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Cucsat.G13744 (gene) 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.ACCACATAAAAAGGCCCAGAAAATTAGGATAGAGAGATAGTCTCGTCTTCCTCGATTGCCGCGCGGCAACTGACCAACCAGACAACAACACGCAGAATCACTCCTCAACTGTACATTCCTCCATTTGTAGCTCACAGAGGTCGGAAAAAAGTAGCTCTTTCACGTCCCTTAGCTTCACAAAACGCTTTCACTCCGCATGTCTGTCGCTGTGCAACTCTCATTGCCTTCTTGTGCGTTTGAATCTTCCAGTTTGATTCACAGTGGAAGACTGCGAAATCGTCGTCAAATTTTCTGCAACCGAACTGATCTTCCTCACAGAGAAGATGATGACAAGAACGGCGTTGATTGCAGCAGGTACGAGATTACTCCGATCTTGAGAACAGAAATGTGATAGTTTATATTTGATATATTGTTGTTTACTGATTGTTTTCCGAGTTTTTTTGAAGTGGTATTATATAACTCCAAGTGATCTGATTGTGTTATTATTCTTTTATGCTCTTGTTGCAGAGAACAAATCCAGCGGCGAGTAATTTTGGTCGAGAAGTATGGAAATAGCGCTCTGAAGAAGTCGGTGATGTTTGCCTTAGAATTCATTTTTTATGTAACTGTTTCTCTAATTCGTATTACCGAATTCTTTTAGTTGATAGAATGTATTCTGTTTCGTATTGCTATGGTTTTCGTGATATCAGTATCTCTCTTGAAGCAATTTTACGTGTTAGATGCATTTCGTGTGAATTAAAAAACCTTTCCGTATTCTTTTTGAAGATAGATAGAGGTTCAAATTAATTTTAGGATAAAATTGATGGTTGAGATAATTATAGATCCTGTAAACATATTTAGCATAGTTTATGTCTTTGTGATATGGTGTACCTTTTTCTTCTACCGAGAGGTTCTATAAGAGTTTCATTTTGGGAGATTTGATTCCATGAACAGGTATTTTCTAGATGATAACCAACGGTTGCAATTTTTTCTTGATGAACAAACATCTCCGACATCCAATGGCTTCAAAGAATCTCGTTTTTCAGAAACAAAATTATCCTGGCTTCCAGGTCTCATAAAGGATTTTATTTTACCCACCGGATTTCCAGGTATCTACAATGCCCGGGCTATTTTCATTTCTCAACTTTCCTGTTAAAAATTTCTTCATTGATTTTTTTATGGATATTCTCTTTTTAGACTAGATTTTTGTCACATACATTACCCTTGTACTAATAAGTATCACATTTTCCCTACGTTCTAGGGTTTTCTTGTTTGTTCCCTCTAAATAGAAATCGTTTCATCATTCTCTCTCTCTTTTATTATTTGGATTGCAGAATCAGTTTCAGATGATTATTTGCAGTACATGATACGGCAGTTCCCCACTAATGTTACTGGATGGATCTGTCACACGTTGGTCACATCCAGTCTTCTCAAGGTAGATGATTAAGAAAATATGAAATCAAATCCTATATAATTGATAAATGTTGCTGAAAATACGTTTTCATTCTATCATGACATGGTTGCCTTAGCAAAATGAAAAAGAAAATGTCATCGGCATTAATTATTCCTCTCTTACATTGATTGTTTTCAGGCAGTCGGTATAGGCTCCTTCTCAGGAACTACTACAGCTGCTTCTGCTGTTGCCATCAGGTTTCTAAGTTTTCTCATAACAGTTTTTCGGGCATCCTCCATGATCGGTGTATCTTTGAACTTATTTATGCAATACATTTACATGCATGCATAAAGAGGCCTAATATGCAGCCATTAGTTTATTGTTTAAAACTATTAAAACTATTGTATGTCAATGTAGTCTTGTAATGGACTTTAATGTGGGTAATTTATTGAATAAGCAGATGGGTCTCTAAGGATGGCATTGGAGCAGTTGGGCGCTTATTCATTGGTCTGGAATCATAAAGAGATCTAAAATATGGAAGGTTATATTGAATATTTCAGTGAGTGTTGCCATCCTTTCCAGGTGGACGTTTTGGTAATCTTTTTGACGATGATCCGAAACAATGGCGAATGTATGCTGACTTCATTGGCAGTGCGGGAAGGTTCCATTTTTCTAGCACTCTATTGGACAACAGAATTCTTGACTTTACTATTAAAATTGCAAAATCTTTAATAGGCAACCTATTATGCAGCATCTTTGATCTTGCTACTCCACTATATCCTAGCTATTTTCTACCATTGGCTTCTCTTGGAAATCTTACCAAGGTATTTTACACTGCTAGTTGATTATCCATTTTCTTTATTATTAAATTGTGTAGAAAAGCTTAAAGATACTCAACTATGTCGTTGATAATTATGCATTCACCTTTAGTCTCTTAAACCAAAAGGAAGTTCTTTCTAATCGAAGTCTGGAACTTCTTTCAAGAGCTAACATTGTTCTACCCGATTTTCAAACTATGTAGGCAGTTGCAAGAGGACTGAAAGATCCTTCATTTCGAGTTATTCAAAACCATTTTGCGGTTTCAGGAAATTTGGGAGAGATAGCAGCAAAGGTACATGCCAATCCTTTCTAACGTCTTTGACTCATGCTAAATGCTTATCTGAGAGTATTATGTTATGCATGAACCAAATATTTTTGGTAACGGCCTGTGTAAGTTATCTTCAAATACTTTTATCATGAGTTATTCTACACCATTCAATGTATCAGGAGGAAGTTTGGGAAGTAGTTGCGCAGCTGCTCGGTCTTGCTATAGGGATCCTAATCTTGGTATGTCTATTAAAGATCACATTGTTCAGAATATAATCTTGTTCAGCGACCAACGACTTCATATGTGTTGAAGTAATTGGTTTTCTTGTTGTCAACGTAGGATACACCAGGACTTGTAAATTCATATTCAGTGTTATCAGCAACGTGGCTAAGCATGCGGCTTCTGCATCTTTGGTTGCGATACCAATCTCTTGCAGTCTTGCACTTTAATACTGTAAGAGCATGACAAGTACACAGAAGTGCTCTTGTTAGGCTTCGCTTATGGCTTGAGGATTATGTTGGGTATGCATTTAAGTGTGTCTCTGTACTAAGTCATTACTTTTTCTTTCTAACAGATAAATCTGAAACGCGCTCGTATCCTAGCAAGGGCTCACGTTTTGCACAACAAAGTACCAGGTAATGATATTTTAATACTGTCAGTGTTGTCTATGATCCCGAAGCCATATCCTAGCAATCGTTCGTAATCTGTGGAATAAAAATCTAGGGAACACATACATCCTGACAAACATAACAGGGATATGCATACGAATTGCATCGGGAGTCCTACCTCAAAGGACAAAAGAATACAAAAATAAAACAAAAAATGTCATAGTTTTAGAGAGACTGAAAAAGATCTAAATTGTGAAAAGACGTCGGTGGTTGTCAGAGTTATTCAAAAAGCATTAGGGAGGGCGTCGATTTTGTTAAAAAATCTAAAAACGGATAGAGGTAGAGGCAGAGGCAGATGAGAGACTTGAAAACTAAATAGATAGTAGATACAGAGTATACAGGGATTTTTGAAGGCCAGAATCAGACGAAATGGAAGCAAATCAGAGTTTGAAAGGCAAGTTGGTGAAGATATTTTTCGTTGCCGATTCTGAAGAAAAGAATGCCCTTTTTCTAAAACAAAAAGGAACAAAAACGTGGTAAGAGGAGGAGGGAAGGGAAAGAAATGTAGAAAAAGGAGAGGAAAGGGAAGAAGAAGAGGAAAAGAAAAACAAAAAAAAAGAGGAAATTTTGAAATATATGGAGGTGCCCGTGGACGGCAGTGGCAGCCACGGATGGAGAGGGAGGAAGAAAGTGGGGAAAAAAGAGTAAAAAATATTTAGTTATATTTTTATTTTAAAAATATTAAGAATGTATTTTTCTTGATAAAAATACAGTACTGTCTTATTATTAATTACAGAAAACTGCGCTGATGACATGAGCAGAAATACTCCTAAAACCAAATTCAAGAAATACTCCTAGAACCAAGTTAAGGGGAGGATAATTCTAAGAAATAGTAAATTTGATAAAATATTTACTAACATATAACAAAATTTTTAGATTTTATCAATAATAGACATTGATAAACATTGATATGCTTCTATCAGCATTGATAGAGAAGTCTATTCAGTTCTCTCCTTGATAGAATCTAAAATTTACTATAGGTTGTAAATATTTTAATTTATTTTAATATTTAAAATATATTTTGGTATTTTAAAAAATATCTGGTCCTACTTAAGTACCATATAACAATCTTAAAAGTAACTACCATATAACAATCTTAAGGGCTAAAAAATGTAAAATTCTCATTTTTGTTTCATTATTTGGTGAGGACTCAATATTTTTTGTCCATTTTGCTAATAATTCTGGTGGGTTCCACCATTCCTCTCTTAATTTTCTCATAGTTTTCGGTGCTATTAAGTGCTCAATTAGAGCACAATAAAAAAAGGTGAAGGAGTAGATTTGAAGCTATTTGCCAAAGTAGACCTGATTTTTCTCTTTATTAGGTCATTTTGTATAAGAGATGCTACCTGTTATTTTCAATGTACTAAGAGGCATCATTAAAAGGATTTTGTCATTAGCATTATGCATTTTTTGAAAAAATGCATCCGACAAAAGAAAAAAATAAATCAGCTCCGGGGGAAATTTGCAGTTTGGAAGGTTGATTCTATATTGCTTCTTATAGTCGATTGTTGATATTTAATTTTCAATTGCTTTCTTTTATTTCTTGGTCCATACTCCTAGGTTCCCTTTTTTGTTTTCTCATATTTTCCGCAACATTGCTAAAACATCCCCCAACTATTTTCCTGCCTCCGGCAAGCGATTTATTGCACACTACAAGAAATAATCTACATTTTAGTAGCTTTCTTCAGGAACAGTTGAGTGCAACAGCGAAGAAAGCATATTAGTGTGGGAAAGGTTTACGAGGCCTTCGATTATCTTTGGTGTACCATTGGAGGAGATGATGGGTAGTGAGAGATCTTCCACGGTATTCCTCGGCTCCCTCTCCTTCCATATCAGTTAACTTCGCAGCAGAGATGCAACGTGAAAACGTATTCCAAAATTTGTCAAAGATAATGTCGATCGTTATTGTTTTCCTTTCATAGGTGATGAAACTGTTGAAATTATATGCCAATGAGAAATACATCCTCATGCTGGACTCACAAGATAAAGACTTAAAGGTCTTCGTCTCCTTCAAGGTATATTATTAATCAAATCTCATAGAAAAGTTGGGTAGTTATTACTATCCGTTTTAGGTGGTTCCTTCTAAAAAACTTCTTTACAGGTGGGTGCTTCTAGCATGACAGTTTTACGTAGTATTTGGCAAACTTACTGGCTCAATAAGCACTTGGACACCACAGAAAACGTCATCCATCAGCTTGCACAAAGCCTATCGGAGATGGAAGATAAGTTCAATGAATTTGTGCAACTGTTGGAGGGAGCTGGTTGGGATACTCATCAATTAAGCTTAAAGGTACCAAACAATATCTTACTTGATGTTTCTTAGTTTGGTACTTCTTGAAAATTTTAGGTTTCAAGGGTGAATTGATTTTACTCTTATGATCCTGAAAATCGAGACCACGTTTTTGCCCTAAGAAATTAAAAGGTCTATTTTGGCCTTTGGTTTACTTTTTGGTTGGAAGAACTAAGTTGGACTCTTAGCCAAGTTTGGTAGAATCTGATTTTTACAACTTTCTCCATTGTTTTGATTAAATCAAAAGTTAGTGTAGTGTCTACAATAAATCTTGACGTATAAAACGAATAAATCTTGACTTATAAAACAAATGTCTAATTAGGATCGTTTGCTGGTAAATTTCAACAAATTAAATAAATTATGATAATTGGTTGAAATGAATTATTTCAAAACCAATTAAATATCTTGAAGGTTCTGAAATAATTCAGGTCCGTAAGATTTAAAACATATTTAAAAGAGAGCCCTTTAATTTATCACATGAAAAAGAAATACAATTACTTAATCTTTTTAGGAATTGCAATTTTTTAGTCAGTATTTTTCTATTGAAATAGTTAGCAACTAAATTTAAAATATTAATTAATATGTAATAACATTTTTAAAGAATTACAAAAATTTTAAAAATTTAAAGAAGTGTATCACTAATAAATCAGAAAAATATTAATATTGAACTTAATTATTATTCATAAAATCACTATCTTCCTGAATTTTAGATAATCCAAATGATCTATAGGGGCCTTTACCTAGAAATCTTATTGTAAAATTTGTAAATTCCATTGTCTAGGAAATGCAAAAAAAGTATACATATGTTAATTACAAGTCACCTTTAAAGATGGGAATATTAGGGAAAACTACAGTTGAAAGGTAATTATGGTAACATTAAAAATGTCTAATAAAAGGATCCATGAAGTTCTAGAAATTCCTCTAAATTTTGTATAATTAATAATTATTGGCTAAACTGCAATGTCACTGTTTATCTCTTCAAAAAGATGATTCTCTCCCTAAAAGGTAAACAAAAACAATTTCTAAACTACAAAGAGGGCTAGAAGAGTAAGATAAGAGGGGGCAAGGTGGAATTACAGCTTCCAAAAGATGTATTTGATAATTTTATATTGGTTACCAAAAGAGAAAGGCCAAAATACCCAAACATTTTAACAATGTAATTAGACAAAGGGGATGTAAAGTGGAGGAGGAGACCATTTAAACAAGTAAAGATATCCTGACACGTTATCATGTTGCACACAAATACAAAATGAACACAAAGTATGCAGAGATATGAACATAAGTGACCTTCCTCCCTCTACCAGCTGGGTTGGCCGATACAAACAACTTGGCTTTCAATTTAGTCATCTTCCTCATCATCCTCGTCCTCCTCGTCGTCGTCTTCTTGATGCTCCTGCAAGTGATTTAGTAGTCAAATTTTAGAAAACCTAATTCTACTCTTACCAATTCCATGCCCTTTATATTGCATTCTTGTTATCAGCGTTGGCTGCAATGCCGCTCCCAAGAGAATATAGCTTTGGGTATAGTCTTAAGCTTCTATGTAAGTAAGAATATTTATTCTCTAAATTTTAGTCTCAATGAAATTTTATTGATATACCGTTGGAAATCAAAATTATTTGATAAACTATAGAACTAGTTCTTTTAGTTATGTAATTAAAAATTAGCAGTTGATTTTAGATCATTTCACGATAGGGATTAGACTTTTGCAAATTATAAAGTAAGAAAATTAGATGTGTTGCTTATTAAAGATCGTGAACCAAATGGTTACAAATTTGAAGGTGAGAACGAAATATTACCAACTAATCCAAAAGTGTTCTCTTAACTATAAATTTTTTATTTTCAACTTAAAAAAAATAAGCAGGCTGATAAAATGACAGCAGAGAGAGATCTTAATTGGCTGACTATGACGTTATGAACTGACATGCATATACACCCTCTAAAAACAAGTATTGAAACATTTCCTTATTATGTATTAAAAAAATACCTCCTCACTGGCCTCATCCTCGTCATTCACTTCAGATTTTGACCTCTCTGATTCTTCATCATCTGCTGCGCTGGCCTATATTCCCCGAAAAAAGGTGTATGAGCACTTTAAGTTTGGAGTCGTGTCTTATAAATTTAATTAATACACAAAAAAACAGAGCACAACCACCTTCTTGCTGTCATATGCCCTCATAAGCTTTTCATATTCAGCCTTCCTCTTAGCTGCCTTGGCTTCATATGGTGCTTTTTCCTTTTAAACCATTAAGAAGTTATTATACAAAGAAACCCAATAAGTAAAATACTGTTGAGAGAATAAAAGTGTAAATGCCCAATTGTAAGAAAATATCAATACAGAGGCAGAAAAACTATTGAAGTTGTGATTCTTTCATTGGCTTCATATGGTCCCCTTCCTTTAGTTGGGGTGTTTTTTGTGGGTTGGTTTTTTAAAATGAAAGTTGTGATTTCTCATTAAAAAAAACTATTAAAACTAAACAAAACGAAAAAGGAAAAGAAAAAAAGGCATGCAGACACTATAAACTTGATATTCAATATGAATTGCTGAAAGTGACTGTTTTTCAAGATTTGACAGCAACACAAATGCCGCAGCTCTATAAAAAGTGTTTCCTTCATCAACATCATACATAAATGCATGCAGTGAAAAGGACAATGACTCGATCATGCTTTTATTTTTATGTAATACACAACAATGCTTACTGCATGACTTAAGGATTTCCACTTCTCTCCTCCAGCTTTTCCGACCTGCAGGAGTGAAGAAAATGTTAATTAGTTACTCTATATTTGCATCACCAATTGGGAATTATGTGAATCTTTTAGATCAGTTTCACAGATCACATACTGCAGATACTGCCTTCACATTAGGATTTTCCCTTTTGTACTCCTTTCTGAACTCCTCGCTGTTATATAAAATTTAAACAAAAAAGAGAATTTTTCCCCTTAAGAAAATCAAACAAATAGTTTTTAACTTGAAAACAAAACGGCAGAGAACAAATACGAACAGGAAAACAAAGAAAGCACTCGGAGGCCTCTTAGGTTTGTTGGGATCTTTCTTGGCTTTCAAATCTTTCTTTGTTGGTCGTTTGATACCCTTGTCAGCTTTAACGACAGCCTTTCGCTTCCCAACCTTTCTGAAAAGAAATGAGATATTTATGATCCGTCACTACAAAATTCCTGTAAACACTGTATACACATAACCAAGTATGTGGATATTAGACATCAATGGAAGTCAAAAACTTGCTAGAAATTCGATACTCCAAAAAAAAAGATGCCAACAATGGATCACAGACACGCATAACCAAACAATTTACGAAGTTTCATCAGAGCAATAACACAAGAGACATGAAGTGGAACAATAGGCAGAAAAAACTACCTATCATCGACTGGCTTCAAAGCTTCTTTGGAAACCCTTGATGTTCCCTTACCCTTGGACCCCTTCATTATGAAAGGCAAATACCTGTACAAAATAACTACTCGTTGAGCAGCAGTACAACAATACAGCAAGTTAGTACAACTCCAATAGTTTAAGAAACAACAACCTACATGCACGAGAATAAGAACAAGAACCATTTGAGCCAAACTAAGAAGGAGCAGTACCTCAAACAGTACAGGAAACAATAAAGACAATTTCTAACATAAAAGTACATGCCAAAGTGCAGAAATGCAGTGAAAGCAACCTCTAGAAACCGTTTTCACAAAAGTCAAAGGAACACTAAGTCTATATGATACGTAATGACTGCTGAACGTGAACATCCAGACATCCAGAAGCAAACAAAAGTAAACAGTAATACTATACATGTCCTTGAACATATTTGACCTTAACGAGACCAGAATCCCTAAATTTCAATTTTAAAAGCCATATGTAGAATTGACGAAGTAACAATCAACCAACCAGCTACAGATAATTCACAGTAGAAAACTAGATACAATAAAGCAAAAGTCTAAACTCTGTCGACTCCAAGTCTTTCGCATAAGAAAAATCATCTGTTTAAATCGCTAACAGAGCATTAAGCTGAAAAATAAACCTAAAATGTAATTAAATTACCACAATTTTAACTCTTAAACTCCTACAGCTACTTGTTTCTTCACTTCACTCAAAACAACTCCAGCAGAAACTATTATGATAATAAATAAACCAAAAAAAAAACGGCACAAATAGCTCAAAAGGCGATCGTTCTCCAGAGAATTAGAAGGAAAAACGCAACAAGACCTTAAAAACGGAAGAAATTAGGTAGAACAGACGATAATTATACAGGAAAAACAAGGAGCATCAGATTAAAAATAAAAGGAAGAAAGACGAGAAGAGATCTAGAAAGGAGAGAATCGATAACCTTAGATGAAGCAAGCCGTCCGATCCAAAAGGAATCGGGAAGGAAAGAAGGGAATCAATACCAGAGATTTTTCAAAGACTGAGAGGGAGAGAGAGAGAGAGAGAGTAGAAGAAGAGAAAAGAATTCAAAAGAAAGTACCCAGGGAGAGATGGGAATTGATTTAGAGTAACCGGAAGTAGCTGTAACACATGCAACTGTTGGCGCCACAGGAGACCCGGAAGAGAGACCTGTTACTGGCAATAGCCAGTGACCGATATTTTAAGAAATAAACAAATAAAATAGGAAGAATATATGATGAAAATGAAATGATCGGAAGGGAATTATCTTTTGGGTTTTGTGGAAATGATTATTGCCGCCAAAGCGATCCCATACAGATAGAGACAAACACAGATATTATTTACATTAACTCTCTGGCACGTACCTTCCCAACTCCTCACACGTTTGCCATTTGGGCCCATCGGTCCACTGCCCTTCCCTCTTTTCACACGTGTATCCTTTTCGACCCACGGCCCATCTGACGTCCTCATCCTCTCCAGGTCTTTAGGGCCATCATACCCAATGCCCATCACACAATCATTTTTTTTCTTTTTTTCTTTTTGGTTCTAACTACTATAGTGTAAATGGGATCTCTTATTATAAGTTGAGACTAGGGTTGTTAAATTTTTTATAAATATTTTAATCGAATTCAAAAGATCAAACTATGTCCTTGTTATTAATAATATATTAGAAAAATAAAAAATACAGTAAAAAAAGTTGTAAAAACACGATTTTATTATAGTAATATTATAATCAAAATTACTCCTTAATTATTTTTCTTCTTGTGATTTTGTTCTAAAGTTATTTTCATTTGACCTCTCTTATTCTTTTTATCTCTATCTCCTTCCACGTCTCTCTCTTACTTTCTGATCTCTCTCCTCTCATTCTTTTTTATTCCGTTCATCTCCTTCCAATTCTTCGGTGAGTGCATATTTGTTTCATATTATTAATTATGTGTATAAAATTGTGAAATACAGTATGCCAATGAGATTTTTCTGTTAATTTTTTTGATAAATAAAACTTATAGTGAATGGAGTATATATGCTACGTAATTTACCTCTATTTACAATTAGTGGAGTATCTATACCACATGATTTTCTTTCGTTTTACATTGTTTTTCATATATTCCACGTAATTTAATAATTTTTATATATATTTATTATATTTCATCAATTTTGCATTGATTTTCATATATTTAAAGTTAATTTGTAAAATTTTACCATGATGGAAAATGTTTTCGATTTAAATATATCATTATATACCCTATATATTTAACATAATGTTAGATAATAATGTATGTGCATATTCTGTTTTAATTTTGTAACAAATTCTACATTATGTAAAAGTACAACTTTATATCAAGAAAATGGAAGAGTCTGAATGATGATAGAAAAAAAAACTAAAAGGAAAAAAAAAACAAATGGAGAGAAATGAGGAAATAGATAGAGAACTTCAAATAGATCACTAGAAGACCGAATGATATACATCATACAATATATTATATATTATGCCTATCATACTTGTAGATGTACTTTGCAATATTTAAAATATATGCGAGTATTATTTAAAAAACTAAAATGGAGAAGAAAGGTGAGGAAAGCTGCAAGGGAGGATAAGTATGAGATATTGCTAATGTTATTTTATATATACGGTATAATAAATGATAACATTATGTGTCTGCTGCTTAATGATATTTAATATGTACTTTAACATATATGTATATGTTGCTTAATTATATATTATGTGTGTAATGTTTAATGCATAGTGCTTAATGATATATAGCATAAACTGTATGATATTTTTTTATATTGTATGTTCTTAGGGTGCACAATTGATTCTAAAAATGAATAAATTGTCAAGAGTCCATAAACTTTAAAAAAAAACTCATTAACCATAAAGTAGTATTAAATAATAAATGGAAAAGAAGTTCATTGTATATTGTATACTACATTACACAATTTAAGATAGAAAGTTGATAATATGAAACAATTAGTTGAAGGAGATAACCCAAAAGTTCACAGTATTTTGATCGGAAACTTTAACAAAAAATTTAACCAAAATATACACTCACCAGATAAGTTGAAGAATAAGATTGGAATAAGAAAGATTTTTGAGTGAGAGATAAATCAAATGGTCAAATTATTAGGTGAAAGACATCTAAAAAAGACGAAATTCTTATTAAAGAAGATGACGGAAGTTAGAAAACCTTTGTTAAATGTGTAACTAAAATAAAATTATTACTTTTATTGAAAGTATATAATATATCATTACCATATTTAAGTCAATATACCGTAATTAAACTGGAACACTAATAAATTATATATTATAGGTACATAAAAGTTAATTTTTTATTTATTTAATATATTAAATATGTTAGTTTTTAAATAAATAATAATCTGGATATAATATAATTATGTTATTGACACTTGCAAAAATGACAAAATAAGTTAAAATAATTAATTTCATGCTTTATTATTTGCGAAAATGGCAAAAATAAAGTTCAACCCACACATCAAGGGGTAAAATATCACAAATGTCATCGCTTATAATATACGTTTGATACACCTAATACACCCTTTGATATTGATACACCTAATACACCCTCTTGATACTTCTTGATACACTCGGTACATTTTATTGATACACACTTGATGCACCCGATACTTTTGGATACACTTGATATCTTTGATACACTGTAGATACATTTAGTATTTTTTACTTATACAATTGATTGATTAAATGCACTCTGATATGCTTGAAGTCTTACTTATACACTTGATATATTATTGATATACACTTGTAAACTTGATTCATATAATTGATAATGATTCACTCTACTGATATGCTTTAACAATATATTGTTATGTAATGCTCGAGACTAAGAGGGAGACATGAACGAACTGATATCACATATGAATGAGAAGGATCATAAGGACATGAAAGTAATATTAAGAAAGACTTAAATGAATTAAAAGTTAATACCTATACCAACAAGGTACACCTTCCTTTTCGGTGGCTCAATCATAGGAATTCCAAAGTTAAACGTGTTGGTTTGTGGGGAAAACTTTTATTCTAATAAGAATAGTAAGAATGATGTTGTCAGGGGATGCATGAGAATGTCGGAGATACGAATTCCAAATCATGGCTTGAACCCTGAGTCTGTAGCGTTATGAGTTACATCATTCATATACTTAATAATACTTTAATAAACTGCATAAAATTTGAAGAAACTTTCAAATTTGA ATGTATGCTGACTTCATTGGCAGTGCGGGAAGCATCTTTGATCTTGCTACTCCACTATATCCTAGCTATTTTCTACCATTGGCTTCTCTTGGAAATCTTACCAAGGCAGTTGCAAGAGGACTGAAAGATCCTTCATTTCGAGTTATTCAAAACCATTTTGCGGTTTCAGGAAATTTGGGAGAGATAGCAGCAAAGGAGGAAGTTTGGGAAGTAGTTGCGCAGCTGCTCGGTCTTGCTATAGGGATCCTAATCTTGGATACACCAGGACTTGTAAATTCATATTCAGTGTTATCAGCAACGTGGCTAAGCATGCGGCTTCTGCATCTTTGGTTGCGATACCAATCTCTTGCAGTCTTGCACTTTAATACTATAAATCTGAAACGCGCTCGTATCCTAGCAAGGGCTCACGTTTTGCACAACAAAGTACCAGGAACAGTTGAGTGCAACAGCGAAGAAAGCATATTAGTGTGGGAAAGGTTTACGAGGCCTTCGATTATCTTTGGTGTACCATTGGAGGAGATGATGGGTAGTGAGAGATCTTCCACGGTGATGAAACTGTTGAAATTATATGCCAATGAGAAATACATCCTCATGCTGGACTCACAAGATAAAGACTTAAAGGTCTTCGTCTCCTTCAAGGTGGGTGCTTCTAGCATGACAGTTTTACGTAGTATTTGGCAAACTTACTGGCTCAATAAGCACTTGGACACCACAGAAAACGTCATCCATCAGCTTGCACAAAGCCTATCGGAGATGGAAGATAAGTTCAATGAATTTGTGCAACTGTTGGAGGGAGCTGGTTGGGATACTCATCAATTAAGCTTAAAGACTAAGAGGGAGACATGA