CsaV3_1G009920 (gene) Cucumber (Chinese Long) v3
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.GGAAAGAGTAGAAGTGACCTAAAATTGAACCACTAAAAGAGTTTTAACCTAAATCTGATTGGAGAGTCCGGAAATAATAGCAACGTGTCAATTGCATGTGAATGTAAGGTTATAAGAGTGTTGTTTAGGTAACACAAACTCTCCTCTCTACTCCCAACTCCTACACCACCGATCGTAGGGCTTCCGAGAGAGGGAGAGAGAAAAAAAGAGAGGCTTAAACGAAAACAAACTCATCGGAAGCTCAAAACCCCATTGAAGGGAGAAATGAGCAATTTTTATTACCATTTTCATTAGAAAAGCTAAGAACATGGCGGAGCCTGCGGAAGACATCGATGGAATCACCAGCAAAGAAGAGCAAGAAGAGGCTTTGGTCGCTCTCATCGATCATCGTTGCCATGAAGTTCAAAATCTCAAGCACCGTGTCTCCTACTACACTTCACAGGTCTCTCTAACTCAACATCCTCGTACCCCTTTTTTTCTTTTTTATTCATTCGTTTTTTGTTGTAACCTAAAACTAATTTGATGTTTACGTCACTACGAACTCAATTTTCTATCCATAGAATTTATGTATTGATTGATTCATTGGAATCTCTTCTCCCGTTTTTAATTTCATTATTTTCAACTTAACCTTAATCTCCTAACTGTCTGCAGCTTGAGGAAGCGCAGAAGAGATTGCAGGATACAGAATCTAAATTGGCCCGGCTTCGTCGTCAGAGCAATGCAGTGTCATCCAAAGATTCTCTGAGAAGTAGAGCTGTGAGTGTGAAAGTGGAGCAAACGGTAAATGAAGGTAGCAGGCCCCAGCCAGTGTCGAAACCCGAGCTTGTGATTCCGGCTGTGGTTCCAAAGACTTCTCAGAACAGTGCATTGGCTGGAAATGGAGCGAAGGCTTCAAATAGCTCTAGGGCTCAATCAAGTCCTTCTCATATTAAGAATGTAGTTAAAGTTGAAGGGGACAAAAATATTGGCAACACTTCTCTTCGAGAAACTTCGAACACTCCTGATAGAGGAACAAAACGGAAGCTTGGTAGGATTCTCGTTGGCCAAATATTGTCTCTGTGTTTGTTTCAGTTTTCAGCTGCAAGTTCCTTTGTTTTATGGTCATTATGCACATCCGATTCATCATTCAACAACTCTATTGCGGTACCTCCTAAAATTTTAACTCTTTTTCCAGAACAGCAGTTCAAGGAGCATAAAGAGTTGATTCCATTAATACGTAGCAGCTCATCACCTTCTCAAATTCGCTGCGTTGGGAGCAATCACATCTCCAGTCAGCATAAGAGAAAGTTGAGAAGTCTCATCTCATGCCCTGTGAACGAACAGTTATTTGTGACCAGGTAACGGCATAACATAGTATAGAATTTATGAACACTCAGAGAGACTGAAGAAACCCTTACTTAAAACTATGACCGGCGGTCCTTAAAGAACGTGTTCCTTATTCCAAGTGTCTAAATCATCATATTATACGGTTTTCATTATTCTTACTTCTTTGATTCTTCGCCCCCTCAATGATGGAGTGAATAAAAAAGGTTAGGATTCCACAATTAAATGGTAGTCCTAGCTTAATCTCACCCGAAAGGTTTACATAATAAAGTCCCATTAATGGAAGGGTCTTAACCTCCAAAAAGTTTACTTACCCTATCCACTCTTCTAGTCAAATACATAAACTTAACCTTTTTGTGGTATTGAAGTTTTTATGTTTTACAGTGCCCTGGATGGAGTAGTCAACTTGTGGCAGTTACAGGCCAGAGGGTGAGTTCTGATTATTTCCCACTTTATCGTACCTATATCATATCTCATCTACAGCTATCATCTTCTAGAGTTATAAGGTATGGTCATTCTGGTTTGAGCATGAACTATTTGCCATGCCAATTGGTGAACCTGGAGTATAGTACGTGTTTATAAGAACCCTCTTTGAATGAGACGTTGATTTATTTTCTAATGTCATAAATATAACCATATCATTGTTTGTTTCTAAGAAACAAAAATGAATATTCAATAGTTTTGTGCAAGTTAAGATGATGCTTTTAGCTGACTGAGGGTACAAATGCTCGTCTGTTGTCTTTAGATCTATAGTTTGAGTATAAAAATTCTTTTTTATTCTGGATGTAGTTTCCTATTGGAGGAATGCATTTGTAATTTTGTACTATGCTATTAATATATTACAAAGCGTTTAATTAAATACCCTTGTCAGTCATCCCTTGAGGCTTGAAGTATATATAGATGAGGCACTTCTTGATGTCTTCAGAACTAGAGACTCTTCTCTATTACAAAAGCGACATAATCTTTCCATTTTCTACCCAGATATAGAAATGTTTAAGAGTGTGTTTCTGTCCATCTCATCTTTATCCACTCCCTCTATCACAGGTCAAGTGCCTCTCTTCTTAGTTCTGCGGACTGTGTATCTCCAAAACAAAGAAGATGGCCAGAAGATATGGCCTGGCATCCAGAGGGGAATCGTGTATTTCTTGTTTACAGTGCTGATGGTGGGGACTCTCAGGTCTCAATCATGAATCTGAACAAAAGTGAAGGGGTATGGTTTATATTAGTAATCAACGTTTGCCTTTGGCATGCATTTTTTAGGCAAGGTTATAATTTTAATTTTTGGGTGCATATCCCTTTTCCAAGACAACTGAATTGTACCTTTTCAGATTTAACACTTGTTAATTTGAGATTTTGGGACTAAGTTGAGTAATTATGTCCGTACATTGACAGAAAGCTCGTGTTACTTTCCTTGAGGATAAACCGCATGTTAAGGGCATTATCAACAGCATAATTTTCTTGCCTTGGGATAGCACGTCTTTTATCACTGGTGGAAGTGATCATGCTGTCATACAATGGAAAGAGGGAGATGGAGATAAAAGATGGAAGCCAAAGGCATTGCACAGAAGCCTGCACTCGTCAGCAGTCATGGGAGTTGCAGGGATGCAGCAGAAGCCAATTGTACTTTCTGCAGGGGCGGACAAGAGAATACTTGGGTTTGACGTAAATGTTGGAAGAACTGAGTTCAGGCATCAGATAGAAAGCAAATGCATGAGTATATTACCTAATCCGTGCGATTTTAACCTATTTATGGTCCAAACAGGGTGAGTTTTCTTATACTAGAATTTGCTTGCTATGAGAAATGAGTTGTCTTGTGTAATGCAAGTGATTCCAGATTTCCATTTGTTTTATCAGTGGTGCATAAAATGTTGGGTTTTCATTTCAGAGAGTGATTCCTTATACTAGACATAAAATCAGAGGTAAACATGATTAGGCATGAGCTGATGAATTGCTAACTTAATCCCAGAAGAAATTAGGTTCGTTCTTCAGTTCTAAGATGGGAATTGCAAATATTTCGAGACATATCTTTACAGCCTCTCGAGCATATTTTAGTTGTGTAATAGTGGTATCTAGTATTGGATTTTTTACATTTTTTTTGTAAGAAATTAAACTAGTAATGTTTCCTAAGGGTAATCTCAAAAAGAGAATGATAATACCTCGTAAAACCAATGGAGTTTAGAAGATAATCCCACTTGGCTTAGGAAATTCTTTGAACATATACACTAAGTAGAGGGAAAAAGATTTTACTAGGTCCCTGAAGCCTTCAAAAGGACCATATTTTGAAACACTACACCCTTCCATTTCTTTGGAACCACAATATTTATTGGAAAGCCATGTCATTATTGGACCACATGTCATCGCTTTCTCTCTGGAAGGATCCAAAAGTTGGATTAGAGCCAGCACTGTCTTTGGGAAGCACCGGTGGTAAATTATGCAGTATCATAAATTGCTACTCTGGTCATTTACAAAGCACTAACTTGGGGATATAGTAAATAGGGATCATCTGTTCCACTTGTTGCAAGGTGTGCAGTTGATCTTCTTGGGCTAGTACTCACATATAGAACGTCATTTTATAGGAATATCAGCTTACCAAATAGCCTTGATCATACTATTTTGAATTGTCTGAGAGTTCATCCATCTGGAAGATACCCAAGAACTAGGATTTTCAAGTGTTGAAGCCTTTACATTCCAAAATCCACCTTTTAGATTCTAAAGAATCATTAAGGACCCTAAATCTTGAAGCAATTTGGATAGAATGGCCATTTAGTCATCTCTAATCATTGGAATTTATGTTAACTCCTTCAGGAACAACCAATAAAATTGAAAAGGTCGACAAAAAGCTGCTTAAATTACAACTCTGCAGGTGCAGAGCCTCAGGAACAGCAGCCTCAGTGGACTTTCATGAAGCCAAGAAACCTCCCACTACAAACTAAGCTTGCATCTGAACCATTTGTCCACCTGCAGCACTTGAAAATGGCTTGTAGATTGTGAACGTTCTCATTCAACTACTAGTGGTCAAGGGATAGTTGCTAGCATTAACTTTCCTGCAAAGGGCATTAGTGTCCAACATAAACCCCCAACCTCATTTATCAACAAAGGCCAACATTCCTCTTTTTGGAGCTTCCATTACATTACTTAGCTTTCGTGCAATGATATATTGGATTAGAGGATTTCATCTGACTTCACTTTCGTGTATTTATCTGTGAGCAAAGTTAGTATTCAAAGAAAATGATGAAATATTATATTGGGCCAAATTTATAATTTTTAGTACAGTATTGATTTGTTTCATAGATTTATGGTTGAAAGCCCCTGCAGATCTTTCCATCATTTGCTTCCATTGAAAAAGAATCGTGGGGATAAAATCCCAAATAAATATCTATAGGTTTAGACTGAAATTATATATCGATTAAGCTAGAGAAAACTTAAACAAGTATTTTGATTATCTACTTAGTTAAATCTTTTGCGTGCAGCACTCCAGGAAAGCAACTTCGGTTATATGATATCAGACTTAGGCAGACAGAACTACACGCCTTCGGGTGGGAGCAAAAGAGCAGTGAATCTCAGTCAGCATTGATAAATCAAGCTTGGTCTCCTGACGGTTTGATTCTTACATCTGGCTCTGCAGACCCTGTGATCCATCTATTTGATATCCGGTACAATCTGCACAAGCCTTCGCAATCCATAAGTGCTCATCACAAACGAGTCTTCAAGGCCGTATGGCTCGAATCACTCCCTCTTCTTATTTCCATATCTTCTGATCTCAACATTGGATTGCACAAAACAGCGTGAAGTTCCCCATCTGGATATTTTATTTCCCCATTGGACTTGTTCAACCTTTTTGTATTTTAAAGGGAATAATTTTTTGCATAAAGATGAGATGATGAGTGCCATCCAGTGAAGAAGGATGTTATTTTTTGTAGTTAGAACTTACAAAGTGATACTGCAAAGCTCCATTTATCGTCTTCAAGTTTGCTGAAGATGAGAAACTGTCATCCTTTGAAGAAGAGTGTTGCTATGGGTAGTTAGAAACGAAATTGCAGAGCGAAGTTTTGTTGTTGTCGCAAGTGTTGTGTACTGTCTTATTTTGAACATTGACAACCTTCTCGTGAAATGTTGTCATCTTTGTAATATCAAACAAAGGAAATTATACTGTTTTTAAGTTCTAAATTTTTGTTCACCAACATTAGACAATGAGAATTCAACTACCAATATTACCGAAATTACGTCTAAAATGTACATTTCAGCTCTACGACATATGTTTCAGCTCACCCCTAGTAAACTCAATTTCATATAGTAATCATACAGTAAAACTCTTCTATAAAAAGTTGAAAATTTATGCCACAGTTCTTTGGAAATTGAGTGACAAGATATGTAAACGGACTGATCACTAAATGATTCCAAAAAGTCAGAAAACTTGTGACTTATTTATTTATTTTTTATATAATACAAGACAAATAAATTAAGAATTAAACACTTTTTAGGAGTATTCTCAATTTCATATATGTCGTGAAGCACTATTACTTCACTCCCTTGGGTGATAAAGACTTGAAATTGTAGCCAAAAATATAATTCTCTTAAGTATAGTTCCGGGTTGGACAAAAATATTGCTCAAATGTCTTGATAAGCCTAAACTTTATTCACTATCTGTCTTGTAAAAGTCATCTATCTTTCTGGCCATTATATGTTTGAACATCGGAAGATATAAACTAAGCTATGGTTGTATCTTCAGGGGATATATCTGAGCTGAGAAAGGAGGATACAATTACTGAGTTGTTTTCCCTGAACCGAACTTTGTTGTGAGAGCCTGTCTAGAAGAGTGAGCAGTTGGCGCGCATTTTGCTTGCTTTCAAGAATTCGATGGCAGTTTCAACTGTAATAGTACACATGAAAAACATTTGACCAAAGAACGAACCAGAGAGACAAAACATGACAAGCCGATGCAAGATCTTATTTTAGAGAGAAAAGGTGATGAAAATTTACATTAGATAAGAAAAAATTATTAGGTGACTATTATTGCAAGACAAATGAACCCTCTAGTATTCTTTTCTCCATGGACGGCTGAGAGAAATTTAATGGAGAAAACATGTCTTTGAGACTGGAGGCTGGAACTGGCTTGAATTCGT ATGGCGGAGCCTGCGGAAGACATCGATGGAATCACCAGCAAAGAAGAGCAAGAAGAGGCTTTGGTCGCTCTCATCGATCATCGTTGCCATGAAGTTCAAAATCTCAAGCACCGTGTCTCCTACTACACTTCACAGCTTGAGGAAGCGCAGAAGAGATTGCAGGATACAGAATCTAAATTGGCCCGGCTTCGTCGTCAGAGCAATGCAGTGTCATCCAAAGATTCTCTGAGAAGTAGAGCTGTGAGTGTGAAAGTGGAGCAAACGGTAAATGAAGGTAGCAGGCCCCAGCCAGTGTCGAAACCCGAGCTTGTGATTCCGGCTGTGGTTCCAAAGACTTCTCAGAACAGTGCATTGGCTGGAAATGGAGCGAAGGCTTCAAATAGCTCTAGGGCTCAATCAAGTCCTTCTCATATTAAGAATGTAGTTAAAGTTGAAGGGGACAAAAATATTGGCAACACTTCTCTTCGAGAAACTTCGAACACTCCTGATAGAGGAACAAAACGGAAGCTTGAACAGCAGTTCAAGGAGCATAAAGAGTTGATTCCATTAATACGTAGCAGCTCATCACCTTCTCAAATTCGCTGCGTTGGGAGCAATCACATCTCCAGTCAGCATAAGAGAAAGTTGAGAAGTCTCATCTCATGCCCTGTGAACGAACAGTTATTTGTGACCAGTGCCCTGGATGGAGTAGTCAACTTGTGGCAGTTACAGGCCAGAGGGTCAAGTGCCTCTCTTCTTAGTTCTGCGGACTGTGTATCTCCAAAACAAAGAAGATGGCCAGAAGATATGGCCTGGCATCCAGAGGGGAATCGTGTATTTCTTGTTTACAGTGCTGATGGTGGGGACTCTCAGGTCTCAATCATGAATCTGAACAAAAGTGAAGGGAAAGCTCGTGTTACTTTCCTTGAGGATAAACCGCATGTTAAGGGCATTATCAACAGCATAATTTTCTTGCCTTGGGATAGCACGTCTTTTATCACTGGTGGAAGTGATCATGCTGTCATACAATGGAAAGAGGGAGATGGAGATAAAAGATGGAAGCCAAAGGCATTGCACAGAAGCCTGCACTCGTCAGCAGTCATGGGAGTTGCAGGGATGCAGCAGAAGCCAATTGTACTTTCTGCAGGGGCGGACAAGAGAATACTTGGGTTTGACGTAAATGTTGGAAGAACTGAGTTCAGGCATCAGATAGAAAGCAAATGCATGAGTATATTACCTAATCCGTGCGATTTTAACCTATTTATGGTCCAAACAGGCACTCCAGGAAAGCAACTTCGGTTATATGATATCAGACTTAGGCAGACAGAACTACACGCCTTCGGGTGGGAGCAAAAGAGCAGTGAATCTCAGTCAGCATTGATAAATCAAGCTTGGTCTCCTGACGGTTTGATTCTTACATCTGGCTCTGCAGACCCTGTGATCCATCTATTTGATATCCGGTACAATCTGCACAAGCCTTCGCAATCCATAAGTGCTCATCACAAACGAGTCTTCAAGGCCGTATGGCTCGAATCACTCCCTCTTCTTATTTCCATATCTTCTGATCTCAACATTGGATTGCACAAAACAGCGTGA