Cucsat.G17262 (gene) Cucumber (B10) v3
Overview
Sequences
The following sequences are available for this feature:
Legend: exonCDSpolypeptide Hold the cursor over a type above to highlight its positions in the sequence below.ATAAATGTTGGAATAAGGATCGTATTTGAGGTACGCAATAGAATCTTGGTTCTATGGGCATGAATTAGTATTACACAATCGGGTCAGGGCGCAGCGTAACTAAGAGAGCCATTCCATTTAGGGCGAGCCCGTGTGGTTATGGGGGCGGGCACGAGCCGGTCTGGTGTCCGAGCCAATTGTTCAGACGACGACGACTGAACTCTTCTTGCTTGTTCCCGCCTATCCCGAAAGAAAATGGGATAATAGAAAGAACGGGAAGCGCGGGAGCTATAGGATTGGTTTTTTTGGGGGGGGGAAGGAGCCCGACAGGGTCCCCCCACTGACTTGGCCCCGACCGGCAGCTGCTGGGTTTCCCCATCTCTCCTAAACTTCCCCCGGTCTTCGGCCCGAGCTGTATGAGGCAGAAACTCGTCTCACGTACGGTTCGGAGGCCGAGCCCCACCCCAGCAGTAATGGTGCGGCTTAGGTCAACTAACACAAAGAAGATAGAGTTCACTCAACGATTGCCTTTGGGTTCCGAACTCCATATGGGGAAGGAGCGTTCTTGTTTGCGAGGCCTCCACGTCCCATACAAGTAACTCCTTCCATTTGTTTGCATAAGACCGAACTATGAGATAATCAATTTTATATGTCTTAACATGAACGATTTAGACCGAACTATGTTTTAACATGAACGATTTGCATAGGACACCCTCACTTGCATGTCTTAAAGTAACCAATTTAGAATCACATTGTTTATACTAAATATAAATTGAGTCGCATCCATAGTGTTCTCATAATAGTGTCCAACCCTATTCTATATTTTATAGACCATCTAGTTAACTCAAACTTGATTCATTTTTATGTCACTACATAAAGTTTTAGTATTCAATATAATATTAAAGGAACCTTATTTTATTAATCACGATGAGCAAATCATTAATTCAATAACAATTTATTGAATAATCCCTCAATAACTACAACTTTATTGAATAATACATGGATAGGATAAGTTTAGAATTTACAAACCATGAGTTTTCAGCCATAAAATCATACAAAAACTTGATAATTTGTTTGGATTGAAAGCAGGAAGTGTGGAATACAATTGATGTTCATTTTAGGATTGCTTCGATACAAAATATGTTGGAGACAATGAAGAAAAATTAGAATAAAGTTTAGAACAGAAAGGGTTATTTGAATAAACTTCTTGTATTTGAGTGCTTTGGCACTTATGCTCAATTGGAGAGCGCTCTTAGTTTCTTACTTACAAATGGTAGAGGACACCTCTATTTATTGTTATCAATAAATAACGCTAGAAACGCTTATTAAACCTAGAAAATATCTTTTTATTTTTTGAAAATTCATATCGAAGGAACTCGAAGGACTGTTTAAAAATTACATATTACATTTAACGGTAACAAAGTTCTATTGATAGATCAATCATATGTAATTGGATTGCTTTTGATTATGTTTACTTAAGCTTCTAGATTTGTAGATGTAATCTAATGAATATTGAAGTTGTTTAATTTGCACTTGTAATTGAATGAGTAACATAAATATCACCAATTACTATTACCCTGGAGTCTATCACCCATTACTGTTACCTAGAGTCAATTGGTAATGATATCTATAACATTAACAGTAACTATGATATATTCATATCTCTTACTGTAAAGGTAATTATATAGTATATCTGAGAGCAAAAGTTGAAAAATCATTCAAAAGTATCTCAAGTGTTAATGGGTTTCATATAATTTTCAAATGCAATCAGATTATCGATTATCGAACTCTTGTAACACAACAACAAACCTAATTAATTTGATGGAACCACTCCTCAAAATATATTTATAGGATAATAAGCATTAATTCCTTAATTCAAATTATTTTTTATAATCTCAAAAGTAGATTATATGTTTGGAACCCCATATATTCTCCCCACTTGCCAAACCAACGTAACCCTCACACTACTATTGTTTTGCTTTATTCTGATCTGTTTATTATGTTAAATTGTATATATATTATGTAAGCATGTGCTTTTCCTCGTTTTGAAGCTAACACTTGAAAAAAAGTATTTGTCACTTCACTCTACCTTAAACCGAAGAAGGTAGATTCATAACTTGATATTCAAGTACAAAAATGGAATCCATACACTTACACTTCCTCCCCCCCATAAAATATGTTTTAATTCAAGCAATGCTTACCAAAGGGTTTTTCTTTTATATAAAAAGGAGACGAATAGAATGGTAAGATTTGAACATAATGGAGCCCTCAAGAAAAGAACGGAATGGGAAAGAAAAGGAGGAGTTGGATTACCTGAAGAAATACTTGTTCAATAAGGCAATGAAAGGAAGATGGAAAGAAGTGGTGGAAAAATATGCAACGGATAGTCGAGCTCGGGAGGCGAAAATCACAAAGCGTGGCGACACGGTGCTGCACGTGGCAGTGAGCGACGGGCAAGTCGGGGTAGTGGAGGAGCTGATGAGAATTATATCAGGGGAGGAAAAGAAAGGAGGGGACGAGAGTAATAGTAAGAGAGTGGTTAGAATTGCGAATAATAAAAGCGCGACGGCGCTGCACCTAGCGGCTACGCTTGGGAACGTGAAAATGTGTTATGATATAGCTAGTGTGGACCATTCTTTGGTGGGGGTTAGAAACAATGAAGGGGAGACGCCGCTGTTCTTGGCCGCTTTGCATGGTAACAAAGATGCTTTTCTTTGCATTCACTCATTCTGTGCTCAAACAACGGTTCATTGTAGAAGAACTATAGATGGTCAAACCATTCTTCATTGTGCCATTATGGGTGATTTTTTCGGTTAGTTATATTATTCTCATCATCTACCTTTGTTTTATTTTTTATTTTTATCTTTTTGTTTTAACTACGTCTAAATACATCAAAATATTTATAAAATATAACAAAATTTCAATCATTAATAACTATGAACAGACTTTTATCGATCAGTGTTTATTGATGCATACTGATAATAGTTGACTGATGTTTATCATTGATAGAATCTAAAATTTTATTGTATTTTGTAAATATTTCTAACCGTTTGTCATTTATATAATAGTTTTTTTTATTCGTTTCGTTTAATAATTATTTGAATTTTGTTTAGAGAATCGTAAAAAATAACAAATTTGAAAAAATATTTACAACTTACAACAAATTATTTAGATTCTATCAATGTCATCGATAGGCAAATCTATCCGATTTTATTATTGAAAGAATTCAAAATTTGTTATAGCTTGTAAATATTTAAATTTATTTTGCTATTTTTTAAAAAACATTTAAATTTTCACGTTCATTTTTATTTTTATCAAGGAAACTTCGATTATTGGAGTGTGTAACAGTTTTAAAAGTTTATAATTAATTGTATAACAACCTTTTTAATGAATTGCAAATCTAATAAATTTTAGAGGCTCTATGAATAATCTTTTGTTTGTGATAGATTTAAGAAGTGTTTGAAAGTGATATATCGTTCGAGCAATGATTTTTTTTCTATCAATGATAGATATTGATAGATAATGATACGTTTCCATCCGTCGTATTAATAGACAGTAATAAAAGTCTATCGGTGTTTATCCTTGATATAATCTAAAATTTTGCTACATCTTATTAAATATTTTAATTTATTTTGCTATTTAAAAAAATTTCCTTTTTTTACCCATATTACACTCTTTCTTCCATTTATTATTATTATTTGCAAATTTAATACATGATCTAGATCAATTTTTACACACACACATATATAAGTAAGACTCCTTCCTTGTTGATGCTTTGTTATTAAATTGTATGTTAGTGTGTTAAACATATATGTAGACACATACACAAAATGTTCAATTCTTATATTATATTAAGATCAAGTTTGTAATTAAACAGAACTAGCACTTCATATCATAAAACTATACAAGGAGTTGGTGAACTTTGTGAATGAGCAAGGTTACACACCACTCCATCTTTTAGCCACCAAGCCTTCAGCTTTTAAAAGTGGAACACACTTGGGAAGATGGAAGATGATTGTTTATCATTGTAAGTATATATTCCTATTTAATCACACCCTTCTTCTATGCCTATATCCAACAATAATCTAACCTTAATGTACAAACAAACACTAACTATTCTGCTATAACTTTCTTACAGTATGAAGAAATATCATAGGTTAATTGAAATGTGGAAGAGATATGGAAATATATTTGTTGAAGATTATAGGAAATAATATTATTAATATGGTTTATTGATATGATGGAATTAGGTATATTTGTGGACGAAGTGAAGATTGATCCAAAGTCATTTCTTCGTGCTTTGCCCACAAAGCCGCTGTCGCTACACCGACGATCGAATCCAAATAATGAGAAATTGTATCCACCCAACTACACTACATGCGCCAACTTGTTCAACTTTTTGTGGAAAGGAATTCGAATGGGTTAGTAATTTCTCTCTCTTTTCTCAACCCCACAAAAGAATCCTCTTGGTTGAGAAATTTGTATTGCATGAGATTTTTCTTGTTGTTTCTTTTCTTTTTTGTGCATTTAGAGTTGCACACCTACCTTTTGTACAATTCTCCATTAGCAATAAAGATCTAATGAGAAAATGTATTTAAAAGAAATAAGAAAAATTCAAACTGTGATTGATCAATAGCTGGATTAAACTAAATTTTTTCTGTAGTACACCCTGTGTCAAAATATATACCAATGCTAACTAGTCTAGAATAGTCTCTTGAAGTATTCACAATATGCCGTTAGTGTGTGAAATAGACTTTTCTAGAGTTACGTTGAAGGATGTAAATAAATATCTTAAAATAAAAAATATAAAAATATCTTAGATTTTTTCAGGTCAAAAATTCTAGAATTTCTTTTGATATAAGGATGAAATAATAACTATCCAGAATACTTAGAATTCTAGAGAAATCTTTTGTTTGGACTCCCATGCCTGTAAATAGAACGTGTGATCCTCAATTGTGAACCAAACAAGCGAGTAAAGAGGGAAAGAAAGAAAGAGAGTTAGAAAGAAATTTGAATGAAAAGAGAGTTGAGAGTAAAAGAGAACTCTCTCCAAAAGTGCCCATCTTTGTAAATTTTCTTGAGAAAAGTTTCTTTCTTCCTAGTGAGGGTCTCTTCCTTTTGTGCCAATTTCTTCAAACAAGTGGTATTAAAGCCAAGCTAGCTTAACTTGTTGTGTTAGAGCTCTTGAACATCGATTACGGTTTGAGACTATGAAACTCTTGTTATTTGAGACAAAGCTACTTGTTGAGTGCATTCATCATTACATGGAGATCGTCTTAAGTTATTGGAGGAATCAAGATGCTCAACATTCATAATTACAAAACATAGTTCACATGCATGAACTCGTATCTCCAAGGCCAAGACTTATGGGATGTGGTAGGAGATACTAAAGTTAACCCACTTAAGGAAATTGTTGCTTTGAAGAACTGGAATGTCAAGGCAGGTAAGGTCATGTTTGCAATCAAAACTACAGTTGATGAAGAAATGTTGGAGCACACATTAGTATTGTTGAGATGCCAAAGAAAGCATGGCATACATGCACCTTACTTTTCTCAAAGAGAAATGATACAAGATTTTAACTTCTAGAGAATGAGCTCTTGTCAATTAATTGATCAAAGGGAGATGACTATCAATAAATATTTCACCAAGGTAAGAGTTCTATATCATGAAATCTGTGAATTAGATTCTACTTCTGTTATTTCAGAATCAAGAATAAGAAGAGTTATTATCTATGGTCTTAAACCTAAACAGAAAAACTTTGTTGCTCTTGTTCAAGGTTGGGAAGTATAACCATCTTTAGTTGACCTAGAAAACATGCTTGGCAATCAAGAATGGCAAAGGTCACAATAAAAAAATAATAAAGAAGCACTATTTAGTGGTCAAAGAAAAGGTCTTAAAATATCAAAATAAAGTAGAATAAAAAGAAGATGAAGAGACTCCAAAACGTCCTTAAGTAAGAAAAGTTAGTAAAAATGATCAACAACATGGCCACAGAAAAAGAATGAATGTTACAACTATGGATGTATAGGTCACTATGCTAGAGTATGTCATAAAAAGAAAAGACAACAGAAAGTACAGTTGTCACCTCCCATGTTGAGAGCATTAGTGAAGAAGAATGGGAGAAGAAGGAAATGTTGGTTATCCATGCAGAAGAGGTAAATTATGAAAATGATTGGATCGTTGATTTTGGTTACTCTAATCTTAGGATAGAAGATATAAAGAAGCTACAAAATACATCGTAGTACAAAAAAAACCAAGTTATTGTAACTGCAAACATCTCGAAGTTGTCAATAGTCCACATTAGCAAAACTATGATCACACCTCACCCCAATTCGAATCACGTGGAACTGGAGAACGTATCCTATGTGCCTAGAGTGAAGAAGAATTTGGTGTCAGTATCTCAATTGACATCTATAGGCAACTTTTCTGTGTTCAGACCTGATGATGTCAAGGTCTACCATAATCTTAAAGTTAGTGATACATCGTTGTTGGAAGGACAAAGGATGGACTTCATTTATGCTATGTTAGTAGAGGTTGCCTACGTGAACAAGACGCAGAAGAATGAAACAACAGATTTCTAGCATGCAAGACTTAGTCATCTTAGGTATAACAAATTGAAGACATGGTCTGTGCTGGTTGCCAGTATTGGAAGACACATCAACTACTATTAAAGGAGTCCGAATTCAAAGAAAAACAACTATTGGAGAAGGTGCATTCAGACGTATTTGGTCCTGTCAAGCAATCTTCACTCAGTAGAATTCGCTACATGGTGACCTTTATTGATGACTTCTTTAGATATGCTTGAGTGTTCTTTATGAAAGAGAAGTCTGAAACAGTTATAAAATTTAAGGAATTCAAAGAATAATTTGAAGGTGAATTAGGAAAGAGAATTTTAGATAATGGGGAAGAATGTATGTCAAATGAATTCTCTCAATACTTGCAAAAGTATAAGATACGTCATCAGTTAACGTGTCCAAACAGTCCACAAAAAAATGGAGTGGCAAAAAGGAAAAATAAACATCTTCCAGAGTGTGTCATAGCATGTTACATGCAAGTAATATGCCAGAAAATTTTTGGGTTGAGTTCATGAGAACAACGCCCATGTGGTTAAAAGACTCCCCAACAAAGGTTTGAGATTCAAGTCACCTTATGAAAGTTGCTGAATATCAAGCCAACAGTTAGACACTTTCGAGTCTTTGGTTGTGTATGTTATGTATTCGTACCAAATCATCTATGAAGCAAGTTTGACAAGAAAGCAATCAATGCTTCTTTGTTGGATATGACAACTGAAAAAGGGTGGAGATGCATTGATTCCACCAATGGATGATGCTATACATCAACGATTGTTACATTCGATTAAGCATCATCATGGTGGACACCAGAATTAGAAAAGACAACCAAAGACGAGAAGTCTTTCAAAGAAGGATTAAAAGAAGAGATAAGGCAAGTGCAATAGGCTCCAACAGAAGGTCAAGAAGAAAATGACAGACAAAGAAGAACAATTTGGGACACAAATTAATATCCTTGGCAAAGTGAAGTACACAAGAACCACAATTACAAAGATAGACCAGAATAAGAAATCCAAATTATAGATATGTAGATTTGCAACGTTAGCAACATTTGAAGTGCCAACAACATACGAAAAAGCGTCACAAAATATCCAATGGAGAAAAGCCATGGAAGAAGAAGTTGACGCATTAAGAAAGAATCAGACGTGGGACTTGGTACCAAAGCCTAAAGATGTTAAACCCATTAATTGTAAATGGGTTTACAAAGTTAAAACTTGAACAGATGGAAGATTGAGAGAGACAAAGCTTGAATGGTGGCTCAAGGGTTTTCTCAACAATATGGCTTAGACTCTAATGAGACGTTTGGTCCAGTTGGGACTAGCTGCAAGTAAGTACTGGAAGTTATGGCAAATGGATGTTAAGAGCGCTTTCTTAGATGAAGAGTTAGATCGAGAAATATATATGGAGCAACCAAAATGATTTGAGGATGAAGCTCATCATGACTATGTCTGCAAGCTAAGAAAGACTTCATATGGCTTGAAGCAAACACCGAAGACTTGGTATGAAAAAATTGCAAAATTTCTTGTTGAAAATGCCTATGCAGTAGCTCTAGCAGATTCCAGCTTATGCGTCAAACCTCAAGATTCAAAGGTCACAATCATATTTGTCTATATGAATGATCTAATCATAACAGGAGACCAAATGGAAGAAGTTTGACAAATAAATTAGCAAAATTTACTAGTTCGATTTGAAATGAAAGAGCCTGGAAAACTAAAGCATTTCCTTGGACTAGAGGTAGAGTGCTCAAAGAAAAGGTTGTTCCTTGAACAACATAAGTATGTAAAAGATCTTTTGTAGAAGTATGAAATGAGTGACTGCAAGCCAATATCCATACTGATGGAGGTTAACAAAAAGTTCTGTATGCATGAAAGTAAAGATCTTTGTAAACCCAACAATGTACCGTTAGTTGTTAGGTTGTTTGATCTACCTTACCTTAACAAGACCCGATATCTCATATTCTGTTGGAGTCGTAAGTCGTTACATGCAGAATCTGAAGAAGCCTCATCTCGAAGCAATTTGGAGAATTTTAATTTATCTAAGAGGAACAATGGGTATGCCCTTCTATATAAAAAAGGGGAGGACTGCAAGTTAGAAGGCTTTTGCAATGCATGCTGATTATGTAGGGGATCATGATACACGAAGATCAACTACTGGTTACTTGTTTCAACTTGGCTGTGCAACAATTTCTTGGTGTAGCAAGAGACAACAACATTTGCATTATCTACCACAAAAGCAGACTATAGAGCAACAGTCATGACAACACAAGAGAATATGTGGATAAAGCAACTAATGAAGGATTTGCACCAAGAGATTAATCATGCAGTAACTTTATATTGTGACAACCTATCTGCAATTTGCTTAGCTGAAAATCCAGTCTTCCATGCAAGGACTAAGCATGTGGAGGTACACTATCACTTCATTAATGAAGGGTACTTCAAGAGGAAATTAAGATGACGCCAATAAAGACAGAAAATCAAATTGCAAATATATTTACAAAAGGATTACCAGCAACCAAAGCATGAGAAGTTTCTTCAGCAACTCGGGATGATTGAAAGACTCAGGATAGTTAGTGTTGAGGGGGAGTATTAAAATATATACCAACACTAACTGGAATAGTTTCTTCAAGTATCCACAAAATGTCATTAGTGTGTGAATCGAATTTTTCTAAATTTATGTTGAAGGATGTAAATAAATATCTCAAAATAAAACTAGAAATACCTTGGAATTTTTTAGGTTAAGGAATTAGAATTCTTTTATGTAAGGATGAAATAATAACTATCAAGAATAGTTGGAATTCTAGATAAATTTTTTGCTTGAGCTTCAAGAATTTCACGCCTATAAATAGAAGGTGGGATCCTCCTTTGTGAACGACGCAAGCAAATCAAGTAAAGAGAGAAAGAAAGAAAGGAAAAAAGAGTCAAGATAGAAACTTTGACTGATAAGTAAATGAATGTTTTGAGAGATCTTTGTAAATGTCCTTGACAAAAGTTTCTTTCTTTTCAAGTAAGCGTCTCGTTTTGTGACATTTCTTGTGATGCTTAATTACAAGTTATCATGTGATAAACTTTTCTTTTAACGGTGAGATATATATAGCTGTATATAATTTTGCTTTCTTGTGTAATTGAAACATGAAGTTTGGAACTCCTTTTCTTTTCAGAACCCATAAGCAGCTTTTGAATCTGCATCCAAATTGCTATGTGGTTATCTCATTATGTGTGTATATATATACACATCATTTTGGATTTTTTTTATGCAGTGTGTACTGTGGGAAAGACAAAGAAAAACCAAAACAAGAATGAAGCTAAAAAGAGTATAAATGATGCAGAGAATCCTCATCCAGAAGGTTTGAGAAATCTAACATCAAATTTGAAACTTTAGGTTGAGTGGTGATTTTGAAAATTTAATCTTATAATATCAACTCACTTGTATATATAATTAAAATTATTACAGAGGATGATTCAACGGTAAGACATTATGAGCTTGCAATTTTCCCAGAAAATTATGCAACTTGCTTCAACTTTCTCAAATTGTTCTCCAAGGCCCTGCTCATATTCATGGGACTAGGTATATATAATTCATTATGATTCGAAGAAATTCCCTTGTTTGTTAATACAAGAAATTTGAATGCTTTCAATTTTTTCTTGATATTCATGTAGCTAGTTGTTATCAATATAATATATATGTACGTAAATATGAATTGATTAAGGATCTAGAGGAATAAAGAAGATTGAGGAGAAAAAGGAGAAACACATGTGGTCATTCCAAGTTATGAACAAACTTCTACAATGTGCTTCAATATATGAATATGAGGACAATGGAAGTAGACCAATGGAAACTTCAATAGAGGAAGAAACACAACCTTATTACGTTGCCGATGGCAATGTCACATTTGATGAGTTGAACATCGCCCAACATGAAGTACAACCTCCACAGGATCAACCACCACCAAACATCTCCAACCTTCACAACATTAACATTATCGACCATGATCACGATCATGATTACGGTATGAATGTCACTATTACTTTCGGTTTTCTTCTCTCTTTTATTCTAGTCAGCTTTAATTTTCTTTATTGAATTGTATTGTGTGTTATTTACAAACTTTAGATGAAATATCGTTATTGGTAATCTAAATGTTTGTCTTTTTATGCCTTGAAAATGAATGTGGTTAATCATATACCATAAACATACATGATTTGTTATATACGGTGATAGAACTCATGCATACCAATGATATATTGATTTTGATTTACAATTCGTAATATTTGAAAACATGATAGGAGTGAAATCCAAATAACTAAATTTGTTGCAAATTCGAAGATATGAGAAGTCTTTCTCATAATATTTAAGGTGTCAATCAAAGTAAGTAATAACTATTGTATATGTGATTTATTTCATGTCAATGACAGTAGCAGAAAACAAAGAAGAAGCAACAACAACAATCATTGTAGAATCAAAGTCCAGCATTGGTGATAAAATCCTAAAATATTTTCCAATAACCATTGGAGACAAGAAAGAGAACAAGAAACTGATTCTCAAAGCAACAACAACAAAAAATACATGGAAAAATACAGAGGATCATCTTAAAAATAAGCAATATTCAAGGCAAGAAACACCAGTATTGATAGCAGCAAAGAATGGAGTGGTTGAAATGGTGGAGAAGATCTTGCATTTATTTCCTGTGGCAATTCATGATACTAATTCAGAGCAAAAGAACATTGTTCTATTGGCTGTGGAGAATAGGCATCCTCATATCTATGAACTATTGCTTCGTAGAAATATTATAAGAGAAAGTGCTTTTAGAATGGTGGATTCTCAAGGAAATAGTGCTTTGCATCTTGCAGCAAAGCTTGGTGATCATAAGCCTTGGCTTATCCCTGGTGCTGCCTTGCAAATGCAATGGGAACTTAAATGGTATCAGGTAGTTAAAATTACTTCTTCTCTGTTTTTCCTACTGTTATCAATTCCGTTTTATGTTTTTAAATTACTGTAAATATCGATTTGAAATCGGTTTAGTTTTTAGATTATATGATCAAAATAGTATAAATTCTAATGCCTTCACTATATCTAGATTTTTTAAATAAAAAATGAAACATATAGATAAAACATTTCCACAAGTCAATCATCATTTAGTCATAAGAAAAAAAGTTATTTGTTAGTTGGGTTACATCCATTCTTTTGCATCTAATCAGAGCAATCACAGATAACTTTTTAATGCTTATTCCTACTCGAGATGCAAACAATTTTCGCAGCCTAGCTGGCAGACAGGTATCGCTATTGATCATATCGTTGTATTATTAACAAAGTATATAACACCAATTTGTGACAGTTTGTGAAGGCATCCATGCCATCAAACTTCTTCCCCACCTACAACAAAGAAGGAAAGACTTCAAAAGTACTGTTTAGTGAGACACATTGTGACCTAGTAAGAAGTGGAGAAGAATGGCTAACACACACCTCAGAATCCTGTTCTTTAGTAGCTGCCTTAATTGCAACTGTTGCCTTCGCCACCTCTGCCACCGTCCCAGGCGGGAACGATCAAAACAAAGGCACACCATTACTCCATGGGAGACCAGCATTCAATGTATTTGCCGTAGCATCACTCATTGCTCTCTGTTGTTCAGTCACTTCTTTAGTAATGTTCCTCTCAATATTGACCTCAAGATTTCAAGCAAAGGACTTTGGAGGCAATCTTCCCACAAAGCTATTACTGGGATTGTCATCTCTTTTTCTGTCAATTGCAGCAATGTTGGTTTCATTTTGTGCTGGACATTACTTTGTGCTTAGTGACAAGCTTCATTATGCTGCATTGCCTGTGTATGCTGTGACATGCTTGCCAGTGACATTGTTTGCTATAGCACAATTTCCTTTGTATGTGGATCTTGTGTGGGCTACTATCAAGAAAGTCCCAACAAGAAGCTATTCAGCCATCTCACCAATATAGGGCCCTTTCCACTAGTCGGGTTGGATTTTGGAAAGAAAACTACTTGCGTGCATTAGGGAATCGTATTTATCTTTGAGACTCAGTAACAAATTTTTTCTTATTTTTTGTTTTGAAATATATTCTTTAGTTTTGTGTTTATCTGATGGGTGGCAAGATTTATCATATCACTCAAACTTTACGTGCTACTTCTCCTATATATATATATATATATAAACATGTTTTGTAATTCCTACGAAGTAAGTTGGTATT