![](http://cucurbitgenomics.org/sites/default/files/styles/slideshow/public/carousel/101322_web.jpg?itok=EG-G51x6)
Cucsat.G6761.T6 (mRNA) Cucumber (B10) v3
Overview
Sequences
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.ATCGCATTCTCTTTATCTGTCTCCCTCGGACCCCTCAATTGTACGTTCTCTTTCTTTCTTTCTCTCTCTCTCTCTCTCTCTTTTCAAACCCACTTTACCTACAAAATGGATTTCCAAGGATCCTGTTTATTATCGACAAAATTATATGCATGCTTCCCTCAAACAAGTCTTTCCATTATGGTTTCTGCAAATTGCGGACGCTTATGGTCCCATACATGTAAATGTTTCACTTCAAATGGGCTGCATCACCTGGACATTTTCTCCAAAGAAAGCGGTGGAAATCTATGGTTTCAAGTCATGGTGATTTTTCAATGCTGATGCTTGTCTTTTGTATGGCTGTAGTTGCAGGTTCATCAGGGGGATCTGGAAAACTTTTTCCAGGTTCTTCGGGAAGACTTGGAACCAATTCGTGTCGGTTTTCAAGTTCTCGAGGTAAAGGGATAAGATGTGCTGTTTCTAGTTCATCAAATAACAATGGAGGCGTTGCAGAGATATCTGAAAGTGAATTGGCTAAGCATTTCTATGCCTGGCCAGACTACAAGGTCAGTGTTCTGGATATATAAAGCATCTTGCTTGTATATTCTGAGAGTCTGGAACTTGAGTTGGTGCAACTTCTACTATATTTGCATTTTTTTACGTAAGATATCAGCCCATGTCAATAATATGCTCTGTTGTAATAGCACGCTATTCAAGAAGCCATTTACTATCTCAGAGTTCAAGCAAATGAAAGTCAGACCTACTGTTTGTGAGATTATACTAGTTCATTTATGAAAACAAAGAAAGAATATCTATTTCTTAAGAGTTACCTAAATTGTATGTAGTTTTGTTACAGAATATCTATTTCTTAAGTGTTACCTAAATTGTATGTAGTTTTGTTACAGTAATTTGGCCTGCATCAGTTTATCTGCCAGTTACTAGCTTAGTTACACCTGTTAAGTACTGTCTATTACAAATAATATGTTTTGTACAGTAAAATTTAATAGGATTTGGTTAACAGTCAGATAAAGGGGGACTGGAATATTGCGAGTCATGAGTCAAGTAATTATTTTTATTTTATTTTATTTTGTTATTTTTTTTTGGAGGGGAGGGGGCAGGATGAATTGAAACTTGATTGAGAACTATAAAAGAATATAACTAAACCAGGCCAAAATTACATTTACAAAAAGGTCTAGTGGCTGATGCCTACAAGGAAGCATTAAACCTTGCCGTTTCTTCCTTTAGGTGTATTTTCAAAAGAGAGGTGTAATATCTTTTTGTGCTTTATAGAAATTCTTTAAATTGAATGTCAATTAGATCAAGCCAAAGTGCTCCATTGTAATCTACTCTTGCATTCACAGAAGCCAAGAGTATGCATCCTAGGTGGAGGTTTTGGAGGATTGTATACTGCTCTGAGACTTGAATCTCTTTTCTGGCCAGATAATAAGAAGCCTCAGGTAATTTTCGTTTACTTTTGTTTCTGTCCATATACGGGTCATATTAGTTTCTATCATGTCATATCTCTCCATGTCTCTCTTATTATTTCTCTTTCCAATAAGTCAAAAAAGTTATGAAATATGAGCAAATGAGTAAATACACTATAAACAGAAACGAATTGATTTTCCCCTTCTCTAGCTTCTTTAATATATTGCTTTTGTTGCTGAAATGTTTTTGACGTGAAAAGCATATCTTTCAGTTTTCTAGCAATGAGTAACTGCAATATTTATAGAAAGAATTTATATGTTGTGGAAGCTCAAAGTTTCAACATATCATTTTCTTCACTTCTGAAATTTGTAAAGAGTATCATTCTCTATTCTTATTGGCACTTTATATTCAGTAATCAGTAACCACCCCCTCCCAAAGAAAAAGAAGGATTGAGGAAAATAGAATTTTCTGTTTAACATCTGGGAAGTTTATTTTTTTATTGTCTATTTATTATTTCTTTTGGTCTTTTCATTAATGTAGAAAAAAGAATAAATACAACTAAATTAACAGATTACAAAATGTAAACCTATAAGACAGAAGAATCAAAAGGAAAAAGGGAGAATACAACCACAAAGTCCAAACATAGAACTGAAAATAGAATTAAGGAAAAATTTAGGCAGCCCAATTCAAATTAATATCTTGCAAAGAAAATCCCCCGAAGAGTTTGGAATGGGAATACCAGAGAGAGGCCTTCAAGTGAGATATTTCAAAACAATCAATTCATCAGCGATGCTTTCTTTCAAAAACACTTTGGTTTTTGTTGAACCATAACTCTGAGTTAACAGCCTTAACAGTATGATCCATAATAAAAGAGGACGAGGAGGGAGACAAGGGCCAATTGGCAGCTGCAGCAAATTGTACTGATTTATTTGAGAAAAACTAAGAATGTTGAAGCTTCCAAAAATTTTATGCCAGCAAGAGAGGGCATAGGAACAATAAAATAGTAAGTGATTTAGACTTTTCGAACTTGGGCCACATAATAGACAAATTGAGGTCATGAGTCTTAGAAAGAAGTTTTCTTGGCAGTACATCTGAAGAATTTAAACTACTATTTTTACAATCCACATAAGGATGTTGTTAGTCTACTTTGCATCTATTGAAAGCAATAAACACGAAACCAAAGCTTAAGTGGAAACTCGAGAACCGGGAGTTACGATGTTTTTAGTTTTATTATTTTTCTAATAAATTATAAATAATACAACAGGTACAAGGGAGAATAAATAGAATATATAAGGGAATAAAAAAAGAAAAGATTTAGGAATTAGGGAAAATATTCCCATAATCTTTCCATAAATATTCTAAGACTCTAACACTCCCCCTCAAGTTGAGACGTAAATATCAATGGCGCCCAACTTGCTAACACAAAAGTCGAAGTTTTGTATGAGAAGCCCCTTGGTAAGAACATCAGCAACCTGTTGACTCGAAGGGAGGTACGGAATGGATATGCTCCCACTGTCAAGTCTTTCTTTGATGAAATGCCGATCAATTTCAACATGTTTAGTTCTATCATGTTGAACAGAGTTGTTAGCAATACTAATAGCGGCTTTATTATCACATAAAAGCTTCAATCGTGTCTCACATTCTTGATGAAGATTTAATAGGACTTTCTGGAGCCAAATTTCCTCACATATTCTTAGACTCATAGCTCCGTATTCGGCCTCAGCGCTGCTCCTGGCCACAACATTTTGCTTCTTACTCCTCCAAGTTACAAGATTGCCTCAAACAAAGTTACAATAACCGGAAGTAGACTTTTTGTCAACACATCTTGCCCGATCCGCGTCCATATATGCCTCAATGGTCTTTCTGTCTGTTTTTCTAAACATAAGTCCTTTACCAGGTGTTGTTTTCAAGTATCTCAGAATTTTGTTGACAGCTTTCATGTGTTTCTCATAAGGAGCCTGCATAAACTGGCTAACAACACTCACAGCAAAGGAAATATCAGGACGAGTATGAGATAAGTAAATCAATTTACCAACGAGGCGCTGATATTGTTCTTTATCAACTGGAACTTGATCATCAGAGTTTCCAAGTTTACAATTGAATTCAATAGGCGTATCAGCAGGGCGACATCCCAACATACCTGTCTTGGTTAGCAAATCAACGGTGTATATTCTCTGAGACACGGAGTATTTCTTTAGATTCAAAGAAGGTATCTCTGAAACAAGACAAGTAGAGGGATAGGACTTCTTAAGACAATCTAAAGGAGTTTGAAGGTGGAGAATACGAGAAGGCATTCTATTGATTAAATGAGTTGTTGTAAGAATAGCATCTCCCCGTAAGTATGAAGGAAGGGAAATGGCTAGCATAAGAGAACGGGCTACTTCCAGAAGGTGACGGTTTTTCGCTCAGCCACTCTATTTTATTGAGGAGTGTAGGCGCATGAGTTTTGGTGAACAATCTCCTTGGAGGCTAGAAATTCACTAAGGTTATGGTTTTGGAATTCCAGACCATTATCAATTCTAAAAACAGCAATTTTTTGATGGAATTGTGTTTCAATGGTGTGATAAAAATTTTGAAAGTAGAGGAAACCTTAGATTTATTGGTGATAAGGTAGATCCAGGTAAGATGGGTATGATCATCAATGAAAGTTACAAATCACCGTTTCTCAGATGAGGTGGTGACCTTGGAGGGACCCCAAATGTCACTATGGATAAGGGTAAACCATTGTGTGGGTTTATATGGTTGTGAGAGAAAAGAAACCCGATGTTGTTTTGCTCGAATGCACACATCACAAGATATGAGGAGACATCGATTTTAGGAAAAAGATGGGAAAACAAATATTTTATATAAGTAAAGTTTGGGTGACCCAACCGAAAATGTCACACATAAAGTCATGTTCAGAAGTGCTAAAATAGGAAGACAGTAAACTAGTCCTAGAGATACTATTACCGGAGGTATCATCATCAAGGATGTAAAGTCCCCTGCCATGTCGGGCAGTGCCAATCGTCCTCCCCAAACTCAAGTCCTAAAAACAAACAGATTTAGGTAAGAAAGTAGCTTTACAGTGCAACGCACGGGTATTCTTACTAATAGATAAAAAATTGTAAGAAAGCTTAGGCACATGCAAAACATTCTGGAGAGAAAAACCGTCAAAGAGAGTTATTTGTCCTCTGCCAACAATCGGGGCTAAAGAGCCATATGCTATCCTGATTTTCTCATTACTGGCGCAGGGGTATAAGAGACAAAGTGCTATGAAAAACCTATCAAGTGATTTGTGGCCCCCAAGTTCAAAATCCAAGGATTCTTCCCATCAACACCAATAAGACCAAGGGACTGAAGCATAGCTGACTGAGCAATGGCGCCTAGAGTAGGAGGGCTAGTCTGGCTAGCAGTAGGTCTAGTTGAGTGAGAGGTATTGGCAATCTTCCTAACATCGGTACGCTCTGAGTTCTGTTGCTCGTTGGAGGAACGTTTGTTACCTCTTGGTGGCCGACCGTGGAGTTTCCAACACTGATCCTTGGTGTGCCATTGTTTTTTGCAGTGCTCACATACGAGGATTGGCTTCCCACTATTCTTCTCATTATCGTGGGTCAAGAATCGAGCACTAAGGGCAGCAGAGTTGGTTATATAGTTTGAAGGTACATTAGGGAGTGAAGTTACCGGGTTCTTTGAATACATCGGTAGATCGGTCGATTTAGAGGGTGCACCAACTTCAGAAACAACTCCGTTGTTGGTTTGGTTAATCTCGGGACCACAAACATATGGCTGTCCATAACCGGAGGGTGCCAATGACTCGCCCGCTTCAATCCCCAATCTGTCATGGAGTTGGTCAGCCCCGTTCCCATGGAAGAAAGGTTGCTGTACAGGGTTGACAGACAAATCTGCACTCCTGTACAAATTTGACAGTTTTGCATGTTGCTGTCCGGCGGTGGATTACCGGAAGGGTGAGATGGTTGAACAGGTGACGGCGCCTAGAAGCAGATGGGATGGGTGGTGAGATGAACAGGTGGCGGCGCGTGTAGCGGTTTCTGGCTGGACGGTTGAGCGGACGGCGGCGAGGGTTGGCCCATTGGATAGATCGGTGGTTTCTGATTCCTTTGGGGTAGTTTTTTCATGGCGGTGGCGGCTTTTTGTTTGGTCTGGGTGTTTTCTAGGGTTTGTTGTTGCTTTGCTTTGATACCATATTGAAAGCAATAAACACGAAATCAAGGCTTACGTGGAAACCCAAGAACTGGGAGAAAAACCACGATGTTCTTAGTTTTATTATTTTTCTAATAAATAATACAATAGGTACAAGAGAGAATAAATAGAATATACAAGGGAATAAAAAAGGAAAAGATTTAGGAATTAGGGAGAATATTCTCGTAATCTTTCCATAAATATTCTAGTCGATAATGGAGCGTCAGGAAAGTAATTTTAAGTTACTTGAGGTTAATAATCTTCAGTTCTGATATTTCTTTAATCTTATTGGAATGGAACCAGGTGGTTCTTGTTGATCAGTCTGAACATTTTGTTTTCAAGCCAATGCTGTATGAACTTCTATCTGGAGGTCTGTCTTTCAACTTGTTTTATAATAGGATTTACTAGATTTTAACAAAATGTTCTTTTGCTCAGTTTTATTTAAAATATATTGTTTCATCAAATGTAGAAGTAGATGCATGGGAAATTGCACCTCGTTTTTCTGATCTGCTGGCAAACACTAGCATCCAGTTTATTCAAGACAAAGTGAAACTCGTGGATCCCTGTGATCATTATGATGCGAACAATCCTAAAAATCCTAGCTGTAGTGGAACTGTGTATCTCGAAAGTGGCCTTCATATTGAATATGATTGGTATTTTTTTATATATCCTTGCTATCTGACATTGCTAATTAAGGTTCATTTGATAACCATTTGTTTTTTTTTTTTTTTTAATATTGTGCTTGTTTTCTCATAATTTCATTGCAGTAATTTTCAGATTTCCAATGGAGGTATTTGACTTTAGAAAAATTTCATAAACAAAATCAAGTTTTTAAAATCAGCCTATTTTTTAGTTTTCAAAACGTTGCTTGGATTTTGAAGATACTTCTAAGTTCTAAAAGTAGTTAACAAAGAAATCCAATGGCCGAGAGGTTGAAGCAATGTTTACAAGCTTAACTTTCAAAACCAAAAACTAAAAATTCTATTGGTTATCAAATAGGCCCTAGTCTTCCTCTGGTTGTTGCTGGCACTGAAAGTTAGTCTCAACATATTTTTATTGTGGACCTTGGGCAGTCAGGCTGGTTCTTGCCTTGGGCGCTGAAGCTAAGCTTGATCTTGTACCTGGGGCTGCTGAATACGCTTTACCTTTCTCTACTCTTTGGGATGCACAAGTGAGTTAACTAAAAGAGTACCTCAGTGAAGTTGAAATCACTTGTATTGAAGTGATTTGTTGAGTTGTATGCTTTTTTGGTATTTCTTGTTTTACAGAGGGTTGACAGCCGGTTAAAGATCCTGGAGAGGATTAACTTCAATAAGAAATCCTTGATTCGGGTGGCTATTGTTGGTTGTGGTTACTCTGGCGTTGAGTTAGCCGCCACAATATCTGAGAGGCTGCAAGACAGAGGGTTGGTGCAAGCTATTAACGTGGAGACCATGATTTGCCCTACCGCTCCACCAGGGAATAGAGAGGCCGCACTTAAAGTAAGCTAGTGAACTTTTTGACACAACAAATTATGAATTAATTGCTTCAATGATTTCTAGAATTGCCAAAATCTAGCTGATGCTACATTATGTGCATTGTGAAAATTCTTATTTTCTTTTCCTGTTTGCTCGTGAGTTTTGATTCAATGATAATAGTCTTTTGGAAAGATTCTGGTTTAATTCAATGATTATTGGGTTCAAAGAGTATTTTGTTTGAAAGAATCTGGTTTTAGCATTTTATTTTTAGAATACACTAACTTTGAAATTTTAAAGTTTAAAAAAACATTTTGGGAGCGTTTGGGCCACAGAGTTGGAAAGTTTGGAGTTGAACTTCCCTCCTTGTTTAGCCCAAGGAATTTGTCGGCTCCCCAATGAAAAAACATCAATTTTATAACTTATTAACTCTTGCCGCTTGGGCCCGAGGAGTTCACAACTTCACTCCTTGCCCCAAACACCGCCTTAGATAGTATTCTAGGTTAAATTATTAGCTTAACCTTTTATTTTATTTTATTTTAATTTAATAGATTTTTATATTGTTAGTTAATAGTAATAAATCATTATTTCTTTAAGCTATTTCATTGTATTTAGTTTGATTGATATCCAAGAATACAGTGACCTGGAGATGGAGAATAAAATCTAAAGTAAAAAACAGCGTCTTAATACTTTCTGAAGCTCTAACCAATTGCTTCTAAAAGCAATTTTTTATTTTTTGAATTTGATGCTGGCAAACATATATGAAGAACGCCTTGTCTCCGTTTAAAAAAAAAAAAGAAACATATATGAAGAACTTTATTTTGAATGTCTGTGAAAACAGAATACTGCCATCAGATCAAATACTCGATAGGTCATTCAATGTCATATCTTCATATGCTTCAAGCTAGTCCAAATTGTTTGTTCCCTGTGCTGTTATCCTTCCTCTGGAAGCATATATGTGCCTAAATTGATATTTGTGATAATCTTTATACAAATTAAATATCATTATCTTGCTATACATGTTAGGTTCTATCATCTCGGAATGTTGAACTTCTCCTAGGTTACATCGTCCGCAGTATTCAAAGAGTGGATGATGCAGAAACCTCTGAAGAGGCAAACAACAGACCAAGCCAAGGCACTCAACCAGATCTTGCTACAAGTAGGTATAGGTTGGAACTTCAACCTGCCGAAAGAGGATCTCAAGGTCGCATTCTGGAAGCAGATTTAGTATTATGGACCGTTGGATCAAAGTCTCTTCTTCCAACGTTGGAACCTTCTAAAAATTACCGCAAGCAACTTCCTCTTAATGGTCGGGGTCAAGCTGAAACCGACGAAACTCTTCGTGTTAGGGGTCATCCACGAATATTTGCTCTTGGTGACTCCTCTGCCTTAAGAGATCCAAACGGACGACCTCTTCCTGCCACTGCACAGGTATGAAATGCAATCATGATCTGATGCATTAAACTTGGATGCTTATTTTTTTTATTGAGAATATTACATGCAGATATAATATAGTTGAGGGGACAATAATATATGTTTGTCTCACGTTTTATTTGAGCAATTGATAAACTAATAAGATATGTGCTAAATTTACTTTTAACGTCCAATTCCAATGCAGGATAATATAAATTTGTTTATGTGTTCACACAATATTGCAAGAGAACATTTATGAGATAACATTAGAGAAAAATTAGAGTATGAGTAGATGATTAGTAGGAGTGTGTTTTATTGTTAGTAGATAGATTCAGCATTCTAGTCTGATTGTTGATCACCTTGAACCGACTCCTAGCTTGTTGATCAGCTTGGATCAACCTTGCATTTGTTGATCAACTTAGATGAACTTCTCATTGTAGATCTACTTGGATCGGCCTTTGGCTTGTTGACCAACTAAGATTGACTTTTGTCTTATTGATCTACTTGGATCAACTTTTGCCTTGTTGATGATCGACTTGAATTGGCCTGGCTGGTTGATCTGCTTGGACCAGTCTCTAGCTTGTTTGATCTGCTTGGATCAGCTTCTGGCTTGTTGATTTTTCTTGGATTAGCTTCTAGCTTGTTGATCTGCTGATTTTCTGTGTTTGAATGTGTGCTGCTTCTGTGTTTGAATGTGTGCTTGATTGGAGAAAGCAAAGCACGTGATGTTCTTGAAGTTGAAGTTTTGAAGAAAAGAAAGTTTGTATCTAAAGAAAACTTGCATCTTCAAGTGTGATCAACTTTAGGATTAGAGTCTTCTGACTGTGGAAAATTCTTTCTATACCTCTCAAGTATAAAATTTATGATCCCCTTGAAATTAAGTTTGGGACACATGTCAAATTTTAATTAGTCCAAATTCATTTATTTGTATTTTTATCATTAGTTTGGTAAATGACACGGCAATTTGTGATTAGTTTAAAATTTCTCATTCAACAGTTACATAATAATAAATTTAGATCTTGTTTTTATTAAAAAGTATCCTAACAGAATTCTCTTGTTTTTCGACTAACCTCACCATTTTGACCTTAAGAAATGTTTCTTCCTACTATTTACAAGCTTGGCAGCCATAATTTAGAAGTTGGTTTGCTTTGTTGTTTGATCCTCTCACTTTTGGTCTTATAGTACTTCCTTCCTTTCCTGGATTGTCTTAAGTTGGCTGGCTTTAAAGGTTAGGTGACGTTTCGGATAAAGAGTGAGTTATTATAGTTTAGTTAAAAAGTTTGTATTTGAATTGTATATTATTTTAGTTTGGGTTATATTAGTATATGTTTGTTGGGTAGATTATTTTAGGTTAAGAAAGAAATAATAAATACTGTAGTAAAATGATGAATGTCAAATAGTAAAACTGTAGCAAATAGTAGTAGATGGGGTGTCTTGAAATAGTTTTTACTGTAGCTAATTGAGAATTTTTAAATAGAATTTACTATAACTAGTGGTGATTATTATAGTCTTGCATAATCCTCGTCCCAAACGGTTCGAATGTGTTCTCTAGTTTTGAGTTTCTTGTCTGTAATTGATTTGTTAGGTTTTAAGTATTTGCTTTTTGTTGTTTTCTCTTAATTGTTTCTCACAGTAAGTTCTATTTCCTTTTAAAGAAAAAAAAGTGTTCGTGGAGAGAAGCTAGTTTGAACCAATAAAACAACACATGTTTATCCAATATCCAAACAGCTTCCATAGCCTTTCTTCAATTTTCCCTACTTTACGTTTGTCTTTTATTTTATGTTTTCATTTTTTTTAATACATTTTCTTCAAAGTTAAAGATATTCTTCTTGTTCTCCAAGCAGGTTGCTTTCCAGCAAGCAGACTTCGTTGGTTGGAATCTCTGGGCTGCTATCAACAACCGTTCTCTTTTGCCCTTTAGGTTCGAAATTTCGATCTCTTGGCACCAAATTAGCTTTTCTCAACTTTCATGAACATATTTTCTTTTCCAATACACGCCTTTGACAGTATTTATAGGGACTAAGTACTTGTTTGGAATTACTTTTCAAGCATTTGTAAAATGACTTGAAAGTCGTTCCAAATCAGTCTTAAAAGTGTTCTTTTAAAATTTATTTGGTTAAACTTTTAACAGCAGTAAATTAAGTGCTTTTATTTTCTAAAATCACAATTTAAAGGTTTTGCAAATCTAAAGTAGTTTGAAAAATTTTAAACAGGGTCAAAAAAACAGTTGGGGGCATTTGGCCCACTAAATGGAGTTAATATGTTGTAGTTAGTAAGTTTGTGTTTGAGGTAGAATTGTAAAGTCGAATTCCTTGAGAATTGTAAAAAGTAAATTAGGAAAGTAAAGTGAAATTTTTGGTAAATGTAAAAAGTAGACATAGATGGGAAGATTGAGTTCTTGCGTAAATGTGAAAAATATAAAAAAATAAGAAGATAAAGTTAAGTCGATAAATGTGCAAGTTGAGTAGTATTTACTTTGCTGTAATTTGTTTATTTGTTTTTGTAGATATCAGAATTTAGGAGAGATGATGACTTTGGGAAGAAATGACGCATCAGTTTCTCCAAGTTTCATTGAAGGTTTATCCTTGGAAGGTCCGATCGGTCATGCAGGTATATATCATCTCTTTAAAGATCTAAGTTTGATAATTGATTAATGAGTCAATAAGCCTTTACTTATAGGATTCAAGCAGGTTCATTATGATTAGTGGAATAATACTACACTTGAAACAACCCCTAAAACTAATATTCTAACAACTTGTATACACAATTCCATAGACCTTTTAGATCATAATGTTACATTAAAAACTACTTTGAAGAAATCTTTAGCCCAAACTTTTTATTATAAATCCTCAGAAATATCGTATTTAAATGACTTGTCACTTTGATATTCAGTTGTATACTCTGGAGAGTTTTCTATACTTGAAGTGATGTGTTTTCTTAGTGTCCTAAAGTGCTTTAAGGTAGTCTTACCTTATTTTAAGGCTAGAATACACTTTTAAGGTAACAGTGACTTTGAAATTTTTAGGCTCATTTCACAATCATTTTGATTTTGTTTCTGAAAATTAAACAACCATCTCCAACTTTCTTCGTTTGTTATCTACTCTCTACCAAGTCGAATTTTGACAATAAAAATAATAGCTTTAAAAAATTTGTTTTTGTTTATGGAATTTGATTAAGAATTCAACGATTGTGTTTAAAAAATGGAATACGATAGTTATCCCTAATTTGTGGTATATGATAAGCAATAGTTAAGGAATAATAGTGCAGATTTAGAACAACCTCCAAATATAGACTAATATCATACTTAACAACTTATAAAGTTAATATGATGAATTTTTATTTTTTTGGCAGCAAGAAAAATAGCATACTTGATAAGACTACCAACGGATGAGCATAGGGTTAAAGTGGGGATCAGTTGGCTTACAAAGTCTGCTGTTGATTCCATTGCAACAATTCAAACCACCTTTACTAATGTATTCACTTCTCAATGAACCATTCTCTATATATTATGACTATTGATATGTATCTACATTTATTAGATGGTTGGTTTACTATGGACATTAAAATTTCAACATTTGATGATGATCTATACTCAAAGTTTTTTGTGGTATTTTAATTAAAGTCGGTTTACTTT ATGTTTCACTTCAAATGGGCTGCATCACCTGGACATTTTCTCCAAAGAAAGCGGTGGAAATCTATGGTTTCAAGTCATGGTGATTTTTCAATGCTGATGCTTGTCTTTTGTATGGCTGTAGTTGCAGGTTCATCAGGGGGATCTGGAAAACTTTTTCCAGGTTCTTCGGGAAGACTTGGAACCAATTCGTGTCGGTTTTCAAGTTCTCGAGGTAAAGGGATAAGATGTGCTGTTTCTAGTTCATCAAATAACAATGGAGGCGTTGCAGAGATATCTGAAAGTGAATTGGCTAAGCATTTCTATGCCTGGCCAGACTACAAGAAGCCAAGAGTATGCATCCTAGGTGGAGGTTTTGGAGGATTGTATACTGCTCTGAGACTTGAATCTCTTTTCTGGCCAGATAATAAGAAGCCTCAGGTGGTTCTTGTTGATCAGTCTGAACATTTTGTTTTCAAGCCAATGCTGTATGAACTTCTATCTGGAGAAGTAGATGCATGGGAAATTGCACCTCGTTTTTCTGATCTGCTGGCAAACACTAGCATCCAGTTTATTCAAGACAAAGTGAAACTCGTGGATCCCTGTGATCATTATGATGCGAACAATCCTAAAAATCCTAGCTGTAGTGGAACTGTGTATCTCGAAAGTGGCCTTCATATTGAATATGATTGGCTGGTTCTTGCCTTGGGCGCTGAAGCTAAGCTTGATCTTGTACCTGGGGCTGCTGAATACGCTTTACCTTTCTCTACTCTTTGGGATGCACAAAGGGTTGACAGCCGGTTAAAGATCCTGGAGAGGATTAACTTCAATAAGAAATCCTTGATTCGGGTGGCTATTGTTGGTTGTGGTTACTCTGGCGTTGAGTTAGCCGCCACAATATCTGAGAGGCTGCAAGACAGAGGGTTGGTGCAAGCTATTAACGTGGAGACCATGATTTGCCCTACCGCTCCACCAGGGAATAGAGAGGCCGCACTTAAAGTTCTATCATCTCGGAATGTTGAACTTCTCCTAGGTTACATCGTCCGCAGTATTCAAAGAGTGGATGATGCAGAAACCTCTGAAGAGGCAAACAACAGACCAAGCCAAGGCACTCAACCAGATCTTGCTACAAGTAGGTATAGGTTGGAACTTCAACCTGCCGAAAGAGGATCTCAAGGTCGCATTCTGGAAGCAGATTTAGTATTATGGACCGTTGGATCAAAGTCTCTTCTTCCAACGTTGGAACCTTCTAAAAATTACCGCAAGCAACTTCCTCTTAATGGTCGGGGTCAAGCTGAAACCGACGAAACTCTTCGTGTTAGGGGTCATCCACGAATATTTGCTCTTGGTGACTCCTCTGCCTTAAGAGATCCAAACGGACGACCTCTTCCTGCCACTGCACAGGTTGCTTTCCAGCAAGCAGACTTCGTTGGTTGGAATCTCTGGGCTGCTATCAACAACCGTTCTCTTTTGCCCTTTAGATATCAGAATTTAGGAGAGATGATGACTTTGGGAAGAAATGACGCATCAGTTTCTCCAAGTTTCATTGAAGGTTTATCCTTGGAAGGTCCGATCGGTCATGCAGCAAGAAAAATAGCATACTTGATAAGACTACCAACGGATGAGCATAGGGTTAAAGTGGGGATCAGTTGGCTTACAAAGTCTGCTGTTGATTCCATTGCAACAATTCAAACCACCTTTACTAATGTATTCACTTCTCAATGA MFHFKWAASPGHFLQRKRWKSMVSSHGDFSMLMLVFCMAVVAGSSGGSGKLFPGSSGRLGTNSCRFSSSRGKGIRCAVSSSSNNNGGVAEISESELAKHFYAWPDYKKPRVCILGGGFGGLYTALRLESLFWPDNKKPQVVLVDQSEHFVFKPMLYELLSGEVDAWEIAPRFSDLLANTSIQFIQDKVKLVDPCDHYDANNPKNPSCSGTVYLESGLHIEYDWLVLALGAEAKLDLVPGAAEYALPFSTLWDAQRVDSRLKILERINFNKKSLIRVAIVGCGYSGVELAATISERLQDRGLVQAINVETMICPTAPPGNREAALKVLSSRNVELLLGYIVRSIQRVDDAETSEEANNRPSQGTQPDLATSRYRLELQPAERGSQGRILEADLVLWTVGSKSLLPTLEPSKNYRKQLPLNGRGQAETDETLRVRGHPRIFALGDSSALRDPNGRPLPATAQVAFQQADFVGWNLWAAINNRSLLPFRYQNLGEMMTLGRNDASVSPSFIEGLSLEGPIGHAARKIAYLIRLPTDEHRVKVGISWLTKSAVDSIATIQTTFTNVFTSQ Homology
BLAST of Cucsat.G6761.T6 vs. ExPASy Swiss-Prot
Match: Q8GXR9 (Alternative NAD(P)H-ubiquinone oxidoreductase C1, chloroplastic/mitochondrial OS=Arabidopsis thaliana OX=3702 GN=NDC1 PE=1 SV=2) HSP 1 Score: 667.2 bits (1720), Expect = 1.7e-190 Identity = 341/502 (67.93%), Postives = 393/502 (78.29%), Query Frame = 0
BLAST of Cucsat.G6761.T6 vs. ExPASy Swiss-Prot
Match: P73735 (Demethylphylloquinone reductase NdbB OS=Synechocystis sp. (strain PCC 6803 / Kazusa) OX=1111708 GN=ndbB PE=1 SV=1) HSP 1 Score: 302.4 bits (773), Expect = 1.1e-80 Identity = 185/443 (41.76%), Postives = 253/443 (57.11%), Query Frame = 0
BLAST of Cucsat.G6761.T6 vs. ExPASy Swiss-Prot
Match: O05267 (NADH dehydrogenase-like protein YumB OS=Bacillus subtilis (strain 168) OX=224308 GN=yumB PE=3 SV=1) HSP 1 Score: 117.5 bits (293), Expect = 5.0e-25 Identity = 107/433 (24.71%), Postives = 186/433 (42.96%), Query Frame = 0
BLAST of Cucsat.G6761.T6 vs. ExPASy Swiss-Prot
Match: P80861 (NADH dehydrogenase-like protein YjlD OS=Bacillus subtilis (strain 168) OX=224308 GN=yjlD PE=1 SV=3) HSP 1 Score: 105.9 bits (263), Expect = 1.5e-21 Identity = 97/403 (24.07%), Postives = 168/403 (41.69%), Query Frame = 0
BLAST of Cucsat.G6761.T6 vs. ExPASy Swiss-Prot
Match: Q4L4V6 (Type II NADH:quinone oxidoreductase OS=Staphylococcus haemolyticus (strain JCSC1435) OX=279808 GN=SH2010 PE=3 SV=1) HSP 1 Score: 102.4 bits (254), Expect = 1.7e-20 Identity = 94/401 (23.44%), Postives = 175/401 (43.64%), Query Frame = 0
BLAST of Cucsat.G6761.T6 vs. NCBI nr
Match: XP_011653891.1 (alternative NAD(P)H-ubiquinone oxidoreductase C1, chloroplastic/mitochondrial isoform X1 [Cucumis sativus]) HSP 1 Score: 1130 bits (2922), Expect = 0.0 Identity = 564/566 (99.65%), Postives = 566/566 (100.00%), Query Frame = 0
BLAST of Cucsat.G6761.T6 vs. NCBI nr
Match: XP_004146414.1 (alternative NAD(P)H-ubiquinone oxidoreductase C1, chloroplastic/mitochondrial isoform X2 [Cucumis sativus] >KGN54781.1 hypothetical protein Csa_012297 [Cucumis sativus]) HSP 1 Score: 1044 bits (2700), Expect = 0.0 Identity = 523/525 (99.62%), Postives = 525/525 (100.00%), Query Frame = 0
BLAST of Cucsat.G6761.T6 vs. NCBI nr
Match: TYK02783.1 (alternative NAD(P)H-ubiquinone oxidoreductase C1 [Cucumis melo var. makuwa]) HSP 1 Score: 1004 bits (2595), Expect = 0.0 Identity = 506/530 (95.47%), Postives = 518/530 (97.74%), Query Frame = 0
BLAST of Cucsat.G6761.T6 vs. NCBI nr
Match: KAA0041320.1 (alternative NAD(P)H-ubiquinone oxidoreductase C1 [Cucumis melo var. makuwa]) HSP 1 Score: 1000 bits (2586), Expect = 0.0 Identity = 507/531 (95.48%), Postives = 518/531 (97.55%), Query Frame = 0
BLAST of Cucsat.G6761.T6 vs. NCBI nr
Match: XP_008442153.1 (PREDICTED: alternative NAD(P)H-ubiquinone oxidoreductase C1, chloroplastic/mitochondrial isoform X2 [Cucumis melo]) HSP 1 Score: 997 bits (2578), Expect = 0.0 Identity = 502/526 (95.44%), Postives = 514/526 (97.72%), Query Frame = 0
BLAST of Cucsat.G6761.T6 vs. ExPASy TrEMBL
Match: A0A0A0L3R8 (Pyr_redox_2 domain-containing protein OS=Cucumis sativus OX=3659 GN=Csa_4G495230 PE=4 SV=1) HSP 1 Score: 1044 bits (2700), Expect = 0.0 Identity = 523/525 (99.62%), Postives = 525/525 (100.00%), Query Frame = 0
BLAST of Cucsat.G6761.T6 vs. ExPASy TrEMBL