ATGGCGGAGCCTGCGGAAGACATCGATGGAATCACCAGCAAAGAAGAGCAAGAAGAGGCTTTGGTCGCTCTCATCGATCATCGTTGCCATGAAGTTCAAAATCTCAAGCACCGTGTCTCCTACTACACTTCACAGCTTGAGGAAGCGCAGAAGAGATTGCAGGATACAGAATCTAAATTGGCCCGGCTTCGTCGTCAGAGCAATGCAGTGTCATCCAAAGATTCTCTGAGAAGTAGAGCTGTGAGTGTGAAAGTGGAGCAAACGGTAAATGAAGGTAGCAGGCCCCAGCCAGTGTCGAAACCCGAGCTTGTGATTCCGGCTGTGGTTCCAAAGACTTCTCAGAACAGTGCATTGGCTGGAAATGGAGCGAAGGCTTCAAATAGCTCTAGGGCTCAATCAAGTCCTTCTCATATTAAGAATGTAGTTAAAGTTGAAGGGGACAAAAATATTGGCAACACTTCTCTTCGAGAAACTTCGAACACTCCTGATAGAGGAACAAAACGGAAGCTTGAACAGCAGTTCAAGGAGCATAAAGAGTTGATTCCATTAATACGTAGCAGCTCATCACCTTCTCAAATTCGCTGCGTTGGGAGCAATCACATCTCCAGTCAGCATAAGAGAAAGTTGAGAAGTCTCATCTCATGCCCTGTGAACGAACAGTTATTTGTGACCAGTGCCCTGGATGGAGTAGTCAACTTGTGGCAGTTACAGGCCAGAGGGTCAAGTGCCTCTCTTCTTAGTTCTGCGGACTGTGTATCTCCAAAACAAAGAAGATGGCCAGAAGATATGGCCTGGCATCCAGAGGGGAATCGTGTATTTCTTGTTTACAGTGCTGATGGTGGGGACTCTCAGGTCTCAATCATGAATCTGAACAAAAGTGAAGGGAAAGCTCGTGTTACTTTCCTTGAGGATAAACCGCATGTTAAGGGCATTATCAACAGCATAATTTTCTTGCCTTGGGATAGCACGTCTTTTATCACTGGTGGAAGTGATCATGCTGTCATACAATGGAAAGAGGGAGATGGAGATAAAAGATGGAAGCCAAAGGCATTGCACAGAAGCCTGCACTCGTCAGCAGTCATGGGAGTTGCAGGGATGCAGCAGAAGCCAATTGTACTTTCTGCAGGGGCGGACAAGAGAATACTTGGGTTTGACGTAAATGTTGGAAGAACTGAGTTCAGGCATCAGATAGAAAGCAAATGCATGAGTATATTACCTAATCCGTGCGATTTTAACCTATTTATGGTCCAAACAGGCACTCCAGGAAAGCAACTTCGGTTATATGATATCAGACTTAGGCAGACAGAACTACACGCCTTCGGGTGGGAGCAAAAGAGCAGTGAATCTCAGTCAGCATTGATAAATCAAGCTTGGTCTCCTGACGGTTTGATTCTTACATCTGGCTCTGCAGACCCTGTGATCCATCTATTTGATATCCGGTACAATCTGCACAAGCCTTCGCAATCCATAAGTGCTCATCACAAACGAGTCTTCAAGGCCGTATGGCTCGAATCACTCCCTCTTCTTATTTCCATATCTTCTGATCTCAACATTGGATTGCACAAAACAGCGTGA MAEPAEDIDGITSKEEQEEALVALIDHRCHEVQNLKHRVSYYTSQLEEAQKRLQDTESKLARLRRQSNAVSSKDSLRSRAVSVKVEQTVNEGSRPQPVSKPELVIPAVVPKTSQNSALAGNGAKASNSSRAQSSPSHIKNVVKVEGDKNIGNTSLRETSNTPDRGTKRKLEQQFKEHKELIPLIRSSSSPSQIRCVGSNHISSQHKRKLRSLISCPVNEQLFVTSALDGVVNLWQLQARGSSASLLSSADCVSPKQRRWPEDMAWHPEGNRVFLVYSADGGDSQVSIMNLNKSEGKARVTFLEDKPHVKGIINSIIFLPWDSTSFITGGSDHAVIQWKEGDGDKRWKPKALHRSLHSSAVMGVAGMQQKPIVLSAGADKRILGFDVNVGRTEFRHQIESKCMSILPNPCDFNLFMVQTGTPGKQLRLYDIRLRQTELHAFGWEQKSSESQSALINQAWSPDGLILTSGSADPVIHLFDIRYNLHKPSQSISAHHKRVFKAVWLESLPLLISISSDLNIGLHKTA
BLAST of CsaV3_1G009920 vs. NCBI nr
