTGGAGTTGTTTGTGATGCTCATCTAGCTGTTGTTAGAGGAATAAGGAGAGCCATAGTGATGGGAAGGGCTGTAAGGGTGAATTCTCAGTTGCAATCCCACAAGAGATTTGCTAATGCTTTTCCAAAATACTCTAAAGTTGTTGATAGTGTCAGGCTCTATTCCACCAATTCCACTGGCAATCCACCCAAGTTGATCTATAGAAAAGATAGCAACAAGTCGTTTGAGATGGTTGACCCAAAGGCACGTGCATGGTTGACAACGTTGAGTAATTTAAACATCGATGCAGAATCAGTTTATGAGCTTTACCCAAACTCGAGCCTATTTTCTGAACCTAGTTCCATTTTGAAAGAAATGACTCCGACCTCTTTAAGGCTCAGTTGTCAAAAAGAGCTTAGATATGTGATTAAAAAGCTAGAAAGTTCAAGAACAATCTCAAATGAATTTTTACGATGA MEDSFFDLVEFLKRPSIAETFVDILLCAVPIWLAVMIGLVIGWSWRPRWTGLVFLGFRSKFRLLWTAPPGFGARRLWLAFTALSAFSVCRTLWSNFYWKRKAPPAPADSDSPVASTLKHSAEGSGGVIANNDVEKEQDIVTENDLDHLLQLLEGRDEQAEWQGMMQRSTPNFAYEAWRLEPENRPTVYRSRTVFEDATPEMVRDFFWDDEFRTKWDPMLTYVKILDECPHTGTMIVHWIKKFPFFCSDREYVMGRRIWEAAKTYYCVTKGVQYPSLPRRDKPRRVDLYFSSWIIRAVESRKGDGLWSATEVILVHYEDMGIPKDVAKLGVRHGMWGTVKKLHSGFRAYQNARKSDISVSRSALMARITTKIAFDRSSESSESESGEVRTQVMRRKHQNDSGLDWKWIVIGGAVAVVCGLRTGAIGKALLLGAGQRMARRLTFLLHALCSDGGFGKVIPSSHHLSPSFVGGIAAIGKSHFRRTSKAVINNHKLIPHLHIMESGRVGFLERFSHYVARQLGISDADEYPQLCKLANNYLRKTNGCVEEIYAYFASESEAESLYLKLMDEFDQCISSYFAFHWSQAPLLISQVLSVDSERKKLKDLVVAATRKERFDRVCKDLKVTRVFSTLVEEMKKIGCAPSKGESKFSHTIPPSSRRDRRPVLLLMGGGMGAGKSTVLKDICKEPFWLEAETNRVMVEADAFKETDVIYKAINSMGYHDDMLQTAELVHQPSTDAASSLLVTALNEGRDVILDGTLSWEPYVMQTIEMARNIHKRRYRMGVGYKVENGKVIENYWEAMSEEEEKELRKEHGEMQNRMAYRIELVGVVCDAHLAVVRGIRRAIVMGRAVRVNSQLQSHKRFANAFPKYSKVVDSVRLYSTNSTGNPPKLIYRKDSNKSFEMVDPKARAWLTTLSNLNIDAESVYELYPNSSLFSEPSSILKEMTPTSLRLSCQKELRYVIKKLESSRTISNEFLR Homology
BLAST of Csor.00g253470 vs. ExPASy Swiss-Prot
Match: Q0WUY1 (Calmodulin calcium-dependent NAD kinase OS=Arabidopsis thaliana OX=3702 GN=NADKC PE=1 SV=1) HSP 1 Score: 545.4 bits (1404), Expect = 1.3e-153 Identity = 290/479 (60.54%), Postives = 359/479 (74.95%), Query Frame = 0
BLAST of Csor.00g253470 vs. ExPASy Swiss-Prot
Match: Q8R1R3 (StAR-related lipid transfer protein 7, mitochondrial OS=Mus musculus OX=10090 GN=Stard7 PE=1 SV=2) HSP 1 Score: 72.4 bits (176), Expect = 3.2e-11 Identity = 48/196 (24.49%), Postives = 95/196 (48.47%), Query Frame = 0
BLAST of Csor.00g253470 vs. ExPASy Swiss-Prot
Match: Q9NQZ5 (StAR-related lipid transfer protein 7, mitochondrial OS=Homo sapiens OX=9606 GN=STARD7 PE=1 SV=2) HSP 1 Score: 68.6 bits (166), Expect = 4.6e-10 Identity = 58/245 (23.67%), Postives = 109/245 (44.49%), Query Frame = 0
BLAST of Csor.00g253470 vs. NCBI nr
Match: KAG6597389.1 (Calmodulin calcium-dependent NAD kinase, partial [Cucurbita argyrosperma subsp. sororia]) HSP 1 Score: 1952 bits (5058), Expect = 0.0 Identity = 974/974 (100.00%), Postives = 974/974 (100.00%), Query Frame = 0
BLAST of Csor.00g253470 vs. NCBI nr
Match: XP_022935075.1 (uncharacterized protein LOC111442050 [Cucurbita moschata]) HSP 1 Score: 1020 bits (2637), Expect = 0.0 Identity = 513/525 (97.71%), Postives = 522/525 (99.43%), Query Frame = 0
BLAST of Csor.00g253470 vs. NCBI nr
Match: XP_023540264.1 (uncharacterized protein LOC111800690 [Cucurbita pepo subsp. pepo]) HSP 1 Score: 1013 bits (2618), Expect = 0.0 Identity = 511/525 (97.33%), Postives = 518/525 (98.67%), Query Frame = 0
BLAST of Csor.00g253470 vs. NCBI nr
Match: KAG7028849.1 (StAR-related lipid transfer protein 7, mitochondrial [Cucurbita argyrosperma subsp. argyrosperma]) HSP 1 Score: 899 bits (2324), Expect = 0.0 Identity = 439/439 (100.00%), Postives = 439/439 (100.00%), Query Frame = 0
