Csor.00g227430 (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.ATGGCTAGAACAGCTTGCTTTCACATTATTCCGTCTCTTCTTCTCCCTTCCAAATCCTCCTTCTTCGGAACTCCCTCACTCTTCTCCGGAGCTTCTCATTTCGATCGTGTTATGGTGGTTGGCCGACGCTTCTCTTCTTCGTCCAAGATCAGCATGAGCCTCAGAGCCGGAATTGTTGGCCTCCCTAATGTTGGAAAATCCACTCTCTTCAATGCCGTCGTAAGTAATCTCCGCTGTTTTCTCTATGTCTCTTATGATTCAATTTGATGTTGTTTGGATTTAGCGCCATGGAGCTGATTGTTTACTCTCGAAAAAACTCCATGGACATTGAAGAATACGATGTGGAGTTGTTGTTATAGCCTGTGGATTGTGATTTTTTTAGGCAGGAGTTGCGAACTATTGGATTTTACTGTAGGTAGTTATAAACAGTAGCCATTCATAAATCCCTGCTCTCTGTGGATTTTCGAATTTCTATGGTCTAAATTCCTTATTCACTAATAGCGGTTGATTCGCGTACTCACATGTTTAGGCTACGCCTTAAGAGTTTGACATGATAGCTTTTAATATTCATTCGGATGATGAACGTGGTGGATTTCAATATTTTATAACTGAAAAAGTCGATTCAGAATAAGTTTTTAACAATTTTTTATGCAAGCTATATCATACTTTGTTTTGTACTGATGATAATCATGCCGTTTTCGAGAAATAGTGTACTGTTATGTGTTCGATTGTGAAAGCTTACTTAACTTCGAACTACTTATCTATTCTTGTGAATTGGATAGCTTCGTGTTATAGTTTATACTTCTACTAGGAAATTTATATCAATCTCGCATGGCACCCATTGTTTATGATGTTACCTTGGTAGGTCGAAAATGGCAAGGCCCAAGCTGCCAACTTTCCTTTCTGTACAATAGAGCCAAATGTAGGAGTAGTTGCAGTTCCGGATCCCCGTCTCCATAAACTTTCCGATCTCAGTAAGTCTCAGCGAGCGGTCCCAGCATCGATAGAATTTGTAGATATTGCTGGGTTAGTTAAAGGAGCCAGTCAAGGAGAGGTAAGGTTTATGCTCACCTCATTGTTCTTTCTCATCATGCATTCCAATCATTTGAAATCTCCTTTTTATATGTCTTTCAGTCGCGGTAATTATAGGATTAAATAATAATAACAACAATTTTCCTTCATTTTTTACTACTGCAGGGATTGGGAAATAAATTTTTATCCCATATTCGCGAGGTGGACTCCATACTTCAGGTTTTTTCTCTACTTGATCCTTTAGTTTTTTTCCTCATAACAGATGAACTGGCTGGTTATGTCTCTGCAATATCAATTGTCTCGTGACTTTGAACTAAGATAAAAAATGTACATCATTTTTTTTAAAGAACATACTTTAACTTGTTGAATTAGTTGTTTGTTTTATAAAATTTGTATTAGCTTTTCTTCCTATACTTCAGCGTACACATTCTCTTATATTATTTTTCTGTTATGTAAGACACGTGCATGTCAATGAGGTTAAGCAATGCCATGGAAGCTCTAAGTATAATCTGGGTGCTTCTTGCGTTTTTCAGTACATAATTTTGTACCGATAGAGAGTTTATTATTATTGTTTCAGGTTGTGCGCTGTTTTGAAGACAATGACATTGTTCATGTCAATGGTAAAATTGATCCAAAAACTGATATCGATGTGATTAACTTAGAGCTTGTTTTTTCAGATCTGGACCAGGTAATGTCATTGAAACCTTTAATATATTTCAATGCAAGTTTTGCTTCTTTCGGAATGCAGGCTATAATCATGTAAAATGGAATGCAGGCTATAATCATGTAAAATTTTGCATTCTTCTCCCAACAACCTTAATTCATCATAGATTCATATGGGAAAAGGGGGCAACTTGATGAGATCCCATGCTTTAGAGTTCCACAGAGAAAAAAAAAAAAAGTTGTCTTAGAAGCTGTTTGGATGTTTGCATTTTGTCCCCTCTTCGATCTCTTCTTTCCTTGATGGTTCATTATGATAACATAGAGCTGATCGTGCTAGAGCCTTTATGACTCGATTAAAAGTATTGTAAATAAAAAAATTCTCGTGCTCGATTGAAGAAGAGATGGCATGTCCTCTGACTGGGTTGATTCAGCTGTTTTAAGTACCTTTTACTTTTTCCATTCTATTTATTTATTTTTATGGGAAACAGATACAAAAGAGAAACACACAGCCTAAAGGCCTTAGGGAGCCTTAGGGATGAGTAGTCCCTAAGCCTAGTTTGGAGGATAAAAAATAAAGGGCCTCCAATCTACATTGATGAGCGAGCATTGCTTGTTACAAAAAGAATTGTGTAAGGCACTCCAAGTGGAGGTAGTAAGCTGACATTTTTACAAAAGAGATCAAAAGAAGAAGTCTTATATGAGAAAAGTCTGCTATTTCGTTCCATCCAAATCTTCTAAAAAAGCGCTCTGGTAATGTTACTCCACAACACCCTTACTTTCTTTTTGAACCACCAAGCAGACAACAACTCTTGCTAGCCATCTTTCACATTTTAAGGAAAACACCAAGCTAGCTGGAACATATTGCAGAGGAAAGACCACCCCTTGTACGGAAAATGACAGTGGAGGACAAGATGGCTACTAGTCTCTGAACTTTTGTTCCGGAGGAGACAGATATTGGGGAAAGGGCCATTGTTGGGCGTCTAATTTGAGTGCTACTGGTTTGATGAGATGGCAAAAATTATTATTACCAGTATCTTTCTTAAGAAATTACTTTCGGTGAAAAGAGAGAAGTAAGGGACCTCCCAACCCATGCCAAAGGAGATTGTTATAAAAATTGAAGAACTATGTATTAGTTATGCTGCCGCTTTGGTTTCTACTTTTGAGCTTAAAATAGAAGTGAAAAACATAATTATTTAGATCATCCCCTTAGTTGGGTGCATCAGTTAAGCAATGTTTAATATTTGTTTTTCTTGTTGAATTTTATATTGGATGCATACAAATGTATGTGCTACTTACGGAGGAGAAAGATAACCCTTGGGACATTGTCTTACAATGTGGTTCATTGGCATAAATTTTTTCATGCTATTCTGCCATCTATGTCGTGTGACTAATTCATTGGATTTCATTGAATGTGACGTCTCCTTGCTCTGTCATTTTGATGATCTGATCAAAACTAAATTGTACATTTTAAAAGAGATGCAGATTGAGAAAAGATTAGACAAGCTCAAGAAAGGCAAGGCAAGGGATTCACAGTCTAAAGTCAAGGTGTGTTGATCTCACGAGCCTGCTTGTTGCTATAAATTGTACTTTCCTATATTGATGTGCTTAATTAACTATTGGACTGCTCTCAAAGCATGATTAAATTTGTTTGTAAAAATCTAACCTGAATTTTAAAATGTTTTGGCCAAAGAAGAATTGTCATTGGCAATGGAAAGATAAGGTTATGTGTAAATTAAATTACTCGATTTCAAAGCCTAATCAATAGCAGGCATCTAAGGCCCTTTAGTGGAGGCTATTAAAAATGTCAATTCAGTTCAAGTACAAGATGGAACCCAGATCAAATATGTCAAGAACTGAAATGATGGCATGCTTTGGGGTCATTCATGTTGAAATTAAAATGTTTGCTCAGGCTTGCTCTTGTTCTTATAATGACAATCAAATTCATCCCAACTAATTACGTGCCTTTTTAAGGCATTCATCTGCTTGGGCTTAGTCTTCTGTGGACTATTTCAGGACCATCATAGAAAACATTAGTGAAGCAAAGAAATGAAGAATTGAAGTGATTGCCGTGAGAAAGGTAAATCCCATGCCTTGTGAAAATTTAAGAAGAGGAATAAAAGAGAAATAGTGGTGCTCTGTTGATATGGAAAGTAACAAACCCTCGCTAAAACTTTGAAGATGGTAAATTAACAAACCCAAACCTTCGGGTCATTTAAGCCAAATTCCATTGGACGTAGGTGGCTACAAGATGTGTATGCATTAATGTAATACTCCAATAAAGGAACTAAATACTAAGGTTGCTAACTTTAACATCAAAGGCTGGTCCAATGACTGTTGTTTGAAATTCTTAATAGTGTTAGCTTCCCTATTGAAAAAATAACTTAATGTACGACGAGTTTACATTAAGATGCAATACAGATTATGATAACCATATGACAGTGAATTTGTATTTAAAATTCTTTTATCTTTAGAATTTGATGTAATTCATGGATATGTTACATCTCTTGTGTCCTTCCTATCAAATAGTGTCCCTATATCAGTGTCTTCTTGGATCCGATCTCCCACATTTCTGTTGATGTGCCTCTTAGATCATCATGATTCCTAATAATGCTTCCATCTCTTCGTATTTTCTTTTTACCCTTCGGTGGTTCACGCATATTACTTAAACTTATTTTCTCTTCCCTTATATCTTCAAGGAAGAAGCCGAGAAATCTGCATTGGAAAAAATCCAGATGGTCCTTATGGATGGGAAACCAGCCCGATCAGTAACTTTAACAGATTTTGAAAAGGATGCTATAAAGCATCTTTGCCTGCTCACAATGAAACCGGTCATATATGTGGCCAATGTAGCAGAATCTGATCTAGCGGAGCCTGCAAGTAATCCTCATGTTGAAGAAGTTATGAGTCTTGCTTCAGAGTTGCAGTCTGGAATAGTGACAGTTTCTGCACAGGTTGGGCTGAGACAATTTTTTGGGCGTTCTAAAAATATCTGTCTCAAGTCTATATAATTTTCTGCAAAATGAAATAGAGTAAAAGCCATTGACATTGTTTGATGAAAATCTGAATTGAGGGGCTTCATATTTTCAGGTTGAGTCTGAGCTTTCTGAACTTCCATCAGAAGAGAGGGTTGAGTATTTAAAATCTCTTGGTGTAAGTGAAAGTGGCCTGGGAAATCTTATTAGGGCAACCTATAACCTTTTGGGACTCCGAACATATTTTACTTCGGGTGAAAAGGTAGGGTTTTGGACAATTACTCTAGTATTTGGTTTACAATCTTTATAATAACTGAGAGATCGTTCGTGGGGCTTTTACAGGAAACAAAAGCCTGGACCATACTTTCAGGTTTGCTTCAATTCTACTAATTTGAGGAAATTAATTGACATTGACCTGATTTTTCTCTCCTAAAATGCGTGTATTATGTGTGCTGAAGGAAAATTCCTATGTTGATGTATGCTAATTGGTCTCTATGTCGAATCAGATTTTTTATTATTTATTTTTCATACTTGGCCCTAATAATATATATATTATGAGAAACCGAATTTTCATAGGGAGAACAAGGAAAGTATATATAAAAAAAAAGTATTGTTAAATTGCTACTAATCTCAAAAATTTAATTTTAATAGCTAAAGTTAATGAGTTAAGTTGGATTTATCATTTAACTTGTTTTTCATACTCATTACATGTGAGCTTAGTTACAATTAGGATTAACGAAGCTCAACACTTGCATGATTTTTGATTTATGAACTAAGCATTATAGTTTATGCATGATTTGAATACTCTCGGTGTTCAATTGTTTAGATTTATTTTATTTTCTATTTAGGAATGACTGCACCACAAGCTGCTGGAGTCATTCACTCAGACTTTGAGAGAGGGTTCATTCGCGCAGAGACGGTGAGATTAAAAGTCTTATTGTAAATCGAGAGTTTGAAGAGTTAAATTTTCTCTGTCCAACTTATACGTTTACAAATATCCTTTTCTTGTGAAAATAAAGAAGCCTGTCGTGTTTAGCTTTAAATTATTAGCTGAAAAAGAAAACACAAGTAAACTAATAAAACTAAGTATATCCATCAAAATCCCCTCTGCAAGTTGAGGGAGAAAAATTGGAGGCTTCTTTGAACTAAAAATAAAAAAAGTTGTATGCTTCTATCGTTATGAATAAATAGTAGTTATCATCCTAAATGTTTCATATTATGGTTTTGTGAATTTATCAAATACAAATTCTTGAAACAATTTTTTCTTGTCTATTCTAAATTTCTGAAAAATGGAATGTTCTAATAAGAGTTTAAAGTTATCCTTTACTGAAAAGAAATACCAAGCTTTATTGTACAACTTATTAAATAATGCCATTGTTACCTTATCTTCATACAGATCAGTTAACTTTATATTTAAAGAGAAAACAAATGAACAAACTAATGCTAAATGTCAATTGGCAATAGGCCTGTTCAACAAGCCTAAGAATTTACTCGTATCTTTAATTACTCATGGTCTATATTTTCTGTGATGATAATCCATGTTTCTGTGCTTCTCTTTTCTTCTTTTATTTTGTCTTCAGATTTTCCTTTTCTTAGATTTTTTTTTATTTTTTATTTTTTATTTTTTTGACTTATATAGGTGGCTTATGACGATTTTGTTGCTGCGGGTTCATTTTCTGCAGCAAGGGAGAAAGGACTTGTAAGTTGGTAGTTTCGTTACTGTATGTTTTGAACTCTAAAATGGTATGCATAAAACATGGCATATTTATGGTACAAGATCTTTGAATTAAGTGCACGACTAAGTTCAAGTCCATGGAGTATTTACTGTGGACAGTAGCTCAGTTAATAATATAGTTCAAGCTTAACATATAGCTTAGGAGATGTAGCCTACTGGATATAGCTTGTGGCCACCTTGTTTCTCAAACAATTCTCATACGACGGAGGAATAGGTTAAGGTAAAAGTTGCTGAAATGCAATGTTACAAATAGAATGACCGATAATTCTGTGTCATGTTTATGAATGGCCAAATTTACAAATAGAATGAAATGTATATTTTTCTTGATTTTAATGAGAATCTGGTCTTTGATAATTCTGTGTCATGCCTATCAATCGCCAATATGGATAAACCTTGTCAATAAATTATGAGTGTATTGGGTTAGTTTTTTTCCTTAAAATGACAGTATTTGGATTAAGAAGTCTTTGGAGGACACGTGGGAGGGAGTGAGGTTTAATGCTTCCTTATGGGGTTCATTAATCAATTTTTTTATAATAATTTATTAGCTTGGTCTTGGTGTGTATATAAACATTCTTTTCGTTTTCTCAATGAAACTCAGTTTCTTACAAAAAAAAAAGAAAAAAAAAGGGTTTATTGGGTTCAGGATGCTCCCCTTTTTTATGATTTTTGTTAATTGGGATGTTTTCTTGTAACTAGGACTTGGTTGTTTTCTTCTCTTTTGTTGCCTTTTGATGACCTGAGGCCCTATTCGTTTTTGTGTCCGTGTTCTTGTACTTCCATTTTTCTTGATGAAGATGGTTGCCTACTAGAAAAGTGTGGGTATGTGGAGCACAAATTTGTATTAACTAATTTTCCCTTCAATTAATCTATCTACGGAAATAACTGCAAGTTAATTTTATGCCTTGATTCTTATGCGGAACATTTATGTCCTTTCTAGTTACTGGTTTGTATATGCACTTACGATTATTATGATCTATTTTGACCTATTCTTACCTGTTGAACTGCATGTGGCCTTTTATTTTACTTGGTTTTTAAGAAAACAAGAATTGCACGTGATTTGTGATCTCAACTTCTCATTATTTTGATTTTCCCGTGCCACAAAATTTATTTTGGTAGAAAGAACAAAGAAAACTTTATGTTAGTGAAGGATCACACATCAAAACAACAAAGAGATAAGAAATCGTCCTAAGTGGTATCGAATGGAGTTTGCAAAAATGCCCTGTATTTGATACTTAATTAAAGGAGGATTGTTGCGCAGCTTTATTTAGCGCCTTCAATTTACAAATCGCAAAAGTCAGGAACTCTCAAAGAGCACTATGCTCCTTCTCTATACCTTCGGAAGCTCTATTTCATTCACTGCAAAGAAACCAACTAAGGCTTAACGGTCACCCGAAGCACTTTGCTTCTACTATAAAAAAAGATGACAACATAAAGCCTGGTCATTAAAGTTCGAAGTCTCAAGGGGCACACCAACAAAAGGAAGTTTATTTAGTTAACATTGTAAGGAGGTTTAAGTAGTTCTGTGTCTGAGCCATATTGGTTGAGAAGTTCACTTGTAGTAAAATGACAACATAGCAGTCCATCTCGAAAAAAATCCTAATGGAAGTGTTTAAAGGCTTCTGCGTTTTAATTCCATGAACAGTGAAAGTAGTTCCTCTTCCTCCACTCACTCACTCACTGAAACTTTCATGTTATGTTATTGCAGTTGAGAGCTGAGGGTAAAGAATATATTGTGCAGGAAGGGGATGTCATGCTCTTTCGTTTCAATGTTTAGCAGCTGCTGAGTTTGACCAAGTTGTCCAAGAAGCAGAAAATATAGTGGCGTTTTTTTTTTATGCAAGGTTGAATATTTGAAGTTGATTTATCATTTGATGCTTTTGGGAATTCTCATTGTTTGGGTTCGTCTTTTGTTGGTCAATGGGAGCCAAGTATGAGTTGACAATTTTGAATGTAGAGTGCATAGTTTATTGCACGAACAGATATAAATAGGCTACGAAAGGCAGAATTACACACATAATAAAGGTAGGGAGAGTGGTTGGTACCTAGTGATGGGAAGGGGATCTGTAACTTCTAGTATTGACTCAAGATTTATGTACGAACACTAAAGTTCCTTTCTTCCATTCTTCAAATCCCTTAGTCCCTTTTCCTTACCCGGCAAGTGTTGATTAGTTATCAGGAGACTCAAAATCTAACCTCAGCTAGCAGGTTGATGACAGATCCGACTCATCACACCAAGCGAAAATTTCTAAGAAGATCTATGGACGTTGCCGTAAGGAGACCTTAGGATAGCTTACTGAAACAAAGAGGAAACACAATATCTTGTTTTAGGATTGAGGAAAACTTCTAGTACCATAGTTCTTGTTTTAGGATTGTAAGACTAGGCCATACATAAAAGCTACCAAAGCTACCAAAGCCAGACAAGAATTACTAGAAAATATTCTGATAATAACGAATTAAAGAACAAGGAAGCGAACTGTCCAGTTCCTTTCTAGATAATTCTAGTTTGATGTGATAGTTGATGGAATCATACTACCCAGACCAAAAGAAGGAAAAGACCATTTGCCCTGTTTGTTTGTTTGTTATTTAGTTTAATAAATTCTTCTTTTTTAAAGATTGGTGATGTGACTAAATGTAGATGATAGTAGTACAAAAGTTTCCATATTGTTGTAATATTGGAAAGAACTTCACATGGATTTTTTTTTTTTCTGGTGTTCTTCAATTTCTATGGTCTTCTCGAATTCAAGGGAAAAGATTAATGGTACGTTTGAAATGACTTTGTAAGTGTTTAAGAGTAATAAGAGTTTCTATCCCGACAAAGTCCAGAATTATCAGTCTTCAACTGTTGAGTTTGAGAACGGTAAAGAAAAGTGGAAGCCACTTGATTAGTATCTTTGGCTGTAGGTGTCATAGTCACTCACATGTTCACTATGTTGAATTGAAATTATAGTGATTTTTGTCCGGACTTGAAAATATGTTTTTTTTTCTTGTTCAAAATTAATTTTGATGTTTAATTGCATTTAGAATGCGAAACTAAACATCAAATTGATTTTGAATGATCAAAAATATATTTATTGTGGTTTGAACCCGACAAAAATAATTTTAATTATTTTAAAGGCACTCAAACCCGCTATGCATTTTATACTTTATATGAACTGGAACTTTATACTTTAAACTAGTTGCAGAGTGATGTGTGATTGTCTTCCAGAATTACTCATGTCTTTAATTTGATCTTTGAAAAATCCCAATGTTGAACTTCATCCATCCTGATAGACCTTGAAGGTTCCTTGGACTCTTGTTACTCGATATTTCTTGCCAGTATAATCTTATCTTACCTAACAGATTGTACAGTGGTTTCAAGATCTAAATCAACGGGGGAAAATTTGGCTGGACAGAAACAGGTATGTGCATTATTCTCATAGAATTATCTTTGATAATGAATTCTTTTTTATACTTTCTCTTATTGATGATGTCAATGTCCTGAGAGATGATGATTATCCTAACTAGATAGCTAGTCATTGTCAAATAGTGATTTTTGCTTGGCTTCAATGTCTTGCTGTATTAGCGATATTTAGAAGACGTATATAGCAATGCTCTTTTTTGCTTCTAAGCTAGACACGACCTGGCTGTTTATTCTTGCTAGATAAGTTTTTAAATTTGCTTTAGCCTTAGTCAAGAGTGCACCTTTAGAAAAGTTAGTCCATAAAATTGAATATACCATTTTGAAAATGAAAGAAATCAATAATTAAACTTGGGTACTTTCGACCCCCTTGTCAAAATTATGATAGTTTCTAGGCTTAAATACTACTTTCGTCTCTATACTTTTTTCTCTTTGGTTCATTTTGGTCTTATGATCATTTTAGTTCTTAATACTTTCAAAATGTCCAAATTTGATCTACTTTTAAAAATTGACTATTTTAACTCCGTCATTTTCATCTTTTATCTCATTTTTGTTTTCAACTAAAATTTTAACATGATACTTCATTTACTAAATATCTTAAAATTTTGTTATAATTTGTATTAAAATGTTTTCACCCTGAATTACTTACCTGTTAAACTTTTACAAATATGGTTTAAAATGGTCGCTTTTTAAGACTCCAAATACTAATTTCAATACTTTGAAAATATATGCTGAAAGGACATGAAACCAAGTTTTTATTATATCATTGGCCATATGAGGCAAGTAACTTGTCCATGTCGTGTAGGCTGGTAAATTGTGTATGCTAGACAACGATCTTTTCTTGACCAAAACTACCATAACCTTTTTTCTTTTTCTTCAACAACATAATTATTTATAATAGAAAATTCTGTGTTTTGTTACCACGAATTTCTCCCTTGTCATAATTCTAATAGAGTCTTGATTTCAGCTTAGAAAAATGTTGGTTAGTCGAGGAATGCTGCATGTGGGAATAGAATTTCTTTAATTATTATTATTATTATTATTTTCTTTAAAAATTAATTATTGCCTTTTCTAGCATTATTTAGGCACGAGTAATTTAGTACTTCGATGATGGGGCATGTTTGTTAGGAGCAGAAAGGTGATAAAATATTAATATAAAGTAATCTGTTTTATGTATACACATCAAATGCATAGAAATTATAAAAGAGTTAGTCTCATTAAAATCTGCATTTTGCCCATGCTTGCTTCAGCAGTAGAGACATCGTCATACTCTGCTAGATTTCATGTTCCCTTTCTTGTAATTAGGAGATTCCCTTTTTAATTATTTTTTGGGATAATGTTATAGATGTATGTATATATTTACATCTATACACATAATTTAGCCGAGTCTGGTATAACTTAACTCAAACGGTCTGGCTCTAGTTAGATTATAACTTTATTTTGGTTTTATCTAGTTTAAATAGGTTGAATTTGAGTCGTGTTCTTGGTTGGTTTATGGACCCATTTGAACCGAGAGAAGTTATAATATAGACGCTACCTTTTTTATATATAGAAGATGTTTATAAATATGAGGTTGGAGATTAGATTCAAGTAAGCAAAAAAAAGATTACGAGAAATACATCCTTTTCTTCTGTGAACAAGAGATAACTTAAAGGAAAAAATAGGGTATTTATCTACCGAAAACTTAATATCTTACAAGTATTTTTGACAACCAAATGTGGTAGTGTTAGACAATAGTCTTGTGAAAACCGATAAAATAGGTACAAACTGTTCCTTATCATAACACCGGCCAAATGCACCCGTAACTCCTACAAATCATAAACCTTCCAACCAAATTACAAACAACATCTCAATAAAACTTTCGAAACTCGATCTACCAAACAGAAGTTCAAGAATATTTGCAAATTATACGAACCAAAAGAGAGAGAGGTTTGAATGGATGATAAAAGAAAAAGTAGAGGGAGTAGCGAGAGCTAGGGAATGGGAATTATGAGCAGAGTTCATGCACCGAATTCTCTATGTGCGAGCAAAATGGAAGAAATGGATGTCTGTGGTTAAGCTAAAGCTGGTGGGCCATGTGTGGCCTTCAATTGTATCTTTTCTTTATGTACACTGCATCAAATTTGATCCTCTAAATATCGTCTGCACGTGCAGTCCCTTTGTTTTTCCACTCTACACGACAATCTTCTCGGTCAAATGGCCATTTCTGTGGGGCACTGCGCCTCATGCATTCCCCATTTTCAGTCCATTCTTACCCTCTTACTACTCTTTTCACTACACTCTTCTTTCCATCCTTTTCATATTCGGTGCCATTTTCTTATATTATTCTCTTTTCTAAATCATGGGGCGGCCCTGGTGGCCACGGCTTTTAGGATATATCTTTTTATCAAGTTTTTGGTTCAGATCCCTGTGTCAAAATACCTTATGATTTAAGACTTCCGTGATCGTATTTCAGATTTGGTCGTCGGGTTGGACGCGTCTTTCGAAAAGGTTAGGAGGTATGAAGATATCATTTTGTGGAAAACTCAACCGTTTAAACGTTTGTGATCTTTCAAGTTTGATACTTAGGTTGGGTGAGTCTCTTTGTAGGTCGGAGGAGATGGAGAGGTCATGA ATGGCTAGAACAGCTTGCTTTCACATTATTCCGTCTCTTCTTCTCCCTTCCAAATCCTCCTTCTTCGGAACTCCCTCACTCTTCTCCGGAGCTTCTCATTTCGATCGTGTTATGGTGGTTGGCCGACGCTTCTCTTCTTCGTCCAAGATCAGCATGAGCCTCAGAGCCGGAATTGTTGGCCTCCCTAATGTTGGAAAATCCACTCTCTTCAATGCCGTCGTCGAAAATGGCAAGGCCCAAGCTGCCAACTTTCCTTTCTGTACAATAGAGCCAAATGTAGGAGTAGTTGCAGTTCCGGATCCCCGTCTCCATAAACTTTCCGATCTCAGTAAGTCTCAGCGAGCGGTCCCAGCATCGATAGAATTTGTAGATATTGCTGGGTTAGTTAAAGGAGCCAGTCAAGGAGAGGGATTGGGAAATAAATTTTTATCCCATATTCGCGAGGTGGACTCCATACTTCAGGTTGTGCGCTGTTTTGAAGACAATGACATTGTTCATGTCAATGGTAAAATTGATCCAAAAACTGATATCGATGTGATTAACTTAGAGCTTGTTTTTTCAGATCTGGACCAGATTGAGAAAAGATTAGACAAGCTCAAGAAAGGCAAGGCAAGGGATTCACAGTCTAAAGTCAAGGAAGAAGCCGAGAAATCTGCATTGGAAAAAATCCAGATGGTCCTTATGGATGGGAAACCAGCCCGATCAGTAACTTTAACAGATTTTGAAAAGGATGCTATAAAGCATCTTTGCCTGCTCACAATGAAACCGGTCATATATGTGGCCAATGTAGCAGAATCTGATCTAGCGGAGCCTGCAAGTAATCCTCATGTTGAAGAAGTTATGAGTCTTGCTTCAGAGTTGCAGTCTGGAATAGTGACAGTTTCTGCACAGGTTGAGTCTGAGCTTTCTGAACTTCCATCAGAAGAGAGGGTTGAGTATTTAAAATCTCTTGGTGTAAGTGAAAGTGGCCTGGGAAATCTTATTAGGGCAACCTATAACCTTTTGGGACTCCGAACATATTTTACTTCGGGTGAAAAGGAAACAAAAGCCTGGACCATACTTTCAGGAATGACTGCACCACAAGCTGCTGGAGTCATTCACTCAGACTTTGAGAGAGGGTTCATTCGCGCAGAGACGGTGGCTTATGACGATTTTGTTGCTGCGGGTTCATTTTCTGCAGCAAGGGAGAAAGGACTTTTGAGAGCTGAGGATTGTACAGTGGTTTCAAGATCTAAATCAACGGGGGAAAATTTGGCTGGACAGAAACAGATTTGGTCGTCGGGTTGGACGCGTCTTTCGAAAAGGTTAGGAGGTATGAAGATATCATTTTGTGGAAAACTCAACCGTTTAAACGTTTGTGATCTTTCAAGTTTGATACTTAGGTTGGGTGAGTCTCTTTGTAGGTCGGAGGAGATGGAGAGGTCATGA ATGGCTAGAACAGCTTGCTTTCACATTATTCCGTCTCTTCTTCTCCCTTCCAAATCCTCCTTCTTCGGAACTCCCTCACTCTTCTCCGGAGCTTCTCATTTCGATCGTGTTATGGTGGTTGGCCGACGCTTCTCTTCTTCGTCCAAGATCAGCATGAGCCTCAGAGCCGGAATTGTTGGCCTCCCTAATGTTGGAAAATCCACTCTCTTCAATGCCGTCGTCGAAAATGGCAAGGCCCAAGCTGCCAACTTTCCTTTCTGTACAATAGAGCCAAATGTAGGAGTAGTTGCAGTTCCGGATCCCCGTCTCCATAAACTTTCCGATCTCAGTAAGTCTCAGCGAGCGGTCCCAGCATCGATAGAATTTGTAGATATTGCTGGGTTAGTTAAAGGAGCCAGTCAAGGAGAGGGATTGGGAAATAAATTTTTATCCCATATTCGCGAGGTGGACTCCATACTTCAGGTTGTGCGCTGTTTTGAAGACAATGACATTGTTCATGTCAATGGTAAAATTGATCCAAAAACTGATATCGATGTGATTAACTTAGAGCTTGTTTTTTCAGATCTGGACCAGATTGAGAAAAGATTAGACAAGCTCAAGAAAGGCAAGGCAAGGGATTCACAGTCTAAAGTCAAGGAAGAAGCCGAGAAATCTGCATTGGAAAAAATCCAGATGGTCCTTATGGATGGGAAACCAGCCCGATCAGTAACTTTAACAGATTTTGAAAAGGATGCTATAAAGCATCTTTGCCTGCTCACAATGAAACCGGTCATATATGTGGCCAATGTAGCAGAATCTGATCTAGCGGAGCCTGCAAGTAATCCTCATGTTGAAGAAGTTATGAGTCTTGCTTCAGAGTTGCAGTCTGGAATAGTGACAGTTTCTGCACAGGTTGAGTCTGAGCTTTCTGAACTTCCATCAGAAGAGAGGGTTGAGTATTTAAAATCTCTTGGTGTAAGTGAAAGTGGCCTGGGAAATCTTATTAGGGCAACCTATAACCTTTTGGGACTCCGAACATATTTTACTTCGGGTGAAAAGGAAACAAAAGCCTGGACCATACTTTCAGGAATGACTGCACCACAAGCTGCTGGAGTCATTCACTCAGACTTTGAGAGAGGGTTCATTCGCGCAGAGACGGTGGCTTATGACGATTTTGTTGCTGCGGGTTCATTTTCTGCAGCAAGGGAGAAAGGACTTTTGAGAGCTGAGGATTGTACAGTGGTTTCAAGATCTAAATCAACGGGGGAAAATTTGGCTGGACAGAAACAGATTTGGTCGTCGGGTTGGACGCGTCTTTCGAAAAGGTTAGGAGGTATGAAGATATCATTTTGTGGAAAACTCAACCGTTTAAACGTTTGTGATCTTTCAAGTTTGATACTTAGGTTGGGTGAGTCTCTTTGTAGGTCGGAGGAGATGGAGAGGTCATGA MARTACFHIIPSLLLPSKSSFFGTPSLFSGASHFDRVMVVGRRFSSSSKISMSLRAGIVGLPNVGKSTLFNAVVENGKAQAANFPFCTIEPNVGVVAVPDPRLHKLSDLSKSQRAVPASIEFVDIAGLVKGASQGEGLGNKFLSHIREVDSILQVVRCFEDNDIVHVNGKIDPKTDIDVINLELVFSDLDQIEKRLDKLKKGKARDSQSKVKEEAEKSALEKIQMVLMDGKPARSVTLTDFEKDAIKHLCLLTMKPVIYVANVAESDLAEPASNPHVEEVMSLASELQSGIVTVSAQVESELSELPSEERVEYLKSLGVSESGLGNLIRATYNLLGLRTYFTSGEKETKAWTILSGMTAPQAAGVIHSDFERGFIRAETVAYDDFVAAGSFSAAREKGLLRAEDCTVVSRSKSTGENLAGQKQIWSSGWTRLSKRLGGMKISFCGKLNRLNVCDLSSLILRLGESLCRSEEMERS Homology
