CsaV3_3G020840 (gene) Cucumber (Chinese Long) v3
The following sequences are available for this feature:
Legend: exonpolypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below.GAGATTTTTATAATAAAACCCAAAAATGAAAAGAAAAAGAAATTCTCACTTTGGAGGCAAGGAATCGTTTGCGTACATTTTCCAACGGCATCTATTCGTCATCTGTTCTCTCAGAGGAACACAAACCTCATCTCCAACTCAAAATCCCCCCTTCTTTCTATCACACGATCACTTGAATTTCACTCCATTGGTGACGCTAATGTCGGGCTCCAGAATCCAACCAGCAGCTTCTGTTCTTTCCTCTTCCATCAAGCGCCATATGGGTTTTAGTTTCTACCTTCCTTCCAATTCCTCGCTTTCTCCTTTTCACCATTCTTCATTCTCCTTCAGGCGCTCTGGACCTGCACGATCTCTCTCTGTTTCCATGTCTGTTGCCCCTCTTGAAGCCTGCGTCAAAGCTTCCACTACTCTACCCAACAAGCTCGGCGACTGTAATTCCTTCTCTTTATTCCTTCTGTTTCTGTTATTTGCTGTTGGTTCTCTCTATTTCCTGTTTGGAATTTATGTGTGTTTTGAGAAATGACGATAATATGATGGAATGCCCTTCACTGAACTTGAGAATTGTCAAATTTCGTATGTTTTTAACATCAATTGGTTCTTTTAGAATCATGTGTGTGTGACATTGATGAAACCGGAGAAATATACTCTTTCGAAGAAAATTTGTTCTCAAGTTATTTGAGTCACTTGGACCCTCTCTCTTGTTTGGGAGTGCAATTGAAATGGTTAAAATGGCTCAAAAACTTGCTTTTAACCATTAAAAATCAATTTTGATGGTATGAATATCAGTTTAAAAATGTTAACGTTAAATTTTTTAATGGTCAAAGCAAGCTTAGCTTATTGGTAACTGATATGCACTCCCTTCTCCAGGTTGGAGATTTAATCACCCATTATCTCAAGTTGAACTAGAAAAAGTTGATTTTGAATGATTAAAGAAAGAGAAAGGCATGTTTCCGAATATGACAAAAGTGACTTTAGCAATTTCAAAATCTCTCCTAGACATATAACCAAGTCTAAACCAACCAAACTTTTTCAAGGCCTAACTTCATCTCTTCCCTAATAGCTATTAGATAAAACAAATTGGTACTCTGGTAGTTAGTTTAAAGATAGGGGCATTTTTAAAATAGCAAAATAAATTAAAATATTTACAATCTATAGTAAAATTTTGAATTTTATCAAGGATAGAAACTGATAACATTCTATCATTGTCTATCAACGTCACTGATAAAAGGATATCATTGTCTATCAATGTTTATTATTGATAGAATTTAAAAATTTTGCTATAGGTTGTAAACATTTTGTCAAATTTGCTATTTTTGAAAATTTCCGTTAAAGATAATTTGTTACTTATCGTTTAATTAGTTTTATTAAACCACCAATTCACCCAAAAGCTTAAACTTGTGGTTGAAGGCAAATTTAATTCTATATCACTACAAGTTTGTTTCACTAAAGTTGTAAAAATACCCCTAGATAGGGAAAATATGAATATCAAGCCCATTATTTTCTCTCATTGTGCAACTTTAATATGGTATCAGAAGTTAAATCATTTTTCACCTCTTCTTCCCCCTTCAGCCCCTACGTTGATTGATCTGAAGGTCATAAGAGAGGATGTTACGAAGGATGAATTCTTGAAGGAGGTCATTAGTAAGTTGCAGAGAGGAGAAGAAGTGAAAAATTATACTTGGCAACATGAGATGCTCCGGTACAAGGGAAGAATAGTGATTGCGAAAAACTCTTCTTTAATTCCTACTATTATGCACACGTACCATGATTCTGTGCTTGGGGGACATTCTGGGTTCTTAAGAACGTATAAGAGGCTAACAGGAGAACTATTTTGGGTTGGCATGAAGTCTGAAATACAAAAGTATTATGAAGAGTGTACCACGTGTCAACGAAATAAAACGTTGGCACTCTCACCTGCTGGGTTAGTAACTCCATTGGAGATACCAAGTATAGTATGGGAAGACATCTCTATGGACTTCATTGAGGGATTACCCAAATCCTTTGGATATGAGGTTATTTTTGTGGTGGTGGATCATTTTAGTAAGTATGCTCATTTCCTAGGCCTCAAGTACCCCTTTGATGCCAAGATTGTAGCAAAGTTGTTTGTGAAAGAAGTTGTAAGATTGCATGGCTTCCCACAATCAATAGTTTCTGACTGTGATAAGATTTTTCTGAGTAATTTTTGGAAGGAACTGTTTTGTTTGGCAGACACAAAATTGAACAGGAGCACTGCTTATCATCCTCAAACGGATGGTCAGACAGAGGTTGTTAACAGGTCAGTAGAGATTTACTTACGCTGCTTTTGTGGGGAAAAACTGAGGGAGTAGATGAAATGGATTCCCTGGGCGGAATACTGGTATAATACTAAATACTACATACCAACGTTCCTTAGGGGTGTCTCCTTTTCAAGCGGTATATGGACGCACACCCCCAGCTATGATATATTATGGAGACCAGGGAACTTCAATTTCCACACTGGATGAGCAGCTCAAAGAAAGAGATATACCCCTGGGTGCTTTGAAAGAGCATTTACGCATAGCACAAGATAAGATGAAGAGTTATGCTGATATGAAAAGAAGACATGTAGAATTTGAGGAAGGAGACATGGTGTTCTTAAAAATCAGACCCTACAGGCAGGTTTCTATGTGTAAGAAGAGCATTTATGCATAGCACAAGATAAGATGAAGAGTTATGCTGAAATGAAAAGAAGACATGTAGAATTTGAGGAAGGAGACATGGTGTTCTTAAAAATCAGACCCTACAGGCAGGTTTCTATGTGTAAGAAGAGGAATGAGAAGCTGTCACCTAAATATTTTGGCTCTTATCGAGTCTTGAAGAAAATTGGCCCTGTTGCGTATAGGATGGAATTACCTACTGCAGCAACTAATATTTCACAGTTGAAGAAAGCCTTCGGGGAGTGCGCTAATAAAGAGGAATTAGTGCCTTTCTTGACTGAAAATCACGAGTGGCTAGCTGTACCTGATGAGGTCTACGGATACCAAAAGAATGGGAAAGGAGTTTGGGAAGTTTTGATGAGCTGGAAAGGACTTCCGAGGCATGAGGCAACTTGGGAGAATTATGATGACTTCCAATAGTCCTTCCCTAATTCCCACCTCGAGGACAAGGTGAAACTAGATCGGGAATGCAATGTTAGACCACCCATAATACACCAGTACAGTAGAAGAAAGAATATTAAAGAAAAGAGGAAGGAGAAGGAGTTAGTTGAGAATGTAACGGCATGGGGGGACCACAATGAGTGGAACGGTTTAAGGGGGGGGACCGCATTGAGTGGGAAGGGAAGATCAATAGAAAATGGAAGAGAGGAAGGGGTGGCTTTTTGATGAAGTAATTTTCTGTGTATTCTTGAAAGAGAGAGTAACAGAGAGAGAGGAGAGTTCAATCAAATTGGGCACTCTATCCAATTCGATTTCGTTTATATTGTAATTTCCTATTTCTATCAATGTAGTAATATCTCAGTTTCTATTATCTTGTGTTGGAAATTCTGTATTCCATCATATCACTAGATGGGTCTATGAGAGGTTTCCAGTTGGCAGAAGAACAAGAGGGATGAGACAGTTTAATGCTTTTATAGATTCTGCCAATCTAATGGAAACTCCCCTTCAAAATGGCAAATTTACTTGGTCAAGAGAGGGTGGCACTGCTGCAAACCTCTGTTGGACAGATTTTTTATTAACAGTAAATGGGATGATGATTTTGAAAACTCAAGAGTGACCCGTAAAGCAAGAACCTTCTCCAATCACTTTCCTTTATTATTAGAGGCAGGTGCAATACTATGGGGGCCATCCCCATTCAGATTTTGCAATAGTTGGTTGTTAATAAAAGAGTGCAACAAGGTTATTGAGGAAGTCTTGAAAATCCCCCAGGCATTGGGTGGGCTGGTTTCATTCTTCATGAGCAGCTTCGTAAAGTGAAACTTGTTGTTAAAAATTGGCATGCTACTCATTTGATTGATATAAAGCAGAAAGAGGAAAGGCTTTTGAGAGAGTTAGAAATCATTGATGAGCTTGCAGAAAATGTTGGTCTGAATGAAGTAGAATTGGCTCACAGATCAGCTATACAAACAGAGTTGCTTTGTATTTACAGAACCGAAGAAAGAAATTTTATACAGAAAAGTAAACTAAATTGGCTTGCCGTAGGAGATGAAAATACGGGCTTTTTTCACAGATTCCTTAATGCAAAAAAATGAAAAAACCTAATCACAGAATTGGTGGATGAGCAAGGGGTGATAACAAAGTCTTTTTGCAACATTGAAAGGGTGATATTTGGGTTCTATGAAGACCTGTATAAAAAAATTCCAGGAGTCAGATAACTTCCTTTTATGGCAGATTGGCCTTGTGTCTTTATTTCTCAAAAATTTTCACTAGTCAACAGCTTCTCTGAGATGGAGATTATTTGGATACCGTAGACAAGAACAGACAGATTTGCCCTTACTGCCATTTATTTGGATACCGTAGACAAATGTTACAAACTTCATGGCTTTCCCCCAAGCTACAAACCAAAGAACAGGACAAACAACCAAGTGCAGAAAGCTCCATCAAATAATCCACCTGCCAATACTAATGCTGCAAAAATTAACCAAATATCACCTAGATCAAGTACCCTGTTGGACAACGAGACACTCTCTCAATGCCCCAACATACTTTCCATGCTTCAGTCAAAATTAGCTGTTGTCAAGATTGATCATGATGCCATTGCTCATACTGCAGGTACTTGCTCTCCTTATAAAACTAAAAATGAATGGAATATTGACTCAGGAACTTCCACACACGTATGTTTCCAAAAGCACATCTTCTCTGACTTGAAGCCCATTGCTAGTTCAATTGTTCTTCCCAACAACTCTTACATCCCCGTACGCTATATTGGCTCGGTTATTCTTTTCGGCTCCATAGTCCTTCATCATGTTCTTTTTGTACCAGAGTTTCAGTATAACTTGTTATCTGTCAGTAGTTTAATGAAAGATAACACACTCACTGTGAGATTTCTTTATGATGGTTGTGATATTCAGGCAAGATTCACTTTGAAGAAGATTGGAAGGGGTAAACTACATGATGGACTATATATCATTGAGCATCCCTAACAAGTTGTTGATCCTTTACATTCCTCAGCTTCTATTAATCCAGTATCTCATGCAACTTTTGATGTTGAGCACAAGACTTGGATACCTTTCTATCTCCCGCTTGTTTGCCCTAAAAGATGTGTTGTTTCTTGATTCTTCTATGTTAAATAAGACTTATTCTTGTGAAATCTGTCCATTTGCAAAACAGAAAAAATTGATGATCCTATTTCAAGTCACTCACATTCTGGTTACAAATATTCTCTTGCTCTAGTTGATGATCATAGTAAATACACTTGGGTTTTTCTCATGAGAAATAAGTCAGATGTACTAAAAATTGTTCCTCAGTTTTTTGCCTATGTAGAAATTCAATATAAAAACACAATCAAGGTGTTTAGATCCGATAACGCACCTGAGCTATCCTTTGCTCGGTTTTTCTACAAAAGGGAGTCATCCATCAACTCTCTTGCGTTGGAAGACCAGAGAAAAATTGTGGCAAGAAAGCACCAACACATCCTAAATGTAGCAAGAGCTCTATTTTTTCAGTCACGTGTCCCATTACAGTTCTGGAGTGAATGCATCTTAACATTTGTGTTCCTCATCAACCAGACTTCATTACCTATGCTGGATTGGAAGACCGCTTATGAACTCCTTCATGGACAACCAGCAGATTACTCATCACAAAAGACTTTTGGTTGCTTGTGTTTTGCCTCCACATTACAAAATGGTAGATCAAAGTTTGATCCAAGAGCTACACCAGCCGTCTCCACAGGCTACCCAAATGGTATGAAGGCTTACAAAGTATTTGACATTGCCAAATAAATTCTTTACTTACCAAGATGTAATCTTCCATGAAACATTCTTTCCATTCCATAAAGTCGCTACTCATAATGAACAGCCACCTTTTCTACAAACTCTTGTCCTTCCCAAGTCCTTTGATGTTGACAGTTCAACACAACTTCCAATTCCCCTCCCTTATCCAATAGTGAATACCCAAAACCAGCCCATTTCTCCATCAACTAACACCCAAAATAGTCCTTTGCCCGGTCATCATAATGACACCTCCATTACATCGAATCCCTCCTTAGAAATCTCCACCAATGAAATAATGCTCTGAACTTAACCATTCCACCAATGAGACTTCACCCACCTCCGGCCAACCTGTTAGAAACCTTAAATGAACCTTGTATATCCCAACCATCTATTCCACCCCTAGAAAATCCCAACGTACAACCAAACCTCCCTCACACCTACAAGATTACCATTGTAACCTTACCAATCACTCAAACCTTCCCTCCTTAAACACTCGTTATCCCATTACCTTCTCCCTATCATATAACCACCTTTCTCCCAATTTTAAATCTCTCTCCATAGCTATATCTTCTCACTATGAACCTCAGTACTACCACGAAGTTGTTCCCTTCGATCATTGGAAAGAAGCAATGAAACTTGAAATCCAAGCCATGAAAGATAATTACACTTGGGACATTGTTCCCCTTCCACCTTCAAAACATACCATTGGCTGGCTGCAAATGGGTATATAGGGTAAAACACAAGGCTAATAGCTCCATTGAAAGATATAAAGCCAGACTCGTTGCAAAGGGATATACTCAGCAAGAGAGACTAGACTAGATTTCATAGGGAGCTTTTCACCAGTAGCCAAGCTAGTGACTATCTGAGTTCTCCTCACAATGTTTGTGACGTACAACTGGCCTCTTATCCAGTTTGATGTGAATAATGTTTTTCTACATGGTGATTTGTTTGAAGAAGTCTTTATGGAATTACCACTTGGTTACAAGCCACAAACATCTCATAATCTGATGTAGCCTAAGTAACCTCAAGGAGAAATTCTCCAAGAACCAAGTTTGTGGATCTTTTATTAGAATGAATAATTTGCTTCAAACAAAAGAAGAATCCTATTTATAGAGTGCTATTACAATTGGAGTAAAAAAGGAATTAACCTAGAATATTGCCTAATTACCCAATTAGCCCTTAGTCTTCTTACATCATAATCATAGTCACAAGCTTGTTTGTAAATTGAAGAAGCCAATCTATGGCTTGAAACTAGCATCTCAACAATGGTATGCAAAATTCTCCAACGCCCTCATGCTCTTGGTTTTACTCAATCTAAAGTTGAATACTCTTTGTTTGTTCGTGGAAAAGGAGAACACCCCATTGCCCTATTAGTTTATGTTGATGACGTAGTCATAACAGGAGCAAATGAAAAGTAGATCAATCAAGTTAAGGCCTTGCTACATGAAAAGTTAAAACTCAAGGATCTTGGTCCTCTCAAGTATTTCTTGGGTTTGGAACTTGCTCAATCCAATAGAGGAATATCCATATCTTAGAGACATTAGACTCTACAGATCCTACAAGATGTTGGACTGCTAGCAGCTAAACCCCTCTCCGTTCCAATGGATCCTTATGTAAAATTGAAGAGCTCACATGATGATGTGCTAGATGACCCTTCATCATATAGAAGGCTAATTGGAAGATTACTTTATTTGACCATCTCAAGACCAGACATTGTCTTTCTTTACTATAAACAAGCTCAGCCAATTTGTTGCTAAGCGTTGCAAATCTCAATTGATAGCTGCTCACAATCTGTTAAGATACTTGAAGTCTTCACCAGGGCAAGGAATCCTTATTTCTCCAGCAAAGAGGTTTCAGTTAAAGTCTTTTGCTACCTCTAATTGGGCATCATGCCTTGATACCAGAAAGTTTACTTCTGGTTTTTGCATCTTTATGGAAGACGCCTTTATTTCTTGGAAGTCCAAAAAGCTGTGTGTTGTGTATCTCAATTCTCTGCTGAAGCTTAATACAGATCGCTTGCCTCCACCACTTGTGAACTTGTGTGGTTAAATTCCCTATTTCATGACCTTTGCATACCCATTGTACAACCCTCCCTCTTATATTGCGATAATCAAGCTGCTATCCACCTTGCCAATAATCCAATTTTCCATGAAAGAACCAAACACATTGAACTTGACTGCCATTTCATCCGAGATAAACTTGCTAATGGATCTTTAAAACTACTACCAGTACACTCTAACTCCCAATTAGCTGACAACTTCAAAAAACCATTGGCTCCTTCGCCCTATTTTTCTATCCTATCCAAGTTGGGAACTGTTGATCTGTATGGTCCAACTTGAGGGGGGGATATTAGATAAAACTAACTGTTATTATGGTAGTAATATGGTAGTTAGTTTAAAGATAATTTGTTACTTATCAGTTAATTAATTTATCTCACTAAAGTTGTATAAATACCCCTAAATAGGGAAAATATGAATATCAAGCCCATTATTTTTCTCCCACTGTTCAACTATAATAATAGCCAAGTATTTTAATATGGCAAATTACCCCTTAATACCCTAAGAACATTTCTTATTCTAATGGAAATCCTTACCTTCATACTTAAAGCCCATGAATTTTTTTTTACTAGTATATGACCTCAATTTGGTCTTAGTGATGAAATATTTTTTCCTTTCAGGCCCTTTTTGTCAGAGGGTATTACTCACTTTGGAGGAAAAGCATCTACCCTATGACTTAAAGTTGGTAGACCTGTCAAACAAGCCAGAATGGTGATTATCTAATTTGATTTGTCTCTTTGTGAAAACATAGATTTTTTACAAGTAGTTCGATATGCTCCATTTGGTTTATCAGAAAGCCAATATATATGTATAGATAGATAGATAGATAGAGGAAGTTCTATGTTTATGCCTTTTAATTGTGCAAGTCTTTAAACTTCTTTTCTGATTGTCTATTCCTCTTTTTTTTTTTTTTACTTATTTTGAGTCCAGGTTCTTAAAAATAAATTCAGAAGGCAAAGTTCCCGTTGTTAAATTTGATGAGCAGTGGATTGCAGATTCAGATGTTATAACAGAAACACTAGAAGAGAAGTACCCAAATCCACCTTTAGTAACCCCTCCTGACAAATCTTCAGTGTATGTTTTATGTTTTATGTTTTATACTTGCCTCATTTTTTTCCTAGTGGGTGTAAGTTCAATGGTGTGACACAATTACTGGAAGTACATATAATGTACTAAAAGTTGAACTTGTGGAAACCTAAGCTGATGAGCGTTCACTGTGTATACTTTGTACCATCCAAACATGTTCATCAACATTCATACTGGTGTTCAGATTATAGTTCTGTAAGGGGCATGTGAGATTTGATAATATCCTGTAAGTAGGAATATTCACACAAAATAATAACAAAAAAAAAGTGGAACACTGAAACTGTGGTAACAATTTGGTTGATTTTTCACAATCTCGTTACGATTTTTTTCATCTTTCCAAATAAATATTTTTCAGGTTTTCAAAACTTGACTTGGATTTTGAAAACACTCTTAAAAAGTAGATGATAAAACAAAGTGACATGTAGCTGCTAGTGTTTCTAAGCTTAATTTTAAAAATCAAGTAATTGCCAAACGAGACGTAGTAAGCCATGCCATGAGGATGTAAGCCTCTATGTATGTTCATCAAATTGAAAAGGAATTTCTGCACTCACGAATTTGAGTTGAATGAGAGTTTTTCGAAGCTTTTTTTCTTATGGAATCTCATATTTCCCTGTCTTCATTTAGTGTGTGAAAGTTATCAAGTGTTCAAAGATGAAAATTCTGTTCGTTATATGTTTCATTTTTTTATCTCCAAATGTATCAAATAATTAGGATGTTTACTGGCAGCTATTGCAATATTTTTCCTGCAGAGGATCAAAGATTTTTTCCACATTTATTGCTTTTCTAAAGAGCAAGGATCCTAATGATGGAACAGAACAAGCATTGCTTAGTGAGCTAACTTCTTTCAATGATCACATCAAAGAGAATGTAAGACCTTTTTCTTTTCTGTATCTCTTTCTAAATCAAATATCGTACCTTACGGCTTACAGTGAATGAACAAGAATGAATCACATAATGTTGAATGGATTCTTAGTAAATAATCTCTACTGAATTCTATCCTCTTATATTTGGTAAAAGAGGAAACGTATAGTGCTACATGATTCATCATTATCTCACATAACCACTGGCAAGCTCTGGCTCTGTTGAAGTAGCTCCATTTTTTCAACTCTGTGATGAAAACTTCATAGAACCCTTTTCCAGCATTTGCTTTCTCTCACATTGATTGCAGTTTAATGTTTTCCCTCAAGTTTCTGAATTCTGCGCTGGCAGTACCACAAAATGTCAGAAGTAGCAAGGCACCATTTCTTTTTCATGAATTGCACATTCATGTTGAATGTCCTGTTTAAGATTATCCAGTTACAAATTTACAGTCACCCGTCATCTCATATGTAATGAGTTGATAGATAACTATCTTAGATGGACTTGACCTTATTTTTCTCCTTCTAAATGACTTGGATCGTATATGATTCTGTACAATGTTCGGCTTTTGGATTATATATTTGAAGGTTTGGCATTCTTGAGGTTTTCTAATGAGTAAGGCTTAATCCTGAATGGAATGAGACATGTTGCTGATAGGAACCAAAACACGATCAACTATATTGTAAGGTAAATTACGAAAACTTACAAGATAGCCAAATAATTCGAATAACTTGGACCATGTCCTCTTGAGATCATTCTCAAGCCTTAGTTCTCGCACCAAAGAATTTCCTCCCTTCTTCATTCCCCTCACACCCTCTATTTGTAACCAATGAGCATGTCAAACTCTCTAGCTAATTACCAATATACCCTTAATACTCTAACAACTCCCTAATAGCATTCCTATTAGTTGAATATGCCTCCATCTAAATATAAGGAAAAAATTATAAAAATCATAAAAAAAATTCAATCAGTTTTTCTATCCATCATAACTTTCTTAACTAATATTACAAAGGTAATCTCATCACTTATAAGAACAACTTATTCTTTAATCTTTAATTTTTATCATCAATATTTTCATAAGCTTTGGTAATAGAAGTAGTATGGGCTAAATTAACAACTTGTTGTTTAGTGGCAGTGAATACGTAAATGAGTTTTATATTATTGAAGAACGTGGACAATGAATAATTATTATTCTCATGATCCATAGAGACTTAAAGCATTTGTTATCATATAGCCTTAAGCCTCATATGATCCGAAATGCTCATAAGACTCGAGGTAAAAATGTGAGTCTAGCTTTAAGGCGAGCCTGAAGCTACAAACTTAAAAAACTCTTTAAACAGTGTCATTACCAATCTTTCCCAGCACGAGTGGCAATGCATGAAATGATGAAAATAAGTAAATATCATTTGCTCTTTTTTGCGACTTACCATCATATATCTTTTTTTGAAAAGGGCCCTTTGATCAATGGGAAAGAGATTTCTGCTGCAGATCTGTCACTTGGTCCAAAGTTGTACCATCTAGAAATTGCATTGGGTCACTATAAGAACTGGTCTGTTCCAGACAGTCTACCCTACGTTAAGTCGTACATGAAGGTACATCTGAACTTTTAGCTTCATTGTGATTCATGCATTAGCTTTTAGCTTTTAACAACTGTTCTTTAGAGCCATTTTTATAAGCTAATCAGAACTCATTTTAAAATGTAATGTTAAGATGCACTTGAAACAACTATTCATCCCCCCATGTTCAAAGAATGAAAACTTCAAGTGTTATCAAAGTTATTCCACCCAAGAAGATGAAGAGAATTTAGTTTTCAACGTGATAGGTTTTAGCAGACAGCGGAACAGTCTTTAAACACAACTCCAGAGTGGGACCATAGTTTCTGTTAGATTTGTTATATTCATTATGAAACTGCATTTTAGTTTTAATGTTTCATTCACTATCATTTAGAACAGAAGCTGTGTACATTATCCCAGAACTTTTACAACTACTAACGTCTTCTGGATTGTAGCATCATGTTTATGGAATAGTTGTGTTTAACAGCCAGCAATATGATATTGAAATGTGCAAGATTGAAGTTCAAACCTTTCATCCCACTTTACTTCATGTCATAATTGAATAGAGAGCTTAGGACTGAAGTGTGCAGGATAATGGAAAAACTTTAACCGTTGGTTTAACATGCATCGTTATCCTTGAATCTGTTTCTTGATGTTACTGAAGCTTTGCTCATTTGTTTTATTGCTGGCTTCAATGTATTAATTATGATTGATGACACTGCATCAGAGCATATTTTCAAGAGAATCTTTTGCAAAAACTCGTGCGTTGCCGGAGGATGTTATTGCTGGTTGGCGTCCAAAGGTATTAGGTTAAAATAATTTCTATACTGCTGAATCGTTAGGAATGAGATTCCACTGTCCTACATCTCTTCAAAGGCAGGCACGGTAGTCCAGTTAAATTTCTAACAAATATGATGCAATGAGCGTTTTTTCTCCTGCTTCTTGTCACACTCAAAGCTGTTTTGTATTATGCTTATGTCTAATACATCTTGTAAATTGAACTTTTGTATGAAAGTCATTCAAGTACCTTCCCATGTATGAATTTATGAAGTTGTGATTGTTTATTCAAGTACCTTCCCATGTAATATGAATTTATGAAGTTGTGATTGTTT