CsaV3_1G004980 (gene) Cucumber (Chinese Long) v3
The following sequences are available for this feature:
Legend: polypeptideCDSexon Hold the cursor over a type above to highlight its positions in the sequence below.ATGAAGTCCTACACTCAGCCACGAGCAAGAATGATGCCACCCAATGGTATTTGCAGTCCCTGCAATGCGAACCTTAACCCAGCACCTAAATTTCGACTACTTTCTCTATCTGCAATTCCAAACGTGTTACATTTTCCAAATCCACCTTCTCTCTACCTCGGTTCCAGCTCAAACTATTCCGGATTTTCCCGCTTGGTTGGTCCACCAAGGAAAATGGATTCTCAAACCAGAAGTCGCTTAACATTTGTAAATTATGGTGCAGGAGCTACAAGGGCCGCCGCTACTGATCACTATTCGACGTTGAATGTTAGCCGGAATGCAACATTGCAGGATATAAAAAACTCATATAAGAAACTCGCTCGTAAGGTATTTTATGTTTTGTTTTCTGCTATTAGTATATTCTTGATTTTTACGGGGCTTCTTGGTCCCCAGTAAAGCGAATTAGAGGGTTAAAAATCGAATGGAACTGCACTGTTGGAGGGGTAATGAGAAACTAGAGATTTGAAAGATAAGTGAAATTTCAAATGCTACATTTAATTAATAAGATAATATAGATTACACAATATTCCAAATGATTCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCTTTTATTTTTATTCGAACAGTACCATCCAGATGTGAACAAGGATCCTGGATCTGAAGACAGGTTCAAAGAGATAAGTGCTGCATATGAGGTGAGAATCAAGACTCTCATTTGAGCATCAATACCTTGTGATTGTGTATATCTATATCTAATCTTTTTAATCATTTTATGGATCTTCTAATTGATTTCTCATCTTTCAACTTGTTTGTCGAGTTCCTTTTGATGTTTAAGAGGTTGATGTGTAGTTTCTCATTCCTGGAATATAGTAAATAGATATTTTGTTGTAGTTATATCCGCAAGCAAACCTCCTTCAAAAATGTGTGGACTGCCCCACTAAAATCTGAATCAAATGGGGTTTGCGAGCTTAAAATTCCCCTTTTGGACTCTTTTCGGAATAACACCATCAAACATTCAGTTTCTGCCAATAATCCAGATCTTTTGGAAGTTTAAAGCTCTAAAATCCAAGTCCTCGAGTGTTTTTCGAAGTCAATAAATAGCACTTTTCCCTCAAAGTGTCTCAACACTTCAAAATCCTCCACCTCCATTGCAAAGACATCTTGTCAGCAAGACTCCTCATGCAAAGCTGACTTAAATCCTAAAGATCAGCCCAAAATTTTCTCACCTATCAGTGTTAGCAGTGAAGAATCAGTTGATCTTAGTGAAGTTGACCCTAACTTGGATTCAAAAATTGAAGGGAGAGACTTAAATGTTTTATTTAATGAGGAGTGTTTTCTCCCAAATAATCTTCCCCCAGATTTGCCTAAAGAGTTGATGTCAATAGTCAGTGAATGTGGAATTATTTTGGACTAATTTGAAAGTGCAGCCATCCCTATTCTTTTCTCAGCCATAATGAAGATTGTCTCATGGAACACTAGGGGCTTAAATGATTTCTCTAAATGAGCGGCACTCAAAAAGTTAATCATAAACAGTAATCCAGATGTGGTTATGATTCAAGAATCTAAGAAAGAAAGTTTGAATTCAGTTTTCATCAAATCACCGTGGAGCTCCAAGGATATTGACTGGGAATTTGTGGCATCTGTTGGGTCATCCGGGGGAATCCTTACCATGTGGGATTGTAGCAAGATCTTGGTTACTGGAGTTATTAAAAGAAAGTTCTCTCTGTCTATCGAATGCCTTACCTAGTGTAAAAAGGTATGTTGGATTACAAATGCCTATGGCCCTTGTGGATATAGAGAAAGAAAATTTATTTGGTCAGAATTGTCTTCCTTAGATGCTTGTGCGGCAGCGGCTTGGTGTAGATTTTAATATCACTCGATGGGCACATGAAAGATTTCCCTTTGGCAGGAGCACTAGTGGTATGTCTTTGTTCAATAAGTTCATTGAGTCGGGTAATCTCATGGAAATTCCTTTGCAAAACGGCAGGTTCACTTGGTCTAGAGAAGGGTTTTCTCCTTCCAGATCACTATTGAACAGATTCTTAATTAATCAGCAGTGGGACGATCTTTTAGAAAACTCTAGGGTGTCACGCAAAGCACGTATGTTCTCGGATCACTTTCCTTTAATGTTGGAGGCTGGAGCTTTTCTTTGGGGACCCCTTCTTTTCTATTTTGTGACAGTTGGTTGCTGTCCAATAAATATAATCAGATTATAGTTGAAACAGTTAATAATTCTAACTTCTATGGTTGGGCTGGATTTATTTTACAAGAACAGTTGAGATCAGTTAAATTGGCAGTTAAAGCTTGGAACATTGAAGCACAAGCCAAGGTAAAAGAAAGAGAAAAAGTTCTAATACTGGAATTAGAAAAATATGACTCAGGGGCAGAATTGGTTGGGCTAAATGAAGAAGAATTTGGGTCTAGAACAGCTTTGCAAGCTGAATTGCTTGGTATTTACCAAAGTGAAGAATGGAACTACATTCTGAAAAGCAAACTTAATTGGTTGTCTTTGGACGATGAGAACACGGGCTTCTTCCACAGATTTTTAAATACAAAGAAAAGAAGGAATCTCATAACAGAATTAAAAGAGGATAAAGGGGTTGTGTCATTTTCATTCCGCAATATTGAAAGGCTTGTGTTAGTTTTCTTTGAGACACTTTATAAAAGAATTCTGGAGGACAGATTTATTCCTATTAACAGCGATTGGCCTTGTGTCTCCTCAATTCAGAATGTAACTCTTGTTGCTCAATTTTTGGTGGAGGAAATATCTAAGGCTCTAAAGGTACTTGGCAGCAATAAAGCTCGGGGCCCGGATGGTTTTACAGCGGAGTTCCTCCTCAAACACTGGTCTATTTTCAAGGATATGTTCAAATCCTTAATGGATGATTTCCACAAGAGCGGAAGATTAAACGCTTGCATTCAAGAAAATGTCATTTGTTTAGGGTAGAAAAAGGAGATCGTGACTAGTCAAGGATTTTCGTGCAATCGGCCTTACTACCTTAACATACAAGGTAGTTGCGAAGGTTCTTTCAAAATACTAGGAAGATCCTTGAAGGCTAGGGAGATCCTTTATCATATGTTCTTGATCTGTCCCATCTCTTCTTTTGGCTGGGAAAGGATTTTCTCCATGTTCAAATTAGTTTGAACTTTTGATCGCTCTCTAGGCGCAAATTTGGATCAGCTGCTGTCGGGTCAGATTTTACCCAAAAAATCTCGCATCATTTGGGTAAATTTGTCAAAAGCTTTACTATTAGAGTAATGGTTTGAGCAAAATCAACGTATCTTCCATGATAAAACAAGGCAAAGAGCAGAAATTATGCGTGCAGTAGATCTTAATGCTGCAGCTTGGTGTTCATTAAAAAAGGAGTTCGCTAATTATTCCATTCAAGATATTTACCTTAATTGGAATGCTTTTCTTAATCAAGCCTAATCATTGCTGATTCATTTTCTCTGTTGCAGTTTTTGAAGATTTGAAGGCTCGATCTTGTTTATTTTTATTTTGAGATTGTATTGTTTTTTTTGGGTTTTTTCTGAACTTTCTGTTCATTTTTTACAATTTTTTCTGGTTCCTTGTAATAGGCTGATTGTTATTAAGTTGCTCCTCTGTTGGCTTTTTGTGTTGCTTTGATGTTTTCTTTCTCGGGATATGATGATTGACGCTATGGAGGTGTCAATGTAGTTGAGATGTCCGGGTGTGCTTCCTGATCCTATAGGTTCCCCCTTTCTTTTTCTTCTTTATTGCTATCTTTGTATAAATCTCTTGTACTTAGAGTTCTTATTAATAAAGAAGTTTTTGTCTCTGTTTTAAAAAAAGAAAACTTCCCTGGGTAACTTTAATAATGGCTTTGTCTGCAAATAATGGGTTGATATTGATTTTAACTTGGAACAAATCTTCTAGGAATGTTGAGATGTCCTTCCATTCGTCAAAAAGGAACAATTTTGTTGAAAGCCACAGGTTATTGAAATCTTCCTCTAGGATATCATCACTTTTCCACAACAAGTATCTCTGCTTGATCGGTTTCACAGTTTGTCTCTCTAGAAGATTGACTAAGATTTTTTGGATTAATTCAATGAAGGGACTCGTTTGTGTTTAAAAAGAAAAACTAGTAGTTGGCTGCCACGTGTTTGCACTTGATTGGGATGTGTCAAAATCTTATTGGTCCACATGCCCAGATGTCACCATGCCATATGTCATGACATCAATTTTGACTGCTAGAAGTGCCACATCAGCATGTTAACTATTGACCATCCACACGTCATGTTTTGAGCTCTACACAACAAACTTTTTAAAACACTCAAATTGTTAGTGAATAAAAGCGGGTTTTTTTATCATCAAAGAATTAATTTATTTGAGATCAAAGATTATATCAATTACAGTTTTGTTTCCCTTGGAAAAAAAGGCCAAAATAGAGGAGGCTAAGAATGGATGAAAGCTTGGATAGGAGAAAAGGAAAGGAGGGGAAATGAGAGAGGAGAGAGCATACCCCTTTTTTCTCTTTCTGGTGTTCTTTTTCTAAGTCATTTGCTGATTTTCTTGCTCACTTGTAATTGATAGTTTTTTGTGCTTTATGATTTTTTTTCACTCCTATGTGAAATTAGAAACGATTTAGCATTAATCTCTCTTCATTAATTCAATTCAAAGTTTTGTTTCTTGTTTAAAATAAAAAAGAAAAAGAAAAAGAAAAATAATGATCCTGCATTTCTTTGCATTCATGTGATAATGGAGTGGTTGTATAGGTTCTATCAGATGATGAGAAAAGATCTTTATATGATCAACTCAGCGAGGCAGGTGTGCATGGAGACTATGGTGTAATGAGTCGTGATTCACGAGGGGTAAGATTATTGCTAGCATTTGCGGCATTGGTGAAATTATATATGAGCTATTTTCTGATATAGCAAAATGAACCAAAAGTTTTACAAAATATAGACCACGATAAATCAAGATAGACATAGATAGTAGTTTATCTTGGTCTATCGTGGTCTATCACAGATAGGTTGTGATATTTTGTTATATTTGTAAATATTTTCAGAAGTTTTGTTATTTAAAATAATTTACCAAATTATATACATATATAAATTGTTTATGGAATTCTTTTAGGTCGATCCCTTTGACATTTTTGATGCATTCTTTGGAGGATCAGATGGACTTTTTAGAGAAAGTGATGGAATTGGAGGCATTAATTTAAATCAGAGGAGTGAAAAAATTCAAAGTCTTGATATTCAGTAAGATTTATTTTATTTTTATTTTTTTGTTTATTAAAAAATAAAAAGAAAATATTTTTTTTAATCACTAGAGATTCACTACTAGGATAAGTTAACTGTGTGTAAACATCTCTCTCTCTCCCCCAAATTGTGTCTGCCATTATGTTTTTACTTTTCAGCCTTGCTTTTGTCTATCGTAGGTAGCTTCTGTTGTTAATTTAGTTGTTACTTTGATCTTTTCATGACCTTAGTATTGTTCTTATACTTTGGTCTTTTCTTTGTATTTTGGATATGATGAGGGTGCTATGGGGGTGTCAACCTAGTTGAGATGTCTGGGTGCACCTGCTGATCCTCTCTCTCTCCCCCATTTCTTGGCTTCCCTATTATTTTCATCGTATAGATCTCTTGTACATTGAGTTTATTAATAATAAAGAAGCTTGTCTCCTTTTCAAAAAAAAAAAAAATTATATACATATATATTAAAGGAGACAAGCTTCGTTATTAAATAGAACTCAAAGTATAAGAGAATTATATATCGAGGAAAAATAAAGAAGCCAAAAATAGGATCCGGAGGTGCACGTGGACATCTCAACTAGGTTGACATCTCCTTAGCGTCCCCATCATATCCAATAGTAAATCAAATATTACATGGAAACTCCTATTAAAACAAAGTAAAATCCAAATAAGGCAAAAGCGAGGTGAAAGCTAAAGAACAGGGATTAAAAAGTTTCAAAACAAGACCAAAAATAAAACACCAATGGAGAACAAAAGAAAGTAAAACTAGGAGGTCTTCAGCGAAAAACTTCAACAAGCTTTGAGAATCTTGGCCTTCTGAGATAGGGCAGAGTACACAGCACAGACTATTCAGGTTGTGAAATGAAAGCCAACCAATTTAAGCATAAATCTTGAATATATATTTAATCATTTATTCTTAAGCTCAACCTCACAGGGTTACAGATTTGCAAAAGATGCAACAAGTGATAGGCAATATTGGAGGAAAAATGACATTTCGAAAATTTGCACATAGTATCTCTTACTCAGTTATTATGTCAAATTCCACATAAATACAATTGATAATACTCCCACATAAATTATAAATACAAAAAAGATAGCTTTACGAAAGGAAAAAAAAACTATAACCTAATGAAATCCTCTAAAATTCAGGTCTAAAGTGTTACAATAATAAAAAAGAATAATTTCTTAATTTTTTATTTACAACAATTCTTTAACTTTATTAATTTGCAGCAGTCTCTGGGTTCAAAAGCTTTAACTAATAGGTTATGTATATTTACTATTGTATTTATTCTTGAACACTTTCATTATTAGTTAGCATGAGACTGTATTAATATCGAGGCCGATCTCCTTTTCAAAAAAAAAAAAAGAAGTTAGATGAGACAGAAAGGTGCCTCCCTTGTGTATTCAATAATCAACAAAAGCATTCTAGAGCAATTATTAAAGCTCCCAGCCAGCGTGGAAGGGCTGGAGTTTCCCCCTACATTGATTTTCTCACAAAAAGGGACACACATCCATAAAGCTCTACCCCAACCAAATCACCCTTCTCTGTCATTCTAACTGGTTGGTCACGTAGGGATTTACTTCCCTAATCCTTCCTAATCCTTCCTAATTGTTCATTATTTTCTTTTTTTGTTTATATTTTCATTGTATTTGAGATCTATCTGTGTAATTACTTTTTTCTTATTTGTATTTTCCTATTTTGTATTGGGTATTTCTTCTATTAAAGAAAACCCTTTTCTTTCTAAGAGAAATAAAAGAAAGCACCTTTTTACACATGGTATCAGTGAAGTGAAACCCTAAAAACCCTAATTTTCTCAAAAAAAAAAAAACCCTAGTTTGTGCCGTCGTTCGACCATTGTCGTCAGTTTTTTTGAGCTCGTCGACCACCACTTCTCTACTGGAATCGCCGCGGGAATCGAGTTTAGCTACTTTTTGCTCCTTTTTTTCACAGATCATTTAGGGAGGCGCCTCTTTCTATCGGTCGATCAAGTCTGAGTCACTTTCGCTGTGTCCAACCGCATTCTGTTGCCGTTGTTAGTCGTTATTCTCCATCGGATTCTCTTCATTATTATTATTATTATTATTTTGGTTTTTTTCTTTCTAGAAATCCTGTTTTCTTTAGCGATATGGTAGACACCAAGCTCATTGCCACCAAAGTCTTAGACAACCACACCCTAGCCAATAGTCCCATTGTCCAAATCACTACCATTCGACTTAATTGGATAATTTTCTTTGTTGGTCCTATAGTGTTTGGATGTTTATTCGTGGACAAGGGAAGATTGGTCACATTACTAGAGAAAAAACCACTTCTAGCCTTGCCGATCCTTCGTTTGCTGGGTGGGACGCTGAAAACTCCATGGTTATGACCTGGCTAGTAAATTCCATGGCCGAAGCCATTAGCAGTATCTACATGTGCTACACTACAACCAAGGAATTATGGGATAATGTTACTCAGATGTATTCTGATTTGGGCAACCAATCACAAGTATTTGAGTTGAATCTGAAACGGGATGATATACGACAATGAGGCAACTCCATTACACAATACTTTCACTTTGTAAAAAGGATTTGGCAAGACCTTGATCTCTCTAATATATATGAGAGGAAGTCTATAGAAGACCAAAAGCACTACCGAAAAATTGTAGAAGATGGTTGTATTTAGAAACTCCTTGTTGAGTTTGATGAGGTTAGAGGTAGGATACTTGGTAAAACTACTCTTCCATCAATTAATGATGTTTTTTCTGAAGTTCGCAGGGAAGAAAGTCACAGGAATGTTATGAGCGGCAAAAAAACGTTTTGATTCAATTGAGAGTTCTGCATTGGTAACTGAAAATAATGCTTTGAAGGCATCTGACTAATCCACATGGGAAATCTTGTGTTTGGTGTGATTATTGCAATAAACTTCGACCTACGTGTGAAACTTGTTGGAAATTTCTTGGAAAACCTGCTAATTGGAAAAGTTATGTACAAGGAGAGAGAAATTCTCATCAACATGCCTCTAATGCTATTGTTGTGGACGTTAACCCTTTTAATAAATAGCAAATTAATCAAATCTTGAAGTTGTTAAAGACTAATTCATCATCTGGTAATCCTAGTGTTTCCTTGGCACAGTTCTCAAGCCTTCTCCTGCCTTAATTCCTCTCCGAGATTATAGATTCCGGAGCATCAGATCATATGACTAGTCTCTCTTGTCTTTTCGGTTCATACTCTTCTGCATATTGCAATGAAAAAATTCGCATTGTTGATGGTAGTTTCACCTCTATTGCAGGAAAAGGAACTATCCTTTAACAACAAAACTCATGTTACATTTTGTCCTTCATGTTCCAAAATTAGTTTGCAGTTTGTTATCTGTTAGTAAAATCTCAAAGGATGCTAACTGTCGTGTTGTCTTTTGTGAATCTCATTGTACTTTTCAGGATCAGGATTCGCGAGAGACGATTGGACCTGGTAAGATGATTGGTGGTCTCTATTACTTTGATAAAGTTTCAGGTAGTCATAAAATAGCTCAGGGTTTAAGTAGTGTACATTCTTCTTCTGTTAAAGAAATTGTAATGCTTTGGCATCGTAGATTAGGGCATCCAAATTTCTTTTACTTGAAGTATTTGTTTCCAATTTTATTAAAGATCTTGATTGTTCAATTTTTCAATGTGAAAGTTGTATTTTTGCTAAGCATCATCAATCCACATATTTGCCCAAACCTTTCAAGTCTTCCTCACCTTTTTACTTAATTCATATTGATATGTGGAGTCCATCTAAAGTTTTGCGGTAAACATTGGTTTGTTACCGTTATAAATGATCACACTCGTTTAACCTGGTTTTATCTTTTTTTTTTAAAAAAATCGGAGGTAAAAGAGGTTTTTGTTCGATTTTACAGTATATTGAGACCGAATTTCAAGCTAAAATTTACATTCTTCACTCTCATAATGGTACTTAATACTTTAACGAACAATTGACCAATTTTTTCCAAGATAAGGGTATTTTTCATCAAGCTACGTGTCAAGATACTCCTTGCAAAATAGCATTGCTAGTGAAAAAATAAACATTTACCTGAAGTTAGAGATGTCCATGGGGTAGGGCGGGGCCGAGGATGCCACTCCCCGTCCCCACGCCCCTATCCTATTTTCCATTCCCATTAATTTCCATGCGGGGAACGGGGTGGGGATTCCTCGGGGGGAAATATTTCCTATTTTTTTAAAAGTTTAATCTCATTTTCCAATCCATATTTACTTGAAATGTATATATATTGTCAATGTTGTTTTATTTTCGATAGAATATTATCAATTTTCTTATTTAAAACCATTAAAATGTTAAATTCTAGCTTTTTGTTTATAAAAATAAAAAATTCAACTATTAGAAGATACATTTAGAAATCCATCTATAAAATTAAAAAATCCATACAAAAAAAATCAAAGATGAATTCATAAGTATTCTAACAAAGCCTTCAATTACATTAGACACAACAATATATTTTTCTAAAGAAAAGTTTACAAATCACAAGTCAAGGCACAACATATTCATATACAAGTTTACAACATAAAAATTGGAATTAGGAAAAAAAATAAAGAAATGGAATAGAGAAAAGAAGGAAATGAATAATATCAAAATAGTTTTTTTTTACTCTTTTACATATTATTAAATAAATAAGTATTTATATTTTTATTTAATTAATTATATTTTTAATCGGGGCAGGGACGAGGTTGGGGTTGGAGAATGTATTCCCCGTTCCTGGCCTTGTGTTGCTAATGGGGAAAAAAATTTCCCACTCCCTCCCCCATTCCTCGTGTATTCAGGGATTCCTGGCCCCGCAGGTAAAATGGACATCTCTACTTGAAGTTGCCCGTGCTCTTATGTTTTCTTTGCATGTACCAAAATATTTGTGGGGTGATGCAGGTTTTTACCGCTTGCGTTCCTCATAAACCGACTGCCAACTAAGGTTTTGAATTTTAAATCATCTCTGAACCTCTCCAAAGAGTTCTTTCCTACTGATAGTCTGCTTTCTGACTTACCAATAAAAGTATTTGGGTGGACTGTTTATGTTCATACTCCTAACCCTACACTAACTAAACTACGCCGTTAAATGCATTTTTGTAGGTTGTCTCTCATAAGAAGGCTTACAAATGTTGTGACCCTTCGAACAAAAGTTTTTGAGAGTATGGACGTGTCCCTTTTTTTACCCCAAATTCGCTTTAGGGGAGACATCTAACTTTGAAGATAATTTTTTGGAACACTTCACCTACTCCATACATTGCTGATCCTGAAATTATGAGTTCTAATCATTTGATGCCAAGTGTGGAAAGTTCTTCTTCAGGGGGAGGAACACTATAGAAACTTGAACTTCGGGTTTATACCAAAAGAAACTTATCTTAAAGTAATTGAGAACAGATAGTTGATCTATCACAGAACCAATCTATTTCTCCGATGAATGATTCTGTAGATTCAGGTAACATACATTTTTCCTCTCATAGTTCTCCCAATACTTCTTCTCATAATTTTCCTTAGTCTTCTTCTCAAAATTCCTTACCTGATGTCTCTTACCTTGACATTCCAATTGCCCATAGGAAAGACCAAATATCCCATTGTATACTATCTTTCTTATCACAAATTGGTTGACAGTCTTGCTTCACATCCAAAATAACCAACCTGTTTGTTCCAAGAAATATACAGGAGGCCCTAAATGATTTGAATTGGAAATTAGCAGTAATGGAAGAGATGAATGTGCTGAAAACAAATTGCACATGGGACATAGTTGAACTACCAAAAGACAAGAAAACAGATGGATGCAAGTGGGTATTCACCGTAAAATGTAAAGCTGATGGTAGTATTGAAGTTCTAGTTTATCTTGTCCACCCAGATCAAGCCTTCTGCTCCAATCAGTTTTTGCTCAATCAAGGATTATTATTTTTGCTCTGTATTCGACTTGCTGCCTTGCTTTATCATCTTTCTGGCTTTGTTTTGCTGTATTGCTTTTATTTAACCTGTTATGTGGGTTTTTATTTTCGCTTATGGATGTGATGAGGGCGCTAAGGGTGTGTCAATCTAGTTGAGATGCTTGGGTGCGCCTGCTGATCCTCCCCCTCCCCCGATTGCTCTTTGTATGCCCCTCATGTACATTGAGCTTTGTCTCTCTATTTTTAATATTAATAATAGTGAGACTCGTATTCTTTTAAAAAAAAAGCATTGAAAGGTACAAGGTCAGATTGGTTTCTAAGGGATTTATCAGACATGGAGTTTATTATCGAGAAACAATTGCTCTAGTTGCTAAAATTAATTCCATCAGAATTTTGCTATCGGTTGCAGTAAATTTTGACTGGTCTGTTTATCAACTAGATGTTAAGAATGTCTTTTTCAATGGGGATCTTGAAGAAGAGGTATCTATGGACTTGTAACCTGGATTTGAGGTAGATATCGAGATTAGCAAAATGTGCAAGTTAAAGAAATCATTATACGGTCTTAAACAGTCTCTTAGAGCCTAGTTTGAATGTTTTAAAAAGCAGTCATGAGCTGCGGGTTTACTCAAAGTCAAGCTGATCATACTATGTTTTATAAACATACGAGAAATGACAAGGTTATGGTTTTGGTAGTTTTGATGATATCATTCTTACAGACAATGATAAGATAAGATTGACTTTCATGGAGAAAAAATTAGCTGATGATTTCCAAATCAAAGACCTAGGAGCTTCAAAACATTTTCTAGGCATGGAGTTCGATTTGGAACATTTTAAAGGCAGATTGTTTAAAAAACATGACCACCTAAATGTTGAAATGTACACTGATACTGTTTGGGCATGTAGCACAACTGATAGAAGATCCACTTCTGGTATATTGCATTTTTGTTGGAGGAAATCTTGTTACTTGGCAAAGTAAAAAACAGAGTGTGGTTGCAAGTAGTGCAGAAGCAGAATTCAGGGCATTAGGCCATGGTATTTGTGAGGGCATATGGATAAGAAGACTCTTGGAAGAATTGAGATTTTCTCAAACAATTCCTATGCACATTTTTGTGATAACAAGGCAACAATTTCCATTGCCCACAATCCAGTCCTTCACGATAGGACGAAACTTATTGAAGTTGATAAACACTTCATAAAGGAGAAGATTGTTCAAGGAATAATATGCATCCCTTATCTTTTGACAACAGAATAAGTCGCGGATGTGTTAACTAAAGGTCTTCCAAAGTGGCAGTTCAGTAACTAAAGGTCTTCGATAAAGCAATGAGGTGAAGGCAGTGCTGGCAGGTTATTGGTTTTCCAGATTTAAGACAGCTCGCTTTGTTTGCTTCTCTTTGGTCCTCTCTTTAAATGGCTTTTGCTGTTTATTCTAGTAAAGAAAATAACTTAAATTGGTGTTGTTTCCTCTCCATGTAATTCAGACCATGTTATCTGAATTGAGAATCTTGAAGGCTCGGAAGATTTCATTGTAACAGCTGGCCGTGGACCTCTCTTTAGCCTATTATTATTCTCTATGCAATTGTGTTCTAAGCTTGTACTTTGTTTGCTTAGTTTCTGATTTGTTTTTGGTAGAAAGTTCTTATAGGTTCGGTTTATACTATATTGTGTTGTTAAGATCTTTAAGTTCCTTTGGAAATGGAGATGTTAGTGCAAAGGGGTGTCAACCTAGCTGACATGTTCGGGCACCCTGCTGTTCCATAGTTATTTTCAGTTCCTTTTTGTTTTCTATGTATTTTGAGCATTAGTCTTATTTCATTATCCTAACAAAGAGGCTTGTTTCTTGTTAAAAAAATTAAAGATTTGACCAAGATACCCTAATTTACTCTAATCCTACTACGTTATGACCATTTATCTAAGCTTGCTCTTGTCATGGTTTCACTTGAACTGAGTTTGTGTATTCTTTCATATTTGTTAATGTAAATTATATGATGTGTGCTTACAAATAGTCTGACTTGGACATTCTTTTTCCTTCTCTTAACCTTACAGTTATGCCTTGCACCTAAGCTTTGA ATGAAGTCCTACACTCAGCCACGAGCAAGAATGATGCCACCCAATGGTATTTGCAGTCCCTGCAATGCGAACCTTAACCCAGCACCTAAATTTCGACTACTTTCTCTATCTGCAATTCCAAACGTGTTACATTTTCCAAATCCACCTTCTCTCTACCTCGGTTCCAGCTCAAACTATTCCGGATTTTCCCGCTTGGTTGGTCCACCAAGGAAAATGGATTCTCAAACCAGAAGTCGCTTAACATTTGTAAATTATGGTGCAGGAGCTACAAGGGCCGCCGCTACTGATCACTATTCGACGTTGAATGTTAGCCGGAATGCAACATTGCAGGATATAAAAAACTCATATAAGAAACTCGCTCGTAAGTACCATCCAGATGTGAACAAGGATCCTGGATCTGAAGACAGGTTCAAAGAGATAAGTGCTGCATATGAGGTTCTATCAGATGATGAGAAAAGATCTTTATATGATCAACTCAGCGAGGCAGGTGTGCATGGAGACTATGGTGTAATGAGTCGTGATTCACGAGGGGTCGATCCCTTTGACATTTTTGATGCATTCTTTGGAGGATCAGATGGACTTTTTAGAGAAAGTGATGGAATTGGAGGCATTAATTTAAATCAGAGGAGTGAAAAAATTCAAAGTCTTGATATTCAGATCAGGATTCGCGAGAGACGATTGGACCTGTTATGCCTTGCACCTAAGCTTTGA ATGAAGTCCTACACTCAGCCACGAGCAAGAATGATGCCACCCAATGGTATTTGCAGTCCCTGCAATGCGAACCTTAACCCAGCACCTAAATTTCGACTACTTTCTCTATCTGCAATTCCAAACGTGTTACATTTTCCAAATCCACCTTCTCTCTACCTCGGTTCCAGCTCAAACTATTCCGGATTTTCCCGCTTGGTTGGTCCACCAAGGAAAATGGATTCTCAAACCAGAAGTCGCTTAACATTTGTAAATTATGGTGCAGGAGCTACAAGGGCCGCCGCTACTGATCACTATTCGACGTTGAATGTTAGCCGGAATGCAACATTGCAGGATATAAAAAACTCATATAAGAAACTCGCTCGTAAGTACCATCCAGATGTGAACAAGGATCCTGGATCTGAAGACAGGTTCAAAGAGATAAGTGCTGCATATGAGGTTCTATCAGATGATGAGAAAAGATCTTTATATGATCAACTCAGCGAGGCAGGTGTGCATGGAGACTATGGTGTAATGAGTCGTGATTCACGAGGGGTCGATCCCTTTGACATTTTTGATGCATTCTTTGGAGGATCAGATGGACTTTTTAGAGAAAGTGATGGAATTGGAGGCATTAATTTAAATCAGAGGAGTGAAAAAATTCAAAGTCTTGATATTCAGATCAGGATTCGCGAGAGACGATTGGACCTGTTATGCCTTGCACCTAAGCTTTGA MKSYTQPRARMMPPNGICSPCNANLNPAPKFRLLSLSAIPNVLHFPNPPSLYLGSSSNYSGFSRLVGPPRKMDSQTRSRLTFVNYGAGATRAAATDHYSTLNVSRNATLQDIKNSYKKLARKYHPDVNKDPGSEDRFKEISAAYEVLSDDEKRSLYDQLSEAGVHGDYGVMSRDSRGVDPFDIFDAFFGGSDGLFRESDGIGGINLNQRSEKIQSLDIQIRIRERRLDLLCLAPKL
BLAST of CsaV3_1G004980 vs. NCBI nr
Match: XP_011649531.1 (PREDICTED: chaperone protein dnaJ 1, mitochondrial isoform X1 [Cucumis sativus]) HSP 1 Score: 436.8 bits (1122), Expect = 4.7e-119 Identity = 218/218 (100.00%), Postives = 218/218 (100.00%), Query Frame = 0