ATGGAGCCCTCAAGAAAAGAACGGAATGGGAAAGAAAAGGAGGAGTTGGATTACCTGAAGAAATACTTGTTCAATAAGGCAATGAAAGGAAGATGGAAAGAAGTGGTGGAAAAATATGCAACGGATAGTCGAGCTCGGGAGGCGAAAATCACAAAGCGTGGCGACACGGTGCTGCACGTGGCAGTGAGCGACGGGCAAGTCGGGGTAGTGGAGGAGCTGATGAGAATTATATCAGGGGAGGAAAAGAAAGGAGGGGACGAGAGTAATAGTAAGAGAGTGGTTAGAATTGCGAATAATAAAAGCGCGACGGCGCTGCACCTAGCGGCTACGCTTGGGAACGTGAAAATGTGTTATGATATAGCTAGTGTGGACCATTCTTTGGTGGGGGTTAGAAACAATGAAGGGGAGACGCCGCTGTTCTTGGCCGCTTTGCATGGTAACAAAGATGCTTTTCTTTGCATTCACTCATTCTGTGCTCAAACAACGGTTCATTGTAGAAGAACTATAGATGGTCAAACCATTCTTCATTGTGCCATTATGGGTGATTTTTTCGAACTAGCACTTCATATCATAAAACTATACAAGGAGTTGGTGAACTTTGTGAATGAGCAAGGTTACACACCACTCCATCTTTTAGCCACCAAGCCTTCAGCTTTTAAAAGTGGAACACACTTGGGAAGATGGAAGATGATTGTTTATCATTGTATATTTGTGGACGAAGTGAAGATTGATCCAAAGTCATTTCTTCGTGCTTTGCCCACAAAGCCGCTGTCGCTACACCGACGATCGAATCCAAATAATGAGAAATTGTATCCACCCAACTACACTACATGCGCCAACTTGTTCAACTTTTTGTGGAAAGGAATTCGAATGGTGTGTACTGTGGGAAAGACAAAGAAAAACCAAAACAAGAATGAAGCTAAAAAGAGTATAAATGATGCAGAGAATCCTCATCCAGAAGAGGATGATTCAACGGTAAGACATTATGAGCTTGCAATTTTCCCAGAAAATTATGCAACTTGCTTCAACTTTCTCAAATTGTTCTCCAAGGCCCTGCTCATATTCATGGGACTAGGATCTAGAGGAATAAAGAAGATTGAGGAGAAAAAGGAGAAACACATGTGGTCATTCCAAGTTATGAACAAACTTCTACAATGTGCTTCAATATATGAATATGAGGACAATGGAAGTAGACCAATGGAAACTTCAATAGAGGAAGAAACACAACCTTATTACGTTGCCGATGGCAATGTCACATTTGATGAGTTGAACATCGCCCAACATGAAGTACAACCTCCACAGGATCAACCACCACCAAACATCTCCAACCTTCACAACATTAACATTATCGACCATGATCACGATCATGATTACGTAGCAGAAAACAAAGAAGAAGCAACAACAACAATCATTGTAGAATCAAAGTCCAGCATTGGTGATAAAATCCTAAAATATTTTCCAATAACCATTGGAGACAAGAAAGAGAACAAGAAACTGATTCTCAAAGCAACAACAACAAAAAATACATGGAAAAATACAGAGGATCATCTTAAAAATAAGCAATATTCAAGGCAAGAAACACCAGTATTGATAGCAGCAAAGAATGGAGTGGTTGAAATGGTGGAGAAGATCTTGCATTTATTTCCTGTGGCAATTCATGATACTAATTCAGAGCAAAAGAACATTGTTCTATTGGCTGTGGAGAATAGGCATCCTCATATCTATGAACTATTGCTTCGTAGAAATATTATAAGAGAAAGTGCTTTTAGAATGGTGGATTCTCAAGGAAATAGTGCTTTGCATCTTGCAGCAAAGCTTGGTGATCATAAGCCTTGGCTTATCCCTGGTGCTGCCTTGCAAATGCAATGGGAACTTAAATGGTATCAGTTTGTGAAGGCATCCATGCCATCAAACTTCTTCCCCACCTACAACAAAGAAGGAAAGACTTCAAAAGTACTGTTTAGTGAGACACATTGTGACCTAGTAAGAAGTGGAGAAGAATGGCTAACACACACCTCAGAATCCTGTTCTTTAGTAGCTGCCTTAATTGCAACTGTTGCCTTCGCCACCTCTGCCACCGTCCCAGGCGGGAACGATCAAAACAAAGGCACACCATTACTCCATGGGAGACCAGCATTCAATGTATTTGCCGTAGCATCACTCATTGCTCTCTGTTGTTCAGTCACTTCTTTAGTAATGTTCCTCTCAATATTGACCTCAAGATTTCAAGCAAAGGACTTTGGAGGCAATCTTCCCACAAAGCTATTACTGGGATTGTCATCTCTTTTTCTGTCAATTGCAGCAATGTTGGTTTCATTTTGTGCTGGACATTACTTTGTGCTTAGTGACAAGCTTCATTATGCTGCATTGCCTGTGTATGCTGTGACATGCTTGCCAGTGACATTGTTTGCTATAGCACAATTTCCTTTGTATGTGGATCTTGTGTGGGCTACTATCAAGAAAGTCCCAACAAGAAGCTATTCAGCCATCTCACCAATATAG