ATGAAAAGAAAAAGAAATTCTCACTTTGGAGGCAAGGAATCGTTTGCGTACATTTTCCAACGGCATCTATTCGTCATCTGTTCTCTCAGAGGAACACAAACCTCATCTCCAACTCAAAATCCCCCCTTCTTTCTATCACACGATCACTTGAATTTCACTCCATTGGTGACGCTAATGTCGGGCTCCAGAATCCAACCAGCAGCTTCTGTTCTTTCCTCTTCCATCAAGCGCCATATGGGTTTTAGTTTCTACCTTCCTTCCAATTCCTCGCTTTCTCCTTTTCACCATTCTTCATTCTCCTTCAGGCGCTCTGGACCTGCACGATCTCTCTCTGTTTCCATGTCTGTTGCCCCTCTTGAAGCCTGCGTCAAAGCTTCCACTACTCTACCCAACAAGCTCGGCGACTGCCCTTTTTGTCAGAGGGTATTACTCACTTTGGAGGAAAAGCATCTACCCTATGACTTAAAGTTGGTAGACCTGTCAAACAAGCCAGAATGGTTCTTAAAAATAAATTCAGAAGGCAAAGTTCCCGTTGTTAAATTTGATGAGCAGTGGATTGCAGATTCAGATGTTATAACAGAAACACTAGAAGAGAAGTACCCAAATCCACCTTTAGTAACCCCTCCTGACAAATCTTCAGTAGGATCAAAGATTTTTTCCACATTTATTGCTTTTCTAAAGAGCAAGGATCCTAATGATGGAACAGAACAAGCATTGCTTAGTGAGCTAACTTCTTTCAATGATCACATCAAAGAGAATGGCCCTTTGATCAATGGGAAAGAGATTTCTGCTGCAGATCTGTCACTTGGTCCAAAGTTGTACCATCTAGAAATTGCATTGGGTCACTATAAGAACTGGTCTGTTCCAGACAGTCTACCCTACGTTAAGTCGTACATGAAGAGCATATTTTCAAGAGAATCTTTTGCAAAAACTCGTGCGTTGCCGGAGGATGTTATTGCTGGTTGGCGTCCAAAGGTATTAGGTTAA ATGAAAAGAAAAAGAAATTCTCACTTTGGAGGCAAGGAATCGTTTGCGTACATTTTCCAACGGCATCTATTCGTCATCTGTTCTCTCAGAGGAACACAAACCTCATCTCCAACTCAAAATCCCCCCTTCTTTCTATCACACGATCACTTGAATTTCACTCCATTGGTGACGCTAATGTCGGGCTCCAGAATCCAACCAGCAGCTTCTGTTCTTTCCTCTTCCATCAAGCGCCATATGGGTTTTAGTTTCTACCTTCCTTCCAATTCCTCGCTTTCTCCTTTTCACCATTCTTCATTCTCCTTCAGGCGCTCTGGACCTGCACGATCTCTCTCTGTTTCCATGTCTGTTGCCCCTCTTGAAGCCTGCGTCAAAGCTTCCACTACTCTACCCAACAAGCTCGGCGACTGCCCTTTTTGTCAGAGGGTATTACTCACTTTGGAGGAAAAGCATCTACCCTATGACTTAAAGTTGGTAGACCTGTCAAACAAGCCAGAATGGTTCTTAAAAATAAATTCAGAAGGCAAAGTTCCCGTTGTTAAATTTGATGAGCAGTGGATTGCAGATTCAGATGTTATAACAGAAACACTAGAAGAGAAGTACCCAAATCCACCTTTAGTAACCCCTCCTGACAAATCTTCAGTAGGATCAAAGATTTTTTCCACATTTATTGCTTTTCTAAAGAGCAAGGATCCTAATGATGGAACAGAACAAGCATTGCTTAGTGAGCTAACTTCTTTCAATGATCACATCAAAGAGAATGGCCCTTTGATCAATGGGAAAGAGATTTCTGCTGCAGATCTGTCACTTGGTCCAAAGTTGTACCATCTAGAAATTGCATTGGGTCACTATAAGAACTGGTCTGTTCCAGACAGTCTACCCTACGTTAAGTCGTACATGAAGAGCATATTTTCAAGAGAATCTTTTGCAAAAACTCGTGCGTTGCCGGAGGATGTTATTGCTGGTTGGCGTCCAAAGGTATTAGGTTAA MKRKRNSHFGGKESFAYIFQRHLFVICSLRGTQTSSPTQNPPFFLSHDHLNFTPLVTLMSGSRIQPAASVLSSSIKRHMGFSFYLPSNSSLSPFHHSSFSFRRSGPARSLSVSMSVAPLEACVKASTTLPNKLGDCPFCQRVLLTLEEKHLPYDLKLVDLSNKPEWFLKINSEGKVPVVKFDEQWIADSDVITETLEEKYPNPPLVTPPDKSSVGSKIFSTFIAFLKSKDPNDGTEQALLSELTSFNDHIKENGPLINGKEISAADLSLGPKLYHLEIALGHYKNWSVPDSLPYVKSYMKSIFSRESFAKTRALPEDVIAGWRPKVLG
BLAST of CsaV3_3G020840 vs. NCBI nr
Match: XP_004145855.1 (PREDICTED: glutathione S-transferase DHAR3, chloroplastic [Cucumis sativus]) HSP 1 Score: 543.9 bits (1400), Expect = 3.8e-151 Identity = 270/270 (100.00%), Postives = 270/270 (100.00%), Query Frame = 0
BLAST of CsaV3_3G020840 vs. NCBI nr
Match: XP_008457014.1 (PREDICTED: glutathione S-transferase DHAR3, chloroplastic [Cucumis melo]) HSP 1 Score: 517.3 bits (1331), Expect = 3.8e-143 Identity = 256/270 (94.81%), Postives = 261/270 (96.67%), Query Frame = 0
BLAST of CsaV3_3G020840 vs. NCBI nr