BLAST of Csor.00g227430 vs. ExPASy Swiss-Prot
Match: P37518 (Ribosome-binding ATPase YchF OS=Bacillus subtilis (strain 168) OX=224308 GN=ychF PE=2 SV=1) HSP 1 Score: 377.1 bits (967), Expect = 2.9e-103 Identity = 189/353 (53.54%), Postives = 263/353 (74.50%), Query Frame = 0
BLAST of Csor.00g227430 vs. ExPASy Swiss-Prot
Match: P44681 (Ribosome-binding ATPase YchF OS=Haemophilus influenzae (strain ATCC 51907 / DSM 11121 / KW20 / Rd) OX=71421 GN=ychF PE=1 SV=2) HSP 1 Score: 350.1 bits (897), Expect = 3.9e-95 Identity = 189/353 (53.54%), Postives = 249/353 (70.54%), Query Frame = 0
BLAST of Csor.00g227430 vs. ExPASy Swiss-Prot
Match: P0ABU3 (Ribosome-binding ATPase YchF OS=Escherichia coli O157:H7 OX=83334 GN=ychF PE=3 SV=2) HSP 1 Score: 348.6 bits (893), Expect = 1.1e-94 Identity = 184/353 (52.12%), Postives = 257/353 (72.80%), Query Frame = 0
BLAST of Csor.00g227430 vs. ExPASy Swiss-Prot
Match: P0ABU2 (Ribosome-binding ATPase YchF OS=Escherichia coli (strain K12) OX=83333 GN=ychF PE=1 SV=2) HSP 1 Score: 348.6 bits (893), Expect = 1.1e-94 Identity = 184/353 (52.12%), Postives = 257/353 (72.80%), Query Frame = 0
BLAST of Csor.00g227430 vs. ExPASy Swiss-Prot
Match: P0ABU4 (Ribosome-binding ATPase YchF OS=Shigella flexneri OX=623 GN=ychF PE=3 SV=2) HSP 1 Score: 348.6 bits (893), Expect = 1.1e-94 Identity = 184/353 (52.12%), Postives = 257/353 (72.80%), Query Frame = 0
BLAST of Csor.00g227430 vs. NCBI nr
Match: KAG6591839.1 (hypothetical protein SDJN03_14185, partial [Cucurbita argyrosperma subsp. sororia]) HSP 1 Score: 911 bits (2354), Expect = 0.0 Identity = 475/475 (100.00%), Postives = 475/475 (100.00%), Query Frame = 0
BLAST of Csor.00g227430 vs. NCBI nr
Match: XP_023534829.1 (uncharacterized protein LOC111796453 [Cucurbita pepo subsp. pepo]) HSP 1 Score: 761 bits (1964), Expect = 6.24e-275 Identity = 400/403 (99.26%), Postives = 401/403 (99.50%), Query Frame = 0
BLAST of Csor.00g227430 vs. NCBI nr
Match: XP_022937382.1 (uncharacterized protein LOC111443686 [Cucurbita moschata]) HSP 1 Score: 760 bits (1962), Expect = 1.26e-274 Identity = 400/403 (99.26%), Postives = 400/403 (99.26%), Query Frame = 0
BLAST of Csor.00g227430 vs. NCBI nr
Match: XP_022976786.1 (uncharacterized protein LOC111477062 [Cucurbita maxima]) HSP 1 Score: 757 bits (1954), Expect = 2.08e-273 Identity = 397/403 (98.51%), Postives = 401/403 (99.50%), Query Frame = 0
BLAST of Csor.00g227430 vs. NCBI nr
