Cucsat.G8183.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.TAAATGCATTATTATAACCTAAATAACAAATGCATGTTAATGTCTATCTAGATGGAATCTGCCGTTTACGTTAATTTCCCAAAAGAAATTGAAGAGAAAAGAAAAACCTCGGCAGCCCAGCAGCCCTAATCTATTCACCGTGTTCCACGCCACCTCCTTCTTCACACCATCTCCTCCTCTGTTTTAGCAGCTCAGAGTCACCGGTATCTCCCTACCGTTCACTGTTGCCGCCGCAGCCTCCCTCATAGCGGTTTTACATTGATTTCATATTCTCGCGTTGTTACCGGTATTCTCTCAGTCTCCATCTTTGTCTTTCTTCTCAATCGAAAAAATAAATTAGGACTTGCTCAATGAAAGATTGGAGTAGTCGTTTGATTTTCTAATTTTATTCTTTGTTCAATAAAATAGCCGAATATCATTCTTATTTTTGTGGTAAGTAGGGTCGTGGTTTGTGTTTGGCTGTTTCAATTCGAACGTGGTTGTACCGCCATTTTGATTTGTTGCATATGTCTGTTCCCCCCCATTTGAAGCCCGTCACTTCGTCGCACTCATCGAAACTCAATTGAATAGCGGTAGAAGCAAAGAACTGCGCCTCCCCCCGCTCGTTACTGAGCTTACACTATTCCTCGATTTTGTTTCTCTTGCTCGGTTCTCAACAGTTGGATGTATTAATCTGTCATTTCTTCTTTTTGATTCACCCATTGCCTTTCCAGGTTCACTTCGTTATTTTTGAGATTTAGTAATGGACTTCGAATAGTCGTCTGCCCATGCTTGCCTTGTATTTAATTTTTTTTTATAAAAAAATTGTATCATTTGATGTGTTTTATGCCTATACAGGTGTCAAGGATGCTATAGATTTAATTTTAGATAATGAAACAACAAAATTTTATAGAAAAGTGTCGTGATTGCCTCATTAGACACTCATGTTGGTGAATCAAAGGGAAAACTCCCGGTTAAAGTAGGACTTCTGGGATGGTTTAGATCCCAACTTTATTGAATTCCCACTTCCCATATCTTTCTTCTTAAATACGGGTTTGGCAGATAGAAGTTTTGTCATCTTACTTTCACGTTTGAGAATATATTCTTGAAGTAGAAATGTCCGTATCACCAGTATTTATTCGCATTTTCCCAATAGACCTATTCTACTGTTAACCAAATTTTTGCTCATATTTTCTTACTTATCATTGGTGGATACGATCAAGTACTGGTAGTTCTCGTTATTTTAATGCTTTGTGTATGCACTAAAGATCTTTTTGTGTCGTGCAGCTTTTGAATCATCATGTCTTGGTGCACAATTGAATCTGATCCTGGTATACATTTGTTTGGTCTTTGGTTTTCCTTATTTATTTAATTATTACATTCATGCTTTTCCAATTTCTCTATTTTAACGTTACCTCTTGATTAGATATTAGCAAAAAAAATTGATAACTTGCTCTATAGCATTCTTGTAAAAGTATAACGTCTAATTTATTTTTGTAGCAGTAAAGTAGTCTTAGAAATGGTTTGTATTGCAATTATGATTTTCAATTGACTTAAGGAAATTTTTGGATCATGTTGTTCCCTTTCCAGGTGTCTTTACGGAGCTTATTCAACAGATGCAAGTTAAAGGTGTTCAAGTAGGTTTTATTTGGATGCCAATGTTGTTTTTCTTTTTATATGCCATTGATGTCGTCTTTTGCTCATATCTCTAATTATGCATGCTATTGTAATATGAAGATACATATGTCAAATTCCCCAGAATTAGATTGAAGAGAAGTTGGCCCTATTGAAACGTACTTCAAATACTTTTGATTGATTTATTTGATTTCCTTGTGATTGGAATTTTTGGTTTCACAAAAATGAAAATTGATCAAAGTGGATGTGATAATTGGATATTTCGGATGGAATCCAAATACCATATTCAATCGAAGAGTGACATAAGGCATACATTGGATGGAATCCAAAGCCACTTAAGAACACTTATGAATTTGCATGATTTATGCGGTTTTGTGGCAGATTTGGGGTGAATCAAATGCAAAAATCTTTTAGGATAGTAGCAAGACTTCAAAGGACATTATAGATTCTACCATCTTTAATACCTTTTTTTTGGTGTAAACTTTGAAGATATACTGGCTATAAAAAGCCATAGTTTTCTTTCCTTATTGCAAATGGAAAACGTCTTTTGTATTCCCAATGAATGGTCCCCTTTTGTTTTTTTTTCTTTTTGGCCTTTTTTGAGGAGATGTCGGGGTTAAGAATTAATGGGAGTGAGTGCTGTGTTCTGGGTATTAATAGTGAGGAAGAGAAGATCAAAAGATGGGCTGATTGGATCGGTTGTGGGGTTGGGAGTCTTCCCTCTTCCTATTTGGGCCTTGTGTCTCTTTTTAGGATACTGTGGTGGATAAAATTCACAGAAGGTTGGCTTCATGGAAGAAGAGTTTTTTTTCTAAATCTGCCTGTCACTTTGATTAAGTATATTTTGAGTGGTATTCCGATCTATTTCTTTTCCCACTTTAAACCTTAGGGGAAGTTTGTAAATGTTCGGAGAGGTTGATGTGCGACTTCCGTTGGGAAGGGGTGGGTGAAGGAACAAAGGCTCTCGTCATATAAGATGGGAGGCAATTGAGAAGCTAATATTGTTGGGGCGGGGGGGGGGGGGGGGGGGGGGGGGGGGTGGGGCTGTGTGAAATTTGAAACCTAAGGACTCGTAATAAAACCCTGTTAGCCAAATGGTTGTGGCACTTCTCTGTTGAGCCCAATTCTCTTTGGCGTAGTATTATTGTGAGTAAACATGGTCTCTATCCTTTTGAGTGGTTAGCTAAAAGGGTTAAAGGCACCTACCGGAATCTTTGGAAGGACATATCGAAAGAGCTTCCTGATTTTATTACTTGGGTTCATTGTGTGGTGGGGGACGGTAGAGAGACATATTTTTGGGAAGATCTTTGGGTGAGGAACAGACCCTTATGTGGGTTATTTTCTTGGTTTTATTAGTTATCTTCTTTGAAAAAGCATTTTGCGATGGATTTTCTATTTTTTGGTGTGGTATGGGAGCTCTTGTTCATTCTCCTTTGGGTTCTATCGGGTTTTTTCCAATTGGAAATGACAGATGTCGTGGCTCTTATTTCTCATCTTGAGAGTCATTCCTTTTGTCTTGGGACCCTTCTGTGTGTAAGTCTTTTTTCTAGTGTTTGGTTAACTCTTCCTCCTTGGGTGAGTCAGTTTTCTCTTCGGTGTGGCAGACTAAGGTCTCCAGAAAGGTGAGGTTTTTTACTTGTCAGGTTCTTCACGACCGCCTTAGCATGTTGGACAGGCTTTTGAGGAAGGTGTCGTTAGTTGAGCCTTTTTGCTAAATTCTTTGTCGGAAGGCGGAGGAAGACTTGGGCTATATTCTTGGGCATTGTGCGTTGGCAAACTTTGTTTGGGATGCCTTTTTCCAGACTTTCAGCATGATGTATGTTCATGCCTTCGTCATAGAGCTGTTAGAGATATGATTGATGAGTTTCTCATGAATTCGCTGTTTGGGAATTGAGGTTGTTTTCTCTAGTGCCTAGTGTTTGTGCCATCCTTTGGGTATTATGGGATGAAAGAAATCAGAGGGCTATCTCACATTCAACTACAGAGAGGAAGAGTTTGAAAGGTAATTTCTCTCCCCTCTCTCCTTTCCTCTACTCTTCCCTTGTTTAGCAAGCCGACGACGAAGCCTCTTCCCTGGAATTTTCTTCAACCGATTGTACCTTTTAGACTAAACAAAAAACATAATGGAAGTGGTCAGCTGTAGAGTTCTCCAGTGGCATTATTGTTTCTGGAAGAAGGAGATAGATTTCATCTCGAAGATGTGGAAGCTCACAGAATTTTGTTAGTTTCTGAAAATCAACTAGTATGGTTCTTCAAAGCAGTCTTTGAATTGTTAAGAGGTCCAACAGATAGATATTACCAAAAGTTTGAGGACTTGGATAGAGGAAGAATTAAGATGTCGAAGTTTAAGACAAAGATTGTTTGGGTTTAAGCTGCAGTCTTGGCCAAAATCAGGAGGTCACTCAATCTTAAAGGTGTGTTCAGAGGAATCAAACAGGGATGGAGGTCTTTTCACATGTTGAAAAATGTCATTTCTAAGGTGGAATATGTTAAATAGTTCTCGCACAAGCACTCCAAGGCTAACATTTTGCCACTAGCCAATATTTCTAGCTATGTAGACAAGGTCAAATCAAAAAACATCAAAGACTTTGTTAAAAAGAAAGGAAAGTTCGATGACAGAAAAACAGAGTCAATGGGTGATTAAAAATACTGAAGTTATTAGAGGAAAGTTTGAATATCTTTGGATTGTTACAAGACTCTTTGCATTCAATGACTGGACTGGAGAGAGATTCGGAAAATGCTGGAAATTTATATTCAAGCAAAAATTATCATCAACCCTCTGTTTGACGAGAATGCCCTCATAAGTCCAGACCAGGGCTTGATAGAGGATTTCACCGTTGAAACAGGGAGATGGGGTCTTTTCATGTCAAATTTGAGAAATAGGATGAATTCAAACATAGTCAGCCGCCTCTTGTTACAAAAGGTTTCGTAGGATGGTTAAGAATAAAAAACCTTTCCTTGGACTATTGGTGTAGAGAAATGTTTGAGTTATTGGTGATCACTTTGATGGTTTGGAGAACATCGCTATAGAAACATCAAACCTCACAAACTGCAATGAGTCATACAAAACAAAGGGTATGAAAGTTCGATTCATCTAAAAATAAACTGCAGTGACGGAAGGATTCAAGTTAAACAAAATTTATGCGGTTTTATGCCTTCTACCATCAAAATTACAGATTTTAATAGGGGCAACATCTTCTTGAATTTTGGTGATATTGAGAATATAGATCCCCCTAGTTCCACCAAAGGTTCTCTTATCATTAAAGACTTTAAAAATCCCATCGATCAATTGAGAGTTAGGGAGGTCTTGAAAGATGAAGAGGTCGATGTTTCCTTCTTCCCCCATGAACTAGACATCCTCAAATCCACCTTTGCAGCTCCCCCCTAGCAAGAAACCCTTTCAAAGCTCTGAATCATATTCACGATCCCTCACCAGCATTGGAGAAGACAACAGAGACGGACGTTCAGACCAAAAAAGTAATTAATGCTCCAGAATATGAAGAGCCACGTTTAAAGGGGATTGACGAATCAGTAGAAGACAGTTGAACGAATAATTTAGTGGCCCCATTTTGCTGCTAACAATATCATTTTTTAAAAGTTTGGTGTTACGAAGATTGGAAAAAAGGAAAGAAAACCAAATAGCACTTTTATTACAGAGAAACTTGCCGCCAGGTCACTGCTAGTTTTTTAGAAAACAAACAGCCTCCCTCCCAAAGGCACTCCAACAACTGGATCTCTGTGTCGTCCTCTGAAGCTGAGGCCCTCAATAAGTCGTGCCACTTTAAAGGCAGAAAAAAAGTTTGTTCCTCGAAGTTCTTCCTAAAACATTTTGCACGAAAAAAGACTTCTTTCAACAATGTCTGGACTGCTCTATTAAAATATGAATCTTTAGGAGTATGCTCTATTGGAGCTCTAAAGTTTGCTCCCCAAGGGAAACAACCACTCAAACCCTCACTCTCTTAAGAAAATCCGGATCTTTTGGAGGTTTGCAGTTCCAAAGCTCAAGCTTCTGTTTGTAATATCATGTCAGTAATTGCTCCCCTGCTCCTAACTTTTTCAATTACTCAAGCTTCACAGTTTCTAATACAAAGCTTTATTGAGAGGTTCTCCATGCCATCCTCCTTTAACCTCAAATTTGTTGTTAGTTGAATGAGAAGTTGGATGGGTATGAAGTTGAGAAAAGGCTTGATTTGTTCTAGGAGAAGTCGGGGAGAAGGGCAATTCTGGTTTCTAACAAGGGTACTCAAAGGGACCCTTTTAATGGGAGCTCATTTTAGTCTCTTATAGTTGTTAATACAAACCGTAAAGCTTGCTAGGTAAGTTCTTTTGCTTGCCTTTGGTGTTTTATCCTTAATTGTTGCTTCTTGCCGGGAGGGGAGGGATCTTTTTCCTTTTTTGAACCATGGCCTTGCTTTTGGCTATGGGTGTGTCGAGGAGGGGGAAGGGGCAGTTGGAAAGGAAGAGTCTTTTCTCATATTTGAGTTTTTTAAAACCTTTTTGTGGTTTTTGAGTATGCTTTGGCTTATTCTTTGGGAGAGAAGTGGCCTATGCTTGCTCCCACCGGCGGATTTAGTATAGGCCCGGGGGGGCTCGAGCCCCCCCTCAACTTTATTGTGTTTATAAAATATGTATAAACAAGACCAATTGTTGTTTAATATTTGTAGGTAGTTTAATGGTAACTATCATTGTCAGCCCCTTCCAATCAGAGTTCAAGTCCCCATTGTGTAAGTTTCTTTTTAGATTTTTATTTTTTCGCTAAGTTACAACTCGAAGCCCCATGTCAATCAATTTTCTGGATCTGCCACTGCTTGCTCCAGTGGTTAATTTTGTGGGTGATGGGATGGGGGGGGGGGGGGGGGGGGGGGAGTATGGTTTTATTTAAAGGGTTGATCGTTGGCAAACCTTATTTTTGATTTAGCTCTTTGGGTTTCCTATTTTCTCCTAGTAATGTGTTTATTAGGGGCGATGGTTCTCACGACAGCCTAGAGTCAATTGGTACTAAACACGTGGAAGCCAAGGAAGGTTTAAAAGGTTTAGTTTTAAAAGGAAATTCTCTTTCAAAAAGGAAAAAAAGGTGGGGAGGGTAGTAATTGAAGCTCAACAATCTTTCAAAAAAGGTGGGGAACTTGAAAAGCTAGATTGTTCAATCAAAATTATATGAGGAAGAAAGCTTCTAAAGAAGCTCAACAATCTTTAGCTCAATGTTGAAGACCATTTTCTGGAGTGTGAGGTTGTGGCATCAATATTGCAGAAAACAAGGTTGTTGAAGAGGCTACTAAACTAAACTGCAAAAAGTGGAGTGCTTCTTAAGAAACTTCCTATGGGAAGGACATTCTTTGGCAAATTGAATCACTTAGTTTGGAAGGTGGTATCACGTTTGCAAGAGGATGGGGGGCTCAGTGTTTGCACTCTAAAGTTAAAAAAAATTTAGCCCTTCTTTCCAAATAGGGATGTAGAATTTTTTAATGAAAAGAATTCCCTATGGGTTCAAGTAGTGAAGAGTATCTATGGAGAAAGTTTATTTGGATGGCATACTAAAGGAAATAGCACTCGTAGTCTTCGTAGTCCTTGGATTAGTATTTTGAGGTGTTGACTTCAAGTGGATTCCTTGGCATTGTTCAAACTCGGTGATGGTTCAAGAATAGCATTCTGGAATAATTCTTGGGGAGATGTTGTTTCTTTAAAAAGTTCTTCTCCAAGGCTATTTAGACTGTCTTTGCATCCTAATGGGGCTGTAAAGGACTTCTGGGACACTACTACTACTTCATAGGCTCTAAATTTAAGGAGACTTTTAGAAGATGAAGAGGTAGCTGACTTTCAAGCAACCATTGGTCTTATTTCTAAAAGGAGGATCTTGGCCAACCTAGATAGAAGAATTGGAAGTTAGAATCAAATGGGAAGTTTTTGGTTCGGTCATTAGTCAACCATCTCTCCACTACCTCCCCTATTGGAAAGCAATTATACTTGACAATTTGGTAGACAAAAAGCCCTCAAAGAGTGAATACCACATTCTAGATAATGCTGAATAGGTTATTGAATTGTGCAGCGGTTTTGCAAATGAAACTACCTTTTGATAGCTTATCTCCTCATGTTTGTCCATTATATTTGCAGGTTTCGACAGACCTAAAACATCTTTTCTTCTCATGCTCATATGCAGAGAACTGCTGACTTGACTTATTTGGCTGTTCTTATATTAGTTGGGTTTTTTATTATAAATTTAAGGAGAACGTGGTGCAGCTTATTTCCCGTCCCAATTTCAAAAAGTCGAGATTGATTTTGTAAAATGCAGTAAAGGCCAATTTCAAAGTGATGTTTCGCTTTAGACTTCGATTTCGAGAATTTTTTGTAATTATTCCTTATTCAATATCTTACGTAGTTGATACCCCTTTCTATAGTGAGACAATAGGTCTCCCAGTTCTCTTTAGATTCATGTTCAAGTCCCAACTTTTACACTTTTTTTTCAAATTATTTTTACTAAACTATAAAGGCCCCCATTGACAAAATTTCTGCACCCGTCACTGTCACCATGAAAAAAATTGTTTCCTTTTTAAGAAATCCAAGAGTGTGGTTGGTCTGGGAATAGCCATTTCCTTTGACTATTATGAACATTTCAAATTAGGTCTCCAATAATTACTTTAAGTTAAGACCATTATAGAGCCAACTTATCCTATAACGGCCTTAAGCAATCTCTCTCTTTTTCCTCCCTCCTTTCTTAGGTAAACTCATTGGTACTTTCTTAAATGCTCCTTCTAAGTCCTCGTTGAGGAAAATATTTTTAATATTCAATTGATAAAAGGGCTAAGCATGACTAAAAGCAAGGGATAGAACACTTTCAACGATAGTTAATTTACTATCAAGTGCAAAGGTTGATTCCATGAATCCTACTCAAGGGTCCTGGTAGTGATATTAGTATGGTATTAATAAGGTTATAAGGGCAATTAACTCAAAGTTAGTTAGGGTCTTTGGTTATAAATAGAGAGGGGGGATTAGGAAGGCAGACAATTGTTACTGATCTAGGATTCTTAGGCTTGGGTTATCATACGCAAGAGGTGAGGGTCCATGTGCTTTAATACTTGGTTTATCTCGTTGTTTTCATCCTTTATAGAATTAGAATGTACCGCAACATCCTAGATGTGAAACCTGCATTAAGTATAAGTGTTGCACGTTTTGAGGAAGGAAGTTAAAAATGTGCAAGGACTAGGCATTTTGAAGAAGTATGCGTTTTGGCTAGGGAACCCGAGGAAGGGTAGTATGCGTAATGAAGCTAGGTGACGTGCTAAGACAAGATAATAAGACAAGGGAAGGCAGCAACGGACACTTTACCAATCAGGAGGAGTTGTTTGAATGTTAAATCTGAGTGATTAGTTAGCTAAACACGTGTTAAGTTTAAATTAAGCATAGATTAAGAAGGATACTAAACTACCACATGTAAAGCACTAAGTAAGAGCTGACGAGCTAAGATGAGATCAAGGATGACTAACTCAGTTTAGAACTATTATAAATAGATCTTGTAAGTTCAAAAGAAGTTATAAGGAAGTTCAAGTGTTAAAGTTCTGCCAAGAGCATATTAGGCAAGAAGAGGAGAGCTTAAGTTAAGTTAGGTGTTAAGAAGGAATTGGGAGAAAGCACTCGACTTTGTGAGTGACCCTTCCAGAGAAAAGAAAAGAGATTTCTAAAGCTTTTCTTTCAAAGTCATGTTATGTTATGTACAGTGTAATGCACATTATAATCTTGTTTATGATTTATAAGAAAAGCATGATTGTTTGAGAGTATATCTACGAGTTAAGGTATGTGTTTTATGTTGTTTGAAAGAAATGCTTGTATGCAAGTAAACCATTAGCTTTATTCCTATCATAAGCTAGTTGTTATGTGCACTTAAGAGTCAAGGCAACCATGCGTTAAGTGGTCTGCGTGGCAAGAAGTTGGTTGGATGTGTTGAGAGGTCCACATTCGAATTGACCATCTGAGCAACTGGAATTGAATGAGGGTCTGCAAAGATGGTGGTGAAACGAGAACCATCATAGTAGTCTATGCGTTGAGGATGTTTAATGTCTAGGCAAAAGGAATAAGTAATGGCTAATGAGGCATTTCTTATTCTCAGCACGTGCTAAGGAGTTGAGGAGTTGACTTGTAAAATGATTTTATGCATGTGCGTGTATTCCCCATGAGGTTTTCTTAATGTCACTCATTAAGCACTAGGCTTACGTTTTAAGTTCCCTTGTGTACGAAAGGCGAGCAACTGCATTGTGCCAGGCGATAGAGTTGTGCAAGGCGTTCGAGTTTAAGTTTAGGAGTTTAGGTTGAGTTTTAGTTTATTTAAGTGTTGCTTTTAATTGTAACAAGATTGTTAAAGAAGGAATAAAGTTGTTCGGTTCTTCCAAGTCTAGAAGTGTTGCATTTTCATATTGCTGAGCAAGTTCTTATTAAGTAAAAGCTTAAGAGCACGCTCTCATCTAAGTAAGGTTCAAGTCTAGGTTCAAAGAGTGGGCGTTTTAGCATTGTGCTTAGAGGCGTCAGAGCTACCCAAGTCGCGTCCACATCTGGAACGCATCCTCTTGCATTCCTGGCGGGGGCGTGACATTGGTGATATTTGTTAATAAATAGTGCAAAGATTTATTCCATGAACCAACTGCTAACTATAAAGGCTGAAGGGGAAGTGGTCTACTATTTGAGTGACCCCTTGAGGTTGCTCACTTGATGTCTGGTGGCGTCTTGCAACTGTTCAACTCACCTGGCATCACTTTGAAAATGCTCCACTCCATCTATGTTATTTTCAGTATTGAACTTGGGCATAAAAAACTTATCCAAAAAATCTTGGACATAATAAGATTGAATGGTTTTTAGTTAAACCAAAAAACAAGTTTCTATTTGAAATATATGTACCAACATATATGTCGTGAACTCCAAGAAAAGAAAAAGAAAAGGTGAAGTATTTCATGGCCATCTCTCAGGAACACTATGCTCAAATTAGGCAACGATCACTTTGATTGTTCAGTAGTTCAATATATTTGGTGTGTGTATTTAGAAAGAGAAATATGTTTACTTTACATGTGCTTCTTTTCCATAATTCTTCTCTTTCCATTTGGGTTAGGGTGTTCTAATATTAAGTAGCTGCTTTGAAAACACTATTTTTTCAGGTTGAAGAGTTGTATTCGTTGGACCTCCACTCTCTTAACAATATGAGGTATGTATGGCGTTCGATTTTTGTGTCTTAACATATTGTTGATAAGATATGTATTTTAATCTTTTCCTTCTTCAGGCCTATATATGGTTTGATATTTCTATTCAAATGGCGTCCAGGGGACAAAGATGATCGTCTTGTTATTAAGGATCCTAACCCAAATCTATTTTTTGCGAGTCAGGTTGGCTTTATGATATTGAACATGGAAGATTTATCACTTATCAAGTGATAAATAGGAATGTATAACTTATTTGTTGACTTTTTCTAACATTCAGTTCCTTTGGCTTTCCTTGTGTCACAGGTAATTAACAATGCTTGTGCAACTCAAGCAATCTTGTCTATTCTGATGAATTGTCCCGATATTGATATTGGCCCGGAGTTATCCAAGTTGAAGGATTTCACTAAGAACTTCCCACCTGAACTCAAAGGTTTGGCTATTAATAATAGTGAAGCTATACGTACGGCCCACAATAGTTTTGCGAGGCCAGAACCCTTCGTTCCTGATGAGCAAAAAGCTTCTAGCAAGGATGATGATGTGTACCATTTTATAAGCTATATACCTATCGAAGGGGTACTTTATGAACTTGATGGGTTGAAGGATGGACCTATTAGCCATGGCCCTTGCCCAGGCAGCCACGGTGACCTTGAGTGGCTGAAGATGGTTCAACCCGTGATTCAAGAACGCATTGAAAGGTACTCAAAGAGTGAGATAAGATTCAACCTCATGGCCATAATTAAGAATCGAAAAGAGATGTATACTGTCGAGCTTAAGGAGCTCCAGAAGAAGAGAGAGCGCATTTTGCAGCAGTTGGCTGCCTTGCAATCAGAAACACTGTTGGAACATAGCAATAACGAGTTTTTGAACAAATCGTTGTCAGAAGTAAATGCTGGGATTGAGAGTGCTACAGAGAAAATCTTGATGGAAGAGGAAAAACTCAAGAAGTGGAGAACTGAAAATATCAGAAGGAAGCACAATTACATACCCTTTTTGTTCAACTTCCTAAAGATTCTTGCGGAAAAAAAACAGTTGAAACCCCTTATCGAGAAGGCTAAGCAGAAAACTGGTGGCCCTAGGTGAAGCTTGCTTTTGGGTTACTCTTGTATTATCTTTGATATGTAGCTTACCTTTTTGGTATTCTTACCCTACACAATAGATAATCTAATCGTTTTCAACTTCTCGTCTCTGGTGTCACTCTGCACAAGACTCTTTTTATTTGTTTGAATATACACTTAATGATCTTCATGCTTTAACTCTGGGTAGTAAAGAAATTAGACTACACTTGGATGTTCGTGTTTTTATTAAACTAGATATATATAAAGTACCCTCAACCCTCGAGTACTTGTTTTGATAATAATACTCCTGAACTTTCTTTGAAACGTTGCATTATTACTTGATCACAATCTGAGCTCTCAAGACTCCACCAGGGTAAGTT ATGTCTTGGTGCACAATTGAATCTGATCCTGGTGTCTTTACGGAGCTTATTCAACAGATGCAAGTTAAAGGTGTTCAAGTTGAAGAGTTGTATTCGTTGGACCTCCACTCTCTTAACAATATGAGGCCTATATATGGTTTGATATTTCTATTCAAATGGCGTCCAGGGGACAAAGATGATCGTCTTGTTATTAAGGATCCTAACCCAAATCTATTTTTTGCGAGTCAGGTAATTAACAATGCTTGTGCAACTCAAGCAATCTTGTCTATTCTGATGAATTGTCCCGATATTGATATTGGCCCGGAGTTATCCAAGTTGAAGGATTTCACTAAGAACTTCCCACCTGAACTCAAAGGTTTGGCTATTAATAATAGTGAAGCTATACGTACGGCCCACAATAGTTTTGCGAGGCCAGAACCCTTCGTTCCTGATGAGCAAAAAGCTTCTAGCAAGGATGATGATGTGTACCATTTTATAAGCTATATACCTATCGAAGGGGTACTTTATGAACTTGATGGGTTGAAGGATGGACCTATTAGCCATGGCCCTTGCCCAGGCAGCCACGGTGACCTTGAGTGGCTGAAGATGGTTCAACCCGTGATTCAAGAACGCATTGAAAGGTACTCAAAGAGTGAGATAAGATTCAACCTCATGGCCATAATTAAGAATCGAAAAGAGATGTATACTGTCGAGCTTAAGGAGCTCCAGAAGAAGAGAGAGCGCATTTTGCAGCAGTTGGCTGCCTTGCAATCAGAAACACTGTTGGAACATAGCAATAACGAGTTTTTGAACAAATCGTTGTCAGAAGTAAATGCTGGGATTGAGAGTGCTACAGAGAAAATCTTGATGGAAGAGGAAAAACTCAAGAAGTGGAGAACTGAAAATATCAGAAGGAAGCACAATTACATACCCTTTTTGTTCAACTTCCTAAAGATTCTTGCGGAAAAAAAACAGTTGAAACCCCTTATCGAGAAGGCTAAGCAGAAAACTGGTGGCCCTAGGTGA MSWCTIESDPGVFTELIQQMQVKGVQVEELYSLDLHSLNNMRPIYGLIFLFKWRPGDKDDRLVIKDPNPNLFFASQVINNACATQAILSILMNCPDIDIGPELSKLKDFTKNFPPELKGLAINNSEAIRTAHNSFARPEPFVPDEQKASSKDDDVYHFISYIPIEGVLYELDGLKDGPISHGPCPGSHGDLEWLKMVQPVIQERIERYSKSEIRFNLMAIIKNRKEMYTVELKELQKKRERILQQLAALQSETLLEHSNNEFLNKSLSEVNAGIESATEKILMEEEKLKKWRTENIRRKHNYIPFLFNFLKILAEKKQLKPLIEKAKQKTGGPR Homology
