Cucsat.G8740.T1 (mRNA) 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.AAGTGACCTTTGAAACGGAAAGCCGGTACGTACCGGAAATTAAAAAAAAAAAAATCCGATATTGGAGCTGCATGTTCTTCCTTGTCTTCTTCTTCTTCTTCTTCCTCATCATTTATTAATAATTTTTCCCATTATCTTCCTCACTCTCTGTCACAGCTGCTCCAATTTCTCCATTTTTCACTCACATATAATCACACTTCCAAGTATTCAACTACTCACTATTCCAATTCCCAACCGCATTTCACCTCCATTGCCACTTCGTTTTTGTTGTTGTTGTTGTTGTTTCGTTCAATGGCACCTCACTCTCACTCCTCTGCCATTTTGCTTCTGCTGCTTTTTTTTTACTTTTCAGTCTCTTTCGCCGCTCCTCCCAGCAATGAGATTGCCGGTGGTGTGCGGATATGGCCGTTACCGGTCTCCGTTACTCACGGTGGCCACCATCGGTTATATGTTGCCAAGGACTTTCATCTCATTACTCAGGGCTCTAACTTCAGTGATGCTTCCCGGATACTTGAGGACGGATTCTCTAGGTTGCTTGATTTGGTTCGTGTTGCTCATGTTGTTGATGCAAATCTCTCTCGCTTTGCTTCTTCTTCTCTGCTTCATGGAATCCACATTGTTGTCTCCTCGCCTTCCGATGAGGTATCATTTTGTTGATTCCTTTCTTAGACTGACGCTATTCTGGATTTGTGGCCGATTTTGGAGTTGTTGAGCTGGAAATCTTTTGAGAAATTGTGTGGAGATTGTTCTACATTTTTTTTCATGGTTTCTTAGTTTGCTGGAAATGCATTTGAAGTTTCTGTTCGAGTTCAAATCACGTTTCTTGGATTTATCGAAGAGGATATGATAATGCTTTTGGAGTTTTTAAAATACTCTTCAATTTTGAATGATATAATTGGTTCATATTTCAGATTTTCTTGATTCTGGAGGTCTATTTCCAATCAAATGGATTGTAATTTTTTCTAGAATCAAATCTTTTTGGCCATTGATTATCGTATGAATTTTGTGAAATTTCCATGTTGATGGTGTAGTTACAATATGGTGTAGACGAATCGTACAGATTATCAATCCCTGGACCTGCGCCTGGAAAACCTGCCTATGCATATCTCCAGGTGGGTGAACCAAACCTTCACCTACTCTCTTTACTTGATAATTAGGCAATTAATAATTCACTGAAAGTGAAAAAGTTGAATTCATAAAGGGGAAAAATACTGATTCAACTGAACATCATCCATCAATGTAGAAAATAGTTGTTGAATTTTAGTTGGCTTGTGCATTTTGATTCAAACATGCTCATGTTGTAAATATTTTTATTAATGCGTGTTTCTCTTATCACTAGTATTTTCTCAGATCTGTTTGGTTCACGTTCATAGTTGAATTCTTAAATCTTAAATAGACTGAAAATTGAGATGCATTTGGATTTTCTTTTAAAAGTCAGAAATACGTTGACTGGAATAACTTGATACGCTACAAATTGTTATATCCTTATAAGTATATATAGTTCCTTAAATAAGTTCAATAGTTGGTTTAATCTGAATTTCAGATTTCCTATTTAAATAAAAAATTATGAACGTTTCTTTCTCTTCTTTTTTACTTCTTTTTTTTTTTTTTGGTGTTTAAATTTAAATTCATATTATTATTTATTATGTCGACCTAATTTCTTTTATATAATCAAGTTCTCTCCATAAACTGGCATGGGCAGTGTTCAATTTTTAAAGATAATTATGTTCATAGTACTCAATCTTTGAATACACCACAATCAGACTGTACCATGTTTTATCCACATGATCTGGTGGTTTAGGCTGAATATGTACAGTTAGATTCATCGAATCAAATTTTAGTGAGGCTCTTGTATCTCGAGTTTTCCAAATCTAGAATTGAGGTGAAAAGTGAAAGCCATAACCATAAGTGAAAATGAAAGAAATTTAAATATTTGGTCATCTTGATCAACTGTCAGTAGTCTTCTCTTGATATATTTTGCTTGATAAAGTGTAATTATCTCTGTATAATATTAACGGGTCTCCCAATATATTCTTGTAGCTCTTGTCCCTAATCAATTAAGTACTTTCTCAAACTATGCAGGCTCGTACAGTTTATGGGGCTTTGCATGGTCTTCAGGTTACTTGCTGAGACTCTTACATCTTGAAGGTTACAATTTTTGGAGCCCTAGGGAATAATAAAATATTGAAAATATGTCTTTTTAATGTGAAATTCCGCAGACCTTCAGCCAATTATGCTCTTTCAATTTTGAATCAAGGGTAATTGAAGTTCGCATGGTACCATGGAATATTATTGATCAGCCAAGGTTCTCCTATCGAGGGCTCTTAATTGGTGAGATGCTTCTGAACTTTCCAACAAATTTTGCTTGAATGACATCCTTGAGCAAAATAGTGACACGATAGAAATGCTTGCTTGGTTTCCTTGCTCTCTGTTATAAGTTCACGTGGTGCTCCCTGTCCTGTTTCAGTTTTTTGTTTCTTTTATGCTGTAGTCTATTTATTTTGTCATTAACTTATATTGTTTCTTTCTGTGGAATTGTGACAGTCGACAGAAATTTTGATATTTCAAAATATTTACTTTTTCTCAATGAGTGCTATAACATCGCAAAAAGACAAATTTGTTTTCTTTTATTTATATATTTAGTTACTTTATGTTATCTATCTATTGATTTAAACAAGCAGATTATGGGTATATTCTCTTTAGCCAGGATAGTAGGTTAAATTTTATGGAAGGACCATGCATAATAATTTGGCAAGAATTGCGTTTCATGTTATTCATTTGGTTGAGCTCTCCTCGTTCTTAAATGATTGCAGTGAATTTTCTGCCTATACCCTACGGTTTACACTATTCAATTATGTTGCATGGCGTAAAGTGGTGATTAAGGGAATTAGCAAAATCCTATTTATTTGTTATATATGATTTATTGGTTGAAACTTGGATTGAACTCGAGGAATACTAGGGCTCAGATGAAGGTTTGCCTTCCATATGTAAAAGGGATGAGATTCGGAACATGATAGCTGCTGGGAAGTGAACTTTCCGAATTATTTCAACAGTGAAGTTAAAAATATGATGGAGATTTTCGAGTGATTTTTTAATTTGTTTGACACTCTTGTGACTCGGGTGGCCAACTCCAATCATGACTTTCTAATCTGACCTGTAAATGACCTTTGTGCAGATACTTCTCGACATTATCAGCCATTGGCAGTTATAAAGAAAGTGATTGATTCTATGGCATATGCAAAGCTGGTATAGAATTCAATTTCACTAAGTTGTACGTTAAAATATGATATTAGTTTTCAGACTATACTAGCTCAAAACAGGGTTTTCTTAGCTGTTGGCTTTTTTCAGTTTTCAACTATTCTTACCCAGTAGACCACATAGAATTTGGGTTTTTGGTTAAAAAATAAGAGAAGATTTTAAAGTTATCAATAGAAATGTCGAAACTGCTACTATACTACAGATACTTAGTTACCTTGACCGAAATTATGTGTTGAAGTGGTTGGTCATTTTAAAAATCAAATCTTTCATTCTCTTTTCATCACTATTTTTGTTCTGTTCACCCTCTTTTTTGCCTCTTCCATCCATAATTAATTCTCTGATGTTCCAAAAGAGCAAGGTATGTGTGTTGGTGCTTCCAGCGAGCTTGATAATTTAGCTGTAACTCGTGCAAGGAGAGGAGTAAAAGGGAAATTCAGTTAGATTTTGACCACATAATTGATCTAAACAATCTGGATTTGCTGCAGTTACCATCGTTGCTAAGAACTATCAACTTTAACCTTTTTTATGTAGAATGTGTTGCACTGGCACATTGTCGATACACAATCTTTCCCATTGGAGATGCCTTCATTCCCAAACCTCTGGTTTGGTGCTTATTCTAAACAAGAACGGTATACAATTGCGGATGCTACAGAAATTGTGAGGTGAGCATCCTTTTTCCTTGGATGTACTAAGAGATAGGTTCCATTTTAACTTTTTTGTTCTAAATTTTGTAGATATGCACAACGCCGTGGAGTCAGTGTGTTAGCTGAAGTTGATGTTCCTGGACATGCTTTATCATGGTAACTGTTGACCATTTGTTCTATTTGATTCACTATGTTAACTTGTTTGAGGACCTGATTGTTTCACTTTTCAGGGGAGTTGGCTATCCTGCTCTGTGGCCATCAAAGGACTGTCAGCAGCCACTTGATGTCAGTAATGAGTTCACCTTTCAAGTAATAGATGGAATACTATCAGGTAATATCACATCTTCCATAAAAATTTTATAAAATGCTTAAAAAGGGAAAAGATTTACATTCAATTTCTTAGCGGAATTAAAATAGGGGCTTCCGTAAAATGAGTGTGGAGAAAGTTCGACAAATAAATAATTTTTCTCAACTTTGATGTTTTTCTATAAATTGAGTTTTAAAGAGAAATATATAAACTATTAAAATGAAACTTTCAGTCTATTATACACCTATTTTCTTTATTTCAGAAAATAAATGCATTAACGAACATTCTCTAGTTTGCTGGAAAGGATAGAATATTTAATGGTCTCTGTTTATAATAGTCAGCTGGAAGATCTTTTATACCTGGACTCATGAAATGTGAGGACATGTTGCAATACTACTATCATCTTGGTTCTTCAATTATTTGGAAATCCTGCAGTTTTGAACCAAGCATTTAGTTAAAGATCTTCCTTTTAGGAGATATAGGTATCAAGTATCATATTCCGGTTCTTGTTTTTCAGATTTCAGCAAGATCTTTAAGTATAGATTTGTTCACTTGGGAGGCGATGAAGTCAATACAAGTAAGTTCAATAATTGTATGATACTTTGGTTGTCGTGAAAAGCCTGCAAAATATTATTTAATTAATTTCATGTAATATTTCAGCTTTGAAATTTAATTAAATCATTATCAAGTGCTTCAGAATCTTTTTATTTTTGTTTTTATCTTTTATGAGAAACATTTTTTCCTTTTATTGATATGGTAAATTACACAAAACATGTGAAAATAACCCAATCTGAGGGAAGCTACAAAAAAGACTTCAAATTGGTCAATAAAGAAGTTAAATTGTAGTTAAGAAAGTAAAATGAACTTTTACACCATTGGTGAGGCAAAAGGATAATTGTTCATAATCTATCGTTATCATATGATTTTCCTTTATCTTTAAAGATGTGCTTGTTTCTTTTGATTCATTACTCTTCTGCATCAATCTTCATAAACATTGATCACCTAGATAATTACATGACCCTCTCAATTTTACTTTCAGCTTGCTGGACAGTGACTCCTCATATAAAAAACTGGTAATAATTTTAGACTTCAATGACTCCTGTCTTTTAAGTAAAGTAAACTATACTTAGGAGATAACTTTTTGTCTATCTTATATGTATAAAGTTATGCCATTCTTCTGATTAAATGATATCAGTTCCCGATTTTATCATTATTCTTTTAATATTAATGTGATGCTTCAAGCTTGGAAACATGGTACAGTTCAATATGTAAAAAGAAAGTTCAGAAATTTCTTGAGGGTAGGAAGAGGAATTCTGATGCGATTTAGGATAGGGTGTTTCTAGTTGGGAAGTGGTTACTTCTGTCTTCACTATTTTCTATAATGGCTAACTTTTCTGAATTTGTTGACCATTTATATTCTAAATCATTCTGTATACTATATGTAAGCATATGTGTTGTCTGGAAACAATCTGCATCTACCCGACTGCAGTGTTGAGATAAACATGTGTTGTCTTTTGAATGAACAGGTTAAGAAAAAAGGGTATGAAAGAATCCGATGCTTACAAGTATTTTGTCCTGCGAGCACAAAAGATAGCTTTGTCACATGGATATGAACTTGTAAACTGGTATGTGCTTCTGCTTTAGTTTAACCATCAACAGCTTTCTATCTTATCTCACTGAGGAAGATTTTCAGGGAAGAGACCTTTAATGATTTTGGCAGCGAATTGAGTCGAAAGACTGTTGTGCATAACTGGTATGTCATACCCACTCCCAACTATAAACTTTCACAAAGTGAACCATATAGTTTTTTAGGAATTATGTCATTTGTTTTTCCTTTTTAAAACAATTTTGTAGATTACTCAGGATTCATTATTGGGAAAAATATCATTTAGGTTTAGCTATTTATGTTTCAGCCTTTTCAACTTATCCCGTAATAGGATGTCAAATCCAAATCCAACGTTTAAAAGTAGTTTCTTGAACTACTACTGATATTATTTTGCTTTGTCTTGCGGACGACTATCATTCCATGATTTTGTTTATAATGAAGGCATCAACTTTTTTTAAGCTTAAAAATACATAACTGTGCAATGTGCATAACATCTATGAATGATAATTACCTTATCTTGGCTACTTTGGTTAGTGACGATCGAGAGATTAACTGTATTGGAGAGGGTTAAGTGCCATGTCAGGTAACTGAGTAAATGTCTTCAATTTATTTAAGCTTCTCAAAGAATGAAGGGGATTACTTTATCCGGTTCTGCTCTATCTCTACCAGAGTTGGTTTCTTCATTTGTCTTTTAACCAAGATATGATACTTTTCATTAAGAGAATGATACAACTCCAAAAGAAACAAGAAAAATAAGAAAAGCAACCCAAATATTCGGAGAGCTGGTAAAAGAACATTATTGATAAAATTAATTCAACAATAAAAGCATTTCAGCTTAATGGAGAGCCCATCCAACTTCTTTGTGAGAGAACACCATGAAGAATATTTTAAACGAGCTATCAAAACTGATGTTATCTGGAGTGATAAACATTCTGAGAATTATGCTGATTTCTTTACCATTGAGTTAGATTCTTCCCAATGCATATTATACCGTTGAAATGTCTTGAATTCGTTATGTGATTTCGACCCTAGGGTTTATAGAAGTGCAATATATGTAAAACCTAGAGCGTCGTTTTGTATTATAAAATATTCTCTCTTTGCCCTGTGGACGTAGCTAACACACTATTAGTGAACCACGCATATGTATGTCGATCTTTACACGTTTTTTTGTATTGTTTAATTGTTGATTTTTTAACATAAACAAATATACAAACCTTTAGGAAAATAGAATTTTAAAAAAGGTTATTTGTTTGAGGTGGATCCAATTAAGGCATCCCTATTAACCTTACTAGATTGCTATTTTGTATCATTTTAATTTTGAAGGCTAGGAACTGGTGTTGCTCAAAAGGTTGTTGCAGCTGGGTTAAGATGCATTGTTAGCAACCAAGATAGTTGGTACTTGGATCACATAGACATAAGTTGGGAGAAGTTCTATGCAAATGAGCCGCTTCAAAATATCAAAAATCCTCGGCAACAAAAATTAGTCATAGGTGGAGAGGTATGCATGTGGGGTGAAGTTGTTGATGCGTCAAATATTGAGCAAACTATTTGGCCTCGTGCTGCAGCCGCTGCCGGTACGTTATTGTTCTTGTGCTATTACTTTTGCATTATGGTGTCAATTTTGTAATATTTACGTTATCCAAATTATAAAAGTACATGGCGCATGATATTTCCCATTTCCCCAAACCCTATACATAACTTTGCTTATGGTACAAAATTGTGAGATATAAAGGCTCAGGCAATGGAATATTTTATAATTTAATGCATATAAAATAGATGTACTTCACATTCCCAAAGGCCAAATTATAAATATGGAAGAAAATCACAAGTCCTCTATTGCTCTGAGCACATTCATTAGTTTGTGTAGCATGTCCATGTCCAACACTTAAAAATATGTATTATGCATTCATAGAATACTTGCTAAGTAGATTGAAAAGACACATATACGACGATCATAATAAATTTGACTGTGAAATACATCAAACTAATTTGCTAAGCATATAAATGCATCAGCCATTTACTTTGAATTTCCTTCTAGTATAAAAATGATATATATTTTTGAAAATGTATATTTTAATAAACACACCCTTGCATTTCCATGTCTCATATTCGTATCACTCCTTCCTAGGTTCTATCTTCTCTGATTTAGCTCATTATTTTCTCCACTTTAATTGACTGCTAAGTGCTAACACAAGTTCCTTTGGTGATCATGTACTGAAAGAGCGCCTTTGGACTCAATATGACAATCTGGCTAAAGACCCTCGTCAAGTTTTTGCAAGGTTAGCACATTTCAGGTGTTTACTGAATCAGAGAGGGATCGATGCTGCTCCGGTATCTGGACTTGGCAGATCTGATCCTTGGGGTCCTGGCTCTTGCTTTGTGCAGTGATAATCCAAGTTAGTCTCCCTTTCATAGTCTATTTGATTAAGATACTTCTATTCACTATGAATTTAGGAAGCGGTTCATGGTTGGTATAGGAGATATGTGATATATAATTATGGAATGTAGGTGTGTAGGCACTTGTTTCTTATCTCTGTTTCATTCTTTTGAATAAATTGGAGCAGTTTGCAAAGATTATTATCATATTTATGTTCATAATTTGTTAGGACTTCTTGTCCTACTTTAACGAATCTTTTTACATTGTAAGCTTTCTTGTTTGAAATTTCTTATCCATAAAAAAATTAAAAGCGAAAGGAAGTGAATATTTGATGAAGCCAAATAGCCTTGCAGCATGGGGAAACTGAATAGGGAGATAAACCCTTTTGTTCTTCTTCATTTTGACGATAGCATGTCACAAGAACTTTTTGGTTGAATAGAAATGCCAACCTACATTTCATTTCAAACCTTATCGGAAGTTTAGGAATTGCAAATAAAGTTCAACATTAGTTAACAAAGGGAGAGATTGTGTTCAAAGTGAAGGGGAACATGTAAATAAAAGAGTAATGACTTCATAGAATCAAGATCATAAGTAGAACTTTTTAAAATTCAAAAACTAAATAGACACAAGCATCAACTTTCATGGCTTTAATTTATAATCAATCAACTTATATCATCAACTCTAGGAATGGTATCACTTTAAACCATAAACTAGTAATTGTACTAATTTACTCTCCAAACTAATAATTGTTTCTATATAAATTCTTAATTATTATAGGGATAGTTGTAAATTTAGCCCTTAGATGCAAAATAATTAAGTATATAATAACCTTTTAAAAAAATTGCAAATATAGCAAAATTTGTCAAATTATATCAATGATACAAGTTTATCAGCGATAGATCATGTTGTAAATATTGATTTATCATTGATAGATCATACAAATCTATCAGCGATACAAGTCTATCAACGATAGTTTTGCTATATTTACAATTTTTTTAAAATGTTGTTATATCCTTAATTATTATTCCTAAAATGATCATCAATTATAATTACTAAGTGTCTCAGTTTAAAGTTCAACTAATAATTGTTTCTATTTAAACTCTTAATTATTACAAGTGTCAATTTAAACTATGAACTTTCTTAGGTTCAATGTGTTTGATTTGAATACATTCGTGAAAGTTCAAAGTTTAAATGGATACAATTATTAGTTTGGAGTTTAGATTAATAAAATTCAAAAGTTTAATGTTTAAATCGGTACAATTATTATTGTGTAATTATATTGAGCGGCAATTTTATGAATAATAATTAAATACATGACAACATTTTTAAAAAATTATAAATATAACAAAGTCTTTCGGTTATGAACTTCTATTGTAATAAACTTTTATGGTTTAATATTTGCAACATAGTCATTTATACATTCGTTATTTTGAATCTAATTATTATATTTACAATTATACCTTCGTTATTTTGAATCTAATTATTATATTTACAACTATAGTCAATCACTTTTTCAATCAGAGATGCATTCTTATATAGTAGAATTTCTTCTCATGAAAAATTAAAACACTAATGTAATATTCACCCAAAAGCTTTGGCAGTGAAGTTAGAATTAGAAGAATGAGGGATTTTTCTTCTTTTTTTTTTAATTTGAGAACACTCCAAGTGGATGGCCTCTTACTAAAATGGTTAAATTTAATGAATAAAAAGTTCATAACGACCAAAATATTTTGTAGATGAGGAATATTTATATACTTTATGTTATAACGAATTGTTTTTCCATGGGAGTTGTTAATACTTTGAATCATTAATTTGTAGTGTGGTAAATTTCTAAAATGAACATATATATATGTATATAAAAGAACTCAAGTTTCATTTAGTAGCTAGAAGGAAAGAAAATTAGGCCCCCGGAAGAAAAAACAAAAGAAAGATTGAGAGAAAAGGGATGATTGAATTGGCCTAGTTTTCACCAGCAACAACTCATCATCAGGGCTTCCATGGAGGTGGAGGCGGTGGCGTCTTGGGACCGAGTGGCGGGATCCCAGAAAAGATAGTGTTCTTGTCAATGCCAAAGCCAGCAGTAGTAGTGAGGGAAACAAGAGCAGCAACAAGGCCAGCATTACCAGCCAGAGTTGGCTCAGTGTAGTTTGGATTAGTACGTACGTCACGAAACTTGTCGAATTGATCCGGACCACCAACCATGGCACCGGTGATGTTGTGGGGGTTGGGACCGGGGTTGTCTCGCCACTTGAATCCACCCTCGCACGAGTAGTATTTGTTGTCGCTAGGAATGGATGCACCTCGGTGATGCACTCGTCTCGGGAACTTGGTGCCATAGCCAACAACATAGCTCATGTTCAAAGGGTTATTGCCAAGAATGTAATCAATCTGTAGGTCGAATTCAAGCAGAGAGAAGTACTTAAATTAGAATGATAATGATGAGATAATGATGAGATAATGTGAGTGAGGAAAGATATAGAAAGGGGGGAAAAAAGAAAGAGTAATTAAGTAGAGAGTAGGGACCTGGGAGGTGGCAAAGTTGCGAATAAAAGTGGAAGGAATATAATTAGGGCCACAGTTGAAGCCAGGGACGCCAGTGGAGTTCAAATAATCAGCAAACAAATTTGCCAAAAATGCAGCATTTGCTATATATTGGAGATTCTGTCCTTGTTGCTGTCCTTTGTTCATAATCATCATTCCTCCTGAAAAGTTTAAATAACCAAAAAGAAGTCAAAGCTGGAAAATATTAGAACATAAATGAAGTAAAAGTAAAAGTAAAAGTAGAAACAAGAAAACGAAAGAAGAGAGTTAGAGGGGAAGGGTACCTTGAGTCCAATTGTAGACACGAAATTGCTTGAGATAAGAACACATATTAAGCCCCGTAACCGTTTGGTACATACTCAACATCTCCTCATACGGATACCCTGGATTCAGCATCATCCTCACTCTCGTCAACAACACCATCGCCGCCGGCAGTTTGTTATTCCAGCTCGGAACACTCGAAACCGCCGTCACATTAAAAGCTCTTGCGTTCTTCGGTATTCCCGGCAACGTCGCCAGATACAAGTACGATGCGTTTCCCGTCGCGTAGTACAACCACGCCGCTCCCCACATGTACTCGTCGTAGTAGCCTGAGGAGTTGTAGGCGGCGGCGATGAACGCATTGTCGCGGCTGTAGCGGGACCGGCGACCGGAATCGCGAGCAAAGGTGAAGAGGGTCTCGGCGCCTTTGATTAGTTTGGCGGAGTAGAGAGGGTCGTCGCGGAAGACGATGGAGGCGGCGGAGAGAGCGGCGGACATCTCACCGGCGAGATCAGGGCCTTGGAATGTGGTTTGTGTAGGTCGATTGTAGTCCATTTGCTCCGGCTTCTGCCAGCAGGTGGAATCGTCGGGGATTTGGGATCCATTTTGCGATCCTCCCACCTAATTGTTACGTCTTTCTTTCTTATTTGTTCATAGTTATATAAAATCATCCTAAATTAAATATTTTTACCATTTCAATCAAGATTTTTTCATTTTAGTGCTCATCTACATATACACTTTTTATTTAGAGGTCAAAATTCATAAGTTTATATATTCCCTCTCCCATTAAATATTTTGGATTGGACAACATAGGGAATAAAGCTTATAACTTTGCTCCAACGAATTTCTTTCTTATGTTTTTGCTCATTTTTACATGCAGTAGGGTGAGACAGAAATAGGAAAAAGGTTTACCTGAGAGTAAATTTGAGTAATTTTGGTGGAGGAAGAGTTGAAAGTCAGGAGCAAATAATCAGTACCCCATTTGATGAGGTCTCTGAGGTGGTCATATTCATTAATAGACTTGAACTTGTGACTGTACTCAATCAAGCTCCAGCTCAACATAGTCATTGAATATGCCATTGGAAAATTGTATTTACTGTTCTCACCAGAATCATAGTATCCCCCAACAAGCCCTCCTTTTGCCAATGTCTCGTTCCCATCGTTTAGCCCTGAGTTCCCTCTCCATGTTATGTTGTTGCTCTTTCCAAGCCTCCCAG ATGGCACCTCACTCTCACTCCTCTGCCATTTTGCTTCTGCTGCTTTTTTTTTACTTTTCAGTCTCTTTCGCCGCTCCTCCCAGCAATGAGATTGCCGGTGGTGTGCGGATATGGCCGTTACCGGTCTCCGTTACTCACGGTGGCCACCATCGGTTATATGTTGCCAAGGACTTTCATCTCATTACTCAGGGCTCTAACTTCAGTGATGCTTCCCGGATACTTGAGGACGGATTCTCTAGGTTGCTTGATTTGGTTCGTGTTGCTCATGTTGTTGATGCAAATCTCTCTCGCTTTGCTTCTTCTTCTCTGCTTCATGGAATCCACATTGTTGTCTCCTCGCCTTCCGATGAGTTACAATATGGTGTAGACGAATCGTACAGATTATCAATCCCTGGACCTGCGCCTGGAAAACCTGCCTATGCATATCTCCAGGCTCGTACAGTTTATGGGGCTTTGCATGGTCTTCAGACCTTCAGCCAATTATGCTCTTTCAATTTTGAATCAAGGGTAATTGAAGTTCGCATGGTACCATGGAATATTATTGATCAGCCAAGGTTCTCCTATCGAGGGCTCTTAATTGATACTTCTCGACATTATCAGCCATTGGCAGTTATAAAGAAAGTGATTGATTCTATGGCATATGCAAAGCTGAATGTGTTGCACTGGCACATTGTCGATACACAATCTTTCCCATTGGAGATGCCTTCATTCCCAAACCTCTGGTTTGGTGCTTATTCTAAACAAGAACGGTATACAATTGCGGATGCTACAGAAATTGTGAGATATGCACAACGCCGTGGAGTCAGTGTGTTAGCTGAAGTTGATGTTCCTGGACATGCTTTATCATGGGGAGTTGGCTATCCTGCTCTGTGGCCATCAAAGGACTGTCAGCAGCCACTTGATGTCAGTAATGAGTTCACCTTTCAAGTAATAGATGGAATACTATCAGATTTCAGCAAGATCTTTAAGTATAGATTTGTTCACTTGGGAGGCGATGAAGTCAATACAACTTGCTGGACAGTGACTCCTCATATAAAAAACTGGTTAAGAAAAAAGGGTATGAAAGAATCCGATGCTTACAAGTATTTTGTCCTGCGAGCACAAAAGATAGCTTTGTCACATGGATATGAACTTGTAAACTGGTATGTGCTTCTGCTTTAG