Chy4G089200 (gene) Cucumber (hystrix) v1
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Overview
Sequences
The following sequences are available for this feature:
Legend: polypeptideexonCDS Hold the cursor over a type above to highlight its positions in the sequence below.ATGAGGAAGCAAATCAAAGCTAGAAGATCCGACAACGCTGCCAAGGGGATTCGCAATGTAACTCCTATTCAAGTCGCTTTCATTGTTGATAGATATCTCTCCGATAACAATTACGCAGAAACCCGCTCTGTTTTCAGAGTTGAAGCTTCATCACTTATTGCAAAATCTCCCATCCAAGAGGTACCTGTTTCTGCTTATTTGGAGATCTAGGATTTTTCCCCCCATTACTTAGGGCTTTCCCTCATATTCGCCGTTTGTGATTTGATTCTTTTGATTTTCAGGCTCCGAAGAGCTTGCTGAGTTTAGAAGCTATGTTGGATGAGTACATCAGTTTGAAAGAGCAAAAGGTGATTCTGGATCAAGAACGAAGCTATTTGGAGCAAGAGAAGATCCGTGTCCACGCTCTTCTGCAGGGTATGCAGACTGTCATGAGTGCTTATAATTCCAGTGGAAGGTCTTCAACGCCTTCGATTTCAGCTGCTCCAGATAAAGTTGGCGTTGTTGGTCAATCTGAATCTCCAGTAGGTAATGCCCTAAAACGTTATCTGAGTTAAATGGAATGTATTTGTTTTCTGAAAACGGAAGAACCACTGAAATGTTGTTAGGGTTGATTAAACGTTTAAACTATGAATATTATTTGGGAGTTCCCTTACTGGCTTACTCAATTGGATCAGTGCAGGAGAGAACGACATAAATTATTTCTGAACTCATCAGGAGTGGAATCACGCTTTTAGTCCTTTAAACATTATTAACTTAGGCTATAATCTAGTTCTAGGTGGCTGCCTGTTGTTCTTTGGTTTTCTTGGAGGATTTTAGGGGGTGGGTTTTTCTACAATTTTTCAGTCATAACTGGGTTGCTAAACAGTGTTTTTAATTGTCTGTGAGAACTTCCAACTGCTGGTGAATTGTGTACCTAGAAGAACAGTCCAAGACTGTTCTATACTAATTTCCCCACCTAATTCAGCAAAATTTGCAAGCTATCTTTTGTTAGGAAATTGTGAGCATGAAACGTTTGTGTGAATTTTAATGAGACCAACTTCTCTCAGGTTGTCCCATTAACATCAAACAACCTGTTCGTCCAGAGGTCACACCTCAAAATTCTAATGGCGGACCTCAAAGTTTCATTACACCCGTTTATAATGACTTGGAAGCAAACAAGAGAAAAAGTTCCAAGACTTCCATTGTTGTTCCTCCGGCTTCTAAGAGAACTCGAAGTAAATTATCTACCAAGAAGTCGGCTAGCAAAGGCAAGTCTTTTTTACAGTTTGTTTGTGAATGTGATTGAGGCGCATCTTTTCCAATCATATCTAATAAAATTCATGTCAATTGCAGACGCGGATGCGCTTTCCCAATCAACGGAAGCTGGCAATGTTCAACCAACGGTTCGGCACTCTAACGAAATTCAGTCATCGTCTCCTACCTGTCCTCCTAATGAGACTGTGGTTGAAGGATCGAGTGTTGTAAAATGTTTATTTAATCAGCCTTCATTCTCTATTCCAACCAATTCTTCTGGTCCAAAGACTCCGCCCCGTGCCAATTCTTGTCAAAGTGACAAGTCTACATCACCACACGAGATTTCTTCTGCTGCCGAGTGCAGCAACATCAATACTCCACAAGGCGTTAGTCCTACTTGTTGCACTGTAATTTCATCTTCAAAAAGAGTGACAATAAGTCCTTACAAGCAAGTTGCTTACTATTCTGTGGAAAGGAACCATAGCATTTTATCTCCTTCCCCTGTCAAGACAAACGCTAAAAGGCAGGGTAAGAGAGATCAAGTGAAGGGGCGGCTAGATTTTGATGTCTCAGATGTACCCATCAGCTCCGACAAAGGGATTGAAAATGAAATTTATGCAGCCGAATCTGAAAAGCAATTGGACATATTTGACATTGACTTGCCTTCTCTAGATGTTTTTGGAGAAGACTTTTCTTTTACTGAAATGTTGGCTGATTTGGATATGGATTGTGAAGTAATTGGTTGTTCGTCCGTCCCAACCTTGGGTGCTTCTACAGACACTCTTTCTGGGTAAATTTCTGCTCCTCACACAACAATTCCTGCGAACTATCCTTCACCTCGTAATCTGAAAAATTGTTCCATTTGTGTTTTCCCAGGTCATCTCATGAGTCCATGGACTGTAACGTGGGGACTAATCAAATAATGTCAGAATATTCATCAACCGTGACACAAATTTTATCTGGAAAAGAGTTAAATACAGAAGGTAATGTAGTTCATCTTCTATACATCTTGAAGTTCCATTAAGCAATGCATGAGTATTAAGGGAAATTTTTTTACCAATGTGGCATGGACTCTTTGACAGCAGTGAAGTCCACAACAAAATGCATAAGAATTTTAAGCCCAGGTATAACCATATACAACCTATATTTATGTGCATTATATGGTGTTAGTTAAATTACGCATGTAGTTAAATCTTTACCTTTTGATATTACAGCCAAGAAATTGTAGTTCCCTAAATCCAAGATCAAGATAACTCAGCTCCTTCTGCTAGAAACTGACTGTTGGATAACCGAAGCTGACAAGAAACTTACTCTTAACCTAAGCGAATATCTATCTTTTCACTTCCAGAAAGTTGTTTGGTAAGATTAAATCACCATTCACCTATATTATTAGTCCCATCCTAGCTAGGCATTCTTTTCCCCTTTAATTTTGGAAACGCTGATGCAATGATCTGTATATTGCAAGAGTAGTTTCATCACGCATACATTCCATAATTTGAAATATATGAAATGTAAATTTCCAAATGGAGCTTTCCGATGAAATTATGTAAATGCAGTACATATGAGTTATTAGATAAGAGATTTCTTTGATATTTCCCTTACTGAACGACAAGATAGACTTTTACTACAGGAATGATCAACTTGGATATTGACTTGGTCATATTATTGATATGGAATTTTACATGTGGAGAAACTAGAAAGTGAGATGTGAATGAATCTTCATAAAATGATAGTGAAAGCATATAATATAATACCATAATGTTTCATCTTCCATATAGTCGACAGCATGTTTGTTCCCATATTATAAAAACCCCATGCCGTCTTCTAATTGTATAATAACAGGTCAAAACTTTGGCTTCTACATTTTACGTCTACATTATTCTTCCTACGTTATAACTTATAAGTTATATCCGAACTAACGAATGCATATCATCATAACCGGCTGCCCATCTAAGGTTTGCAGTCAACAAACTATTCTTTTCTTCATTTTAAGTTTGGAGGTTCAACCTTATTTTCTTTTTAATATTGAGCATAATTAATAGTTGCATTTCTTATTTCCATAAATCATGTGCATTTAGACCAAGTAAAATTATATATACATTGCAAATTTAGGGTTTTTTAAATAATAATATATGTGATGATATGAAATTGCAAGATAATCCACATCCACTTGATGGTAAAAAATTTGGTTGTAGGACACTTTTTAAGTATAGTAAAATAAACTGATATATTTACAAAAATATTAGATAGATTCATGGTAGATATTGATAACATTATTATACTTTCTAAATATTTATAATAATTTTTTAAATTTGTATCATATTAAATTCTAAATAGGTGGCTATTTTTTATTTTTACTTTTTTAAGTTTATGTTTTTAATAAACTTATGTCATTTATTATTATTATTATTATTTTAGACAACTTATATTAGTTTATTTACAACTAGATTAATTCATTAAGATTGTGTATCTATTTGTTAATTTAGTATAATTCAACTAGTCAGGGAAAGACATACCATAGAATCTCTACTCTTATATATGGTTGAATCCATACAAAAAATAAACAAACATTCATTTAACGTCTAAATTTCAAAAAATACATTTTTTTTTATTTGGCAAAGTTTTATACTATCATTAGTTAGATTTCAAAAATAGTGTATTTTAGTCATTTGATCGTTAATTGACATATATATATATATATATAAGTTGATGAGGGGAGGGAAATTAAATTATTCCAACTTTGAGGGTTACATCATTTAAATTCTAAAATTAATAATTATATTAATAAAATTTTAAATTTTTATAAATGTATGAACTTGACCTTCATTAAAGAATGATACCACGATCATATTATTGAAACTTTTTGAAACTACATAAGTGAACAATTTGGATTTTTGTTGTAATTGTCTCTGGAAATCATAAATATTTAAGTTTCATCCATCGATTTGCTTCTCTAATATCAGATTAACAAAATAAGGATGAAATGTTTTTCATATTCGCTTGGTTTCTCTATGCATTTATTAATAATCAAATATCATTATTTTTTTATTTGTCAATTTGGTTGACTTATAGAGAAGAGCAATGTTATATAAATAAAATTTGAGATTAGACTAAGTGAAAATAGTTCACATTAGTCGGTGAAAGGAGATGATTTTTTTATAAAAAAATATTAAAAATTAAAAACACGTAGAATTACAAATCTTATTTCAAACTTTCAAGATTGTGTCCATTTTATCCTTGGATTTTCAAAAGTGTTTAATATATGATTAGATTTTATTTCTTTATTCTATTTAGAAAATTCCAAACTTTAAATTTTGTATTTAATAAGTCTTTGATATATTTATATTTTTATTTTTATAAAAAAGTAGTTTGATAGCAAAAATTAAATTTTACATTCTAACCGTAACTTTAGATTTTATGTGTTAATGAGTTGTGAATTGAAAAAAAAATGTTGAATGGTAAATATCCATCCTATACAAAATTGAAAATATTACGAATATATTAGACACACAACATCAGAATTTATTTGATATTTTCTATAAAAAGGAATTAGTTGTGGTACTATCCATTAGAGTTTAGGAAGCTAAGTAATTGATACATATGAGAATTTTTTTTAAAAAATTTAGGGACCTATTCGACTTAAGTTTGAAAATAACCCATTAAACATAAATTTGGTAATTTAGCCTTTAATTTTCTTATATATATATATAGTGATGATACTAAAAAATTAAAATATTACAAAATTTAAATTTTAATAACCAAAAGTATAATTTTAATCTTGAAATTCACTATATTAGAAACATACAAACATGTTTAATTCAACCTTAACCTTATATGTTTAATATAACTTATCATTTATACCTAGAGTTCTATTTACAAGCATATTTCTTAATTATTCAACGTACCATAGTTCATGTAGTTAAAATGATATATGTATATATCTACCATACAAAGAAAAAAAAAGGAAAGGAAAAGAAATAGTTTCTCTTGAAATAAATGTGTTTCAAGATTTTTCTTTTTCATAACAAACATATTTTAGTTGTAATTGGCAAGATTTCTTTATCTTAGAGATTATAAGTTGAGTCATATTTCAACAATTTTATTCCTAGAAATTTTTGGTAACCATTCATATAGATTTAAGTTGCAAGAAAAAAATTTAGCGTCAAATTTCAATTACATATAAAGTCAAAAAAATTGACAAAATATCCATATAGTATTTAGCTAAAACAACTTCTATACCAAAGTCTAGTACATAGGTTAAAGAAATTTAAAAAGTTATAATATTTCTTGGACTTCAATAGTTCAATTAGGGAAGTCTAAAATTTATGGGTTGGAGAAAAGAAACAAAATAAAAAGTTGAAATTATTATTAACATAATCTTTTAATTTGCTTTTCATTGAAAAGGGTATAATGATATTAAATTAAAAACCACTAAAATTGGAAGTCAAAACAAAGCTCTCACACAATTTGTTTTCAATATTTATTCATCATTAAGAACATTTATTAAGACTATAACATTTAAAGAAAAAATATTCTATGATTTTGGATTTTCATTGTTAAAACTACATGAAATAAATCACCTAAATTAATTATAAATATTTACGTTAGGTAAGGTTTTTCACCACTTGACATTTTTTTTTAAAGAAAAGAATAACATTAACATAAGTTTTATAAAGTTAATCAAGTTTATAATATTTAATAACCCTAGTATTAAAAAAAAAAAAAAAAAAAAAAGCAGTCCACGTTTTAGATTTTAGGTATATTATATTTTTGTTGTGGAGGCTAAATTAGTCTCAAAATTTTGGGAGAGTTGATATGGTAAAATGAAAAATAATTTACAATTGTAAAACTAAATGTATTTCTTATATTTTAAAGAAGTGTTAATTAATATAGTTTTTCAAAGTTGTTTTGTTAATTTAAATAATAATTAAGAAAATATACTTTGAAATCAATGATAAGCTAACTAAAAATATATTTTTTTCTTTCAAAATTCTATTAAAACTACTAAAATTATATTTAATTCTAATGATTTTTAAAAATAATAAAAAGAAACAAACAATCTATTTACACTAAAAAACTAACAAAAATTCAGTAAATATTGTGTCCATTTTACTATTTTTTACCATTTTTCATTGTCAATAATTTAGTTTGATTAAGATTTTCTAAAACATCATTAATTCAAATACGACTCTTTTTTATTATTGTTTTAAAAAATAATGGATCCCACTCTCTTACTATAGGAAAAATAAAAAACAAATTAGATGGTTGATCAATCAATTTTATTTCATAAGCACAATAATTAGTTGAAATTACCAAAAACTATTCTCCAACTTCCTACCTACCATTTAACATATTCTAAAAGAAAAGAGCCCTCATACCACCACCTTGATATATTAATATGATATAATTGTTAGCACGGGTTAAACATCGACGACCTTCACATATAAAATGTCATAATACATTCTATCATAAACAAAAAAATTATCTAAATTAAAAAATAATTAGTATTTTTTTCTCTCATACTTAAGCCATTATAGTTTAAACAAATTAGAAGATTGTATTAATTGCATTTGATAAAAAAAAAAAAAGTAGTCAATATTTTATTAAAAATTAATTTTAAAGGAAAAAGGAAAAAGGAAAGGCATTATGGTTACACCCTGGAAGCTTCTTCGACGTGGAAGCCTTCAAGAAAGTGATTCTTCCAATTTCATTTTTCTTGTTCAACTAAAAGAAACCCCAAATGGCAAAGAAATGTGAATGCCTTGAAAACAAAGAGATTAAAAAATTGACTTTGAAGACTTTATTAAGTATATATATATATATATAAATATATAATTATTATGTTTAATTAAAACATAATAATAATAAAAGAAAAATAAAATTGAGTGTTCCACAAACGTGTTGGTTCAAAACGCGTCGTTTGGTATAGGAACTAAAAGGCAAAGACCAACCGCCCTTTAAAAGCCGGCGTTGCTTTGTTTCTCTCTATTTATAGTCCTTTCCCCTTTTTTCTCTCCACAATTTAACTTCTTTTTCTTCTTTTTCATATATATACAAAAACTCAATCTCCTCTCTCAATAATTCCTCCCTCCATTTTCCAATTTTACTTTACATTTCTTAGCCACACACACTCAAACATCTCTATTTTACCCAATGGCTATCTCCAACAAATTCGCTTTGCTCTTTTGCATCTCATCTCTTTTCGTCTCTGCAGCTTTTGGTACGTTCTCACACCTTATAATTTTGTTTGTTTTCATATATAATCTCAACTTAATTATTTATTATGCCTGTATTAATTAAATTGATATTGTTTGTTAATTAACCTTAACAGGGGAAATTGTGTGTGAGGAATTGTCTGTGGATGTTTGTGCATTCTCAATAGCCTCATCTGGAAAGAGATGTTTGTTGGAGACATCAGAGACGAAAGAAGGAAAATTTGAATATCAATGTAGAACCTCTGAGGTTATTGTTGAATGGATGGCTGATTACATTGAGTCTGATCAATGCATCAATGCCTGTGGCCTCGACCGCAACTCCGTTGGTATCGCCTCCGATGCCCTCCTCGAGCCTCAATTCACTGCCAAGCTTTGCTCCCCTTCCTGCTACCAGAAATGTCCCAACATTGTTGACCTCTACTTTAACATGGCCGCAGGAGAAGGTCAGCAATATTTGATAATCTCTTAAAAGATTTTTCTTTTTTAATCTCTTATAGCGCTTAACTTGAGATAAAAGGAAAGAACTCATTGATTTTATTAATTAATATTGCATGATTATTTGAACTGAAAAAAATTCCTTCATGATTAATTCTACTTTTCACTTTTCTTTTCTTTTCTGCATGCATTGGGAAGCTTCATAAATCATAATACCTTGCTTCTCTTGCAATAACATTTATATGAATGTGAAATATCTTCAACATAATAATTTCTTTTATATATATTTATTAATACGTTATAAATTTTAATTATATTGCAGGAGTGTTCTTGCCTGACCTTTGTGAGAAACAACGTACGAACCCACGCCGTGCCATGGCACAGCTGTTGAGCTCCGGTGTTGCAGCAGGTCCAGTGTCATCAGCACAAATCAATGCAGTATTCCCAACCATTATCGCTGAAGCCCCAGCTCCGATGTGAATGAGGAAGCAAATCAAAGCTAGAAGATCCGACAACGCTGCCAAGGGGATTCGCAATGTAACTCCTATTCAAGTCGCTTTCATTGTTGATAGATATCTCTCCGATAACAATTACGCAGAAACCCGCTCTGTTTTCAGAGTTGAAGCTTCATCACTTATTGCAAAATCTCCCATCCAAGAGGCTCCGAAGAGCTTGCTGAGTTTAGAAGCTATGTTGGATGAGTACATCAGTTTGAAAGAGCAAAAGGTGATTCTGGATCAAGAACGAAGCTATTTGGAGCAAGAGAAGATCCGTGTCCACGCTCTTCTGCAGGGTATGCAGACTGTCATGAGTGCTTATAATTCCAGTGGAAGGTCTTCAACGCCTTCGATTTCAGCTGCTCCAGATAAAGTTGGCGTTGTTGGTCAATCTGAATCTCCAGTAGGTTGTCCCATTAACATCAAACAACCTGTTCGTCCAGAGGTCACACCTCAAAATTCTAATGGCGGACCTCAAAGTTTCATTACACCCGTTTATAATGACTTGGAAGCAAACAAGAGAAAAAGTTCCAAGACTTCCATTGTTGTTCCTCCGGCTTCTAAGAGAACTCGAAGTAAATTATCTACCAAGAAGTCGGCTAGCAAAGACGCGGATGCGCTTTCCCAATCAACGGAAGCTGGCAATGTTCAACCAACGGTTCGGCACTCTAACGAAATTCAGTCATCGTCTCCTACCTGTCCTCCTAATGAGACTGTGGTTGAAGGATCGAGTGTTGTAAAATGTTTATTTAATCAGCCTTCATTCTCTATTCCAACCAATTCTTCTGGTCCAAAGACTCCGCCCCGTGCCAATTCTTGTCAAAGTGACAAGTCTACATCACCACACGAGATTTCTTCTGCTGCCGAGTGCAGCAACATCAATACTCCACAAGGCGTTAGTCCTACTTGTTGCACTGTAATTTCATCTTCAAAAAGAGTGACAATAAGTCCTTACAAGCAAGTTGCTTACTATTCTGTGGAAAGGAACCATAGCATTTTATCTCCTTCCCCTGTCAAGACAAACGCTAAAAGGCAGGGTAAGAGAGATCAAGTGAAGGGGCGGCTAGATTTTGATGTCTCAGATGTACCCATCAGCTCCGACAAAGGGATTGAAAATGAAATTTATGCAGCCGAATCTGAAAAGCAATTGGACATATTTGACATTGACTTGCCTTCTCTAGATGTTTTTGGAGAAGACTTTTCTTTTACTGAAATGTTGGCTGATTTGGATATGGATTGTGAAGTAATTGGTTGTTCGTCCGTCCCAACCTTGGGTGCTTCTACAGACACTCTTTCTGGGTCATCTCATGAGTCCATGGACTGTAACGTGGGGACTAATCAAATAATGTCAGAATATTCATCAACCGTGACACAAATTTTATCTGGAAAAGAGTTAAATACAGAAGCAGTGAAGTCCACAACAAAATGCATAAGAATTTTAAGCCCAGGGGAAATTGTGTGTGAGGAATTGTCTGTGGATGTTTGTGCATTCTCAATAGCCTCATCTGGAAAGAGATGTTTGTTGGAGACATCAGAGACGAAAGAAGGAAAATTTGAATATCAATGTAGAACCTCTGAGGTTATTGTTGAATGGATGGCTGATTACATTGAGTCTGATCAATGCATCAATGCCTGTGGCCTCGACCGCAACTCCGTTGGTATCGCCTCCGATGCCCTCCTCGAGCCTCAATTCACTGCCAAGCTTTGCTCCCCTTCCTGCTACCAGAAATGTCCCAACATTGTTGACCTCTACTTTAACATGGCCGCAGGAGAAGGAGTGTTCTTGCCTGACCTTTGTGAGAAACAACGTACGAACCCACGCCGTGCCATGGCACAGCTGTTGAGCTCCGGTGTTGCAGCAGGTCCAGTGTCATCAGCACAAATCAATGCAGTATTCCCAACCATTATCGCTGAAGCCCCAGCTCCGATGTGA ATGAGGAAGCAAATCAAAGCTAGAAGATCCGACAACGCTGCCAAGGGGATTCGCAATGTAACTCCTATTCAAGTCGCTTTCATTGTTGATAGATATCTCTCCGATAACAATTACGCAGAAACCCGCTCTGTTTTCAGAGTTGAAGCTTCATCACTTATTGCAAAATCTCCCATCCAAGAGGCTCCGAAGAGCTTGCTGAGTTTAGAAGCTATGTTGGATGAGTACATCAGTTTGAAAGAGCAAAAGGTGATTCTGGATCAAGAACGAAGCTATTTGGAGCAAGAGAAGATCCGTGTCCACGCTCTTCTGCAGGGTATGCAGACTGTCATGAGTGCTTATAATTCCAGTGGAAGGTCTTCAACGCCTTCGATTTCAGCTGCTCCAGATAAAGTTGGCGTTGTTGGTCAATCTGAATCTCCAGTAGGTTGTCCCATTAACATCAAACAACCTGTTCGTCCAGAGGTCACACCTCAAAATTCTAATGGCGGACCTCAAAGTTTCATTACACCCGTTTATAATGACTTGGAAGCAAACAAGAGAAAAAGTTCCAAGACTTCCATTGTTGTTCCTCCGGCTTCTAAGAGAACTCGAAGTAAATTATCTACCAAGAAGTCGGCTAGCAAAGACGCGGATGCGCTTTCCCAATCAACGGAAGCTGGCAATGTTCAACCAACGGTTCGGCACTCTAACGAAATTCAGTCATCGTCTCCTACCTGTCCTCCTAATGAGACTGTGGTTGAAGGATCGAGTGTTGTAAAATGTTTATTTAATCAGCCTTCATTCTCTATTCCAACCAATTCTTCTGGTCCAAAGACTCCGCCCCGTGCCAATTCTTGTCAAAGTGACAAGTCTACATCACCACACGAGATTTCTTCTGCTGCCGAGTGCAGCAACATCAATACTCCACAAGGCGTTAGTCCTACTTGTTGCACTGTAATTTCATCTTCAAAAAGAGTGACAATAAGTCCTTACAAGCAAGTTGCTTACTATTCTGTGGAAAGGAACCATAGCATTTTATCTCCTTCCCCTGTCAAGACAAACGCTAAAAGGCAGGGTAAGAGAGATCAAGTGAAGGGGCGGCTAGATTTTGATGTCTCAGATGTACCCATCAGCTCCGACAAAGGGATTGAAAATGAAATTTATGCAGCCGAATCTGAAAAGCAATTGGACATATTTGACATTGACTTGCCTTCTCTAGATGTTTTTGGAGAAGACTTTTCTTTTACTGAAATGTTGGCTGATTTGGATATGGATTGTGAAGTAATTGGTTGTTCGTCCGTCCCAACCTTGGGTGCTTCTACAGACACTCTTTCTGGGTCATCTCATGAGTCCATGGACTGTAACGTGGGGACTAATCAAATAATGTCAGAATATTCATCAACCGTGACACAAATTTTATCTGGAAAAGAGTTAAATACAGAAGCAGTGAAGTCCACAACAAAATGCATAAGAATTTTAAGCCCAGGGGAAATTGTGTGTGAGGAATTGTCTGTGGATGTTTGTGCATTCTCAATAGCCTCATCTGGAAAGAGATGTTTGTTGGAGACATCAGAGACGAAAGAAGGAAAATTTGAATATCAATGTAGAACCTCTGAGGTTATTGTTGAATGGATGGCTGATTACATTGAGTCTGATCAATGCATCAATGCCTGTGGCCTCGACCGCAACTCCGTTGGTATCGCCTCCGATGCCCTCCTCGAGCCTCAATTCACTGCCAAGCTTTGCTCCCCTTCCTGCTACCAGAAATGTCCCAACATTGTTGACCTCTACTTTAACATGGCCGCAGGAGAAGGAGTGTTCTTGCCTGACCTTTGTGAGAAACAACGTACGAACCCACGCCGTGCCATGGCACAGCTGTTGAGCTCCGGTGTTGCAGCAGGTCCAGTGTCATCAGCACAAATCAATGCAGTATTCCCAACCATTATCGCTGAAGCCCCAGCTCCGATGTGA MRKQIKARRSDNAAKGIRNVTPIQVAFIVDRYLSDNNYAETRSVFRVEASSLIAKSPIQEAPKSLLSLEAMLDEYISLKEQKVILDQERSYLEQEKIRVHALLQGMQTVMSAYNSSGRSSTPSISAAPDKVGVVGQSESPVGCPINIKQPVRPEVTPQNSNGGPQSFITPVYNDLEANKRKSSKTSIVVPPASKRTRSKLSTKKSASKDADALSQSTEAGNVQPTVRHSNEIQSSSPTCPPNETVVEGSSVVKCLFNQPSFSIPTNSSGPKTPPRANSCQSDKSTSPHEISSAAECSNINTPQGVSPTCCTVISSSKRVTISPYKQVAYYSVERNHSILSPSPVKTNAKRQGKRDQVKGRLDFDVSDVPISSDKGIENEIYAAESEKQLDIFDIDLPSLDVFGEDFSFTEMLADLDMDCEVIGCSSVPTLGASTDTLSGSSHESMDCNVGTNQIMSEYSSTVTQILSGKELNTEAVKSTTKCIRILSPGEIVCEELSVDVCAFSIASSGKRCLLETSETKEGKFEYQCRTSEVIVEWMADYIESDQCINACGLDRNSVGIASDALLEPQFTAKLCSPSCYQKCPNIVDLYFNMAAGEGVFLPDLCEKQRTNPRRAMAQLLSSGVAAGPVSSAQINAVFPTIIAEAPAPM* Homology
BLAST of Chy4G089200 vs. ExPASy TrEMBL
Match: A0A0A0LFF6 (Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_3G732670 PE=4 SV=1) HSP 1 Score: 893.6 bits (2308), Expect = 4.7e-256 Identity = 478/496 (96.37%), Postives = 484/496 (97.58%), Query Frame = 0
BLAST of Chy4G089200 vs. ExPASy TrEMBL
Match: A0A5A7TMN6 (DNA double-strand break repair rad50 ATPase, putative isoform 1 OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold352G001170 PE=4 SV=1) HSP 1 Score: 887.1 bits (2291), Expect = 4.4e-254 Identity = 473/496 (95.36%), Postives = 482/496 (97.18%), Query Frame = 0
BLAST of Chy4G089200 vs. ExPASy TrEMBL