Match: XP_022935505.1 (glutathione S-transferase DHAR3, chloroplastic isoform X2 [Cucurbita moschata]) HSP 1 Score: 490.3 bits (1261), Expect = 5.0e-135 Identity = 244/275 (88.73%), Postives = 257/275 (93.45%), Query Frame = 0
BLAST of CsaV3_3G020840 vs. NCBI nr
Match: XP_022935504.1 (glutathione S-transferase DHAR3, chloroplastic isoform X1 [Cucurbita moschata]) HSP 1 Score: 485.7 bits (1249), Expect = 1.2e-133 Identity = 244/276 (88.41%), Postives = 257/276 (93.12%), Query Frame = 0
BLAST of CsaV3_3G020840 vs. NCBI nr
Match: XP_023528498.1 (glutathione S-transferase DHAR3, chloroplastic isoform X2 [Cucurbita pepo subsp. pepo]) HSP 1 Score: 483.8 bits (1244), Expect = 4.6e-133 Identity = 241/275 (87.64%), Postives = 254/275 (92.36%), Query Frame = 0
BLAST of CsaV3_3G020840 vs. TAIR10
Match: AT5G16710.1 (dehydroascorbate reductase 1) HSP 1 Score: 367.9 bits (943), Expect = 6.7e-102 Identity = 180/272 (66.18%), Postives = 216/272 (79.41%), Query Frame = 0
BLAST of CsaV3_3G020840 vs. TAIR10
Match: AT1G75270.1 (dehydroascorbate reductase 2) HSP 1 Score: 277.7 bits (709), Expect = 9.2e-75 Identity = 130/209 (62.20%), Postives = 163/209 (77.99%), Query Frame = 0
BLAST of CsaV3_3G020840 vs. TAIR10
Match: AT1G19570.1 (dehydroascorbate reductase) HSP 1 Score: 270.8 bits (691), Expect = 1.1e-72 Identity = 126/209 (60.29%), Postives = 162/209 (77.51%), Query Frame = 0
BLAST of CsaV3_3G020840 vs. TAIR10
Match: AT1G19550.1 (Glutathione S-transferase family protein) HSP 1 Score: 162.2 bits (409), Expect = 5.6e-40 Identity = 81/172 (47.09%), Postives = 108/172 (62.79%), Query Frame = 0
BLAST of CsaV3_3G020840 vs. TAIR10
Match: AT2G29450.1 (glutathione S-transferase tau 5) HSP 1 Score: 43.1 bits (100), Expect = 3.8e-04 Identity = 26/88 (29.55%), Postives = 45/88 (51.14%), Query Frame = 0
BLAST of CsaV3_3G020840 vs. Swiss-Prot
Match: sp|Q8LE52|DHAR3_ARATH (Glutathione S-transferase DHAR3, chloroplastic OS=Arabidopsis thaliana OX=3702 GN=DHAR3 PE=1 SV=1) HSP 1 Score: 367.9 bits (943), Expect = 1.2e-100 Identity = 180/272 (66.18%), Postives = 216/272 (79.41%), Query Frame = 0
BLAST of CsaV3_3G020840 vs. Swiss-Prot
Match: sp|Q67UK9|DHAR2_ORYSJ (Probable glutathione S-transferase DHAR2, chloroplastic OS=Oryza sativa subsp. japonica OX=39947 GN=DHAR2 PE=2 SV=1) HSP 1 Score: 360.1 bits (923), Expect = 2.5e-98 Identity = 166/214 (77.57%), Postives = 191/214 (89.25%), Query Frame = 0
BLAST of CsaV3_3G020840 vs. Swiss-Prot
Match: sp|Q65XA0|DHAR1_ORYSJ (Probable glutathione S-transferase DHAR1, cytosolic OS=Oryza sativa subsp. japonica OX=39947 GN=DHAR1 PE=1 SV=1) HSP 1 Score: 287.3 bits (734), Expect = 2.1e-76 Identity = 133/209 (63.64%), Postives = 167/209 (79.90%), Query Frame = 0