MAPHSHSSAILLLLLFFYFSVSFAAPPSNEIAGGVRIWPLPVSVTHGGHHRLYVAKDFHLITQGSNFSDASRILEDGFSRLLDLVRVAHVVDANLSRFASSSLLHGIHIVVSSPSDELQYGVDESYRLSIPGPAPGKPAYAYLQARTVYGALHGLQTFSQLCSFNFESRVIEVRMVPWNIIDQPRFSYRGLLIDTSRHYQPLAVIKKVIDSMAYAKLNVLHWHIVDTQSFPLEMPSFPNLWFGAYSKQERYTIADATEIVRYAQRRGVSVLAEVDVPGHALSWGVGYPALWPSKDCQQPLDVSNEFTFQVIDGILSDFSKIFKYRFVHLGGDEVNTTCWTVTPHIKNWLRKKGMKESDAYKYFVLRAQKIALSHGYELVNWYVLLL Homology
BLAST of Cucsat.G8740.T1 vs. ExPASy Swiss-Prot
Match: Q8L7S6 (Beta-hexosaminidase 3 OS=Arabidopsis thaliana OX=3702 GN=HEXO3 PE=1 SV=1) HSP 1 Score: 535.4 bits (1378), Expect = 5.3e-151 Identity = 244/349 (69.91%), Postives = 295/349 (84.53%), Query Frame = 0
BLAST of Cucsat.G8740.T1 vs. ExPASy Swiss-Prot
Match: A7WM73 (Beta-hexosaminidase 1 OS=Arabidopsis thaliana OX=3702 GN=HEXO1 PE=1 SV=1) HSP 1 Score: 379.8 bits (974), Expect = 3.7e-104 Identity = 191/381 (50.13%), Postives = 253/381 (66.40%), Query Frame = 0
BLAST of Cucsat.G8740.T1 vs. ExPASy Swiss-Prot
Match: Q54K56 (Beta-hexosaminidase subunit B2 OS=Dictyostelium discoideum OX=44689 GN=hexb2 PE=3 SV=1) HSP 1 Score: 239.2 bits (609), Expect = 7.8e-62 Identity = 123/365 (33.70%), Postives = 206/365 (56.44%), Query Frame = 0
BLAST of Cucsat.G8740.T1 vs. ExPASy Swiss-Prot
Match: Q54K55 (Beta-hexosaminidase subunit B1 OS=Dictyostelium discoideum OX=44689 GN=hexb1 PE=3 SV=1) HSP 1 Score: 228.4 bits (581), Expect = 1.4e-58 Identity = 138/385 (35.84%), Postives = 205/385 (53.25%), Query Frame = 0
BLAST of Cucsat.G8740.T1 vs. ExPASy Swiss-Prot
Match: P13723 (Beta-hexosaminidase subunit A1 OS=Dictyostelium discoideum OX=44689 GN=hexa1 PE=1 SV=1) HSP 1 Score: 213.8 bits (543), Expect = 3.5e-54 Identity = 101/263 (38.40%), Postives = 155/263 (58.94%), Query Frame = 0
BLAST of Cucsat.G8740.T1 vs. NCBI nr
Match: XP_004152838.1 (beta-hexosaminidase 3 [Cucumis sativus] >KGN61237.1 hypothetical protein Csa_005927 [Cucumis sativus]) HSP 1 Score: 784 bits (2025), Expect = 7.43e-284 Identity = 380/381 (99.74%), Postives = 381/381 (100.00%), Query Frame = 0
BLAST of Cucsat.G8740.T1 vs. NCBI nr
Match: XP_008441912.1 (PREDICTED: beta-hexosaminidase 3 [Cucumis melo] >KAA0047684.1 beta-hexosaminidase 3 [Cucumis melo var. makuwa] >TYK08340.1 beta-hexosaminidase 3 [Cucumis melo var. makuwa]) HSP 1 Score: 756 bits (1953), Expect = 6.83e-273 Identity = 366/381 (96.06%), Postives = 374/381 (98.16%), Query Frame = 0