BLAST of Cucsat.G8183.T1 vs. ExPASy Swiss-Prot
Match: O04482 (Ubiquitin carboxyl-terminal hydrolase 2 OS=Arabidopsis thaliana OX=3702 GN=UCH2 PE=1 SV=1) HSP 1 Score: 513.5 bits (1321), Expect = 1.8e-144 Identity = 252/331 (76.13%), Postives = 296/331 (89.43%), Query Frame = 0
BLAST of Cucsat.G8183.T1 vs. ExPASy Swiss-Prot
Match: Q9FFF2 (Ubiquitin carboxyl-terminal hydrolase OS=Arabidopsis thaliana OX=3702 GN=UCH1 PE=1 SV=1) HSP 1 Score: 469.9 bits (1208), Expect = 2.3e-131 Identity = 226/331 (68.28%), Postives = 282/331 (85.20%), Query Frame = 0
BLAST of Cucsat.G8183.T1 vs. ExPASy Swiss-Prot
Match: Q54N38 (Ubiquitin carboxyl-terminal hydrolase isozyme L5 OS=Dictyostelium discoideum OX=44689 GN=uch2 PE=3 SV=1) HSP 1 Score: 309.7 bits (792), Expect = 4.1e-83 Identity = 165/336 (49.11%), Postives = 226/336 (67.26%), Query Frame = 0
BLAST of Cucsat.G8183.T1 vs. ExPASy Swiss-Prot
Match: Q9Y5K5 (Ubiquitin carboxyl-terminal hydrolase isozyme L5 OS=Homo sapiens OX=9606 GN=UCHL5 PE=1 SV=3) HSP 1 Score: 309.3 bits (791), Expect = 5.3e-83 Identity = 163/332 (49.10%), Postives = 232/332 (69.88%), Query Frame = 0
BLAST of Cucsat.G8183.T1 vs. ExPASy Swiss-Prot
Match: Q06AT3 (Ubiquitin carboxyl-terminal hydrolase isozyme L5 OS=Sus scrofa OX=9823 GN=UCHL5 PE=2 SV=1) HSP 1 Score: 307.4 bits (786), Expect = 2.0e-82 Identity = 162/332 (48.80%), Postives = 232/332 (69.88%), Query Frame = 0
BLAST of Cucsat.G8183.T1 vs. NCBI nr
Match: XP_004141571.1 (ubiquitin carboxyl-terminal hydrolase 2 isoform X1 [Cucumis sativus] >KAE8649023.1 hypothetical protein Csa_008361 [Cucumis sativus]) HSP 1 Score: 666 bits (1718), Expect = 2.61e-241 Identity = 334/334 (100.00%), Postives = 334/334 (100.00%), Query Frame = 0
BLAST of Cucsat.G8183.T1 vs. NCBI nr
Match: XP_008459685.1 (PREDICTED: ubiquitin carboxyl-terminal hydrolase 2-like isoform X1 [Cucumis melo]) HSP 1 Score: 655 bits (1690), Expect = 4.66e-237 Identity = 330/334 (98.80%), Postives = 333/334 (99.70%), Query Frame = 0
BLAST of Cucsat.G8183.T1 vs. NCBI nr
Match: XP_038889111.1 (ubiquitin carboxyl-terminal hydrolase 2 isoform X1 [Benincasa hispida]) HSP 1 Score: 650 bits (1678), Expect = 3.27e-235 Identity = 326/334 (97.60%), Postives = 329/334 (98.50%), Query Frame = 0
