Csor.00g137320 (gene) Silver-seed gourd (wild; sororia) v1
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Overview
Sequences
The following sequences are available for this feature:
Legend: CDSstart_codoninitialpolypeptideintroninternalterminalstop_codon Hold the cursor over a type above to highlight its positions in the sequence below.ATGTCGCCGGGCGGATGTGCATGTATTGCTATTGAGAATGGGGATGCGGAAGCTTCTGGTAACTGTAAATCCGGTGGTTCGTATTGCGAGCATTGTGGTTGTGGTTGTGGCAGTGGTTCGGCGGATTATTCTTCTTTGCCGGCTTTTTCTTGCTCTTCTTATTCACTTTGGCTTGATTCTGCGCGGTTGAGAGAGTCCGGGAAGTTTTGGCGGATTCTGGTTGCTTCTGCTAAAGGCTTCACAATCGGAGCTGGTCTTAAAGGTGGGCTCTCCCTGTTTTCGATCCTTGCTGGATTGAAGCGGAGAAAGGCTTTGGCCTCCCTCGGGTAAGGTTGTTTCAAAATTTGTTATGAAGTTTATTTGCATGGTATCTTGCAATTTCTTTATGCTGTAAACAAATATGTTATCGAATTATGTTTCGTTTAGGAAGAAAGGAGTGATTACGAATCGTGATGCAATTTCCATGGCTTTGAAGGAGACTTTGAGGTACGGCCTGTTTCTTGGAACCTTTGCTGGGACATTCGTTTCCATCGATGAGATAATTGGCAATCTGGCAGGCCACCGTAGGTATACTCTTTTCTATTCTGATTTCTGTTCATGTAATCCTGAATCTTTGCTGTTTCATGTTCTTTGTTATCCTTTTTTGATTATTTAAATGTTCTCTTTTAGTTCAGGACTGCAAGATGGAGGGCTCTATCAGCGGGAGCATTAGCTGGGCCATCAATGCTTCTGACTGGGTTAAATACGCAACATAAGACCTTGGCTATCTACATTTTTATGCGTGCTGCGGTCTTGGCAGCGCGTTGTGGGATTAAAAGCAAGCGGTTCGGCCATATTTGTAAGCCGCTCACGTGGTCATATGGTGACATCTTCCTTATGTGTCTCTCCTCTTCGCAGATCTTGTAAGAAATCTGCCGACCCAATACACTGCTGCTAATTCAAATACTATAGGTCTTGAGCGTTTGTTCTAAATTATCGCCCATTTTCACTTTTAAGCTTCAAATTTCATCACGTCGCTTGTTTTCCTGCCTGGTATCTGAATCAACAACTTTACTTTTAGCCTGCAAATCACTACATGTAATCCCTAATGAAGCAAGCAGATGGGAAATGTGATGTCCCACATTGGTTGGTGAGGAGAACAAAACACCCTCTATAAGGGTGTGGAAACCTTCCCCTAGCAGACGCGTTTTAAAGCCTTGAGGGGAAGCCCGAAAGGGAAAGCCCAAAGAGGACAATATTTGCTAGCGGTGGATCTGGGGTGTTACAAATGGTATCAGAGCCAGACATCGGACTATGTGCCAGCGGGGAGGTTGTTCCCCAAAGGGGGTAGACACGAGAGGGTGTGCCAGTAAGGACGCTGGGCCCCAAAGGGGGGTGGATTTGGCGGGGGTCCTACATCGATTGAAGAAAGTAAAGAGTGCCTACGAGGACGCTGGGCCCTGAAGGGGGGTGGATTGTGATGTCCCACATTGGTTGGGGGAGGAGAACAAAACACCCTTTATAAGAGTGTGGAAACCTTCCCTTAGCATACACGTTTTAAAGCCTTGAGGGAAACTCAAAAGGGAAAGCCCGAAGAGGACAATATCTGCTAGGGGTGGATCTGGGGTGTTACAGGAAACCAGTCAATGACTTGCATCGTTATGATTATGAACTAATTATGTAACAGTTGAACTAGATCTATTGTTGGAATGAATGCAGGTGAGAAAACTGTGTTCATATCTTATGACACCAGGATGGTATATGCGTAAGCCAAAAAGTTCTTCTGTGTTATTACCCCAGGATGATATATGTTATTATAAAGCTATTCTTAATATTCCTCTCGTAAAGCAGTAGCCATAAGTGGACACTGTCTTGGAAAATTAGATTATCCTTGTTTAGTCTGTTTGTTGTTTTGTTTCACCTCTTCTCAATGATAGATATTGTTGCATTCTATATATGTGAGGAATATATATGTTTTTTGATCACCCAGATGAAACTTATGGTTCTTTATGCTGTCATATGAAATTACTTTGTGCTATTTTTTTTTGTAGTATCTATTGTAAGTGACTAATTTTTATAATAATAACAGACAGCTAATTAGAAGAATCATTTTCAGGTCTGCGTATGTGTTGAAGCAAGACAGTTTACCACCATCGTTTAGTTCCTTTCTCAATATACATGGTGGAAAAGATACTGTAATCCTGGAAGGTTTAAAGAGTTTTGTATCAGGCATGCCATCTTCTAATAAATTTAAAGCAATAGAAAAGTACTATAGGGCAATGGGTGCAGATGTCAAATTAGATCTGCAAATGAAGACTCCATGCACGGTATTGTTTATACATATATATATATATATATTGCTTTATTTTGTGTTTCTCTATTCAACTAGAAGAAATTAAATTCTTTGCTCTCGAAGTAAAATTAGTTGTTCCTTATGTGTTGCACAAAATATGCACGCACATTAAACGTAGATGCACTGAGATATTAGAATATCTGCCATTGTAGCAAACAACTCAAGGCGTTAATGTACTTTCCTCTCACCTGATTCAAAATCCAAGACAAACTTTTGTTCTATCCAACTCATATCCTGTTCCCCAGATTAGTTGGCATCTTGAAGGATTTTCAATTGTCAGCTGGTTGAGAAGTCTAGTGACATTATAAGGTTTATGGTTGTTCTCCATGAATGAAAATTGCACAAGTTAGAGCTATTACTTGAACATGAATTCTATGTGAACAGATTGCAACAAAGAAATGGAAATGCACACTAAAAATAGTAATATTAGATGATCTAAAGAGAGAAATTTACAAGTTCTTCTTTGTCTTTGATTATTGAACCAATCATCGACAAAAAAAAAAAAATATATATATATATATATAATAATAATAATCATTCCTGCTAAGCCAAATGCTATCAAATATTCGAAAAAAATTGATAATCTGTAAGTTTGACAATGCTGAAAGCACATTTCAGAGCAGTAGAAATGAATTATGCTCATTCCTGCCCCCACTATTTTTGGAGGTAGGCGGAGGCCAATTCTTGGGGGAAAACAAAGATTATAGCATAAAACTTTTTCCTTGGAGGCTCGTACCAAGGCCTTCCAGAGTATTTTTCCAACCCATTCCCTTTCTTCCTCAAGTACTTGGGAACAATCTTTCCGGAATGTATCTAGTTCTTTTTGTTTTCTCCACATATTGTGTGATGTCAATTGTGATGCTGATCTGATGTCTGCATGCTTGAAATGATTTTGAAGACTCCCTGCTTAGAAAATTCAGATGGTAATCATGGTATTTTTGAGAGTTTACCCTAACTATCTGCAGATATCTTTTAATTTTAAATTTTCACTTTGCATATGCTCCTGCCAAGACTAGTAAGATCAGACCTGAATGTTTCTTTCTTTCCTAATGCAGATTATACATGGAAATCAATCATGTGGTGGCCATGTTCTTAACTTTCTCATTCAAGGATATAAAAGAGCATTGCCAGTTTACCTACCTGTTTATCTTGTCCCAGCCCTGATAGTTCATCGTGAAGGTCTCATGAATAGGTTACATTTCAATTTGAATTTATTTATACTGTGAAATGTTTGGTTTCAATTTATGATTAGAGGTAATGATTTCAAGTTAGGTTTTATTATTTTTCACGGCTCGTTGTGGTTGAACTATTGCTTAGACTGTCGATTATGTCGCAAATGTCAACTTATTAATTTTTAGGAAATGGAGATAAGTTCCCTAGTTACTCGAGTGCCTTCATAGGATTTTATTTCATGAGCAAACAAGGGCTATGAGTTTTGGGCTCGTTTTATGTCTTTATTATAAATAAAATATTTAAAAAAAATGAAAATTACCCATGCCAACCTATGGATAGGAAAAACAATTAAAAGAATGGAAAAAACTAAAACTACTTTTACTTTTTGAGACAGTTCTTAAATGGTGTTTTGTTCCCGGCTCGCTCATGTGATAATTTGATTCCTTCATAGTTGAAGAAGTTATTAGATTACTGTACTTTTTTAATATAATCTTGACCTCGAGGATTGTTACAAAATACTTGCATGTTGAGATAACTTTTCTGGCTGTCTTTTTCCATCCATTGTTTTGTATTACGGAATTTCCATGTTTCCGAGGGATGAGAAGTGTTATGACCAGTGCAGGCCTTACGAAATTTTAGCAAGGGGGCTTCTAGGAACAGCCAGATCAAGTTTGTTCCTTTCTGTTTATTGTTCATCTGCTTGGTCAGTATCTCTTCCACTATATTCTAATGCATTGGCTTTGATTATTTTATTTTATTTCTTTTCTTTTATCGTTCTTGTTACTATTTTCTTCCACCTCGTTTGTGAAACTTTTTGTTTCACTTTAAAATGAAAATCCTAAGGAACCCTTTGGTTATATTATGTGAACTCCTAATTATTCATTTCTAAAACCTTCAAAATCAACCGCTACACTCCAAGGGAGAGTTAAAGAAGGTTATCTTGTGATCAATGACTAGGAGGTAAGGAGAAGTGGTTTCTTACTAGAAGTTTGAACACTCCACAAGAAAAAGTTGATTAGAATTGCATGAATGCTCAAACATGCAATCCTAGATCAAGAATCACAAAGAGGTGAGTCTTGTGGCTCTCAAGTGTGTAGATAACATCAAAATAACGTAGTTAAATAGTCAATTTTAGGAATGATGTCCTAATTTGATATCAATTCATCATTCTAAACAAACTAGCTAAAATACCCTTACTTAAAAACATGCTTAGAAGGGTAAAAATAGAAAACAATAAAAACTCTCAAAATAAAAATTTGGATGATAATTTGAAGTCACCTCAAAGTTTCATCTTCTGGAGATTATATCGGCAAAGATAAAAACAATAGTCTCTAATAGATCGTGTTTTTCCACCTACTTTTCAGGATGTGGACATGCCTTACTGCAAGAACTTTCAAGAAAATAAACATTCCCTTGGTTGCTCTGGCAACGGTATAGCTTCAGTTCTTGATTCCAATTAATTTTTATAGAGTAAGAGCTCATGTTCTTGTCCTGAAAAGCATATACTTTTTGAGCAGTTCTTAGCTGGTTTGGCTCTGGCCATTGAGAAGAAGAGCCGGAGGATTGAAATCTCACTCTATTGCCTTGCGAGAGGCATCGAGAGCTTCTTCAGCTGCATGACGGATCTGGGATACTTGCCACAATCATTGAATTTTAAGAGAGCGGATGTTATAATCTTTAGCATATCAACTGCCATTATAATGCACTGCTATGCACAGGAAAGAGAGGTATTTCGATCCAAGTATTTGAACGTCCTTGACTGGGTTTTTGGTGTGCCTCCTCCTCCCCCTTGTGATGAAACACCAAGCTGCAAAAATTGCAAGCAGCATTGAGAGGCGGCGTCGGATCTTCTTCGACGAACTAGACTGACCAGGATTTTAGGGTGTGCCAAATATGTGCATTATTTGGTCATCAATTTGCATTCTACACAATATTATGATGTTTAGGTGATCATTAGCTGATATAGAATTAGCATTCAATCAAGCTTTAGATGATTCATATGAAGATATACTTCCCCCACAGGGCCTCACATTTGGTAAATAACAGATGGCATTATTGTCTCATCACTTTTCATTTGTTAAATAAAAGCCCCTTTTCATCAATTCTAACATCTCATAGAATCTCAAACTCATTGTTTTCGTGTAGAAGCAAATTTGGGATGCCTTTATTGACAGGGAATCGGCGGCCCGTCTTCGGGCAAACAAGAGCGCCTTGCTCGAGATGCAGCTCCAGAAGAGCATGGTTGGTGGAATCGTTGCAGGAACTCATGATTCCTTGAAGTAAAATCTTTGATTATACCTTTGTAGAAACACTAGCTTGTAAGATTCCTTGAAATATTCTAAAGGCGTAAAAGTTCTTCACCTTCCACAAGATCTTCCGTATTTTGACTTGAATACAAGGCAGAATCTCTTGAAAGAAAGTCTTGAAGAGATTTGAGAAGACCTTATTTTGACTCGAACCCAAGATAAAATCTCTTGAAAGAAAGTCTTGAAGAGATTTGAGAAGCATTTTAAAGAATTCTATGGAGAGGAAGTTTTATTTCAAGAGAAACTATTTATAAAAACTCTCGAATAATATTTTCATATATAATATATTTGAATATTTAATATATTAAAATATAATATTTTATTTAAATCATATTTTAAGATATTTCAATATATTTAGTTAATTTGAATCTCACGTAAATATTAATTATTTTAATATTTAACGTATCAAATATAAATAAATAAATAAATAAAATATATATATATATATATATATATATTTATATATATTTATTAAATATTAACTTGAAGAGTTATCCTAAAATTTTACCGGTTTGCGAATTTTTAAATTTACGTTGAAAATAATATTTGTAATTGGAACGAATCGAAATTTAGAATTAAATTTGTAATTTTGCCGTTTAAAATTTAAAAGACCGAATCTGTAATTTAAACAAAAAGGAGAAAAAAAGAAGAAGAAAAGCGCGCTCACCGCCCCCAGGTCGAACTGCGCGGGAAGATGCCGAGGTCTTCAAACCTTGGAGGTTTCTGAAGCTTCTCTAAAATTCCGACATCACTTTCGCCGGAAGTTTCAAAGATTTCCCGTCGCTCTTTTCAGCGCTTGAATTCTCCTTTATATCTTATCGTCGGCTTAGTCCGGGGTAAGCTATGGAATTACTTCAGTTTTATTATCAATAGTCTCTCATGTTTTGTCAATATTGTCTATTAGAATCACTTTTCATCCTCGATCAAGCCCGACCTATCTGTTAAAATCGTTCTTGTTGATATATAGTGATTTTGGAAATCCACCGTTGTTCTGTCATGACTTCAGTTGTTGATTTCGATTGCATATGTTCATTTGACCTCGAATTGATTTTGATTTTCGTTTTATTGTTAGGGAAATTGTTGAGTATGGCAAGTTCAGGAGATTATCTTTCCCAGATTGACATTTCGAACGAGGTATGAGATTGTTCTCTCTGCATAAAGCCCTGTATGACTATTTGGAAATCGAGGGTTTGCTCCTTGTATCGCCCTCGCATGGTTAATATTTCTGATTCCGAAACCACTTTTAATCGATAGGAAAAGGACAAGCTCGTGGCGGAAGTTATCCGCTATATCATATTCAAAACTCATCAAAATTCTGGATGTCCCATCAAAAGGGAAGAGCTTACTCAGATCGTAACAAAAAATTATAGGAATCGAGGATTGCCGGCTATTGTGATAGAAGAAGCTAAAGAGAAGCTGTCAAGCATTTTTGGTTATGAGTTGAGGGAACTTCAAAGAGCACGGCCTTCATCCACTGCCCAAGGGCACCCTCCTCAACATAGTAAGAAGTGATCTAACTTATTATCTTACTCTTGATTATTACGATCGAGATCTTCAGACGTCGGGCCAACTCCCATTTATTCATGTTATCTTACTGCAATCCTAGTTATCAGAATTTTTGTAGATATGACTACTGCAAGTCACCACAGGTTTCTTTTAACAAACAGTACAGGGTTATGGTTCAGTCTTGTTATGAGTCGAAGCATACAAATTTTAAGAATGAGCTAACCTTTTGCAACTTTAGTATAGAAAAAGTGTCCAACTAATGATCTTGTCGGTGGAACAAAACGTTCTTGTGGGTGACGCATCCATAGGGTGAGAAATTCATTTCTTCTAGTAATGTTATTGTTATTACTCCAATCCGTGAGCTGTGCACATGCTTTATATTAAATGTGGTTCATTGATCATTTTATTACTTATGCTACACACTCCTATCTCAAGAACCATATATGTGAAATAGCACGTATTCGAATTTATTCTCATCTCAGAAACTGCGTACGCCTAGGTTTTGGTTCATTCTTCAAAATAAACGTCTGATGTATCTGATATACAATCCTCTTTATTCATTGCATCGAAATAAAACAACTGGAACATGAGGGCTGGCATTTTTTTAGCATGAAAGTTGTGGCTGTGGGTTGTAGAAAGTCATACTAAATTCAATGGATGTACAGACTGCTGAATGTGGTTATTTGGTTACAAATTTTCTTAGTCGCTGAATAAGCTCTCATTTCGTCAAGAACAGGATCTGCTGTATGCTTCATCTGACATGGCTTACTGCAAAACTATATCGTTATTGGATCTTGCTTTAACTCTTGTCACTACATGCCTTCAGATGTTGTAGATTCAAAATCCTATGTTCTCATAAGCAAGCTTCCTGCGGAGGTTTATAGAAAGTATGTTGAGGATGTCGATACTGCGCACGTGACTGGTTTTAATTTTGTTGTAGTTAGTATTGTACATCTGGCTGGAGGCAAAATTCCTGAAGGTTAGCTCTATGGCTGTAGTTTCTTAATCCAATGCATACTTGGTAGATTTAGAGTGATAGAAAGCCAGCTTACACATCAAATGGATTTCATTCATAAACTTTTTCTTTCATCTAATTTTGGAGACACTAATTGTAACTCAAGCCCACCGCTAGCAGATATTGTCCTCTTTGGGTTTTCCGTTTTGGGCTTCTCCTCAAGGTTTTACCGTTTTAAAAATCTTGAGGGGAAGCCCAAATGGGAAAGCCCAAAGAGGACAATATTTGTTAGCGGTAGGCTTGGGCCGTTACACTAATTTAGTATAATTTGTACATTACCTAGAGAAGATGTTGCTTATCAGATAGTTATACCAAGTTTTATACCATATTAACTGACTAAAAAAATATTTCAACTGAGTTTCTTAGAGCAAAAGTTCCAATTTTTTTGCTTCTCTTTCATCTAATCTAGTACATTACTTTGAAAAGATGTTGCTTATCAGATAGTTATACTAAGTTTTATACCATATTAACTGACTAAAAAAATATTTCAACAAGTTTCTTAGAGCAAAAGTTCCAATTTTTTTGCTTCTCTTTCATCTAATCTAGTACATTACTTTGAAAAGATGTTGCTTATCAGATAGTTATACTAAGTTTTATACCATATTAACTGACTAAAAAAATATTTCAACGAGTTTCTTAGAGCAAAAGTTCCAATTTTTTTGCTTCTCTTTCATCTAATCTAGTACATTACTTTGAAAAGATGTTGCTTATCAGATAGCCATGCTACATTTATGCAATATTGATCGACTCACAATGTTTCAAAGAGTTTCTTAGGGCAGAATGCCATTTTTTGCTTTATAATGGAACCTGGCAATACACTGCAGAAAGCCTTTGGCATCACTTGAGACGAATGGGGTTGTCTGAAAATGATGAAAAACATCCAGTCCTTGGCAACATCAAGCAGGCAGTAGAGTTGCTTGTCCAGCAAAGGTCAGTAAACTCTGTACTATATGCTTGGTAACTGCAATTTGAGCAACTTCAACATAATTCGATGACCATAGAAGATACTGGAAAGACGGGTTTACAGGTTCATCTTATGCTTGCCGTGCTTTGTAGATATCTGCAGAAGGCCAAAGTAAATGGTTCTGAAGGGAATATCACGTTCTACGAGCTTGCTGAAAGAGCTATAGATGGACCAGTTAGTGAAAAGATTAAAGAATATGTAGCACAGGTATGCAGCTTGTCTATATGTTTATATAGTGATGGATGAATATGTTGTTTTTAGTACAAATAAATGATAATCTTGTAGCATAAAATCTCATAAAGTTGCTAAATTTAAACTTATTATTTGCTTACTTTGGAAGAAGATTAAATGAACACGAGGAATAGAATCCCATAATCGTATTGTCGTGCATTTTAGATCATGTGCCGAAAAATATACAGGATGTCTATTAATAATTAGTTTTGCGTAATTTCTTAAGTAGCATAAAAATTGTGCTTAATATGGATGGTTGGATGGACGAATCAATGCTACCATGAATGATGGAGCCCATCTTCTGAAGGATTCGCTGTTTATCTGTCTGGAGTGATATCTGTCTGGTTTCTGTTGAATCTAGTTTGCTTTCAGCCTATCATTGCATGTTTCTAATAATTGTGCTTCGACAGCATCAGATCATAGCTTCACGCATTCGACTTAGTTTCTCCTATTCCAAGCTGTCTTTTGCTGCTACAGAATGTCCAAGCATATTATAATTTAGAGTCAAATAGCATAACTTTACGATTCTTTTAACTAAGTTAACCACATGCCAACCTTTCAGTCCAGCTTGCTGATGATTTGGGTTTGTAAAGTTTCAAGATAAAGAGTTATATGTTTTTTTTGGGTGTGTTTTAATCTTTTTATACATGTGAACAGCCGCTACTTTATGCGTTACGGCTTTATTATCATCATCACTAACAATCAAGAATATGAACTTACAAACAACTTCTTCCTTCATCATATTGGCTGGCCCATATTAATGTTTTTAAGATTTGATATTATTACATTAGAAGATTGTTTGTTAGAAAAAAAATTATTCACGCAGTACGAATATGGCTATGAATTTGCTGACTATCATATCCCTTCTCCCAGATCGTCAATAAAAATGTTACTACAGAAGAGGGCTGAATGTCGCCGGGCGGATGTGCATGTATTGCTATTGAGAATGGGGATGCGGAAGCTTCTGGTAACTGTAAATCCGGTGGTTCGTATTGCGAGCATTGTGGTTGTGGTTGTGGCAGTGGTTCGGCGGATTATTCTTCTTTGCCGGCTTTTTCTTGCTCTTCTTATTCACTTTGGCTTGATTCTGCGCGGTTGAGAGAGTCCGGGAAGTTTTGGCGGATTCTGGTTGCTTCTGCTAAAGGCTTCACAATCGGAGCTGGTCTTAAAGGTGGGCTCTCCCTGTTTTCGATCCTTGCTGGATTGAAGCGGAGAAAGGCTTTGGCCTCCCTCGGGAAGAAAGGAGTGATTACGAATCGTGATGCAATTTCCATGGCTTTGAAGGAGACTTTGAGGTACGGCCTGTTTCTTGGAACCTTTGCTGGGACATTCGTTTCCATCGATGAGATAATTGGCAATCTGGCAGGCCACCGTAGGACTGCAAGATGGAGGGCTCTATCAGCGGGAGCATTAGCTGGGCCATCAATGCTTCTGACTGGGTTAAATACGCAACATAAGACCTTGGCTATCTACATTTTTATGCGTGCTGCGGTCTTGGCAGCGCGTTGTGGGATTAAAAGCAAGCGGTTCGGCCATATTTGTAAGCCGCTCACGTGGTCATATGGTGACATCTTCCTTATGTGTCTCTCCTCTTCGCAGATCTTGTCTGCGTATGTGTTGAAGCAAGACAGTTTACCACCATCGTTTAGTTCCTTTCTCAATATACATGGTGGAAAAGATACTGTAATCCTGGAAGGTTTAAAGAGTTTTGTATCAGGCATGCCATCTTCTAATAAATTTAAAGCAATAGAAAAGTACTATAGGGCAATGGGTGCAGATGTCAAATTAGATCTGCAAATGAAGACTCCATGCACGATTATACATGGAAATCAATCATGTGGTGGCCATGTTCTTAACTTTCTCATTCAAGGATATAAAAGAGCATTGCCAGTTTACCTACCTGTTTATCTTGTCCCAGCCCTGATAGTTCATCGTGAAGGTCTCATGAATAGGCCTTACGAAATTTTAGCAAGGGGGCTTCTAGGAACAGCCAGATCAAGTTTGTTCCTTTCTGTTTATTGTTCATCTGCTTGGATGTGGACATGCCTTACTGCAAGAACTTTCAAGAAAATAAACATTCCCTTGGTTGCTCTGGCAACGTTCTTAGCTGGTTTGGCTCTGGCCATTGAGAAGAAGAGCCGGAGGATTGAAATCTCACTCTATTGCCTTGCGAGAGGCATCGAGAGCTTCTTCAGCTGCATGACGGATCTGGGATACTTGCCACAATCATTGAATTTTAAGAGAGCGGATGTTATAATCTTTAGCATATCAACTGCCATTATAATGCACTGCTATGCACAGGAAAGAGAGAAGCAAATTTGGGATGCCTTTATTGACAGGGAATCGGCGGCCCGTCTTCGGGCAAACAAGAGCGCCTTGCTCGAGATGCAGCTCCAGAAGAGCATGGTTGGTGGAATCGTTGCAGGAACTCATGATTCCTTGAACTTCTCTAAAATTCCGACATCACTTTCGCCGGAAGTTTCAAAGATTTCCCGTCGCTCTTTTCAGCGCTTGAATTCTCCTTTATATCTTATCGTCGGCTTAGTCCGGGGGAAATTGTTGAGTATGGCAAGTTCAGGAGATTATCTTTCCCAGATTGACATTTCGAACGAGGAAAAGGACAAGCTCGTGGCGGAAGTTATCCGCTATATCATATTCAAAACTCATCAAAATTCTGGATGTCCCATCAAAAGGGAAGAGCTTACTCAGATCGTAACAAAAAATTATAGGAATCGAGGATTGCCGGCTATTGTGATAGAAGAAGCTAAAGAGAAGCTGTCAAGCATTTTTGGTTATGAGTTGAGGGAACTTCAAAGAGCACGGCCTTCATCCACTGCCCAAGGGCACCCTCCTCAACATAATGTTGTAGATTCAAAATCCTATGTTCTCATAAGCAAGCTTCCTGCGGAGGTTTATAGAAAGTATGTTGAGGATGTCGATACTGCGCACGTGACTGGTTTTAATTTTGTTGTAGTTAGTATTGTACATCTGGCTGGAGGCAAAATTCCTGAAGAAAGCCTTTGGCATCACTTGAGACGAATGGGGTTGTCTGAAAATGATGAAAAACATCCAGTCCTTGGCAACATCAAGCAGGCAGTAGAGTTGCTTGTCCAGCAAAGATATCTGCAGAAGGCCAAAGTAAATGGTTCTGAAGGGAATATCACGTTCTACGAGCTTGCTGAAAGAGCTATAGATGGACCAGTTAGTGAAAAGATTAAAGAATATGTAGCACAGATCGTCAATAAAAATGTTACTACAGAAGAGGGCTGA ATGTCGCCGGGCGGATGTGCATGTATTGCTATTGAGAATGGGGATGCGGAAGCTTCTGGTAACTGTAAATCCGGTGGTTCGTATTGCGAGCATTGTGGTTGTGGTTGTGGCAGTGGTTCGGCGGATTATTCTTCTTTGCCGGCTTTTTCTTGCTCTTCTTATTCACTTTGGCTTGATTCTGCGCGGTTGAGAGAGTCCGGGAAGTTTTGGCGGATTCTGGTTGCTTCTGCTAAAGGCTTCACAATCGGAGCTGGTCTTAAAGGTGGGCTCTCCCTGTTTTCGATCCTTGCTGGATTGAAGCGGAGAAAGGCTTTGGCCTCCCTCGGGAAGAAAGGAGTGATTACGAATCGTGATGCAATTTCCATGGCTTTGAAGGAGACTTTGAGGTACGGCCTGTTTCTTGGAACCTTTGCTGGGACATTCGTTTCCATCGATGAGATAATTGGCAATCTGGCAGGCCACCGTAGGACTGCAAGATGGAGGGCTCTATCAGCGGGAGCATTAGCTGGGCCATCAATGCTTCTGACTGGGTTAAATACGCAACATAAGACCTTGGCTATCTACATTTTTATGCGTGCTGCGGTCTTGGCAGCGCGTTGTGGGATTAAAAGCAAGCGGTTCGGCCATATTTGTAAGCCGCTCACGTGGTCATATGGTGACATCTTCCTTATGTGTCTCTCCTCTTCGCAGATCTTGTCTGCGTATGTGTTGAAGCAAGACAGTTTACCACCATCGTTTAGTTCCTTTCTCAATATACATGGTGGAAAAGATACTGTAATCCTGGAAGGTTTAAAGAGTTTTGTATCAGGCATGCCATCTTCTAATAAATTTAAAGCAATAGAAAAGTACTATAGGGCAATGGGTGCAGATGTCAAATTAGATCTGCAAATGAAGACTCCATGCACGATTATACATGGAAATCAATCATGTGGTGGCCATGTTCTTAACTTTCTCATTCAAGGATATAAAAGAGCATTGCCAGTTTACCTACCTGTTTATCTTGTCCCAGCCCTGATAGTTCATCGTGAAGGTCTCATGAATAGGCCTTACGAAATTTTAGCAAGGGGGCTTCTAGGAACAGCCAGATCAAGTTTGTTCCTTTCTGTTTATTGTTCATCTGCTTGGATGTGGACATGCCTTACTGCAAGAACTTTCAAGAAAATAAACATTCCCTTGGTTGCTCTGGCAACGTTCTTAGCTGGTTTGGCTCTGGCCATTGAGAAGAAGAGCCGGAGGATTGAAATCTCACTCTATTGCCTTGCGAGAGGCATCGAGAGCTTCTTCAGCTGCATGACGGATCTGGGATACTTGCCACAATCATTGAATTTTAAGAGAGCGGATGTTATAATCTTTAGCATATCAACTGCCATTATAATGCACTGCTATGCACAGGAAAGAGAGAAGCAAATTTGGGATGCCTTTATTGACAGGGAATCGGCGGCCCGTCTTCGGGCAAACAAGAGCGCCTTGCTCGAGATGCAGCTCCAGAAGAGCATGGTTGGTGGAATCGTTGCAGGAACTCATGATTCCTTGAACTTCTCTAAAATTCCGACATCACTTTCGCCGGAAGTTTCAAAGATTTCCCGTCGCTCTTTTCAGCGCTTGAATTCTCCTTTATATCTTATCGTCGGCTTAGTCCGGGGGAAATTGTTGAGTATGGCAAGTTCAGGAGATTATCTTTCCCAGATTGACATTTCGAACGAGGAAAAGGACAAGCTCGTGGCGGAAGTTATCCGCTATATCATATTCAAAACTCATCAAAATTCTGGATGTCCCATCAAAAGGGAAGAGCTTACTCAGATCGTAACAAAAAATTATAGGAATCGAGGATTGCCGGCTATTGTGATAGAAGAAGCTAAAGAGAAGCTGTCAAGCATTTTTGGTTATGAGTTGAGGGAACTTCAAAGAGCACGGCCTTCATCCACTGCCCAAGGGCACCCTCCTCAACATAATGTTGTAGATTCAAAATCCTATGTTCTCATAAGCAAGCTTCCTGCGGAGGTTTATAGAAAGTATGTTGAGGATGTCGATACTGCGCACGTGACTGGTTTTAATTTTGTTGTAGTTAGTATTGTACATCTGGCTGGAGGCAAAATTCCTGAAGAAAGCCTTTGGCATCACTTGAGACGAATGGGGTTGTCTGAAAATGATGAAAAACATCCAGTCCTTGGCAACATCAAGCAGGCAGTAGAGTTGCTTGTCCAGCAAAGATATCTGCAGAAGGCCAAAGTAAATGGTTCTGAAGGGAATATCACGTTCTACGAGCTTGCTGAAAGAGCTATAGATGGACCAGTTAGTGAAAAGATTAAAGAATATGTAGCACAGATCGTCAATAAAAATGTTACTACAGAAGAGGGCTGA MSPGGCACIAIENGDAEASGNCKSGGSYCEHCGCGCGSGSADYSSLPAFSCSSYSLWLDSARLRESGKFWRILVASAKGFTIGAGLKGGLSLFSILAGLKRRKALASLGKKGVITNRDAISMALKETLRYGLFLGTFAGTFVSIDEIIGNLAGHRRTARWRALSAGALAGPSMLLTGLNTQHKTLAIYIFMRAAVLAARCGIKSKRFGHICKPLTWSYGDIFLMCLSSSQILSAYVLKQDSLPPSFSSFLNIHGGKDTVILEGLKSFVSGMPSSNKFKAIEKYYRAMGADVKLDLQMKTPCTIIHGNQSCGGHVLNFLIQGYKRALPVYLPVYLVPALIVHREGLMNRPYEILARGLLGTARSSLFLSVYCSSAWMWTCLTARTFKKINIPLVALATFLAGLALAIEKKSRRIEISLYCLARGIESFFSCMTDLGYLPQSLNFKRADVIIFSISTAIIMHCYAQEREKQIWDAFIDRESAARLRANKSALLEMQLQKSMVGGIVAGTHDSLNFSKIPTSLSPEVSKISRRSFQRLNSPLYLIVGLVRGKLLSMASSGDYLSQIDISNEEKDKLVAEVIRYIIFKTHQNSGCPIKREELTQIVTKNYRNRGLPAIVIEEAKEKLSSIFGYELRELQRARPSSTAQGHPPQHNVVDSKSYVLISKLPAEVYRKYVEDVDTAHVTGFNFVVVSIVHLAGGKIPEESLWHHLRRMGLSENDEKHPVLGNIKQAVELLVQQRYLQKAKVNGSEGNITFYELAERAIDGPVSEKIKEYVAQIVNKNVTTEEG Homology
BLAST of Csor.00g137320 vs. ExPASy Swiss-Prot
Match: P43361 (Melanoma-associated antigen 8 OS=Homo sapiens OX=9606 GN=MAGEA8 PE=1 SV=2) HSP 1 Score: 69.3 bits (168), Expect = 2.2e-10 Identity = 57/210 (27.14%), Postives = 103/210 (49.05%), Query Frame = 0
BLAST of Csor.00g137320 vs. ExPASy Swiss-Prot
Match: P43363 (Melanoma-associated antigen 10 OS=Homo sapiens OX=9606 GN=MAGEA10 PE=2 SV=2) HSP 1 Score: 66.6 bits (161), Expect = 1.4e-09 Identity = 50/185 (27.03%), Postives = 92/185 (49.73%), Query Frame = 0