MEPSRKERNGKEKEELDYLKKYLFNKAMKGRWKEVVEKYATDSRAREAKITKRGDTVLHVAVSDGQVGVVEELMRIISGEEKKGGDESNSKRVVRIANNKSATALHLAATLGNVKMCYDIASVDHSLVGVRNNEGETPLFLAALHGNKDAFLCIHSFCAQTTVHCRRTIDGQTILHCAIMGDFFELALHIIKLYKELVNFVNEQGYTPLHLLATKPSAFKSGTHLGRWKMIVYHCIFVDEVKIDPKSFLRALPTKPLSLHRRSNPNNEKLYPPNYTTCANLFNFLWKGIRMVCTVGKTKKNQNKNEAKKSINDAENPHPEEDDSTVRHYELAIFPENYATCFNFLKLFSKALLIFMGLGSRGIKKIEEKKEKHMWSFQVMNKLLQCASIYEYEDNGSRPMETSIEEETQPYYVADGNVTFDELNIAQHEVQPPQDQPPPNISNLHNINIIDHDHDHDYVAENKEEATTTIIVESKSSIGDKILKYFPITIGDKKENKKLILKATTTKNTWKNTEDHLKNKQYSRQETPVLIAAKNGVVEMVEKILHLFPVAIHDTNSEQKNIVLLAVENRHPHIYELLLRRNIIRESAFRMVDSQGNSALHLAAKLGDHKPWLIPGAALQMQWELKWYQFVKASMPSNFFPTYNKEGKTSKVLFSETHCDLVRSGEEWLTHTSESCSLVAALIATVAFATSATVPGGNDQNKGTPLLHGRPAFNVFAVASLIALCCSVTSLVMFLSILTSRFQAKDFGGNLPTKLLLGLSSLFLSIAAMLVSFCAGHYFVLSDKLHYAALPVYAVTCLPVTLFAIAQFPLYVDLVWATIKKVPTRSYSAISPI Homology
BLAST of Cucsat.G17262 vs. ExPASy Swiss-Prot
Match: P97819 (85/88 kDa calcium-independent phospholipase A2 OS=Mus musculus OX=10090 GN=Pla2g6 PE=1 SV=3) HSP 1 Score: 57.8 bits (138), Expect = 6.9e-07 Identity = 40/117 (34.19%), Postives = 58/117 (49.57%), Query Frame = 0
BLAST of Cucsat.G17262 vs. ExPASy Swiss-Prot
Match: P97570 (85/88 kDa calcium-independent phospholipase A2 OS=Rattus norvegicus OX=10116 GN=Pla2g6 PE=1 SV=2) HSP 1 Score: 57.8 bits (138), Expect = 6.9e-07 Identity = 40/117 (34.19%), Postives = 58/117 (49.57%), Query Frame = 0
BLAST of Cucsat.G17262 vs. ExPASy Swiss-Prot
Match: A0A3L7I2I8 (85/88 kDa calcium-independent phospholipase A2 OS=Cricetulus griseus OX=10029 GN=PLA2G6 PE=1 SV=1) HSP 1 Score: 57.0 bits (136), Expect = 1.2e-06 Identity = 39/117 (33.33%), Postives = 59/117 (50.43%), Query Frame = 0
BLAST of Cucsat.G17262 vs. ExPASy Swiss-Prot
Match: Q8GYH5 (Ankyrin repeat-containing protein BDA1 OS=Arabidopsis thaliana OX=3702 GN=BAD1 PE=1 SV=1) HSP 1 Score: 56.6 bits (135), Expect = 1.5e-06 Identity = 49/169 (28.99%), Postives = 74/169 (43.79%), Query Frame = 0
BLAST of Cucsat.G17262 vs. ExPASy Swiss-Prot
Match: Q9C7A2 (Ankyrin repeat-containing protein ITN1 OS=Arabidopsis thaliana OX=3702 GN=ITN1 PE=1 SV=1) HSP 1 Score: 55.5 bits (132), Expect = 3.4e-06 Identity = 42/130 (32.31%), Postives = 73/130 (56.15%), Query Frame = 0
BLAST of Cucsat.G17262 vs. NCBI nr
Match: XP_011657511.1 (uncharacterized protein LOC101211501 isoform X2 [Cucumis sativus]) HSP 1 Score: 1647 bits (4264), Expect = 0.0 Identity = 830/832 (99.76%), Postives = 830/832 (99.76%), Query Frame = 0
BLAST of Cucsat.G17262 vs. NCBI nr