BLAST of Csor.00g253470 vs. NCBI nr
Match: XP_022944454.1 (stAR-related lipid transfer protein 7, mitochondrial-like [Cucurbita moschata]) HSP 1 Score: 898 bits (2320), Expect = 0.0 Identity = 438/439 (99.77%), Postives = 439/439 (100.00%), Query Frame = 0
BLAST of Csor.00g253470 vs. ExPASy TrEMBL
Match: A0A6J1F9J9 (uncharacterized protein LOC111442050 OS=Cucurbita moschata OX=3662 GN=LOC111442050 PE=4 SV=1) HSP 1 Score: 1020 bits (2637), Expect = 0.0 Identity = 513/525 (97.71%), Postives = 522/525 (99.43%), Query Frame = 0
BLAST of Csor.00g253470 vs. ExPASy TrEMBL
Match: A0A6J1FWQ5 (stAR-related lipid transfer protein 7, mitochondrial-like OS=Cucurbita moschata OX=3662 GN=LOC111448902 PE=3 SV=1) HSP 1 Score: 898 bits (2320), Expect = 0.0 Identity = 438/439 (99.77%), Postives = 439/439 (100.00%), Query Frame = 0
BLAST of Csor.00g253470 vs. ExPASy TrEMBL
Match: A0A6J1ICM8 (stAR-related lipid transfer protein 7, mitochondrial-like OS=Cucurbita maxima OX=3661 GN=LOC111474418 PE=3 SV=1) HSP 1 Score: 887 bits (2293), Expect = 0.0 Identity = 432/439 (98.41%), Postives = 436/439 (99.32%), Query Frame = 0
BLAST of Csor.00g253470 vs. ExPASy TrEMBL
Match: A0A6J1EBV0 (uncharacterized protein LOC111431771 OS=Cucurbita moschata OX=3662 GN=LOC111431771 PE=4 SV=1) HSP 1 Score: 856 bits (2211), Expect = 4.99e-303 Identity = 438/525 (83.43%), Postives = 467/525 (88.95%), Query Frame = 0
BLAST of Csor.00g253470 vs. ExPASy TrEMBL
Match: A0A6J1J066 (uncharacterized protein LOC111480063 OS=Cucurbita maxima OX=3661 GN=LOC111480063 PE=4 SV=1) HSP 1 Score: 850 bits (2195), Expect = 1.33e-300 Identity = 435/525 (82.86%), Postives = 464/525 (88.38%), Query Frame = 0
BLAST of Csor.00g253470 vs. TAIR 10
Match: AT4G14500.1 (Polyketide cyclase/dehydrase and lipid transport superfamily protein ) HSP 1 Score: 597.8 bits (1540), Expect = 1.5e-170 Identity = 297/441 (67.35%), Postives = 344/441 (78.00%), Query Frame = 0
BLAST of Csor.00g253470 vs. TAIR 10
Match: AT3G23080.1 (Polyketide cyclase/dehydrase and lipid transport superfamily protein ) HSP 1 Score: 556.6 bits (1433), Expect = 3.9e-158 Identity = 275/431 (63.81%), Postives = 321/431 (74.48%), Query Frame = 0
BLAST of Csor.00g253470 vs. TAIR 10
Match: AT1G04280.1 (P-loop containing nucleoside triphosphate hydrolases superfamily protein ) HSP 1 Score: 545.4 bits (1404), Expect = 9.1e-155 Identity = 290/479 (60.54%), Postives = 359/479 (74.95%), Query Frame = 0
BLAST of Csor.00g253470 vs. TAIR 10
Match: AT3G23080.2 (Polyketide cyclase/dehydrase and lipid transport superfamily protein ) HSP 1 Score: 517.3 bits (1331), Expect = 2.7e-146 Identity = 258/404 (63.86%), Postives = 298/404 (73.76%), Query Frame = 0
BLAST of Csor.00g253470 vs. TAIR 10
Match: AT2G30630.1 (P-loop containing nucleoside triphosphate hydrolases superfamily protein ) HSP 1 Score: 514.2 bits (1323), Expect = 2.2e-145 Identity = 275/459 (59.91%), Postives = 351/459 (76.47%), 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 Position : 0 Zoom : x 1
Relationships
The following mRNA feature(s) are a part of this gene:
GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
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