Chy4G085150 (gene) Cucumber (hystrix) v1
|
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.ATGAATTTTCGCAGTGCTATGGACCGGAAGGATAGAGCAACAGCTTCCTTGCTCAAGCGTGTTTTAGTTTCTTGTGCGTCTCAGGTATGTGAATGTGATTGAAAGTGAAACATGGATACTGGAATACTGGAATGTGTTCTTCTTTTAAATGCAATTCTATAAATTCAATGAGATATGGTCATTGGATTGTCTTTTTTTTTTTGTTAGAATCATAACCTTGGTTGAGGATCGGGTTCTTGTCCCTTAGCCTATGCTTACCTATTTTTGATGATGAATTTGATTCCTACAAATAGGAGAGTAAAGCTAATTTTTACACCAAAGAAATCAAAACGACACCCTCTCTTTGAAACTTCCGTTCATATTCCCAAAATTACATGCATTTTCTAAAATTTCCGTTTATTAGTTTGGTCTTACACTTTTTGGATTGGAGTCTTTTCTTGAAGTTGAGGACTTCTTTTATGGTCGTGTTTTTTGTTTGAATTTGTTTCTTTCTTTTTTTCTCAATGAAAACTCTGGTTCCTGTAAAAAAGATTAGAAAAAAAGAAGTTGAAGAGTTTCATTGTGGAATTTTTTCAAAATAGCATCAACACTTATGAGTCTATGACAGGGTTCCGAGACAGAATTCTAGCTAAAGCCTTTTCCCCACTTGATATACCTTGTTGACGCCATCAGTTGAAGTTCTTTAGGCACATACTTTTGTAGTTGCATCAATTTTTTTTATCAATAAGAAACTACACGTTCATTGAGAAACATGAAAGAAAATGAGAGAAAGAAGGCCATACAAAAAATAAAATAAATCAAACAGCTTGAGAAAGGGTGCTTCAATGACTAGCTATACTGAAAAAAATAGTCACAAATCTCTTTTACAGCTGAATCTCAAAGAGACACTTCAAACCTCACTAGGATCAGGGATCAAACCTCCTCATTATATGTATATATATACATCGTGGTTGGTTTTCAACAACCATTTATATACATGTGTGTGTCTAGAGTATAATTTTTAAAATCAATCAATCAATCAATTGTTTGTGTAGGCAAAACAATATGGAGGTTGTGTAGCGGCAAAGGTTCCAAAAGTTGAACGTGATATGTGTTTGAAAGAATTTATTGCACTAAAGTCTTGCATGCAAAATACGGTACCTATCGATAATTACAATTTCTTTTTTAACATATTTGAGGAAATGATGTTTTTTAAAGGAAAAAATAGAAACATATATGAGGAAGCAAATAACTGTAGAGTCCAATTAACAAAGATTTTGATTTTGGTTTTCTGTTTTCTAAAAATTGTGCTTATTTATTTATTTATTCATTTTATTTGTTTCCCAATCTACTTTCAAAAATTTTTCTTTTTGAGATCATGGCCAAATTTAAAACTAGGAAAAATTTGGTCAAGATTGCTACAGTTTTAATATACAAGTGAAAAACTAAATTAAGAAAAAAAACTGTTATACATAATTTTAACGAGCTTAATTTTTAAAAACAAAAACCTAAAAAAAAACTGCTTAAAAATGATACCTGGCTTTATCTCGTTCAAATATTTCAACTAATCAAATGGTTGTTGGATAGCTTCGGGGGAAATAGTAAGCATCGTTGCTTTGTTGAAGAAACTATCAATATCAGTTGTAAAGCTTGGAGCAGTAGAAGAAAATTTCTACATTCACGACATGCAAGCGAATGTGGTATTAAGTGTCTTGTAAAACTCTACATGAACTTTAGGTGTCTTCTGCTTTCCTAATGTCATTCACATTTTTTTCCCTTTTGCAGTGAGGTTTGAGTGAACAAGCTTAACTTGGATTGCATAAATTGCTTGGTTCCATTTTCAGAAACATTTCTCTGAGATTAAGAGGTGACTTGATAAAATGTCTGGAAGACCATCAAGATTACAACCTGGTGCTGGTCTAAGCAAATCCAGTGCTCTCTCCCATGTTTATATACAATATCCACCATTACGATGTAGAATTCCTGGATCAAGGGGATTATTTTTTGATGATGGAAATAAGTTATTGATCTGCCCAATCTTGGATCAGGTAATAGATCTTGAGCTGTTTTATGCACTTGTATTTAAAGTTCATATTGGAGAACCTGTTTTGATGGTGTTTCTTTTGTCTTTTGAATAGATCTTCTCATGGAAAACTGTTCCCTTTATTCCTGCTGTGGCTTATACCTCTGATGCAATTACAGAAGGGCCCATCTTATCTGTTCGATATTCTTTAGACTTGAAGATTATTGCAATACAAAGATCAAGTCATGAAATACAGTTTTTGATTAGAGAAACAGGTCAAACTTTTAGTCAGAAATGTAGACAAGAGTCGGAGAGCATTCTGGGATTTTTTTGGACGGATTGTCCCGTGTGCAATATTGTATTTGTGAAGACCAGGTAAGAGCATAATACAAGGCCTTTCAAATTTATGAGTGAATAGGAACCATTTCCCTTTGTAATTTGCTGGGGAAATCTAACGTCATTCTGACAAACTTTATCTTTGTGATTGTGTGGGAGGTTTTGAAAATTTATAGATCGATCACTTATTGGAGGAACAGACAATGGGATAGGAGTGGTGTGGGAGAAAATATAATTTGATGGTTCTCTTTGGTTTTCCCATCAAAGACGCCTTTTATACATATTTTAAATCATGGCTAATGGTGACCCATTTATGTAATCTCTTCAATTTTTGAGGTTTTTGTTGAATCTCTATTGCCATCCACTTCTATTTTACCCCTTTTCTATTCAATCTAGATGTTCCTTATAAATAAATATTGGTGTTTAAACTAAATATGGCATACAATTTGGGCCTGAAGGAATTTGTCTGATCTAATTTTCGATGTTAAAGGTTGGATGCCCATAGTTTTTTTGAGGTCCACAAACATTATAATTTATCTATATAGAAACAGCTGTTTTCATTAAGTATTGAGGGAAAAAAATGAAAAAATATAAGCACATGCAAAATATCAAGACCACACAACCTCTCTATGAAATTGTTTCCAATTAAGTTAGATAGTAAACAGAGAATAATAACAAGAAGTCTTCAAAATTGAAGCTCAAAGAGAAACATAAACCTCACCAAAGACCACAGATCACCAGAATTTCTCTTCACTCTAACAAACTTCTACCCCAAATATTCTTCAATAAAGCACATAACCTGTAAACCATAGAAAGCGGTCTTTCTCTTTGAAAGGTGGATTGGGGTGGGGGACTCCTCTATCATCTACCAACCATCACTATGGCAAGCTAACTCAAGATCAAACTCTTGAAAGAAATAGTTCCACATGGTTTGCCTATAGTGTATGGTTTTGTGCATTTATATATTTATATTTGGCTAAGGTGAAGTTTTCTTGCAGTGGGCTGGACTTGTTTGCTTATAGTTCTGATTCAAAGTCCTTGCATTTGGTGGAATCAAAGAAACTGAATGTGACCTGTTATGCCTACACACATGAAAGTCGATTGGTGCTTATGGCTTCTGGACTGCAGTGCAAAACTTTTCATGGATTTCAGGTACAAGTTTTACTACCATGACGTGCTGAGTTTATTTGAACTTCCACAATTTATTTATATACAGTTTACTTTAATTTTTCTGCGTTCCTGGCAACATTGCTTGGCAAAAACCATTAAAATACGGTTTCTACTTCTGGGACATTATGATAAATAGCACTCCATACTATTGTTATCAGTATGCCCACAATTTTAGTATAAATATATTTTTCTGAAGCATTTTCCTCCAATTTCACGAAGAAAATGGTAAAATTTAATCGATTACTATCACTAATTTATTATGGCATAGATGAATTTCAATCAACAAAGAGTGTCCTAGTTTATAATTAATGTAATTGCTTTTCACTTATTAACTTACATATTGATTAAATTAAATGTAACAATTTATATATGCATGTTCTAGTTTTTGTTTCTTTTGAAACGGAGACAATTATTAATAAAAGAGCCTTCAGCTCAAAGCTAGTATTATACTAAGAGCAAGAGAAAAGAGAAAATTCAGCCTACCTCTACAACAAAAGCTACATAACAATTTCCAAATAGATGAGATCAAGCTAAACAAAACCATATCCGAAGAAATCTAATTACAAAGCATAATGCAAAATCCTCTCATAAAGAACTAAATTTAAACTAAAAACTTTCAAGAAGATGCAACTGGCTGCCTCAAAACAGCCTAACCAAATTAACTGTTTTGTATTTAACTGTTTTGTTCTTATATGATCTAAATCATGTTAGATTTCCAATTATCTCATGATTATATATTATTTGTCTCATTTGGAAGCTTTTTTTTTTTTCATGTTTAGCTTTCAGCAGCAGGGATTGTTCGCTTGCCAAAGTTTGAAATGACGATGGCAAAATCTGATGCTAACAGCAAGCCTGTCCTAGCTATAGAGGACGTCTTTATTATCACTGTGTAGGGTTTTCTGTCAGTTTGCCCATTTTCTTTTTCTACATCCTTTGTGAAATTTGTTATTGTTTCTAATCAAAAGAAACTCATATGTGTATATTTTCTTAACCTCTGTCAGCTATGGAAGAATATATTGCTTGCAAGTGGATAGACTTGCAATGCTACTTCATACCTACAGGTTCTATCGTGATGCAGTTGTGCAGCAGGTATATGTTTCGAAAAACTTATCCATGTAGATAGGGTCTGTTTGTTTTTTGTGTGTTTCTTTTAAATATGTTGAGATTTAAAATGGACTAAATTGTTGGTTCCTACTTCTCTCACTCGAGTTCATTCCAAATAAGAAAATAACGTTTATACATTTGCATGGAGATTTCTTTTTGCAAATTTTAATTTGACAAGATCATTACAAGTGTCATTGTAATGGGCCAATGGTGATAGGTTATGTGGTGGAGTTACTGTGGTTCCTCAAAATTTAGTAGGTGGTCTCAGTAGGTGGTGTTCACGTCTGTTCTCATACTCTACCCTTATTTGGGATGTTATTCCCAAGTAGTTTCCTTGTGGGATCTTGTAGTGAAAATTTTTTATAAATGAAATGGCTTTTGTCTGGTATAGAACGTAAATTCTATGCTAAAGATAGCTACAAAACAAGCGCCTAATCTTGTACCTTTCAATCTGGATAATTATTTCTTTGGTTGCTTAAATTGTATTTCATATTTTATCATATTGTCGATGAAGTTTTTTAATATTTCTTGTTCTACATTTGCAATTAATGTAGAATGAAATTGTTAAGAAGTGAGTAAGAATAAACAAAAGGATTTAAAACCAAAATCTCATTCATATTTTGATTTCATTCCTAACTGGAGAAAAGTTAATACACACTTGTTGAATGGGTTATGCATGGATTGCTCCATCAATAAGCTTTACCATGCAGTTGTCTGTCAAAAGTCCGATTATATCGTTAGTCAGGTTTCATTAAATTCTAGTTCTCTTCGTGTTATGGTTCATAGGGGATCAAACTTTGCTGAGGGTGCTGCATACATTAATCAGGCTTTGTATCTGTTCTAGATTTCTAAGTTAACTCTTTGACATCAAATATAGACTAGAGGGATGTTATGCTTACTTTGCACTCATTGTTTTCTGCAGGGTTCTTTGCCAATCTACTCGAGCTCGATTGCTGTGAGCGTGGTTGACAACGTGTTGCTTGTTCATCAAGTCGATGCAAAAGTAGTTATTCTTTATGATATTTTTACTGATTCGAGGGCACCCATATCTGCTCCACTTCCTTTGTTGTCGAGAGGTTTTCCTGGACCCAATATTGATGTCCGAAGTAGTAAGCAAGATAATGCTAATTTAGAAGCTGATGCGGTACCTGATGAAGCAATTGTTTATGGGGATGGTTGGAAGTTTCTTGTCCCAGACCTGATTTGTGATCATGTCAACAAATTAGTATGGAAGATACATATAGACTTGGAGGTTATTATTGTTGTAATTTAATATCAACTGTTTCTTATCATGCAAAATTTTAGGATCTTAAGTTCTTTTTTAATGGCAGGCAATTGCTTCAAGTAGCTCTGAAGTGCCATCACTTCTAGAATTCTTGCAGCGACGTAAATTAGAAGTTAGCAAGGTAGAGCTTTAGTTTCACTGTTTGGTACGAGGATTTGTGCTTCAAATACAAGAATTCATGTAGTGTCAGTGTCTGTGCTTCTTACTTATATTCATAACTAACCAACTACCGCTTAGGGACAAGACTAACACAAACCATTTTAACCACCCAGCCCCTGAGCTGATACTGCCATCCCTTTACTGTTTTTGCCTCTAACATAGGTTTCGTAGGTGTATTGGCTATAATTATGTTGTGGTTCCCAATTTATTTTTTGGGCGAATGTCAAAAGTATTTCTTTCTTTGATATTAAATAATTCCTGCTGATGTTCAGGCTAAACAGTTGTGCTTGACCTTGACGAGAACTACAATTCTGGAGCACAGGCCAGTGGCTAGTGTTGCTAAGGCTATAGAAGTTCTAATCTCGTCATATACTCGCATGACCAAAGTAGGTCCTAATAACAAGGAATCAAAAACCGACAGATCGCAGTCGGTTGTGCCTCAAGATAGTGGCTCTGGCCCTGTACCTGGTTCTAATAACCGTGATTCAGCTGCTGGAGTGGAAAGTGAAGCCCTTCACAGAACTTCAATATTTCCATCTTCAGATTCTGAGGAGAATGCTGACATTGAACAACTAAATACAGTTCCAGGCAACCATCAGTCTATAGTTGAAGCTCAGGCATCATCTTCACAGTATCAACATCTTGGTCCCGGATGTATTCGGTTGAATGACGATGTCTCTGATGAGGGATCTATGATTTCGTCACCATCTATCTCACCAGATGAGATGTACAGCTTTGTGTTTGCTCCCATTGAGGAAGAGATAGTTGGAGACCCTTCTTACTTGCTGGCTATAATTATCGAGTTCCTCCGCAGGTATTCGATATTCTTTCAATTTCAAAGTGTTTTGAATTCTCTCGTAGAAACAGCCAAACAGGGTCTTATTCTGATTGCAGCATGCCAATTTCTTTACCCATGTGTTCAACGGGTAATGGTTATGATTTCAAAATCATCGTTCTATACTCTCTTTAGTACAATGCTAGCGGTTTGATCATTATGTGATTTACTTCTTGTTGATACTTGATGTGATTGAGAAATAAAAACTATGGATAAGTTCCAAGTATAGGGTTTCAAGAAATTTAATCTACTGCCGTACAATTTTATAATAAATGGCTGTTGATTTAAGTTTTCGAATTTGCATATTGGTTTAATGGCCTGGCCATCAACCATAACCATAAGCGTAGTTTGTACATTTTTCTGTATGTTCATTTGGTATTTCCCTCCTTTTCCGTTTTTTTGTAGGGTTAATATGGAAAAGATCAAAGTAAACCCAAACATCTATGTCTTGACAGTCCAAATATTAGCTCGCAATGAACGATACACAGAAATTGGATTATTTGTGCACCAAAAGGTATTAATCTTTTCTTACAAGGTCTTCCCGGAAGGGTGAGAGGGACACAAATGAATGCACCAGTTAAAGAGGTCTTTTCTCTTCTGACAGATTCTAGAACCTTCTAAAGAGGTTGCCTTGCAATTATTGGAGTCTGGTCGCCATAATTTCCCCACAAGGAAACTGGGACTGGATATGCTCCGGCAGCTTTCTCTACATCATGATTATGTGTCGCTGCTCGTGCAAGATGGATATTACCTCGAAGCATTGCGCTACACAAGGAAGTTTAAGGTATTTTTTTTTTATATCTCATATGAATATCCATGTCAATATGAAATGTTAATGCTTGATTTTTCTTTTCATTTCTTCAATGAATTTTTTTTGGGGTTCAAAGAAGATATACAACTTATTTTGAAAGTGAAAAAGTTCCAAGTATTAATTGAAATGATATTTTAACATTTCATGATTAAGAAGAATATGAGTGGATAATAATGATATTTTGTCCGATACATCCATGTATCCAAATGATATCGACATTGATATTTTAATTATTGTTCCTCACCTTTCCCAAATATATTGAATTTGGAAGAATTTTCTTGCTGTGTTTCACGGTGTGAGGACTTAAGCTATGCACATGTTGTCGATTTGATTCATATATTTTGAACGTCTCTGAATCTCTGTTGTGTTTCATTTAATAGTAACCTTTCTGATTCACAAAACTGAGAATGACTTTCCAAAAACATGATGCAGGTTGACACAGTCCGGCCGGCCTTGTTTCTTCAAGCTGCTTTTGCAACCAATGATCCACAACGTTTGTCAGCAGTTTTGAGATTCCTGTCAGATTTAACTCCTGGAATAAAAAATACCTCAGATTACATTAGGTACCGTCAGATTCTCACTGAAATGAACTCTTGTGCTTCTGCTTGAATGAATTTTCGCAGTGCTATGGACCGGAAGGATAGAGCAACAGCTTCCTTGCTCAAGCGTGTTTTAGTTTCTTGTGCGTCTCAGGCAAAACAATATGGAGGTTGTGTAGCGGCAAAGGTTCCAAAAGTTGAACGTGATATGTGTTTGAAAGAATTTATTGCACTAAAGTCTTGCATGCAAAATACGAAACTATCAATATCAGTTGTAAAGCTTGGAGCAGTAGAAGAAAATTTCTACATTCACGACATGCAAGCGAATGTGATCTTCTCATGGAAAACTGTTCCCTTTATTCCTGCTGTGGCTTATACCTCTGATGCAATTACAGAAGGGCCCATCTTATCTGTTCGATATTCTTTAGACTTGAAGATTATTGCAATACAAAGATCAAGTCATGAAATACAGTTTTTGATTAGAGAAACAGGTCAAACTTTTAGTCAGAAATGTAGACAAGAGTCGGAGAGCATTCTGGGATTTTTTTGGACGGATTGTCCCGTGTGCAATATTGTATTTGTGAAGACCAGTGGGCTGGACTTGTTTGCTTATAGTTCTGATTCAAAGTCCTTGCATTTGGTGGAATCAAAGAAACTGAATGTGACCTGTTATGCCTACACACATGAAAGTCGATTGGTGCTTATGGCTTCTGGACTGCAGTGCAAAACTTTTCATGGATTTCAGCTTTCAGCAGCAGGGATTGTTCGCTTGCCAAAGTTTGAAATGACGATGGCAAAATCTGATGCTAACAGCAAGCCTGTCCTAGCTATAGAGGACGTCTTTATTATCACTGTCTATGGAAGAATATATTGCTTGCAAGTGGATAGACTTGCAATGCTACTTCATACCTACAGGTTCTATCGTGATGCAGTTGTGCAGCAGGGTTCTTTGCCAATCTACTCGAGCTCGATTGCTGTGAGCGTGGTTGACAACGTGTTGCTTGTTCATCAAGTCGATGCAAAAGTAGTTATTCTTTATGATATTTTTACTGATTCGAGGGCACCCATATCTGCTCCACTTCCTTTGTTGTCGAGAGGTTTTCCTGGACCCAATATTGATGTCCGAAGTAGTAAGCAAGATAATGCTAATTTAGAAGCTGATGCGGTACCTGATGAAGCAATTGTTTATGGGGATGGTTGGAAGTTTCTTGTCCCAGACCTGATTTGTGATCATGTCAACAAATTAGTATGGAAGATACATATAGACTTGGAGGCAATTGCTTCAAGTAGCTCTGAAGTGCCATCACTTCTAGAATTCTTGCAGCGACGTAAATTAGAAGTTAGCAAGGCTAAACAGTTGTGCTTGACCTTGACGAGAACTACAATTCTGGAGCACAGGCCAGTGGCTAGTGTTGCTAAGGCTATAGAAGTTCTAATCTCGTCATATACTCGCATGACCAAAGTAGGTCCTAATAACAAGGAATCAAAAACCGACAGATCGCAGTCGGTTGTGCCTCAAGATAGTGGCTCTGGCCCTGTACCTGGTTCTAATAACCGTGATTCAGCTGCTGGAGTGGAAAGTGAAGCCCTTCACAGAACTTCAATATTTCCATCTTCAGATTCTGAGGAGAATGCTGACATTGAACAACTAAATACAGTTCCAGGCAACCATCAGTCTATAGTTGAAGCTCAGGCATCATCTTCACAGTATCAACATCTTGGTCCCGGATGTATTCGGTTGAATGACGATGTCTCTGATGAGGGATCTATGATTTCGTCACCATCTATCTCACCAGATGAGATGTACAGCTTTGTGTTTGCTCCCATTGAGGAAGAGATAGTTGGAGACCCTTCTTACTTGCTGGCTATAATTATCGAGTTCCTCCGCAGGGTTAATATGGAAAAGATCAAAGTAAACCCAAACATCTATGTCTTGACAGTCCAAATATTAGCTCGCAATGAACGATACACAGAAATTGGATTATTTGTGCACCAAAAGATTCTAGAACCTTCTAAAGAGGTTGCCTTGCAATTATTGGAGTCTGGTCGCCATAATTTCCCCACAAGGAAACTGGGACTGGATATGCTCCGGCAGCTTTCTCTACATCATGATTATGTGTCGCTGCTCGTGCAAGATGGATATTACCTCGAAGCATTGCGCTACACAAGGAAGTTTAAGGTTGACACAGTCCGGCCGGCCTTGTTTCTTCAAGCTGCTTTTGCAACCAATGATCCACAACGTTTGTCAGCAGTTTTGAGATTCCTGTCAGATTTAACTCCTGGAATAAAAAATACCTCAGATTACATTAGGTACCGTCAGATTCTCACTGAAATGAACTCTTGTGCTTCTGCTTGA ATGAATTTTCGCAGTGCTATGGACCGGAAGGATAGAGCAACAGCTTCCTTGCTCAAGCGTGTTTTAGTTTCTTGTGCGTCTCAGGCAAAACAATATGGAGGTTGTGTAGCGGCAAAGGTTCCAAAAGTTGAACGTGATATGTGTTTGAAAGAATTTATTGCACTAAAGTCTTGCATGCAAAATACGAAACTATCAATATCAGTTGTAAAGCTTGGAGCAGTAGAAGAAAATTTCTACATTCACGACATGCAAGCGAATGTGATCTTCTCATGGAAAACTGTTCCCTTTATTCCTGCTGTGGCTTATACCTCTGATGCAATTACAGAAGGGCCCATCTTATCTGTTCGATATTCTTTAGACTTGAAGATTATTGCAATACAAAGATCAAGTCATGAAATACAGTTTTTGATTAGAGAAACAGGTCAAACTTTTAGTCAGAAATGTAGACAAGAGTCGGAGAGCATTCTGGGATTTTTTTGGACGGATTGTCCCGTGTGCAATATTGTATTTGTGAAGACCAGTGGGCTGGACTTGTTTGCTTATAGTTCTGATTCAAAGTCCTTGCATTTGGTGGAATCAAAGAAACTGAATGTGACCTGTTATGCCTACACACATGAAAGTCGATTGGTGCTTATGGCTTCTGGACTGCAGTGCAAAACTTTTCATGGATTTCAGCTTTCAGCAGCAGGGATTGTTCGCTTGCCAAAGTTTGAAATGACGATGGCAAAATCTGATGCTAACAGCAAGCCTGTCCTAGCTATAGAGGACGTCTTTATTATCACTGTCTATGGAAGAATATATTGCTTGCAAGTGGATAGACTTGCAATGCTACTTCATACCTACAGGTTCTATCGTGATGCAGTTGTGCAGCAGGGTTCTTTGCCAATCTACTCGAGCTCGATTGCTGTGAGCGTGGTTGACAACGTGTTGCTTGTTCATCAAGTCGATGCAAAAGTAGTTATTCTTTATGATATTTTTACTGATTCGAGGGCACCCATATCTGCTCCACTTCCTTTGTTGTCGAGAGGTTTTCCTGGACCCAATATTGATGTCCGAAGTAGTAAGCAAGATAATGCTAATTTAGAAGCTGATGCGGTACCTGATGAAGCAATTGTTTATGGGGATGGTTGGAAGTTTCTTGTCCCAGACCTGATTTGTGATCATGTCAACAAATTAGTATGGAAGATACATATAGACTTGGAGGCAATTGCTTCAAGTAGCTCTGAAGTGCCATCACTTCTAGAATTCTTGCAGCGACGTAAATTAGAAGTTAGCAAGGCTAAACAGTTGTGCTTGACCTTGACGAGAACTACAATTCTGGAGCACAGGCCAGTGGCTAGTGTTGCTAAGGCTATAGAAGTTCTAATCTCGTCATATACTCGCATGACCAAAGTAGGTCCTAATAACAAGGAATCAAAAACCGACAGATCGCAGTCGGTTGTGCCTCAAGATAGTGGCTCTGGCCCTGTACCTGGTTCTAATAACCGTGATTCAGCTGCTGGAGTGGAAAGTGAAGCCCTTCACAGAACTTCAATATTTCCATCTTCAGATTCTGAGGAGAATGCTGACATTGAACAACTAAATACAGTTCCAGGCAACCATCAGTCTATAGTTGAAGCTCAGGCATCATCTTCACAGTATCAACATCTTGGTCCCGGATGTATTCGGTTGAATGACGATGTCTCTGATGAGGGATCTATGATTTCGTCACCATCTATCTCACCAGATGAGATGTACAGCTTTGTGTTTGCTCCCATTGAGGAAGAGATAGTTGGAGACCCTTCTTACTTGCTGGCTATAATTATCGAGTTCCTCCGCAGGGTTAATATGGAAAAGATCAAAGTAAACCCAAACATCTATGTCTTGACAGTCCAAATATTAGCTCGCAATGAACGATACACAGAAATTGGATTATTTGTGCACCAAAAGATTCTAGAACCTTCTAAAGAGGTTGCCTTGCAATTATTGGAGTCTGGTCGCCATAATTTCCCCACAAGGAAACTGGGACTGGATATGCTCCGGCAGCTTTCTCTACATCATGATTATGTGTCGCTGCTCGTGCAAGATGGATATTACCTCGAAGCATTGCGCTACACAAGGAAGTTTAAGGTTGACACAGTCCGGCCGGCCTTGTTTCTTCAAGCTGCTTTTGCAACCAATGATCCACAACGTTTGTCAGCAGTTTTGAGATTCCTGTCAGATTTAACTCCTGGAATAAAAAATACCTCAGATTACATTAGGTACCGTCAGATTCTCACTGAAATGAACTCTTGTGCTTCTGCTTGA MNFRSAMDRKDRATASLLKRVLVSCASQAKQYGGCVAAKVPKVERDMCLKEFIALKSCMQNTKLSISVVKLGAVEENFYIHDMQANVIFSWKTVPFIPAVAYTSDAITEGPILSVRYSLDLKIIAIQRSSHEIQFLIRETGQTFSQKCRQESESILGFFWTDCPVCNIVFVKTSGLDLFAYSSDSKSLHLVESKKLNVTCYAYTHESRLVLMASGLQCKTFHGFQLSAAGIVRLPKFEMTMAKSDANSKPVLAIEDVFIITVYGRIYCLQVDRLAMLLHTYRFYRDAVVQQGSLPIYSSSIAVSVVDNVLLVHQVDAKVVILYDIFTDSRAPISAPLPLLSRGFPGPNIDVRSSKQDNANLEADAVPDEAIVYGDGWKFLVPDLICDHVNKLVWKIHIDLEAIASSSSEVPSLLEFLQRRKLEVSKAKQLCLTLTRTTILEHRPVASVAKAIEVLISSYTRMTKVGPNNKESKTDRSQSVVPQDSGSGPVPGSNNRDSAAGVESEALHRTSIFPSSDSEENADIEQLNTVPGNHQSIVEAQASSSQYQHLGPGCIRLNDDVSDEGSMISSPSISPDEMYSFVFAPIEEEIVGDPSYLLAIIIEFLRRVNMEKIKVNPNIYVLTVQILARNERYTEIGLFVHQKILEPSKEVALQLLESGRHNFPTRKLGLDMLRQLSLHHDYVSLLVQDGYYLEALRYTRKFKVDTVRPALFLQAAFATNDPQRLSAVLRFLSDLTPGIKNTSDYIRYRQILTEMNSCASA* Homology