BLAST of CsaV3_1G004980 vs. NCBI nr
Match: XP_011649534.1 (PREDICTED: dnaJ homolog subfamily A member 3, mitochondrial isoform X2 [Cucumis sativus]) HSP 1 Score: 436.8 bits (1122), Expect = 4.7e-119 Identity = 218/218 (100.00%), Postives = 218/218 (100.00%), Query Frame = 0
BLAST of CsaV3_1G004980 vs. NCBI nr
Match: XP_011649542.1 (PREDICTED: dnaJ homolog subfamily A member 3, mitochondrial isoform X3 [Cucumis sativus]) HSP 1 Score: 436.8 bits (1122), Expect = 4.7e-119 Identity = 218/218 (100.00%), Postives = 218/218 (100.00%), Query Frame = 0
BLAST of CsaV3_1G004980 vs. NCBI nr
Match: KGN63947.1 (hypothetical protein Csa_1G031710 [Cucumis sativus]) HSP 1 Score: 421.4 bits (1082), Expect = 2.0e-114 Identity = 218/247 (88.26%), Postives = 218/247 (88.26%), Query Frame = 0
BLAST of CsaV3_1G004980 vs. NCBI nr
Match: XP_008439676.1 (PREDICTED: chaperone protein DnaJ isoform X1 [Cucumis melo]) HSP 1 Score: 389.4 bits (999), Expect = 8.6e-105 Identity = 198/218 (90.83%), Postives = 205/218 (94.04%), Query Frame = 0
BLAST of CsaV3_1G004980 vs. TAIR10
Match: AT3G17830.1 (Molecular chaperone Hsp40/DnaJ family protein) HSP 1 Score: 167.2 bits (422), Expect = 1.3e-41 Identity = 87/135 (64.44%), Postives = 106/135 (78.52%), Query Frame = 0
BLAST of CsaV3_1G004980 vs. TAIR10
Match: AT2G22360.1 (DNAJ heat shock family protein) HSP 1 Score: 123.2 bits (308), Expect = 2.1e-28 Identity = 69/134 (51.49%), Postives = 89/134 (66.42%), Query Frame = 0
BLAST of CsaV3_1G004980 vs. TAIR10
Match: AT1G80030.1 (Molecular chaperone Hsp40/DnaJ family protein) HSP 1 Score: 113.2 bits (282), Expect = 2.2e-25 Identity = 76/175 (43.43%), Postives = 101/175 (57.71%), Query Frame = 0
BLAST of CsaV3_1G004980 vs. TAIR10
Match: AT4G39960.1 (Molecular chaperone Hsp40/DnaJ family protein) HSP 1 Score: 101.3 bits (251), Expect = 8.5e-22 Identity = 51/73 (69.86%), Postives = 60/73 (82.19%), Query Frame = 0
BLAST of CsaV3_1G004980 vs. TAIR10
Match: AT5G48030.1 (gametophytic factor 2) HSP 1 Score: 91.7 bits (226), Expect = 6.7e-19 Identity = 57/152 (37.50%), Postives = 80/152 (52.63%), Query Frame = 0
BLAST of CsaV3_1G004980 vs. Swiss-Prot
Match: sp|Q9SJZ7|DNJA6_ARATH (Chaperone protein dnaJ A6, chloroplastic OS=Arabidopsis thaliana OX=3702 GN=DJA6 PE=2 SV=2) HSP 1 Score: 123.2 bits (308), Expect = 3.8e-27 Identity = 69/134 (51.49%), Postives = 89/134 (66.42%), Query Frame = 0
BLAST of CsaV3_1G004980 vs. Swiss-Prot