BLAST of Cucsat.G8740.T1 vs. NCBI nr
Match: XP_038890397.1 (beta-hexosaminidase 3 [Benincasa hispida]) HSP 1 Score: 717 bits (1852), Expect = 1.50e-257 Identity = 350/376 (93.09%), Postives = 359/376 (95.48%), Query Frame = 0
BLAST of Cucsat.G8740.T1 vs. NCBI nr
Match: KAG7029880.1 (Beta-hexosaminidase 3 [Cucurbita argyrosperma subsp. argyrosperma]) HSP 1 Score: 703 bits (1815), Expect = 6.43e-252 Identity = 341/376 (90.69%), Postives = 354/376 (94.15%), Query Frame = 0
BLAST of Cucsat.G8740.T1 vs. NCBI nr
Match: KAG6598926.1 (Beta-hexosaminidase 3, partial [Cucurbita argyrosperma subsp. sororia]) HSP 1 Score: 703 bits (1815), Expect = 1.77e-251 Identity = 341/376 (90.69%), Postives = 354/376 (94.15%), Query Frame = 0
BLAST of Cucsat.G8740.T1 vs. ExPASy TrEMBL
Match: A0A0A0LKG3 (Beta-hexosaminidase OS=Cucumis sativus OX=3659 GN=Csa_2G073000 PE=3 SV=1) HSP 1 Score: 784 bits (2025), Expect = 3.60e-284 Identity = 380/381 (99.74%), Postives = 381/381 (100.00%), Query Frame = 0
BLAST of Cucsat.G8740.T1 vs. ExPASy TrEMBL
Match: A0A5A7TXH7 (Beta-hexosaminidase OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold648G001400 PE=3 SV=1) HSP 1 Score: 756 bits (1953), Expect = 3.30e-273 Identity = 366/381 (96.06%), Postives = 374/381 (98.16%), Query Frame = 0
BLAST of Cucsat.G8740.T1 vs. ExPASy TrEMBL
Match: A0A1S3B4H3 (Beta-hexosaminidase OS=Cucumis melo OX=3656 GN=LOC103485909 PE=3 SV=1) HSP 1 Score: 756 bits (1953), Expect = 3.30e-273 Identity = 366/381 (96.06%), Postives = 374/381 (98.16%), Query Frame = 0
BLAST of Cucsat.G8740.T1 vs. ExPASy TrEMBL
Match: A0A6J1ESM1 (Beta-hexosaminidase OS=Cucurbita moschata OX=3662 GN=LOC111436138 PE=3 SV=1) HSP 1 Score: 703 bits (1815), Expect = 3.21e-251 Identity = 341/376 (90.69%), Postives = 354/376 (94.15%), Query Frame = 0
BLAST of Cucsat.G8740.T1 vs. ExPASy TrEMBL
Match: A0A6J1K594 (Beta-hexosaminidase OS=Cucurbita maxima OX=3661 GN=LOC111492411 PE=3 SV=1) HSP 1 Score: 701 bits (1808), Expect = 4.00e-250 Identity = 339/376 (90.16%), Postives = 353/376 (93.88%), 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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