MYADFIGSAGSIFDLATPLYPSYFLPLASLGNLTKAVARGLKDPSFRVIQNHFAVSGNLGEIAAKEEVWEVVAQLLGLAIGILILDTPGLVNSYSVLSATWLSMRLLHLWLRYQSLAVLHFNTINLKRARILARAHVLHNKVPGTVECNSEESILVWERFTRPSIIFGVPLEEMMGSERSSTVMKLLKLYANEKYILMLDSQDKDLKVFVSFKVGASSMTVLRSIWQTYWLNKHLDTTENVIHQLAQSLSEMEDKFNEFVQLLEGAGWDTHQLSLKTKRET Homology
BLAST of Cucsat.G13744 vs. ExPASy Swiss-Prot
Match: B6IDH3 (Protein root UVB sensitive 5 OS=Arabidopsis thaliana OX=3702 GN=RUS5 PE=2 SV=1) HSP 1 Score: 359.4 bits (921), Expect = 3.7e-98 Identity = 179/282 (63.48%), Postives = 223/282 (79.08%), Query Frame = 0
BLAST of Cucsat.G13744 vs. ExPASy Swiss-Prot
Match: Q84JB8 (Protein root UVB sensitive 3 OS=Arabidopsis thaliana OX=3702 GN=RUS3 PE=2 SV=1) HSP 1 Score: 78.6 bits (192), Expect = 1.3e-13 Identity = 70/287 (24.39%), Postives = 132/287 (45.99%), Query Frame = 0
BLAST of Cucsat.G13744 vs. ExPASy Swiss-Prot
Match: Q5R8F6 (RUS family member 1 OS=Pongo abelii OX=9601 GN=Rusf1 PE=2 SV=1) HSP 1 Score: 77.4 bits (189), Expect = 2.8e-13 Identity = 68/298 (22.82%), Postives = 129/298 (43.29%), Query Frame = 0
BLAST of Cucsat.G13744 vs. ExPASy Swiss-Prot
Match: Q96GQ5 (RUS family member 1 OS=Homo sapiens OX=9606 GN=RUSF1 PE=1 SV=2) HSP 1 Score: 77.0 bits (188), Expect = 3.7e-13 Identity = 66/298 (22.15%), Postives = 128/298 (42.95%), Query Frame = 0
BLAST of Cucsat.G13744 vs. ExPASy Swiss-Prot
Match: Q93YU2 (Protein root UVB sensitive 6 OS=Arabidopsis thaliana OX=3702 GN=RUS6 PE=2 SV=1) HSP 1 Score: 72.8 bits (177), Expect = 6.9e-12 Identity = 67/269 (24.91%), Postives = 117/269 (43.49%), Query Frame = 0
BLAST of Cucsat.G13744 vs. NCBI nr
Match: XP_031740702.1 (protein root UVB sensitive 5 isoform X2 [Cucumis sativus]) HSP 1 Score: 544 bits (1401), Expect = 1.24e-191 Identity = 277/277 (100.00%), Postives = 277/277 (100.00%), Query Frame = 0
BLAST of Cucsat.G13744 vs. NCBI nr
Match: XP_004148619.2 (protein root UVB sensitive 5 isoform X1 [Cucumis sativus] >KGN54642.2 hypothetical protein Csa_017956 [Cucumis sativus]) HSP 1 Score: 543 bits (1400), Expect = 4.21e-191 Identity = 276/277 (99.64%), Postives = 277/277 (100.00%), Query Frame = 0
BLAST of Cucsat.G13744 vs. NCBI nr