Match: A0A1S3B5S4 (uncharacterized protein LOC103486335 OS=Cucumis melo OX=3656 GN=LOC103486335 PE=4 SV=1) HSP 1 Score: 887.1 bits (2291), Expect = 4.4e-254 Identity = 473/496 (95.36%), Postives = 482/496 (97.18%), Query Frame = 0
BLAST of Chy4G089200 vs. ExPASy TrEMBL
Match: A0A6J1F245 (uncharacterized protein LOC111441486 OS=Cucurbita moschata OX=3662 GN=LOC111441486 PE=4 SV=1) HSP 1 Score: 791.6 bits (2043), Expect = 2.5e-225 Identity = 426/499 (85.37%), Postives = 456/499 (91.38%), Query Frame = 0
BLAST of Chy4G089200 vs. ExPASy TrEMBL
Match: A0A6J1J2B7 (uncharacterized protein LOC111482066 OS=Cucurbita maxima OX=3661 GN=LOC111482066 PE=4 SV=1) HSP 1 Score: 780.0 bits (2013), Expect = 7.6e-222 Identity = 419/499 (83.97%), Postives = 452/499 (90.58%), Query Frame = 0
BLAST of Chy4G089200 vs. NCBI nr
Match: XP_004137918.1 (uncharacterized protein LOC101221367 [Cucumis sativus] >KGN58811.1 hypothetical protein Csa_000802 [Cucumis sativus]) HSP 1 Score: 896 bits (2315), Expect = 0.0 Identity = 478/496 (96.37%), Postives = 484/496 (97.58%), Query Frame = 0
BLAST of Chy4G089200 vs. NCBI nr
Match: XP_008442481.1 (PREDICTED: uncharacterized protein LOC103486335 [Cucumis melo] >KAA0044138.1 DNA double-strand break repair rad50 ATPase, putative isoform 1 [Cucumis melo var. makuwa] >TYK24999.1 DNA double-strand break repair rad50 ATPase, putative isoform 1 [Cucumis melo var. makuwa]) HSP 1 Score: 889 bits (2298), Expect = 0.0 Identity = 473/496 (95.36%), Postives = 482/496 (97.18%), Query Frame = 0
BLAST of Chy4G089200 vs. NCBI nr
Match: XP_038905640.1 (uncharacterized protein LOC120091608 [Benincasa hispida]) HSP 1 Score: 816 bits (2109), Expect = 7.82e-293 Identity = 437/496 (88.10%), Postives = 462/496 (93.15%), Query Frame = 0
BLAST of Chy4G089200 vs. NCBI nr
Match: XP_022934274.1 (uncharacterized protein LOC111441486 [Cucurbita moschata]) HSP 1 Score: 794 bits (2050), Expect = 8.82e-284 Identity = 426/499 (85.37%), Postives = 456/499 (91.38%), Query Frame = 0
BLAST of Chy4G089200 vs. NCBI nr
Match: KAG6580503.1 (hypothetical protein SDJN03_20505, partial [Cucurbita argyrosperma subsp. sororia]) HSP 1 Score: 793 bits (2049), Expect = 1.16e-283 Identity = 426/499 (85.37%), Postives = 456/499 (91.38%), Query Frame = 0
BLAST of Chy4G089200 vs. TAIR 10