Match: A0A5D3BSY0 (Alternative NAD(P)H-ubiquinone oxidoreductase C1 OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold145G00420 PE=4 SV=1) HSP 1 Score: 1004 bits (2595), Expect = 0.0 Identity = 506/530 (95.47%), Postives = 518/530 (97.74%), Query Frame = 0
BLAST of Cucsat.G6761.T6 vs. ExPASy TrEMBL
Match: A0A5A7TDE5 (Alternative NAD(P)H-ubiquinone oxidoreductase C1 OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold128G003210 PE=4 SV=1) HSP 1 Score: 1000 bits (2586), Expect = 0.0 Identity = 507/531 (95.48%), Postives = 518/531 (97.55%), Query Frame = 0
BLAST of Cucsat.G6761.T6 vs. ExPASy TrEMBL
Match: A0A1S3B524 (alternative NAD(P)H-ubiquinone oxidoreductase C1, chloroplastic/mitochondrial isoform X2 OS=Cucumis melo OX=3656 GN=LOC103486095 PE=4 SV=1) HSP 1 Score: 997 bits (2578), Expect = 0.0 Identity = 502/526 (95.44%), Postives = 514/526 (97.72%), Query Frame = 0
BLAST of Cucsat.G6761.T6 vs. ExPASy TrEMBL
Match: A0A1S3B519 (alternative NAD(P)H-ubiquinone oxidoreductase C1, chloroplastic/mitochondrial isoform X1 OS=Cucumis melo OX=3656 GN=LOC103486095 PE=4 SV=1) HSP 1 Score: 997 bits (2578), Expect = 0.0 Identity = 502/526 (95.44%), Postives = 514/526 (97.72%), Query Frame = 0
BLAST of Cucsat.G6761.T6 vs. TAIR 10
Match: AT5G08740.1 (NAD(P)H dehydrogenase C1 ) HSP 1 Score: 661.8 bits (1706), Expect = 5.1e-190 Identity = 339/502 (67.53%), Postives = 391/502 (77.89%), Query Frame = 0
BLAST of Cucsat.G6761.T6 vs. TAIR 10
Match: AT2G29990.1 (alternative NAD(P)H dehydrogenase 2 ) HSP 1 Score: 101.7 bits (252), Expect = 2.0e-21 Identity = 122/473 (25.79%), Postives = 200/473 (42.28%), Query Frame = 0
BLAST of Cucsat.G6761.T6 vs. TAIR 10
Match: AT1G07180.1 (alternative NAD(P)H dehydrogenase 1 ) HSP 1 Score: 96.3 bits (238), Expect = 8.5e-20 Identity = 119/470 (25.32%), Postives = 197/470 (41.91%), Query Frame = 0
BLAST of Cucsat.G6761.T6 vs. TAIR 10
Match: AT4G05020.1 (NAD(P)H dehydrogenase B2 ) HSP 1 Score: 86.3 bits (212), Expect = 8.8e-17 Identity = 86/374 (22.99%), Postives = 158/374 (42.25%), Query Frame = 0
BLAST of Cucsat.G6761.T6 vs. TAIR 10
Match: AT4G05020.2 (NAD(P)H dehydrogenase B2 ) HSP 1 Score: 86.3 bits (212), Expect = 8.8e-17 Identity = 86/374 (22.99%), Postives = 158/374 (42.25%), 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
This mRNA is a part of the following gene feature(s):
The following exon feature(s) are a part of this mRNA:
The following CDS feature(s) are a part of this mRNA:
The following polypeptide feature(s) derives from this mRNA:
GO Annotation
GO Assignments
This mRNA is annotated with the following GO terms.
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