Match: XP_008449930.1 (PREDICTED: protein root UVB sensitive 5 isoform X1 [Cucumis melo] >KAA0031876.1 protein root UVB sensitive 5 isoform X1 [Cucumis melo var. makuwa] >TYK09514.1 protein root UVB sensitive 5 isoform X1 [Cucumis melo var. makuwa]) HSP 1 Score: 512 bits (1318), Expect = 7.28e-179 Identity = 261/278 (93.88%), Postives = 268/278 (96.40%), Query Frame = 0
BLAST of Cucsat.G13744 vs. NCBI nr
Match: XP_038881753.1 (protein root UVB sensitive 5 isoform X1 [Benincasa hispida]) HSP 1 Score: 499 bits (1286), Expect = 5.30e-174 Identity = 251/278 (90.29%), Postives = 269/278 (96.76%), Query Frame = 0
BLAST of Cucsat.G13744 vs. NCBI nr
Match: XP_022966621.1 (protein root UVB sensitive 5 isoform X2 [Cucurbita maxima]) HSP 1 Score: 495 bits (1275), Expect = 2.21e-173 Identity = 249/278 (89.57%), Postives = 266/278 (95.68%), Query Frame = 0
BLAST of Cucsat.G13744 vs. ExPASy TrEMBL
Match: A0A0A0KXY9 (Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_4G309160 PE=3 SV=1) HSP 1 Score: 543 bits (1400), Expect = 1.17e-191 Identity = 276/277 (99.64%), Postives = 277/277 (100.00%), Query Frame = 0
BLAST of Cucsat.G13744 vs. ExPASy TrEMBL
Match: A0A5A7SPF7 (Protein root UVB sensitive 5 isoform X1 OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold994G00060 PE=3 SV=1) HSP 1 Score: 512 bits (1318), Expect = 3.52e-179 Identity = 261/278 (93.88%), Postives = 268/278 (96.40%), Query Frame = 0
BLAST of Cucsat.G13744 vs. ExPASy TrEMBL
Match: A0A1S3BN64 (protein root UVB sensitive 5 isoform X1 OS=Cucumis melo OX=3656 GN=LOC103491657 PE=3 SV=1) HSP 1 Score: 512 bits (1318), Expect = 3.52e-179 Identity = 261/278 (93.88%), Postives = 268/278 (96.40%), Query Frame = 0
BLAST of Cucsat.G13744 vs. ExPASy TrEMBL
Match: A0A6J1HPU1 (protein root UVB sensitive 5 isoform X2 OS=Cucurbita maxima OX=3661 GN=LOC111466246 PE=3 SV=1) HSP 1 Score: 495 bits (1275), Expect = 1.07e-173 Identity = 249/278 (89.57%), Postives = 266/278 (95.68%), Query Frame = 0
BLAST of Cucsat.G13744 vs. ExPASy TrEMBL
Match: A0A6J1HS48 (protein root UVB sensitive 5 isoform X1 OS=Cucurbita maxima OX=3661 GN=LOC111466246 PE=3 SV=1) HSP 1 Score: 495 bits (1275), Expect = 1.20e-172 Identity = 249/278 (89.57%), Postives = 266/278 (95.68%), 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:
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