BLAST of Csor.00g137320 vs. ExPASy Swiss-Prot
Match: P43355 (Melanoma-associated antigen 1 OS=Homo sapiens OX=9606 GN=MAGEA1 PE=1 SV=1) HSP 1 Score: 63.9 bits (154), Expect = 9.1e-09 Identity = 57/206 (27.67%), Postives = 100/206 (48.54%), Query Frame = 0
BLAST of Csor.00g137320 vs. ExPASy Swiss-Prot
Match: P43356 (Melanoma-associated antigen 2 OS=Homo sapiens OX=9606 GN=MAGEA2 PE=1 SV=1) HSP 1 Score: 52.8 bits (125), Expect = 2.1e-05 Identity = 41/175 (23.43%), Postives = 78/175 (44.57%), Query Frame = 0
BLAST of Csor.00g137320 vs. ExPASy Swiss-Prot
Match: P43365 (Melanoma-associated antigen 12 OS=Homo sapiens OX=9606 GN=MAGEA12 PE=1 SV=2) HSP 1 Score: 52.0 bits (123), Expect = 3.6e-05 Identity = 43/175 (24.57%), Postives = 77/175 (44.00%), Query Frame = 0
BLAST of Csor.00g137320 vs. NCBI nr
Match: KAG6585294.1 (Non-structural maintenance of chromosomes element 3-like protein, partial [Cucurbita argyrosperma subsp. sororia]) HSP 1 Score: 1549 bits (4011), Expect = 0.0 Identity = 786/786 (100.00%), Postives = 786/786 (100.00%), Query Frame = 0
BLAST of Csor.00g137320 vs. NCBI nr
Match: XP_022952006.1 (uncharacterized protein LOC111454723 isoform X1 [Cucurbita moschata]) HSP 1 Score: 927 bits (2397), Expect = 0.0 Identity = 465/467 (99.57%), Postives = 466/467 (99.79%), Query Frame = 0
BLAST of Csor.00g137320 vs. NCBI nr
Match: XP_023538421.1 (uncharacterized protein LOC111799208 isoform X1 [Cucurbita pepo subsp. pepo]) HSP 1 Score: 924 bits (2389), Expect = 0.0 Identity = 463/467 (99.14%), Postives = 465/467 (99.57%), Query Frame = 0
BLAST of Csor.00g137320 vs. NCBI nr
Match: KAG7020214.1 (putative mitochondrial adenine nucleotide transporter BTL3 [Cucurbita argyrosperma subsp. argyrosperma]) HSP 1 Score: 923 bits (2385), Expect = 0.0 Identity = 467/476 (98.11%), Postives = 467/476 (98.11%), Query Frame = 0
BLAST of Csor.00g137320 vs. NCBI nr
Match: XP_023002662.1 (uncharacterized protein LOC111496453 isoform X1 [Cucurbita maxima]) HSP 1 Score: 907 bits (2344), Expect = 0.0 Identity = 459/467 (98.29%), Postives = 460/467 (98.50%), Query Frame = 0
BLAST of Csor.00g137320 vs. ExPASy TrEMBL
Match: A0A6J1GJ26 (uncharacterized protein LOC111454723 isoform X1 OS=Cucurbita moschata OX=3662 GN=LOC111454723 PE=4 SV=1) HSP 1 Score: 927 bits (2397), Expect = 0.0 Identity = 465/467 (99.57%), Postives = 466/467 (99.79%), Query Frame = 0
BLAST of Csor.00g137320 vs. ExPASy TrEMBL
Match: A0A6J1KK52 (uncharacterized protein LOC111496453 isoform X1 OS=Cucurbita maxima OX=3661 GN=LOC111496453 PE=4 SV=1) HSP 1 Score: 907 bits (2344), Expect = 0.0 Identity = 459/467 (98.29%), Postives = 460/467 (98.50%), Query Frame = 0
BLAST of Csor.00g137320 vs. ExPASy TrEMBL