Match: XP_004154008.1 (PREDICTED: uncharacterized protein LOC101207060 [Cucumis sativus] >KGN64441.1 hypothetical protein Csa_1G051780 [Cucumis sativus]) HSP 1 Score: 1031.6 bits (2666), Expect = 9.5e-298 Identity = 524/524 (100.00%), Postives = 524/524 (100.00%), Query Frame = 0
BLAST of CsaV3_1G009920 vs. NCBI nr
Match: XP_008440130.1 (PREDICTED: uncharacterized protein LOC103484685 [Cucumis melo]) HSP 1 Score: 999.2 bits (2582), Expect = 5.2e-288 Identity = 507/524 (96.76%), Postives = 513/524 (97.90%), Query Frame = 0
BLAST of CsaV3_1G009920 vs. NCBI nr
Match: XP_023001767.1 (uncharacterized protein LOC111495809 [Cucurbita maxima]) HSP 1 Score: 955.3 bits (2468), Expect = 8.7e-275 Identity = 482/526 (91.63%), Postives = 500/526 (95.06%), Query Frame = 0
BLAST of CsaV3_1G009920 vs. NCBI nr
Match: XP_023519771.1 (uncharacterized protein LOC111783114 [Cucurbita pepo subsp. pepo]) HSP 1 Score: 952.6 bits (2461), Expect = 5.6e-274 Identity = 480/526 (91.25%), Postives = 499/526 (94.87%), Query Frame = 0
BLAST of CsaV3_1G009920 vs. NCBI nr
Match: XP_022923972.1 (uncharacterized protein LOC111431530 [Cucurbita moschata]) HSP 1 Score: 951.4 bits (2458), Expect = 1.3e-273 Identity = 479/526 (91.06%), Postives = 499/526 (94.87%), Query Frame = 0
BLAST of CsaV3_1G009920 vs. TAIR10
Match: AT5G50970.1 (transducin family protein / WD-40 repeat family protein) HSP 1 Score: 550.4 bits (1417), Expect = 1.2e-156 Identity = 294/499 (58.92%), Postives = 361/499 (72.34%), Query Frame = 0
BLAST of CsaV3_1G009920 vs. TAIR10
Match: AT5G19920.1 (Transducin/WD40 repeat-like superfamily protein) HSP 1 Score: 406.0 bits (1042), Expect = 3.6e-113 Identity = 199/392 (50.77%), Postives = 267/392 (68.11%), Query Frame = 0
BLAST of CsaV3_1G009920 vs. TAIR10
Match: AT2G43770.1 (Transducin/WD40 repeat-like superfamily protein) HSP 1 Score: 43.5 bits (101), Expect = 4.6e-04 Identity = 25/70 (35.71%), Postives = 42/70 (60.00%), Query Frame = 0
BLAST of CsaV3_1G009920 vs. Swiss-Prot
Match: sp|Q09731|BU107_SCHPO (UBP9-binding protein bun107 OS=Schizosaccharomyces pombe (strain 972 / ATCC 24843) OX=284812 GN=bun107 PE=1 SV=1) HSP 1 Score: 53.5 bits (127), Expect = 8.1e-06 Identity = 63/249 (25.30%), Postives = 104/249 (41.77%), Query Frame = 0