Match: AT2G37960.1 (unknown protein; BEST Arabidopsis thaliana protein match is: unknown protein (TAIR:AT3G54060.2); Has 418 Blast hits to 247 proteins in 92 species: Archae - 0; Bacteria - 163; Metazoa - 49; Fungi - 80; Plants - 28; Viruses - 0; Other Eukaryotes - 98 (source: NCBI BLink). ) HSP 1 Score: 292.0 bits (746), Expect = 1.2e-78 Identity = 207/517 (40.04%), Postives = 302/517 (58.41%), Query Frame = 0
BLAST of Chy4G089200 vs. TAIR 10
Match: AT2G37960.2 (unknown protein; FUNCTIONS IN: molecular_function unknown; INVOLVED IN: biological_process unknown; LOCATED IN: cellular_component unknown; BEST Arabidopsis thaliana protein match is: unknown protein (TAIR:AT3G54060.2); Has 30201 Blast hits to 17322 proteins in 780 species: Archae - 12; Bacteria - 1396; Metazoa - 17338; Fungi - 3422; Plants - 5037; Viruses - 0; Other Eukaryotes - 2996 (source: NCBI BLink). ) HSP 1 Score: 292.0 bits (746), Expect = 1.2e-78 Identity = 207/517 (40.04%), Postives = 302/517 (58.41%), Query Frame = 0
BLAST of Chy4G089200 vs. TAIR 10
Match: AT3G54060.1 (unknown protein; BEST Arabidopsis thaliana protein match is: unknown protein (TAIR:AT2G37960.2); Has 455 Blast hits to 322 proteins in 98 species: Archae - 0; Bacteria - 178; Metazoa - 88; Fungi - 75; Plants - 28; Viruses - 2; Other Eukaryotes - 84 (source: NCBI BLink). ) HSP 1 Score: 250.8 bits (639), Expect = 3.1e-66 Identity = 188/477 (39.41%), Postives = 270/477 (56.60%), Query Frame = 0
BLAST of Chy4G089200 vs. TAIR 10
Match: AT3G54060.2 (unknown protein; BEST Arabidopsis thaliana protein match is: unknown protein (TAIR:AT2G37960.2); Has 35333 Blast hits to 34131 proteins in 2444 species: Archae - 798; Bacteria - 22429; Metazoa - 974; Fungi - 991; Plants - 531; Viruses - 0; Other Eukaryotes - 9610 (source: NCBI BLink). ) HSP 1 Score: 250.8 bits (639), Expect = 3.1e-66 Identity = 188/477 (39.41%), Postives = 270/477 (56.60%), Query Frame = 0
BLAST of Chy4G089200 vs. TAIR 10
Match: AT3G54040.1 (PAR1 protein ) HSP 1 Score: 179.9 bits (455), Expect = 6.7e-45 Identity = 84/158 (53.16%), Postives = 115/158 (72.78%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Cucumber (hystrix) v1
Date Performed: 2021-10-25
Relationships
The following mRNA feature(s) are a part of this gene:
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