Cucsat.G18486 (gene) Cucumber (B10) v3
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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.TTTTAAAATTATGAAAGTTTAAACCCTTTGCCAAAAGTATAGGATGGAGACTTGGAGAGAGCAACAATCACAAGAGAAAGAAAAGGTTTATTTTGTAAAATTGAGGAAGAGGGCATCATTCAACAAAAACTTCGCATCAACGGCGGCTTAAGAGAAAACAGAGAGAGAGAGAGAGAGAGGGGTTTAACAGACGCTTTAGGGCTTTGGCGGAGGAAAACCTCAGCAATCTGCCATTCTTGCAGGTTCTCTACATCGCCGTACAATGATCACCGGCGGGAAGAGCTACGTTTCGGCACCTCCAGCTTTCTCCAATGACGCCAAGCGGCTTCTTGTCTGCACCGGTACCTCTGTCTCCATTTTCAGTACCTCCACTGGCTTGCAGGTGAATGCCTTCTTCGTTGCTTCTGTACTCAGTTTCTATACTTTATCAATTCTTCTGACATTCCGTTTGTTTCGGACTCTTTTGCTTCTGCTTAAGATTGCTTCATTGAAGGGTCACAAGGCCTTTGTGACATCGGTCACCGTTGTGCCGGCATCTAGTGCGGCAAGTAAGATCTTGTGCTTCTGTTGGACTACTTCACTCGATGGAACTATTCGATATTGGGATTTCTCGATTCCGGAGCTCATGAAGACCATAGATATTCGGCTACCGGTTTACTCCATGGTTAGCTAGTTATTTATTTGATAAGTATCGGTCCTGTGTACGAAAAAGTCTAAGAAAGCACTTATATCTAGGTTTTGGAATTATTTACTGCATTTTCAACTGTTTGTTGGGGACTGAATATTTCAGCTTGTCCTTCTCATTATGCAACGGTGGTACTAATAGTTATCTTTAGACTTCGTGAAATTAGAAGGTACCGAAACTTGTTTTTAAGAGTCAGTTTTCACCTAATATCTTACAGGAAGTTGGAACAAGAGATGGAACTTTGTTAATCTTAAATTCTGGTACTTTTTAGTTGATGTGTATTCCAAAATTAAAGGTGGAAGTGAAACATAGAATCAATATGTAGTTCAATGAACTGTGACATGAAATGTTAATATCAGTTCAATGAAGTGGAGGATGGGACTATGGTGTGTGTGTCGCTCAATACTATGTTTTTCAACTAATTGTGTTGGTTCTTTGAGTTACTATACACTAAATAATTTATTTCCCATGCTTTGTTTTCCTCAGGTCATCCCTTCTTTGTTAGGCCAGCTGTTGGAGAGGGATGTAAAGTCTCGTGACCTTTTTGCTTATGTATCAGTGCAAAACATAGGAGTGAAGGATGGAAAGCCGGTGCCTGTGAGAGGACAAATCCTTAAGTGTAACTTAACCAAGTCTCGCTTGGCTACTGGGGTCATTTTGGCGGAGGTGCAATTGACTAAGATTTTCTTCATTGTCCCTAATGGTTTCATAGTTGCATATTTTGAAACAAACTTTTATTTGCTAAAATTATGTTTAAGTACAAGGCTATTGGGTCAGGAAGTATTGAGACAAATATTATAGGGTTGGGTGGTTGTTCTGTGACATCAATTGAGGCGTGCAAATATTGGCCTAAACTTCTATAAGTATATTTTGGGTGTAAAACATGCTAGCTGTGCATAAACTTATGTAGTGCCATGGATGTTTTGGAAAGGTTTGGAACTATATTAATGCATTATTACTATTCTCACTCTTAACAGACTCAACAACCTGAATATTTAACTACTAGCTCATCAGGGAGCTTCTTTGGCATCCGAAATAAGCGCAAAATTCATGTATGGAAAGTGCCAAATGGACAATTTGAAAAATTAGGCGCTAAAAAAATTACTCTGCATCACACAAAAGACTTGACGGTTCTTGCATTTCACCCAACCCAAAGAACGGTAGCTGCAGGTGATGTGACCGGGAGAATTTTAATATGGAGGGGATTCGGTAATAGGACATTTCCTGTTTCTGGTGAAGAAGCTGGCAAAAAGTCTTTTGACAGTGATGAAGATAGACCAGGAGTAAGAGGAAATGATGATGCTGATTCTTGCTCTACACGGCACTGGCATCCTACCGAAGTTATTGCTCTCTCTTTCTCCTCTGATGGGGCATATCTTTATTCAGGTAAAATGTCAACAAGTAACAATTGCTAATGGGAATACATCCTGGAACTTCTAATAGAAAATGTGCTTTTGCTTACAAGTTTAACCATGAGTTCGGAGGAGGAAGTTTGGGAGAGCAGAAGATTTAATACATCTGAGTGGGCTGTGGGCTTTTGGAGTCTCTTCTTGTAGCTTTTGTTGGGTTTTTTGTGTATGCTCTTGTGCATTCTTTCATTTTCTCAATGAAGGCTCAATTTCTCAATAGTAATGGAAATTACATGTTCGACAATGACATATCAAGGGTAGCAATTGGAAGGATTGTAAATATTTGAATAATTTTCTGGACTTCTTGCATGAGATGGGCCACTCTGATACTAGGCTTTTAGCTATGTGTAGTGGATGCAGTTGCATAAAGGTTGATGATGATACAAGTAGCATCACATGAAACCCAGTCTAGAGGAGAATGAAATGTATTGCATGTCCACATTTGTCAGTGGTGGCCCGTATTAATTTAGCAAGTCGTCATTTAATCGCTTGATATCCATGTGATGATCTAGAATTATTCTAATTAGACATACTAGGTTACTCTTAATGTCACTATTCTTATCTATCCACAATGGTTGCTTATTACTTCCTATCCTTATATGATTCAATCTTCACGACTCTTAAATCTTATTTAAGGTGGGAAGGAGGGGGTTCTTGTGGTTTGGCAACTTGATACAGAGAAGAGAAAATACCTGCCTCGAATTGGGTCACCACTATTGTATTTTACTGATTCTCCAGATCCTCTGCTTGCCTCTGTAAGTAGATCCTTTATTTTTCACAACCAAGTATATTCTGCCACAGCTTTTGTTGGCCCTTTTGTTTAAAACTGAAATTAGGGTTTCAGGTATCTTGTGCAGACAATCAAATTCATTTACTAAAAATGCCTTCTATGGAAATCTTGAAGTCCATATCTGGGATCAAGGTTTGTTTCAGCAATCTTTTTATGAACTCTCTTTTTTTTTATTGATGGGGCCTTCCTTGATATTTTATCATGTTTGTGGTTAACAAATGTTGGAAGGAATGAGACTGTCTGAGTTAGAATGTTATACGATTAGAAGCCACCAAATAGAGAAGTTAGATAAAAAATTTCTTAGTGTGGGTCGTTATGTAAATCGTGTTGCTTTTTTTTTTTTGACAATTTCTCCTTATTAGTATTTTCTTAGCATAGTAGGTGGTTTTCTTCATGTACATTATGGTTTCCATGCCATAAGAATGTAGCTTTCTTGGTTCATTGTTGTCTTCTAAAGAAGCACAAATAAGGATACATATACGTCAATTTCTAAAAATCTAAGATACAGATATGTGGAGGATTCGTTATTTATTATTATTATTATAGTTTTAATGATGATGTCCAATTAATTGTAATGGAACTTAAGTTATAGTAGATTTAAAAGAGAGTTAAATTTGGGGAGAAAAACCCAGTGGCATTGTAACTGTCATTGGGGAGGCCGAGGAGTGGTAGTTGGTTGGCAGTGGCGAGGCTGAGTGGTGGTTGGGTAATGGACAGACGACAGTGAAGAAGTAGAAGATGAAGATTGAAGAATGAAGTTGAATTTGATGGGGAGGGGGTCGTGTTTCGTGATTTCAAGAGTGAGGGAGAGAAGAATGAAGATTTGATTGCCTTTCTGTATTCTTTTTTACTTTTTTTCTTTCTTTTGTTTTGGCTTGCCGTATTTAAGTGGGCTTTAAAATAAAATGGGTTGCAGGTTGAGCTTTTAAGTGACTAAGCTTTATACCAATCATCTGCAAATTTAGAAGTATATTGCTTCCTAGGTTATCATATATAATGACTACCGAATTTTGATATTTCTGTCATACTGGCTTGAAGCTAAAGGAGTCTTTCACTCTTCTATAAGGTTTGTTAGATACATGCATGTTATTGCTTTATTCTCTAATTTCTTCTTTTCTAGCATACAAAGTTTTGATGATTGCACAATTGTATCTAATAATTCTTACACATTATCTTCAAGTCTTATTAGAAAATAATGGCTATTTTATTTGTCTATAAATGTTCTTCAAGCCTTATTTTACTGCAACTTCTTGTGTTGTGTTCTTTTCAGCTTCCTTGTTCATTTCCTGATGTTTGTCAAGGCTCTAATAACGGGTTTGCCTTCAATCAAAATGATGGTCTAGTTGCCCTTCGTTCAGAAAACTATAGCATTCAGTTCTACAGTCTGTTTGATGACTGTGGAATTTGTGAGGTGAGAATGTACTGATTACTAAATTAGCTAATGAACTGGGGTAGTAAAATGTGCTTGTTTGTATCTCTTTTGTTACATGGTTTTATAAATATCTAGTTTAACACGAGTTTCATTAGACCATGATATGCCCTTCAGTGTTATCAGGTTGATGTTCTAGTTGTATCAAAATCACTTTTTCACCAAGCCTAACAAAAGTAGTAAAAGATTCTCATTTAAAAAAGACTGAAGCAGTTGAATTCACCTTGATCCGCCAGTGCTAAATAAGACACAGAAAGATCTCAATTATCAAAACTTGAAAGGGAAGGGAAGGAAATTTTGGAGAGAAACCTATCAACACAGTTTGAAAAAATGTATATCTTTTTGAAAGTGTTGTCTTAGTGTTCTTTGTACCCTTATTTACCAAAATGACTGAGTTACCTAACTAACAGCACCTCAGATATTTGTGCCATTCTGTACAAAGTCTTGACTTCCAAGTTCCAAGTAATGAACAGAATGTGGCTCTTTTCTCATATATGTGTTTGTACATGACTTCATGTTTAGACACAAATTCATATCTAAAAACATTCAGTTTTTATGTCAGTATTTTAGTGACTCTTAAGTATTAACTGTTCTACATATAATGTTAGCAGGTTCAAATTTGTGAGAGGAACCATCAACCCGGTGAAGAGCTCACTGTATGTGAACTTATATGTTGGTGTCATTTTATTGAAATAATGTCTGTAGGAATTGTGTGTCTGATGCTACCATTATACTTGAATATTGGGTGGCAGGTTGTTATTACTTCTGTGGTTCTCTCCCTTGATGGCTCTTTAATGACTACTGCTGAAATTAGAATTCCTGAGGGTGGAATTGGTGGTTTAATTTGTCTCAAGTTTTGGGATTCAGAGTTGGAAAACAAAAAGTTTAGTTTGTCAACCGTTGTATATGAGCCACACAGGTTTGCTTTTGGTCCTTTTCTGAAATCACAAGGAAAATTTATTTCAAAGGTTACTACAAGACCATAACAGTTATGTTCTTGTAATCATAATTTCATTGCACTCGTTTGTATTTTATGCTGGACACAGAAAACGCTGTTTCCTTCTTTGATCTGAATGAAAAAGTGCACTGCCATTTGACAGGGATGCTGGGATTTCTGCTCTCGCTTTCCACCCTAATCGCCGCATGGTTGTCAGTACATCATATGGTGGAGACTTCAAGGTACTGTTGGAACAAAAATAATCTTATATAATAGTATTTTCTGCAATGAAATTCATTTTATTTTATATTTATTTTTATGTTTAGATATGGGTTTGCAATGGAGGACTTCCGAAAGTTCAGGGAGAGAAAAATTCAAGCTGGATGTGCCATTCAGTTGGGTCTTACAAGTATGCATTCAATTAATTTCTTTTCAATTTTTAGTTTTTCGAATGATGGGAGAAATTATTTCTTTTATTTTAAAATGTAGACTTAAGTTGGATTTGGAAATTGTTTTCTTTTTTAAAAGGTTTCTAAATTGTAACGTTACTCTGGTGTTTGAAACTGACGTTTTATTGTTATTTTTCTAATTCTCACATAAGATTCTGCTTTATCAGAAAGAAGTCAATGACTGCTGCCACATTTTCTGCCGATGGTTCTGTTTTGGCCGTTGCTGCAGAAACTGTTATTACATTATGGGACCCTGAGCAAAATATCCTTGTTGCTGTAATTGGAGAGACTCTTACGGTACATAAAGTTCTCTCATATTTGCCTATAATTCCCAAAATAACGAAATGAATCCCAATAAGAAAGAACTGTTAAATTTGACCTAGTCCAGCTGGTATTCCATGAAATTAACCATGCCTCTTTTCTACATAAATGGTTGTGCTTAATTTCTTTTAAAAGCTCTATAGGTGAATTCATAATGTGTTTGATCACTTTTTTTTTTGTTTTTTTTTTTCATTTTGCGACAATTATGTAATGTTATATGGTGGTGGGTCAGAATCTTTTCTGGATCTTAAGTCTGTCATTCAAACTTGAATACTGTGTTTGAACAATCAATTTTAAAAAATGACGTTCTTAAATAATGATAAAAAGGGAATAAAAAAACGGAAGTAAAACTGTTGATATGCTCTGCCAAGTTTTTAACTAGAAAAGTTCTCTACTCTAATTTATTATCTGCATTCATCTCTCTCATGAATTCATGATTTTCAATTTGGACAGCCAATTGTGAATCTTAGCTTTGCTGGAGACTCCCAGTTTCTTGTATCTGTGTCACAAGGTTCAAAGCCACAACTATCTGTTTGGACTGTGTCGAAACTATCAATATCTTGGTCATACAAGCTTCATATAGAAGGTTTAATGCTCTCCTTTCCTTTCTCCTTTAACTTGGAATTGATATAATTCAACTCAAGATGGTTGATTGATTCACTTCTTTAATTTTATAAAACAGTAGAAGACTAATTTCACAAATTAGCAAGGGAAAAAAATGATCATTAAAACTTTTTAATGAAGATGGGATGTTAATGCCAAAACAACATTTTTTTCAATTTTTGTCTATGTTTATTAATCCTAGGCTCCAAAGGCTGTATCTTTTTACAATGCAAGCATCTGCAGTGAGTGACGGCTATCTTTTTCTTTTTAAAATTTCAAACAGTTATAGATTAACTTGTGACAACTAATTGACTAACGGCGCACTTTTGGGACTATAAACGTGATGGTTTCATGGAACTTTACTGCCAATGGGAGTTATTCAAATTTTTCTTGCGCAATTTTAAATACTTGGCTTCTCCTAAAATACCCAAGCACTTACTTGAGGCCTCATTACTGTGTTCTGGAAAATGAACGAGGAAACTGGAAAGTAAAGGGATTCTGATGAATGAAGATACGTTTCTTTCAGTTAGCACCTTCATTGGAACGTCTATCATTTTATGGACTATTAGCTTTTATCTAAATAAGAATCTACTTTTGTTTATGGTTAGGGGAAGTTTGAGCCATGATCATAAATGTTCTAATTCTAATCGTGGCTGTCCATGATTTGCTTCTACAGCCTTGGCCTGTGCTGTGGATATGTCTTCTTTTGCTGTGCTTGCCCTTATCCCCGAATCTGTACGGTTGCAATTTAGTGACTCGACATTCCAAGGGAGAGATGGAATGATATTGCATTTTAATGCCAATGATCCTGTTCCCCTGAGTACCTGGTCTGTTAGGAAGGTATACTATTTTCTACATCCTTTTTTCACACCTTCTTAACACTTAATTATAATTAATAATTAATTACTGCTGATGTACTACCGCAGGCTCAGGGAGGGGGTCTTGCGTTTCTACGATCCGAAAAAAGTAACATTAGTTCAGATGAAAAATCTGGCCATCCATGGCTTGTCTATATCAATGGTGACCACGAATATACTCTATTTGACCCATCTGGCAAGGAAGGACAAGAACTTAGTTTGACCAAGCAGGGAAGTTATCACGCCCTTGAAGAAACAGGAGGTAAAATTATTTTCTATTTTGACCGTATCAACAATTTGATTCTCTATAGCTGTACTGTCTACTTTTCTAATCTAGGCCTGTTTCACAATATCCTCATTTTCTCTAGTAAAAAGATCCTTACCCCGCTTTGAGCTGATACTGTGTTTTGTTTGTTTATTTTATGTAAATGTGCGCAATGCATAATTTATATATTTCTTTAGGAAAAAGGGACATTTGAATTGGTTATGACTGTTGAGGAGATCTCATGTGCGATTTTTGTTCTTGTGGTTTATTATAGAACCTAAATATATTGAATTATAAAAGATAGCGAAACCAAGTATTCGACATGCTTGGACTGACCCTCCCAATCTTTAAATCACTCTCAAGCCCTAATTCACCACCAAAATATCTTATAACCCAACTTCTCCAAGAAACTATTTGATATTTACTAATATACCCTTAATATCCCTCTAATACCATTCCTATTATTTTGGCATGCATAAGTGAATCTTTTAAAACTCCTAATCTTATCCCATAGTTTGCAGATTCGATCTTATTCATTTGGAAAAGTCATGTCAATCCCATGATTATTAATACATTAAATTATTACAGGAAAATTTGGATATGAAGCTATCTATGGCGAACTGCCAGAATTTGTATCAAAGATGGACCAGACCTTGTCTGCCCCATCTGTTCCATCACAGAGGCCTTGGGAGACCATCTTCAGTGGCTCATCACATGAACTTCCACCTCTTACTAAGCTTTGTTCAGCATTCTTAGAATCATTATTGGAGAGGAGGACCGTTACTACAGAGTAATTTCTGAGTCCACTGAAACATGTCACATTATATGCCTTCTTGAGTTCCTGGATTTGACTCAATCGATAGGTACAATCCGAAGATTGAATCAATTGCCATCCAATCTGAAGCCTTCAATTTCCTGATTCCTATTCAAGTACACAACATGAATAGCTGTCTAAATGGTGAACCATTCAGCTTAGGTAGAAAAAGATGGAACTTGCTTCCTAAAGAGTAAGAATCATCGGAAATTTTTGTTAGGTAGGCCAATTTTGAGTGTGCAATTTGGATTTTGAAAAAGAGAATTAGAAAATTTTGTAAATTATTATAAGTTATGTTTTTTAATTTGGGAATTTTATCCCTTTAGATAATCGGGAACCTTATCTTACATATTTATATACTATAGAATATATAACTGTTGCAGTAAGTTCAAGGTTGGTGATGATAATTAACACATTATTCAGAATGATCACCGGCGGGAAGAGCTACGTTTCGGCACCTCCAGCTTTCTCCAATGACGCCAAGCGGCTTCTTGTCTGCACCGGTACCTCTGTCTCCATTTTCAGTACCTCCACTGGCTTGCAGATTGCTTCATTGAAGGGTCACAAGGCCTTTGTGACATCGGTCACCGTTGTGCCGGCATCTAGTGCGGCAAGTAAGATCTTGTGCTTCTGTTGGACTACTTCACTCGATGGAACTATTCGATATTGGGATTTCTCGATTCCGGAGCTCATGAAGACCATAGATATTCGGCTACCGGTTTACTCCATGGTCATCCCTTCTTTGTTAGGCCAGCTGTTGGAGAGGGATGTAAAGTCTCGTGACCTTTTTGCTTATGTATCAGTGCAAAACATAGGAGTGAAGGATGGAAAGCCGGTGCCTGTGAGAGGACAAATCCTTAAGTGTAACTTAACCAAGTCTCGCTTGGCTACTGGGGTCATTTTGGCGGAGACTCAACAACCTGAATATTTAACTACTAGCTCATCAGGGAGCTTCTTTGGCATCCGAAATAAGCGCAAAATTCATGTATGGAAAGTGCCAAATGGACAATTTGAAAAATTAGGCGCTAAAAAAATTACTCTGCATCACACAAAAGACTTGACGGTTCTTGCATTTCACCCAACCCAAAGAACGGTAGCTGCAGGTGATGTGACCGGGAGAATTTTAATATGGAGGGGATTCGGTAATAGGACATTTCCTGTTTCTGGTGAAGAAGCTGGCAAAAAGTCTTTTGACAGTGATGAAGATAGACCAGGAGTAAGAGGAAATGATGATGCTGATTCTTGCTCTACACGGCACTGGCATCCTACCGAAGTTATTGCTCTCTCTTTCTCCTCTGATGGGGCATATCTTTATTCAGGTGGGAAGGAGGGGGTTCTTGTGGTTTGGCAACTTGATACAGAGAAGAGAAAATACCTGCCTCGAATTGGGTCACCACTATTGTATTTTACTGATTCTCCAGATCCTCTGCTTGCCTCTGTATCTTGTGCAGACAATCAAATTCATTTACTAAAAATGCCTTCTATGGAAATCTTGAAGTCCATATCTGGGATCAAGCTTCCTTGTTCATTTCCTGATGTTTGTCAAGGCTCTAATAACGGGTTTGCCTTCAATCAAAATGATGGTCTAGTTGCCCTTCGTTCAGAAAACTATAGCATTCAGTTCTACAGTCTGTTTGATGACTGTGGAATTTGTGAGGTTCAAATTTGTGAGAGGAACCATCAACCCGGTGAAGAGCTCACTGTTGTTATTACTTCTGTGGTTCTCTCCCTTGATGGCTCTTTAATGACTACTGCTGAAATTAGAATTCCTGAGGGTGGAATTGGTGGTTTAATTTGTCTCAAGTTTTGGGATTCAGAGTTGGAAAACAAAAAGTTTAGTTTGTCAACCGTTGTATATGAGCCACACAGGGATGCTGGGATTTCTGCTCTCGCTTTCCACCCTAATCGCCGCATGGTTGTCAGTACATCATATGGTGGAGACTTCAAGATATGGGTTTGCAATGGAGGACTTCCGAAAGTTCAGGGAGAGAAAAATTCAAGCTGGATGTGCCATTCAGTTGGGTCTTACAAAAAGAAGTCAATGACTGCTGCCACATTTTCTGCCGATGGTTCTGTTTTGGCCGTTGCTGCAGAAACTGTTATTACATTATGGGACCCTGAGCAAAATATCCTTGTTGCTGTAATTGGAGAGACTCTTACGCCAATTGTGAATCTTAGCTTTGCTGGAGACTCCCAGTTTCTTGTATCTGTGTCACAAGGTTCAAAGCCACAACTATCTGTTTGGACTGTGTCGAAACTATCAATATCTTGGTCATACAAGCTTCATATAGAAGCCTTGGCCTGTGCTGTGGATATGTCTTCTTTTGCTGTGCTTGCCCTTATCCCCGAATCTGTACGGTTGCAATTTAGTGACTCGACATTCCAAGGGAGAGATGGAATGATATTGCATTTTAATGCCAATGATCCTGTTCCCCTGAGTACCTGGTCTGTTAGGAAGGCTCAGGGAGGGGGTCTTGCGTTTCTACGATCCGAAAAAAGTAACATTAGTTCAGATGAAAAATCTGGCCATCCATGGCTTGTCTATATCAATGGTGACCACGAATATACTCTATTTGACCCATCTGGCAAGGAAGGACAAGAACTTAGTTTGACCAAGCAGGGAAGTTATCACGCCCTTGAAGAAACAGGAGGAAAATTTGGATATGAAGCTATCTATGGCGAACTGCCAGAATTTGTATCAAAGATGGACCAGACCTTGTCTGCCCCATCTGTTCCATCACAGAGGCCTTGGGAGACCATCTTCAGTGGCTCATCACATGAACTTCCACCTCTTACTAAGCTTTGTTCAGCATTCTTAGAATCATTATTGGAGAGGAGGACCGTTACTACAGAGTAA MITGGKSYVSAPPAFSNDAKRLLVCTGTSVSIFSTSTGLQIASLKGHKAFVTSVTVVPASSAASKILCFCWTTSLDGTIRYWDFSIPELMKTIDIRLPVYSMVIPSLLGQLLERDVKSRDLFAYVSVQNIGVKDGKPVPVRGQILKCNLTKSRLATGVILAETQQPEYLTTSSSGSFFGIRNKRKIHVWKVPNGQFEKLGAKKITLHHTKDLTVLAFHPTQRTVAAGDVTGRILIWRGFGNRTFPVSGEEAGKKSFDSDEDRPGVRGNDDADSCSTRHWHPTEVIALSFSSDGAYLYSGGKEGVLVVWQLDTEKRKYLPRIGSPLLYFTDSPDPLLASVSCADNQIHLLKMPSMEILKSISGIKLPCSFPDVCQGSNNGFAFNQNDGLVALRSENYSIQFYSLFDDCGICEVQICERNHQPGEELTVVITSVVLSLDGSLMTTAEIRIPEGGIGGLICLKFWDSELENKKFSLSTVVYEPHRDAGISALAFHPNRRMVVSTSYGGDFKIWVCNGGLPKVQGEKNSSWMCHSVGSYKKKSMTAATFSADGSVLAVAAETVITLWDPEQNILVAVIGETLTPIVNLSFAGDSQFLVSVSQGSKPQLSVWTVSKLSISWSYKLHIEALACAVDMSSFAVLALIPESVRLQFSDSTFQGRDGMILHFNANDPVPLSTWSVRKAQGGGLAFLRSEKSNISSDEKSGHPWLVYINGDHEYTLFDPSGKEGQELSLTKQGSYHALEETGGKFGYEAIYGELPEFVSKMDQTLSAPSVPSQRPWETIFSGSSHELPPLTKLCSAFLESLLERRTVTTE Homology
BLAST of Cucsat.G18486 vs. ExPASy Swiss-Prot
Match: Q6DFC6 (WD repeat-containing protein 75 OS=Xenopus laevis OX=8355 GN=wdr75 PE=2 SV=1) HSP 1 Score: 89.4 bits (220), Expect = 1.0e-16 Identity = 90/390 (23.08%), Postives = 162/390 (41.54%), Query Frame = 0
BLAST of Cucsat.G18486 vs. ExPASy Swiss-Prot
Match: Q7ZVR1 (WD repeat-containing protein 75 OS=Danio rerio OX=7955 GN=wdr75 PE=2 SV=2) HSP 1 Score: 89.0 bits (219), Expect = 1.3e-16 Identity = 98/396 (24.75%), Postives = 162/396 (40.91%), Query Frame = 0
BLAST of Cucsat.G18486 vs. ExPASy Swiss-Prot
Match: Q3U821 (WD repeat-containing protein 75 OS=Mus musculus OX=10090 GN=Wdr75 PE=1 SV=1) HSP 1 Score: 78.2 bits (191), Expect = 2.3e-13 Identity = 60/206 (29.13%), Postives = 96/206 (46.60%), Query Frame = 0
BLAST of Cucsat.G18486 vs. ExPASy Swiss-Prot
Match: Q8IWA0 (WD repeat-containing protein 75 OS=Homo sapiens OX=9606 GN=WDR75 PE=1 SV=1) HSP 1 Score: 75.1 bits (183), Expect = 2.0e-12 Identity = 95/394 (24.11%), Postives = 156/394 (39.59%), Query Frame = 0
BLAST of Cucsat.G18486 vs. NCBI nr
Match: XP_004146325.1 (WD repeat-containing protein 75 isoform X2 [Cucumis sativus] >KGN65467.1 hypothetical protein Csa_019642 [Cucumis sativus]) HSP 1 Score: 767 bits (1981), Expect = 7.76e-273 Identity = 384/384 (100.00%), Postives = 384/384 (100.00%), Query Frame = 0
BLAST of Cucsat.G18486 vs. NCBI nr
Match: XP_011656881.1 (WD repeat-containing protein 75 isoform X1 [Cucumis sativus]) HSP 1 Score: 767 bits (1981), Expect = 8.03e-273 Identity = 384/384 (100.00%), Postives = 384/384 (100.00%), Query Frame = 0
BLAST of Cucsat.G18486 vs. NCBI nr
Match: XP_008453590.1 (PREDICTED: WD repeat-containing protein 75 isoform X2 [Cucumis melo]) HSP 1 Score: 733 bits (1891), Expect = 3.53e-259 Identity = 365/384 (95.05%), Postives = 374/384 (97.40%), Query Frame = 0
BLAST of Cucsat.G18486 vs. NCBI nr