BLAST of CsaV3_3G020840 vs. Swiss-Prot
Match: sp|Q9FRL8|DHAR2_ARATH (Glutathione S-transferase DHAR2 OS=Arabidopsis thaliana OX=3702 GN=DHAR2 PE=1 SV=1) HSP 1 Score: 277.7 bits (709), Expect = 1.7e-73 Identity = 130/209 (62.20%), Postives = 163/209 (77.99%), Query Frame = 0
BLAST of CsaV3_3G020840 vs. Swiss-Prot
Match: sp|Q9FWR4|DHAR1_ARATH (Glutathione S-transferase DHAR1, mitochondrial OS=Arabidopsis thaliana OX=3702 GN=DHAR1 PE=1 SV=1) HSP 1 Score: 270.8 bits (691), Expect = 2.0e-71 Identity = 126/209 (60.29%), Postives = 162/209 (77.51%), Query Frame = 0
BLAST of CsaV3_3G020840 vs. TrEMBL
Match: tr|A0A1S3C447|A0A1S3C447_CUCME (glutathione S-transferase DHAR3, chloroplastic OS=Cucumis melo OX=3656 GN=LOC103496793 PE=4 SV=1) HSP 1 Score: 517.3 bits (1331), Expect = 2.5e-143 Identity = 256/270 (94.81%), Postives = 261/270 (96.67%), Query Frame = 0
BLAST of CsaV3_3G020840 vs. TrEMBL
Match: tr|A0A0H3U218|A0A0H3U218_SIRGR (Dehydroascorbate reductase OS=Siraitia grosvenorii OX=190515 PE=2 SV=1) HSP 1 Score: 474.9 bits (1221), Expect = 1.4e-130 Identity = 237/274 (86.50%), Postives = 253/274 (92.34%), Query Frame = 0
BLAST of CsaV3_3G020840 vs. TrEMBL
Match: tr|A0A2I4GH34|A0A2I4GH34_9ROSI (glutathione S-transferase DHAR3, chloroplastic-like OS=Juglans regia OX=51240 GN=LOC109007806 PE=4 SV=1) HSP 1 Score: 409.5 bits (1051), Expect = 7.4e-111 Identity = 208/275 (75.64%), Postives = 235/275 (85.45%), Query Frame = 0
BLAST of CsaV3_3G020840 vs. TrEMBL
Match: tr|A0A2P5B1V9|A0A2P5B1V9_PARAD (S-crystallin OS=Parasponia andersonii OX=3476 GN=PanWU01x14_279240 PE=4 SV=1) HSP 1 Score: 404.1 bits (1037), Expect = 3.1e-109 Identity = 200/276 (72.46%), Postives = 227/276 (82.25%), Query Frame = 0
BLAST of CsaV3_3G020840 vs. TrEMBL
Match: tr|A0A059AFH6|A0A059AFH6_EUCGR (Uncharacterized protein OS=Eucalyptus grandis OX=71139 GN=EUGRSUZ_J01595 PE=4 SV=1) HSP 1 Score: 403.3 bits (1035), Expect = 5.3e-109 Identity = 200/273 (73.26%), Postives = 232/273 (84.98%), Query Frame = 0
The following BLAST results are available for this feature:
The following terms have been associated with this gene:
GO Assignments
This gene is annotated with the following GO terms.
The following mRNA feature(s) are a part of this gene:
Analysis Name: InterPro Annotations of cucumber chineselong genome (v3)
Date Performed: 2019-03-04
The following gene(s) are orthologous to this gene:
The following gene(s) are paralogous to this gene: None The following block(s) are covering this gene:
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