BLAST of Chy4G085150 vs. ExPASy Swiss-Prot
Match: Q54LC7 (Regulator of MON1-CCZ1 complex homolog OS=Dictyostelium discoideum OX=44689 GN=DDB_G0286707 PE=3 SV=1) HSP 1 Score: 73.2 bits (178), Expect = 1.5e-11 Identity = 59/232 (25.43%), Postives = 113/232 (48.71%), Query Frame = 0
BLAST of Chy4G085150 vs. ExPASy Swiss-Prot
Match: Q8VC42 (Regulator of MON1-CCZ1 complex OS=Mus musculus OX=10090 GN=Rmc1 PE=2 SV=1) HSP 1 Score: 64.7 bits (156), Expect = 5.2e-09 Identity = 44/175 (25.14%), Postives = 84/175 (48.00%), Query Frame = 0
BLAST of Chy4G085150 vs. ExPASy TrEMBL
Match: A0A0A0LEC9 (Mic1 domain-containing protein OS=Cucumis sativus OX=3659 GN=Csa_3G799630 PE=4 SV=1) HSP 1 Score: 1283.1 bits (3319), Expect = 0.0e+00 Identity = 662/674 (98.22%), Postives = 666/674 (98.81%), Query Frame = 0
BLAST of Chy4G085150 vs. ExPASy TrEMBL
Match: A0A5A7TKD9 (Mic1 domain-containing protein OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold352G005220 PE=4 SV=1) HSP 1 Score: 1243.8 bits (3217), Expect = 0.0e+00 Identity = 642/674 (95.25%), Postives = 657/674 (97.48%), Query Frame = 0
BLAST of Chy4G085150 vs. ExPASy TrEMBL
Match: A0A1S4DUS0 (uncharacterized protein LOC103486744 OS=Cucumis melo OX=3656 GN=LOC103486744 PE=4 SV=1) HSP 1 Score: 1243.8 bits (3217), Expect = 0.0e+00 Identity = 642/674 (95.25%), Postives = 657/674 (97.48%), Query Frame = 0
BLAST of Chy4G085150 vs. ExPASy TrEMBL
Match: A0A6J1F1E9 (uncharacterized protein LOC111441498 isoform X1 OS=Cucurbita moschata OX=3662 GN=LOC111441498 PE=4 SV=1) HSP 1 Score: 1159.4 bits (2998), Expect = 0.0e+00 Identity = 603/686 (87.90%), Postives = 633/686 (92.27%), Query Frame = 0
BLAST of Chy4G085150 vs. ExPASy TrEMBL
Match: A0A6J1J5P9 (uncharacterized protein LOC111481584 isoform X1 OS=Cucurbita maxima OX=3661 GN=LOC111481584 PE=4 SV=1) HSP 1 Score: 1157.5 bits (2993), Expect = 0.0e+00 Identity = 602/686 (87.76%), Postives = 633/686 (92.27%), Query Frame = 0
BLAST of Chy4G085150 vs. NCBI nr