Match: XP_008453589.1 (PREDICTED: WD repeat-containing protein 75 isoform X1 [Cucumis melo]) HSP 1 Score: 733 bits (1891), Expect = 3.66e-259 Identity = 365/384 (95.05%), Postives = 374/384 (97.40%), Query Frame = 0
BLAST of Cucsat.G18486 vs. NCBI nr
Match: KAA0058265.1 (WD repeat-containing protein 75 isoform X2 [Cucumis melo var. makuwa]) HSP 1 Score: 706 bits (1823), Expect = 1.91e-248 Identity = 358/384 (93.23%), Postives = 366/384 (95.31%), Query Frame = 0
BLAST of Cucsat.G18486 vs. ExPASy TrEMBL
Match: A0A0A0LXB5 (WD_REPEATS_REGION domain-containing protein OS=Cucumis sativus OX=3659 GN=Csa_1G423250 PE=4 SV=1) HSP 1 Score: 767 bits (1981), Expect = 3.76e-273 Identity = 384/384 (100.00%), Postives = 384/384 (100.00%), Query Frame = 0
BLAST of Cucsat.G18486 vs. ExPASy TrEMBL
Match: A0A1S3BWM1 (WD repeat-containing protein 75 isoform X2 OS=Cucumis melo OX=3656 GN=LOC103494254 PE=4 SV=1) HSP 1 Score: 733 bits (1891), Expect = 1.71e-259 Identity = 365/384 (95.05%), Postives = 374/384 (97.40%), Query Frame = 0
BLAST of Cucsat.G18486 vs. ExPASy TrEMBL
Match: A0A1S3BWQ2 (WD repeat-containing protein 75 isoform X1 OS=Cucumis melo OX=3656 GN=LOC103494254 PE=4 SV=1) HSP 1 Score: 733 bits (1891), Expect = 1.77e-259 Identity = 365/384 (95.05%), Postives = 374/384 (97.40%), Query Frame = 0
BLAST of Cucsat.G18486 vs. ExPASy TrEMBL
Match: A0A5A7UXB6 (WD repeat-containing protein 75 isoform X2 OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold274G005910 PE=4 SV=1) HSP 1 Score: 706 bits (1823), Expect = 9.23e-249 Identity = 358/384 (93.23%), Postives = 366/384 (95.31%), Query Frame = 0
BLAST of Cucsat.G18486 vs. ExPASy TrEMBL
Match: A0A5D3CKZ4 (WD repeat-containing protein 75 isoform X2 OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold152G00310 PE=4 SV=1) HSP 1 Score: 703 bits (1815), Expect = 1.51e-247 Identity = 356/384 (92.71%), Postives = 366/384 (95.31%), 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:
GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
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