Match: A0A5A7VHD2 (Uncharacterized protein OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold82G004870 PE=4 SV=1) HSP 1 Score: 841 bits (2173), Expect = 1.43e-300 Identity = 424/464 (91.38%), Postives = 437/464 (94.18%), Query Frame = 0
BLAST of Csor.00g137320 vs. ExPASy TrEMBL
Match: A0A1S3BAT4 (uncharacterized protein LOC103488060 OS=Cucumis melo OX=3656 GN=LOC103488060 PE=4 SV=1) HSP 1 Score: 841 bits (2173), Expect = 1.43e-300 Identity = 424/464 (91.38%), Postives = 437/464 (94.18%), Query Frame = 0
BLAST of Csor.00g137320 vs. ExPASy TrEMBL
Match: A0A6J1BRD3 (uncharacterized protein LOC111004892 isoform X1 OS=Momordica charantia OX=3673 GN=LOC111004892 PE=4 SV=1) HSP 1 Score: 840 bits (2170), Expect = 4.09e-300 Identity = 421/464 (90.73%), Postives = 438/464 (94.40%), Query Frame = 0
BLAST of Csor.00g137320 vs. TAIR 10
Match: AT1G34630.1 (BEST Arabidopsis thaliana protein match is: Mitochondrial import inner membrane translocase subunit Tim17/Tim22/Tim23 family protein (TAIR:AT5G51150.1); Has 323 Blast hits to 315 proteins in 124 species: Archae - 0; Bacteria - 0; Metazoa - 95; Fungi - 110; Plants - 73; Viruses - 0; Other Eukaryotes - 45 (source: NCBI BLink). ) HSP 1 Score: 561.6 bits (1446), Expect = 9.9e-160 Identity = 286/448 (63.84%), Postives = 346/448 (77.23%), Query Frame = 0
BLAST of Csor.00g137320 vs. TAIR 10
Match: AT1G34630.2 (FUNCTIONS IN: molecular_function unknown; INVOLVED IN: biological_process unknown; LOCATED IN: cellular_component unknown; EXPRESSED IN: 25 plant structures; EXPRESSED DURING: 15 growth stages; BEST Arabidopsis thaliana protein match is: Mitochondrial import inner membrane translocase subunit Tim17/Tim22/Tim23 family protein (TAIR:AT5G51150.1); Has 30201 Blast hits to 17322 proteins in 780 species: Archae - 12; Bacteria - 1396; Metazoa - 17338; Fungi - 3422; Plants - 5037; Viruses - 0; Other Eukaryotes - 2996 (source: NCBI BLink). ) HSP 1 Score: 455.3 bits (1170), Expect = 1.0e-127 Identity = 234/378 (61.90%), Postives = 285/378 (75.40%), Query Frame = 0
BLAST of Csor.00g137320 vs. TAIR 10
Match: AT1G34770.1 (CONTAINS InterPro DOMAIN/s: MAGE protein (InterPro:IPR002190); Has 1274 Blast hits to 1260 proteins in 85 species: Archae - 0; Bacteria - 0; Metazoa - 1104; Fungi - 45; Plants - 49; Viruses - 0; Other Eukaryotes - 76 (source: NCBI BLink). ) HSP 1 Score: 302.0 bits (772), Expect = 1.4e-81 Identity = 153/234 (65.38%), Postives = 187/234 (79.91%), Query Frame = 0
BLAST of Csor.00g137320 vs. TAIR 10
Match: AT5G51150.1 (Mitochondrial import inner membrane translocase subunit Tim17/Tim22/Tim23 family protein ) HSP 1 Score: 120.2 bits (300), Expect = 7.6e-27 Identity = 95/377 (25.20%), Postives = 178/377 (47.21%), 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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