Match: XP_004136556.1 (uncharacterized protein LOC101218836 [Cucumis sativus] >XP_011652078.1 uncharacterized protein LOC101218836 [Cucumis sativus] >XP_011652080.1 uncharacterized protein LOC101218836 [Cucumis sativus] >XP_011652081.1 uncharacterized protein LOC101218836 [Cucumis sativus]) HSP 1 Score: 1280 bits (3311), Expect = 0.0 Identity = 662/674 (98.22%), Postives = 666/674 (98.81%), Query Frame = 0
BLAST of Chy4G085150 vs. NCBI nr
Match: XP_016899713.1 (PREDICTED: uncharacterized protein LOC103486744 [Cucumis melo] >KAA0043752.1 uncharacterized protein E6C27_scaffold236G00810 [Cucumis melo var. makuwa] >TYK25381.1 uncharacterized protein E5676_scaffold352G005220 [Cucumis melo var. makuwa]) HSP 1 Score: 1240 bits (3209), Expect = 0.0 Identity = 642/674 (95.25%), Postives = 657/674 (97.48%), Query Frame = 0
BLAST of Chy4G085150 vs. NCBI nr
Match: XP_038903891.1 (regulator of MON1-CCZ1 complex isoform X3 [Benincasa hispida]) HSP 1 Score: 1197 bits (3096), Expect = 0.0 Identity = 619/686 (90.23%), Postives = 644/686 (93.88%), Query Frame = 0
BLAST of Chy4G085150 vs. NCBI nr
Match: XP_022934291.1 (uncharacterized protein LOC111441498 isoform X1 [Cucurbita moschata]) HSP 1 Score: 1156 bits (2991), Expect = 0.0 Identity = 603/686 (87.90%), Postives = 633/686 (92.27%), Query Frame = 0
BLAST of Chy4G085150 vs. NCBI nr
Match: KAG6580792.1 (Regulator of MON1-CCZ1 complex, partial [Cucurbita argyrosperma subsp. sororia]) HSP 1 Score: 1155 bits (2987), Expect = 0.0 Identity = 602/686 (87.76%), Postives = 632/686 (92.13%), Query Frame = 0
BLAST of Chy4G085150 vs. TAIR 10
Match: AT3G12010.1 (FUNCTIONS IN: molecular_function unknown; INVOLVED IN: biological_process unknown; EXPRESSED IN: sperm cell, cultured cell; CONTAINS InterPro DOMAIN/s: Colon cancer-associated Mic1-like (InterPro:IPR009755); 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: 695.7 bits (1794), Expect = 4.3e-200 Identity = 373/671 (55.59%), Postives = 481/671 (71.68%), Query Frame = 0
BLAST of Chy4G085150 vs. TAIR 10
Match: AT3G12012.1 (conserved peptide upstream open reading frame 20 ) HSP 1 Score: 77.0 bits (188), Expect = 7.2e-14 Identity = 36/56 (64.29%), Postives = 45/56 (80.36%), 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 Position : 0 Zoom : x 1
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.
|