Match: XP_011657510.1 (uncharacterized protein LOC101211501 isoform X1 [Cucumis sativus]) HSP 1 Score: 1646 bits (4263), Expect = 0.0 Identity = 830/833 (99.64%), Postives = 830/833 (99.64%), Query Frame = 0
BLAST of Cucsat.G17262 vs. NCBI nr
Match: XP_031743975.1 (uncharacterized protein LOC101211501 isoform X3 [Cucumis sativus]) HSP 1 Score: 1515 bits (3923), Expect = 0.0 Identity = 779/833 (93.52%), Postives = 779/833 (93.52%), Query Frame = 0
BLAST of Cucsat.G17262 vs. NCBI nr
Match: XP_008449372.1 (PREDICTED: uncharacterized protein LOC103491271 isoform X3 [Cucumis melo]) HSP 1 Score: 1441 bits (3731), Expect = 0.0 Identity = 735/833 (88.24%), Postives = 769/833 (92.32%), Query Frame = 0
BLAST of Cucsat.G17262 vs. NCBI nr
Match: XP_016900773.1 (PREDICTED: uncharacterized protein LOC103491271 isoform X2 [Cucumis melo]) HSP 1 Score: 1441 bits (3730), Expect = 0.0 Identity = 735/833 (88.24%), Postives = 769/833 (92.32%), Query Frame = 0
BLAST of Cucsat.G17262 vs. ExPASy TrEMBL
Match: A0A1S3BMT2 (uncharacterized protein LOC103491271 isoform X3 OS=Cucumis melo OX=3656 GN=LOC103491271 PE=4 SV=1) HSP 1 Score: 1441 bits (3731), Expect = 0.0 Identity = 735/833 (88.24%), Postives = 769/833 (92.32%), Query Frame = 0
BLAST of Cucsat.G17262 vs. ExPASy TrEMBL
Match: A0A1S4DXS0 (uncharacterized protein LOC103491271 isoform X2 OS=Cucumis melo OX=3656 GN=LOC103491271 PE=4 SV=1) HSP 1 Score: 1441 bits (3730), Expect = 0.0 Identity = 735/833 (88.24%), Postives = 769/833 (92.32%), Query Frame = 0
BLAST of Cucsat.G17262 vs. ExPASy TrEMBL
Match: A0A1S3BMI1 (uncharacterized protein LOC103491271 isoform X1 OS=Cucumis melo OX=3656 GN=LOC103491271 PE=4 SV=1) HSP 1 Score: 1440 bits (3727), Expect = 0.0 Identity = 735/833 (88.24%), Postives = 769/833 (92.32%), Query Frame = 0
BLAST of Cucsat.G17262 vs. ExPASy TrEMBL
Match: A0A5A7UTC2 (Serine/threonine-protein phosphatase 6 regulatory ankyrin repeat subunit B-like OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold280G002680 PE=4 SV=1) HSP 1 Score: 1422 bits (3680), Expect = 0.0 Identity = 724/820 (88.29%), Postives = 758/820 (92.44%), Query Frame = 0
BLAST of Cucsat.G17262 vs. ExPASy TrEMBL
Match: A0A6J1K7T7 (uncharacterized protein LOC111491429 OS=Cucurbita maxima OX=3661 GN=LOC111491429 PE=4 SV=1) HSP 1 Score: 1105 bits (2859), Expect = 0.0 Identity = 572/824 (69.42%), Postives = 669/824 (81.19%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Cucumber (B10) v3
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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