BLAST of CsaV3_1G009920 vs. TrEMBL
Match: tr|A0A0A0LWS7|A0A0A0LWS7_CUCSA (Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_1G051780 PE=4 SV=1) HSP 1 Score: 1031.6 bits (2666), Expect = 6.3e-298 Identity = 524/524 (100.00%), Postives = 524/524 (100.00%), Query Frame = 0
BLAST of CsaV3_1G009920 vs. TrEMBL
Match: tr|A0A1S3B149|A0A1S3B149_CUCME (uncharacterized protein LOC103484685 OS=Cucumis melo OX=3656 GN=LOC103484685 PE=4 SV=1) HSP 1 Score: 999.2 bits (2582), Expect = 3.5e-288 Identity = 507/524 (96.76%), Postives = 513/524 (97.90%), Query Frame = 0
BLAST of CsaV3_1G009920 vs. TrEMBL
Match: tr|M5WGN3|M5WGN3_PRUPE (Uncharacterized protein OS=Prunus persica OX=3760 GN=PRUPE_ppa004129mg PE=4 SV=1) HSP 1 Score: 724.2 bits (1868), Expect = 2.2e-205 Identity = 373/521 (71.59%), Postives = 429/521 (82.34%), Query Frame = 0
BLAST of CsaV3_1G009920 vs. TrEMBL
Match: tr|A0A251P8B8|A0A251P8B8_PRUPE (Uncharacterized protein OS=Prunus persica OX=3760 GN=PRUPE_5G142100 PE=4 SV=1) HSP 1 Score: 709.9 bits (1831), Expect = 4.2e-201 Identity = 365/511 (71.43%), Postives = 419/511 (82.00%), Query Frame = 0
BLAST of CsaV3_1G009920 vs. TrEMBL
Match: tr|A0A2I4FMH6|A0A2I4FMH6_9ROSI (uncharacterized protein LOC109000430 isoform X1 OS=Juglans regia OX=51240 GN=LOC109000430 PE=4 SV=1) HSP 1 Score: 697.2 bits (1798), Expect = 2.8e-197 Identity = 366/534 (68.54%), Postives = 424/534 (79.40%), Query Frame = 0
The following BLAST results are available for this feature:
The following terms have been associated with this gene:
GO Assignments
This gene is annotated with the following GO terms.
The following mRNA feature(s) are a part of this gene:
Analysis Name: InterPro Annotations of cucumber chineselong genome (v3)
Date Performed: 2019-03-04
The following gene(s) are orthologous to this gene: The following gene(s) are paralogous to this gene:
The following block(s) are covering this gene:
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