Match: sp|P0DO01|DJA7A_ORYSJ (Chaperone protein dnaJ A7A, chloroplastic OS=Oryza sativa subsp. japonica OX=39947 GN=DJA7A PE=1 SV=1) HSP 1 Score: 115.9 bits (289), Expect = 6.0e-25 Identity = 70/149 (46.98%), Postives = 93/149 (62.42%), Query Frame = 0
BLAST of CsaV3_1G004980 vs. Swiss-Prot
Match: sp|P0DO02|DJA7B_ORYSJ (Chaperone protein dnaJ A7B, chloroplastic OS=Oryza sativa subsp. japonica OX=39947 GN=DJA7B PE=1 SV=1) HSP 1 Score: 115.9 bits (289), Expect = 6.0e-25 Identity = 70/149 (46.98%), Postives = 93/149 (62.42%), Query Frame = 0
BLAST of CsaV3_1G004980 vs. Swiss-Prot
Match: sp|P0DO03|DJA8_ORYSJ (Chaperone protein dnaJ A8, chloroplastic OS=Oryza sativa subsp. japonica OX=39947 GN=DJA8 PE=1 SV=1) HSP 1 Score: 115.9 bits (289), Expect = 6.0e-25 Identity = 70/149 (46.98%), Postives = 93/149 (62.42%), Query Frame = 0
BLAST of CsaV3_1G004980 vs. Swiss-Prot
Match: sp|B7JY68|DNAJ_CYAP8 (Chaperone protein DnaJ OS=Cyanothece sp. (strain PCC 8801) OX=41431 GN=dnaJ PE=3 SV=1) HSP 1 Score: 105.9 bits (263), Expect = 6.2e-22 Identity = 60/134 (44.78%), Postives = 84/134 (62.69%), Query Frame = 0
BLAST of CsaV3_1G004980 vs. TrEMBL
Match: tr|A0A0A0LT51|A0A0A0LT51_CUCSA (Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_1G031710 PE=4 SV=1) HSP 1 Score: 421.4 bits (1082), Expect = 1.3e-114 Identity = 218/247 (88.26%), Postives = 218/247 (88.26%), Query Frame = 0
BLAST of CsaV3_1G004980 vs. TrEMBL
Match: tr|A0A1S4DUT2|A0A1S4DUT2_CUCME (chaperone protein DnaJ isoform X4 OS=Cucumis melo OX=3656 GN=LOC103484140 PE=3 SV=1) HSP 1 Score: 389.4 bits (999), Expect = 5.7e-105 Identity = 198/218 (90.83%), Postives = 205/218 (94.04%), Query Frame = 0
BLAST of CsaV3_1G004980 vs. TrEMBL
Match: tr|A0A1S3AZY1|A0A1S3AZY1_CUCME (chaperone protein DnaJ isoform X1 OS=Cucumis melo OX=3656 GN=LOC103484140 PE=3 SV=1) HSP 1 Score: 389.4 bits (999), Expect = 5.7e-105 Identity = 198/218 (90.83%), Postives = 205/218 (94.04%), Query Frame = 0
BLAST of CsaV3_1G004980 vs. TrEMBL
Match: tr|A0A1S3B179|A0A1S3B179_CUCME (chaperone protein DnaJ isoform X2 OS=Cucumis melo OX=3656 GN=LOC103484140 PE=3 SV=1) HSP 1 Score: 389.4 bits (999), Expect = 5.7e-105 Identity = 198/218 (90.83%), Postives = 205/218 (94.04%), Query Frame = 0
BLAST of CsaV3_1G004980 vs. TrEMBL
Match: tr|A0A1S3B2L3|A0A1S3B2L3_CUCME (chaperone protein DnaJ isoform X3 OS=Cucumis melo OX=3656 GN=LOC103484140 PE=3 SV=1) HSP 1 Score: 249.2 bits (635), Expect = 9.2e-63 Identity = 130/150 (86.67%), Postives = 135/150 (90.00%), Query Frame = 0
The following BLAST results are available for this feature:
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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