BLAST of Cucsat.G8183.T1 vs. NCBI nr
Match: XP_022153790.1 (ubiquitin carboxyl-terminal hydrolase 2 isoform X1 [Momordica charantia] >XP_022153791.1 ubiquitin carboxyl-terminal hydrolase 2 isoform X1 [Momordica charantia]) HSP 1 Score: 645 bits (1663), Expect = 6.32e-233 Identity = 320/334 (95.81%), Postives = 331/334 (99.10%), Query Frame = 0
BLAST of Cucsat.G8183.T1 vs. NCBI nr
Match: XP_022973936.1 (ubiquitin carboxyl-terminal hydrolase 2 [Cucurbita maxima] >XP_022973937.1 ubiquitin carboxyl-terminal hydrolase 2 [Cucurbita maxima] >XP_022973938.1 ubiquitin carboxyl-terminal hydrolase 2 [Cucurbita maxima]) HSP 1 Score: 640 bits (1651), Expect = 4.26e-231 Identity = 320/334 (95.81%), Postives = 328/334 (98.20%), Query Frame = 0
BLAST of Cucsat.G8183.T1 vs. ExPASy TrEMBL
Match: A0A1S3CAA0 (Ubiquitin carboxyl-terminal hydrolase OS=Cucumis melo OX=3656 GN=LOC103498729 PE=3 SV=1) HSP 1 Score: 655 bits (1690), Expect = 2.26e-237 Identity = 330/334 (98.80%), Postives = 333/334 (99.70%), Query Frame = 0
BLAST of Cucsat.G8183.T1 vs. ExPASy TrEMBL
Match: A0A6J1DHU9 (Ubiquitin carboxyl-terminal hydrolase OS=Momordica charantia OX=3673 GN=LOC111021226 PE=3 SV=1) HSP 1 Score: 645 bits (1663), Expect = 3.06e-233 Identity = 320/334 (95.81%), Postives = 331/334 (99.10%), Query Frame = 0
BLAST of Cucsat.G8183.T1 vs. ExPASy TrEMBL
Match: A0A6J1IA03 (Ubiquitin carboxyl-terminal hydrolase OS=Cucurbita maxima OX=3661 GN=LOC111472567 PE=3 SV=1) HSP 1 Score: 640 bits (1651), Expect = 2.06e-231 Identity = 320/334 (95.81%), Postives = 328/334 (98.20%), Query Frame = 0
BLAST of Cucsat.G8183.T1 vs. ExPASy TrEMBL
Match: A0A6J1EFA8 (Ubiquitin carboxyl-terminal hydrolase OS=Cucurbita moschata OX=3662 GN=LOC111432769 PE=3 SV=1) HSP 1 Score: 639 bits (1647), Expect = 8.40e-231 Identity = 319/334 (95.51%), Postives = 327/334 (97.90%), Query Frame = 0
BLAST of Cucsat.G8183.T1 vs. ExPASy TrEMBL
Match: A0A5J5C6M5 (Ubiquitin carboxyl-terminal hydrolase OS=Nyssa sinensis OX=561372 GN=F0562_002168 PE=3 SV=1) HSP 1 Score: 598 bits (1543), Expect = 5.94e-215 Identity = 295/334 (88.32%), Postives = 317/334 (94.91%), 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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