Match: XP_022141833.1 (uncharacterized protein LOC111012101 [Momordica charantia]) HSP 1 Score: 744 bits (1920), Expect = 3.13e-268 Identity = 389/403 (96.53%), Postives = 397/403 (98.51%), Query Frame = 0
BLAST of Csor.00g227430 vs. ExPASy TrEMBL
Match: A0A6J1FB19 (Obg-like ATPase 1 OS=Cucurbita moschata OX=3662 GN=LOC111443686 PE=3 SV=1) HSP 1 Score: 760 bits (1962), Expect = 6.09e-275 Identity = 400/403 (99.26%), Postives = 400/403 (99.26%), Query Frame = 0
BLAST of Csor.00g227430 vs. ExPASy TrEMBL
Match: A0A6J1IHV4 (Obg-like ATPase 1 OS=Cucurbita maxima OX=3661 GN=LOC111477062 PE=3 SV=1) HSP 1 Score: 757 bits (1954), Expect = 1.01e-273 Identity = 397/403 (98.51%), Postives = 401/403 (99.50%), Query Frame = 0
BLAST of Csor.00g227430 vs. ExPASy TrEMBL
Match: A0A6J1CLP3 (Obg-like ATPase 1 OS=Momordica charantia OX=3673 GN=LOC111012101 PE=3 SV=1) HSP 1 Score: 744 bits (1920), Expect = 1.52e-268 Identity = 389/403 (96.53%), Postives = 397/403 (98.51%), Query Frame = 0
BLAST of Csor.00g227430 vs. ExPASy TrEMBL
Match: A0A0A0KZ18 (Obg-like ATPase 1 OS=Cucumis sativus OX=3659 GN=Csa_4G606030 PE=3 SV=1) HSP 1 Score: 728 bits (1879), Expect = 2.65e-262 Identity = 384/403 (95.29%), Postives = 391/403 (97.02%), Query Frame = 0
BLAST of Csor.00g227430 vs. ExPASy TrEMBL
Match: A0A1S3BAU8 (Obg-like ATPase 1 OS=Cucumis melo OX=3656 GN=LOC103487658 PE=3 SV=1) HSP 1 Score: 728 bits (1878), Expect = 3.77e-262 Identity = 382/403 (94.79%), Postives = 390/403 (96.77%), Query Frame = 0
BLAST of Csor.00g227430 vs. TAIR 10
Match: AT1G56050.1 (GTP-binding protein-related ) HSP 1 Score: 602.1 bits (1551), Expect = 4.0e-172 Identity = 317/404 (78.47%), Postives = 356/404 (88.12%), Query Frame = 0
BLAST of Csor.00g227430 vs. TAIR 10
Match: AT1G30580.1 (GTP binding ) HSP 1 Score: 235.7 bits (600), Expect = 7.5e-62 Identity = 141/361 (39.06%), Postives = 205/361 (56.79%), Query Frame = 0
BLAST of Csor.00g227430 vs. TAIR 10
Match: AT5G18570.1 (GTP1/OBG family protein ) HSP 1 Score: 67.0 bits (162), Expect = 4.6e-11 Identity = 52/186 (27.96%), Postives = 82/186 (44.09%), Query Frame = 0
BLAST of Csor.00g227430 vs. TAIR 10
Match: AT1G07615.1 (GTP-binding protein Obg/CgtA ) HSP 1 Score: 63.2 bits (152), Expect = 6.7e-10 Identity = 37/100 (37.00%), Postives = 49/100 (49.00%), Query Frame = 0
BLAST of Csor.00g227430 vs. TAIR 10
Match: AT1G17470.1 (developmentally regulated G-protein 1 ) HSP 1 Score: 50.1 bits (118), Expect = 5.9e-06 Identity = 28/102 (27.45%), Postives = 54/102 (52.94%), 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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