Cp4.1LG15g04110 (gene) Cucurbita pepo (Zucchini)
The following sequences are available for this feature:
Legend: five_prime_UTRCDSthree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.AAAAAAATTGCAAAACGAGGTTCATGGACCTATTTGGCAAGAAAGGAAAAAAAAGGAGAGTTTTTTGGAGTGTATATCCGTTTTTTCAATCTCTTTCAGAGACATTCCGTCAAATCCCACTGCTTAATTCTCGTCGATCCTTCTTCTTCAGTCTTCACTTCACGCCCGCCTTCGAAGATTCCATAGAACTTCTCTAATTTTCTCCATCTCCTCGCAGTAGTTGTCTCGACCCCCCCGTTCTTTCCCTGGTATTGAAAACATTTCTCTATCTTTTTTTTGTTTGTTTAACTGCAATTGTTTGCTTTCCCTTATGATTGATTTTTGGGAACTTCGCTGAATTATGGTAATTTGTTTCGAGTATCCAGAATTCGAAATGAAACTGGTGTGTCAAATTTATGTGGCTGTCGAATTGAGTTGTTTGTTTGTGTTGACGGGTTCGTCTCAAATCGAATTGAGGAGTATTTTGTTGTGACTTGCTCTTATTGACTAGTTTGATCTGATTAAAGTGAAATATAGGTTAGTGATGGTTTTGATGGAGCTTTTAAGAATATGCGCTTATTTCACCGAAGACTACTAAATCTCTACTGGGAATTTTTTGAAATATTGCTTGGGAACCGTTTGCATAACTATATGATTGGCGTTTTCAAGAATTTTTGTTTAAATGGTTCTTATATCAATGATTGTTCGATTCTTTATTGTCCTTTTTTTCTATCAAACAGTGGAATCGTTCTGTTATGTTCTGCCCAAACTGATAGCTTCTATGGTTGAATGAGACCCATGATAATTGTACTCTGTTGATTATTAATTCTTCTCCATCTTTGCATCGATACGGTGCAGAGAAGGTTTTGTTTTGTCGTTTATATTTTTGTACACAAAATTTCACTCTTAGCTATTTTCCTTGGTACTTTAGAGTGCAATCAGCTATCTCCCTGGTTCCTTTTCAAGTTTTACCTCACATGGCTTCGTCTGAGATTGAGGTTGTAGCATCACCCAACTCGAAATCTCAGACAAACCCTGAAGTTGCCATTGTAGACGTTTACTCTGCTTCTGCTTATGGCGACTTCCAGAAAGTGAGGAGTTTCGTTGAAGAGCATGGAGCTTCTGTTTTGGTTCCTGATTCCAACGGGTACTATGCTTTGCAATGGGCTGCTTTAAACAACTTCCCTGATATCGTCCAGTACATCATTGAGGTTTTTTTTTTTATGACCTTTTTGCCTACTTGATTTTAATGATATTCTGTCTGTCTAGATTGTTGGATGTAGATTAATCGTCCCTGTTACATTGCATGTTTTGAGTTCAGTCAGTTGACTTGTTTTATGGAATGTAAAGCTGGCGTAGCATGATTTATGTGTCGTTCCAGATAGAGGAACAAGAATAAAGTTTATTGGATGTGAAGGAAGTGCATGTGTTGGATTTTTGTATTGATGAATTTCATAGCATTAGGGCATTTTTTATGTTGCTCAAGAAGTTTAAATTGATGGTCTTTTGAGGTTTATGTCAGTTCCCTACCAAAGTTTTTGATGATTGTTTTCGTCAGCATGGAGCGGATGTCAATTCCTGTGACAAATTGCAGCAGACAGCGCTTCACTGGGCAGCAGTTCGAGGTTCAATTATGGCTGCGGATGTACTCCTGCTGAATGGAGCTCGAGTGGAGGCAGCTGATATAAATGGGTATCGGGTAACTTTGAATATTTAGCAACTTTTGATTTGGTTAGATATTGACGATACGAGGACAGTTTTCACATATATGATATTTCTTCTGAAAGTTGTGGTTAATTATGAACCTCAGATGCTTTTTACATAGAGATGAGCTCATGTATTTTTGTTCGTGATATTATATTTTAAATTTTAATGGAGAGGATTTCCAGTCTCAAATCTAGTGGAGTATGAATTAATGATATTACTAATGAGGGGATATCTGATATATTGTGAATTTCATATTTAAAACTGTAGAATAGTATTCAGAATGCATTTGCAAAGAAAATTTATGGTTGCCATGATATTAAGCGATGAACGTTTGGTTTCTCATAATATACACTCACCGAAAGATAGTATTGTCCATTTTCAGCATCTTAATTTATTTTGATTTATCGTATTAAAAACCCATTCTGTTTATAGACTGTTTCCTTCATTCATCCTCATGATGGGCTGTTCACTTCATTCGTCGTCATTTACTGTTCAATTGATTTGATTTTTATTCATCATTATTATTCATTAATTTTCTGCGCTCCGTTTGACTCAAATTTGTGCATTTCGGCATGAAATGCAGGCAGTTCATGTTGCTGCTCAATATGGACAGACTGCATTCTTGAATCACATTGTTGCCAAATTCCACGCTGACTTTGACGTTCCAGATAATGAAGGGAGGAGTCCTCTTCATTGGTATGCCCCAAGCCTTTGGATATATACAATAAATACTCTGTCTATCGTTTTAAGCATTTGAACCAAGACAATTAAATGTAGAGATCGATAACATCCCTTTCCCACTTCTTTTTTGGTTTATCTTAGCTGCTGACATCTGTAGTATTCAAAATTGGGATGGTTGAAATAAGTCTTATCTGAAGGTATACTTGGTAATTGTAGCAACTGTGTTATGATGCATACATGCATACATCTCTAAATGGAAAGCTTGGTATATCCCCCTACTGTATTATAATATTTCTATTTAGCATATTTTCAACCTCCTACTGAGTTTTGGTCAATTTTGATCTGGCAAAGATTAATCTAGGCCTATAAAGTCCATCATTTGTTAGTAAGGGATATAATTCAATGCAAACCTCTGGAAACTGAACTGAGGAAGATTTATCTTTATAATGAAGTCAGAAAGGATTTTTTATAAGGTCAACATCGTATGTGGTTTCTCGAGCTCTCAAATATTAATATCTATTGAATTCTCTCTCCTAAAAGGGATTGTTGACTTGGTTGTATTAAGATGTCAAACTCTCGGCTATTTCAAATGATTGATTGTTTCACATTCAATATTGGACTTTATTTTCTGGCCATTCAAATTGTGTAAAAAGTTATTTATTCTCTTGTTCACCTAAACTGATTGATGAACCAAAGGTAGAGGGTGGGCGTACAAATGTCTTCTCTTTATCAATATTATATGGTTTCTTTTGTTTTTCGGTCTCTTCATTTAAAATATATCTAGACGCTTCAGAACGAAAGTTCATCTCATGGTTTCAATCAGGGCTGCATACAAAGGATTTGCAGATACAATTAGACTTCTTTTATTCAGAGATGCAAGCCAAGGAAGACAAGATAAAGAAGGTATACTACACATGCATTTCTGAATTGAGACCAGTGTTATTCTTTGGTTTCTATTTTTTTTAAGTTTTTACTAGTGTCGTTCGAGTGTGATCATCTTCCTGGGTTAGATAGAGAAGAAATATGCCCTTTCAAATTTTAAGCTCTGGAAAGTCTCGTGATAGTTTTGGCTATCTTTTGTACATCTAACGTTGACACATCCAAAAAAAGGGGAAGAAAAGCCATCGTGTGTATTTTCCCGTGTCCCCATATGCTATGTACTTCATTTTTAGGGCTTCCCCCATGTACACTTTTCTTTTTTTTAATTGATTTCTTCATAATGGTAAATTTGCCAGTCATATCTTTCAGTATGACAGCTTCAAAGATGTGATACAATTTTCCAGTTCTTGAATAAGGGCTTGAAATGAGTTAAATTGTTTGAGAAAGAAAACTAAGGCCTCTAAGTGGTTGGTTTTGCACAGGATAACAATTACTTATTGCACTTATAGCGATAATCTAATCACCCCACCAGGTTGTTCAGTTTATGGCAGGGGACACGCTAATTATTTAAATAGTTAATTGCCTATATCTTGATTCATCTAATTATTCTGCCTTAGGTTTCATAAGTTCTTCTATGCTTTTTATTAGGTTGTACCCCTGTGCATTGGGCTGCATTAAGTGGAAATGTGGAGGCATGTACTGTTCTTGTGCATGCCGGAACAAAGCAAGAATTGTTGATCAAAGACAATGCCGGTTATACTCCTTTCCAGCTTGCATCTGATAAAGGTCATCGGCAAATTGCTAATTTCCTTGTATGTTTCCGAACAAAAATGTGGCTTGCTTTTTAATAATGAAGGTTTTATTGACTTGTTTAGATCATTTTCAAGCTGATATGATATTGGGTGTTCTGATATTTTATAGTCTAAAGCACAACCGACACATCACAGCCACTTTGGAGCAAAATTTTGTACTAGGAAGATTAAAAATTTTGGTTATGCCCCTATTTTACTATGTATCATCATCATTCTCGTGATCCTCTTCATCAACTCAGTTCTTGGAGGCAAGTTATCTTCTCATTGAAAATGTCTATTTTACTTGGAGAATATGTCTGACTTATTATTGACTGTAGGCTCTAATCTTGCGAAGGTTACTGCTGTTGTTGGACTTTGGGCATGGGCGGCCCTCTGTTTGACATTTGTTGCTATGATAATGTTTTATACGTGTAGTAGGTAATTCCCTAACCTACCTGGCACATGCTCATTCTCTATCTTTGTAACTTGTCTGATCAGTTCTCTTGACGCCTTATTATTTATATGAGTGATTCTTATAATTTCTCCCCCGAATGACTCGGTTATAAATCATGTCAATCCAAAAGCTTATAGAAATTGATTGCAATTACAAGACTTATGAACATCGTAATGATAACAAGAGCCTACAAGTAGGTTCCCTTTATATGTTACCATGCCAACTGCCATAACGATTTTTGGATCAACAGCAATGATATCGGTTCCTAGTGAGGATACAATACTGTATCCTTCTTTTTTGTAATCTTGAATCTTGAATAATGGAATTGTTCCTCATTTAAAAAAAAAAAATAATGGTAGTTTTTACTATTATGTGCAGCAAGGATCCAGGCTACATAAAAAGACCCGGGGAGTTGGGCAATCCTGCCAATACAGAGGTATATGAGTCTCTGTTTGAGGAATTTCAGTGTTTTGATTTTTAATGGAAAACCTGTTCATTCGTTTATTACTTGTAGTTTACTATTATATTTTATTACATAATTGAATTTCTTGCATTTTTTCAGGATCCTTTGTTGAGCATTGATCTCAACAATTCTTCAGTATGGATGGGGAATTGGTCTCAACTATGCCCCACTTGCAAGGTTTATTTCAGAAACCTTTTGATAAAAATTGATCTTTAAAGGGACATAATCTTGTGGTATAATTGATGAACGTATTTTCTCTGGTGATCTAAGTTGACACTATCACGTTGCTTTCAGATAATTAGACCCGTTCGTTCGAAGCACTGTCCTACTTGTAATCGATGTGTGGAACAGTTTGACCACCACTGCCCGTGGATATCTAATTGTGTGGGGAAGGTGGGAAGATCTGCTTGTTTTTAATTTTGATCTTGGATGTGTTATTCATTTGTGGATCTTATTCTTTAAATTATATAGACAACTAGATGAATTAAGGGATAATTCTGTGCGAACTATTGCAGTTATTGCATACAAATAGATGATATAAGAGACACATTTGGACTATATAGCTTCATGTCACTCTGATTATCTGACAACTTTATTCCGTTAATTTTTTATGATACTTTGCAGCGGAATAAACGGGATTTTTTTGTCTTCGTCTGTTTGGGAACTTTGACATCACTCCTTGCTGGCTGTATTGCCATAAAAAGTATGTCATTTGAGACAAGTGAATGATACAAGTTTGTTTAAGACATCACTTTTCTTCTTTTGAAATTGGTATGAGCTTTCTCTTCTATTGCAGGAATCTATGAAGTGCCTTCAGCATTGCAAACCGGAGAAACTTGGTTTCTTCATGTGGTAGTTCATTATCCCGGAGTCGTTATATTTCTTTTTCTGGACGGTATCATATTTTTGGCTGCCACAACTTTGACCGTGGCTCAGGCATCTCAGGTAATTGTCAAAACCAACACTGTAGCTCAATTTTCCATAACAAGATATAGTATTTTTAGTCGCATCTTCTGGAACCATATACATCTGAGGACATATTGAACCTCTGGTTTTCGTGATAGGATTGGACAACGATAACTTCTTACTCTTAACGTTCTTAATAACATTACACATTTGGTTGATCTCAACCTACTGGATTGAATTTGGAGGAACCTGTAGACTAGTTTCTCAACCTGTCACCAAAAAACCCGTCAGTGTCTTTTGTATACTGTCTTTTCCATACTGTCTTTTCAACCTGTCACCAAAAAACCCGTCAGTGAACTTCATCTTTGTAGGCTAATGTCCTTCATAGAATATTTCAGTGAAAAACTTAAATTCTAGGCAAAAATGGAGCACCGACTAGCAAGAACATTATTCCCTAGTTAGAGCCCATAAACAATGGGAGCATTACTTGTTATGAAAGGAGCTTATACTCTTAACAGATCACTATTTTCATGAATTTCTTCACACAAAAAAAGGCTATAAGAAGGATGCGTTCTAAATGGATCACATTTATTCAAAAGTTTGATTTCCTAATTAAACACAAGGTTCGAAAAAAACTAACAAAGTGGCTAATGCACTTAGTAGAAAGCATTCGTTACCCAGTTCCTCAAGTCACCTAAAATCGATAGACAAACCAAAATAACTAAGCGAACTCTTGGCAAAGATTCGTTTCCTTTGTGGGGATAAGCCGCGCCAATGAGACCTTGCTCTTCCTCAAGCGGAGTTTGCTTATATATGAGGAATCAATCAACAGGAATGTCACCATTTGAGATGTGCACTACCATCTCGAAGAGTTTGGCAATACTAAACTTCCTAGTTTTACCTAGGACCTGGCTACAGTACCATCTTCTTTGAATGTGCAAACGGAAGCCAAGGAGATTGGTGAACGTATTGCCGAACTTCACAAAGAGGTTCACGACCATTTGGAGGTTAGGCTGATTATTTACACCGCTGCCCCAAGTCTTCTGTAGTTGGAGACCTAGTCATGGTTCTAAGGAACTCACGGCTGCCTACCGGAGTTCACGGCGAACTTTTTCCAAAGCAAGTTAGCCCTTTTCCTATTCTCTGGAACACTTTGGTCCTAGTGCCTATAAGGTTGATCTTCCTCCACACTTCAAGATCCATTCCACTTTTAATGTGTCAGATCTTGCCACCTGTCACGCTCCTGATGGTTTCGACCTGGCTTTGGGTATAGTTTGGTTTGAGCTTAGTTCCTTAATTTCTTCTTGGCCATGTTCTTTAAAGCCCCTTTATTTCATTTACTGTGTTACTGTGCAGTAACCTTTAATTGTTGGCAATTAGCGCTTATGAGATCATTTTTTAGTTGCTTGTGGTCAACTGTTTTATCATAGTTTATTTGTTCGTAGTCTGGTTTGTAGCCTATTTTTAGGGTCTCTAAGTTAGAACTCTCAATAGAACAGTGTAGGTTTATCCATATTATGTGGTTTGTGTGTTTTCTGAGTGTTTTTAAAGATTGAAATGTACTATATACCGAACATAATCATGGGAATACCTCGTTTCCGAACTAGTATATTATTGTTGATAGAATGATGAACGATCTTCGTTGATGCAGATAGCACGAAATATCACCACTAACGAAGTGTCAAATGCCATTCGCTATGGATATCTTCGTGGTCCAGATGGGAAATTTCGGAATCCATATAACCATGGATGTCGAAAGAATTGCTCTGATTTCCTCATTCATGGCTATATAGACGACGAGATCGCTTGGCCTCCACTACAGCGTGCTGCCAGTTAGATTGATTGCGATTGCACAGGTTTATGTAAATTAGTCATATTCCTGGACTCTTGGCATCTCAAAACCCTTTAGAGCTGAGTATTGGTCAACGTCGTTGCCCGATATCGTACTGTTGTCGTCTTTATGATTCTTAACCTACGAACGAATTAGAGTGTCCGTGCTGTCTAACCGATATTGTAAGCCAGGAAATAGGATAGAAATGAAAGGTCACAGATAGATAATGTTATTAGTTGCATTACCAAACAGTGAATGCTACAACTGACTGTAAAATTCATTTGGTATAGTTCTGATGTAACTTGGAAACTCTAATTTTCACACCTGAGGATTGAAGATCTTAGCTGCTTGTTTCTCTATTTCGGTGTAAGCTCTCCTGTTCTATGTGCTG AAAAAAATTGCAAAACGAGGTTCATGGACCTATTTGGCAAGAAAGGAAAAAAAAGGAGAGTTTTTTGGAGTGTATATCCGTTTTTTCAATCTCTTTCAGAGACATTCCGTCAAATCCCACTGCTTAATTCTCGTCGATCCTTCTTCTTCAGTCTTCACTTCACGCCCGCCTTCGAAGATTCCATAGAACTTCTCTAATTTTCTCCATCTCCTCGCAGTAGTTGTCTCGACCCCCCCGTTCTTTCCCTGAGTGCAATCAGCTATCTCCCTGGTTCCTTTTCAAGTTTTACCTCACATGGCTTCGTCTGAGATTGAGGTTGTAGCATCACCCAACTCGAAATCTCAGACAAACCCTGAAGTTGCCATTGTAGACGTTTACTCTGCTTCTGCTTATGGCGACTTCCAGAAAGTGAGGAGTTTCGTTGAAGAGCATGGAGCTTCTGTTTTGGTTCCTGATTCCAACGGGTACTATGCTTTGCAATGGGCTGCTTTAAACAACTTCCCTGATATCGTCCAGTACATCATTGAGTTCCCTACCAAAGTTTTTGATGATTGTTTTCGTCAGCATGGAGCGGATGTCAATTCCTGTGACAAATTGCAGCAGACAGCGCTTCACTGGGCAGCAGTTCGAGGTTCAATTATGGCTGCGGATGTACTCCTGCTGAATGGAGCTCGAGTGGAGGCAGCTGATATAAATGGGTATCGGGCAGTTCATGTTGCTGCTCAATATGGACAGACTGCATTCTTGAATCACATTGTTGCCAAATTCCACGCTGACTTTGACGTTCCAGATAATGAAGGGAGGAGTCCTCTTCATTGGGCTGCATACAAAGGATTTGCAGATACAATTAGACTTCTTTTATTCAGAGATGCAAGCCAAGGAAGACAAGATAAAGAAGGTTGTACCCCTGTGCATTGGGCTGCATTAAGTGGAAATGTGGAGGCATGTACTGTTCTTGTGCATGCCGGAACAAAGCAAGAATTGTTGATCAAAGACAATGCCGGTTATACTCCTTTCCAGCTTGCATCTGATAAAGGTCATCGGCAAATTGCTAATTTCCTTTCTAAAGCACAACCGACACATCACAGCCACTTTGGAGCAAAATTTTGCTCTAATCTTGCGAAGGTTACTGCTGTTGTTGGACTTTGGGCATGGGCGGCCCTCTGTTTGACATTTGTTGCTATGATAATGTTTTATACGTGTAGTAGGTTCCCTTTATATGTTACCATGCCAACTGCCATAACGATTTTTGGATCAACAGCAATGATATCGGTTCCTAGTGAGGATACAATACTCAAGGATCCAGGCTACATAAAAAGACCCGGGGAGTTGGGCAATCCTGCCAATACAGAGGATCCTTTGTTGAGCATTGATCTCAACAATTCTTCAGTATGGATGGGGAATTGGTCTCAACTATGCCCCACTTGCAAGATAATTAGACCCGTTCGTTCGAAGCACTGTCCTACTTGTAATCGATGTGTGGAACAGTTTGACCACCACTGCCCGTGGATATCTAATTGTGTGGGGAAGCGGAATAAACGGGATTTTTTTGTCTTCGTCTGTTTGGGAACTTTGACATCACTCCTTGCTGGCTGTATTGCCATAAAAAGAATCTATGAAGTGCCTTCAGCATTGCAAACCGGAGAAACTTGGTTTCTTCATGTGGTAGTTCATTATCCCGGAGTCGTTATATTTCTTTTTCTGGACGGTATCATATTTTTGGCTGCCACAACTTTGACCGTGGCTCAGGCATCTCAGGACCTGGCTACAGTACCATCTTCTTTGAATGTGCAAACGGAAGCCAAGGAGATTGGTGAACGTATTGCCGAACTTCACAAAGAGGTTCACGACCATTTGGAGATAGCACGAAATATCACCACTAACGAAGTGTCAAATGCCATTCGCTATGGATATCTTCGTGGTCCAGATGGGAAATTTCGGAATCCATATAACCATGGATGTCGAAAGAATTGCTCTGATTTCCTCATTCATGGCTATATAGACGACGAGATCGCTTGGCCTCCACTACAGCGTGCTGCCAGTTAGATTGATTGCGATTGCACAGGTTTATGTAAATTAGTCATATTCCTGGACTCTTGGCATCTCAAAACCCTTTAGAGCTGAGTATTGGTCAACGTCGTTGCCCGATATCGTACTGTTGTCGTCTTTATGATTCTTAACCTACGAACGAATTAGAGTGTCCGTGCTGTCTAACCGATATTGTAAGCCAGGAAATAGGATAGAAATGAAAGGTCACAGATAGATAATGTTATTAGTTGCATTACCAAACAGTGAATGCTACAACTGACTGTAAAATTCATTTGGTATAGTTCTGATGTAACTTGGAAACTCTAATTTTCACACCTGAGGATTGAAGATCTTAGCTGCTTGTTTCTCTATTTCGGTGTAAGCTCTCCTGTTCTATGTGCTG ATGGCTTCGTCTGAGATTGAGGTTGTAGCATCACCCAACTCGAAATCTCAGACAAACCCTGAAGTTGCCATTGTAGACGTTTACTCTGCTTCTGCTTATGGCGACTTCCAGAAAGTGAGGAGTTTCGTTGAAGAGCATGGAGCTTCTGTTTTGGTTCCTGATTCCAACGGGTACTATGCTTTGCAATGGGCTGCTTTAAACAACTTCCCTGATATCGTCCAGTACATCATTGAGTTCCCTACCAAAGTTTTTGATGATTGTTTTCGTCAGCATGGAGCGGATGTCAATTCCTGTGACAAATTGCAGCAGACAGCGCTTCACTGGGCAGCAGTTCGAGGTTCAATTATGGCTGCGGATGTACTCCTGCTGAATGGAGCTCGAGTGGAGGCAGCTGATATAAATGGGTATCGGGCAGTTCATGTTGCTGCTCAATATGGACAGACTGCATTCTTGAATCACATTGTTGCCAAATTCCACGCTGACTTTGACGTTCCAGATAATGAAGGGAGGAGTCCTCTTCATTGGGCTGCATACAAAGGATTTGCAGATACAATTAGACTTCTTTTATTCAGAGATGCAAGCCAAGGAAGACAAGATAAAGAAGGTTGTACCCCTGTGCATTGGGCTGCATTAAGTGGAAATGTGGAGGCATGTACTGTTCTTGTGCATGCCGGAACAAAGCAAGAATTGTTGATCAAAGACAATGCCGGTTATACTCCTTTCCAGCTTGCATCTGATAAAGGTCATCGGCAAATTGCTAATTTCCTTTCTAAAGCACAACCGACACATCACAGCCACTTTGGAGCAAAATTTTGCTCTAATCTTGCGAAGGTTACTGCTGTTGTTGGACTTTGGGCATGGGCGGCCCTCTGTTTGACATTTGTTGCTATGATAATGTTTTATACGTGTAGTAGGTTCCCTTTATATGTTACCATGCCAACTGCCATAACGATTTTTGGATCAACAGCAATGATATCGGTTCCTAGTGAGGATACAATACTCAAGGATCCAGGCTACATAAAAAGACCCGGGGAGTTGGGCAATCCTGCCAATACAGAGGATCCTTTGTTGAGCATTGATCTCAACAATTCTTCAGTATGGATGGGGAATTGGTCTCAACTATGCCCCACTTGCAAGATAATTAGACCCGTTCGTTCGAAGCACTGTCCTACTTGTAATCGATGTGTGGAACAGTTTGACCACCACTGCCCGTGGATATCTAATTGTGTGGGGAAGCGGAATAAACGGGATTTTTTTGTCTTCGTCTGTTTGGGAACTTTGACATCACTCCTTGCTGGCTGTATTGCCATAAAAAGAATCTATGAAGTGCCTTCAGCATTGCAAACCGGAGAAACTTGGTTTCTTCATGTGGTAGTTCATTATCCCGGAGTCGTTATATTTCTTTTTCTGGACGGTATCATATTTTTGGCTGCCACAACTTTGACCGTGGCTCAGGCATCTCAGGACCTGGCTACAGTACCATCTTCTTTGAATGTGCAAACGGAAGCCAAGGAGATTGGTGAACGTATTGCCGAACTTCACAAAGAGGTTCACGACCATTTGGAGATAGCACGAAATATCACCACTAACGAAGTGTCAAATGCCATTCGCTATGGATATCTTCGTGGTCCAGATGGGAAATTTCGGAATCCATATAACCATGGATGTCGAAAGAATTGCTCTGATTTCCTCATTCATGGCTATATAGACGACGAGATCGCTTGGCCTCCACTACAGCGTGCTGCCAGTTAG MASSEIEVVASPNSKSQTNPEVAIVDVYSASAYGDFQKVRSFVEEHGASVLVPDSNGYYALQWAALNNFPDIVQYIIEFPTKVFDDCFRQHGADVNSCDKLQQTALHWAAVRGSIMAADVLLLNGARVEAADINGYRAVHVAAQYGQTAFLNHIVAKFHADFDVPDNEGRSPLHWAAYKGFADTIRLLLFRDASQGRQDKEGCTPVHWAALSGNVEACTVLVHAGTKQELLIKDNAGYTPFQLASDKGHRQIANFLSKAQPTHHSHFGAKFCSNLAKVTAVVGLWAWAALCLTFVAMIMFYTCSRFPLYVTMPTAITIFGSTAMISVPSEDTILKDPGYIKRPGELGNPANTEDPLLSIDLNNSSVWMGNWSQLCPTCKIIRPVRSKHCPTCNRCVEQFDHHCPWISNCVGKRNKRDFFVFVCLGTLTSLLAGCIAIKRIYEVPSALQTGETWFLHVVVHYPGVVIFLFLDGIIFLAATTLTVAQASQDLATVPSSLNVQTEAKEIGERIAELHKEVHDHLEIARNITTNEVSNAIRYGYLRGPDGKFRNPYNHGCRKNCSDFLIHGYIDDEIAWPPLQRAAS
BLAST of Cp4.1LG15g04110 vs. Swiss-Prot
Match: ZDHC2_ARATH (Probable protein S-acyltransferase 23 OS=Arabidopsis thaliana GN=PAT23 PE=2 SV=2) HSP 1 Score: 576.2 bits (1484), Expect = 3.9e-163 Identity = 299/582 (51.37%), Postives = 375/582 (64.43%), Query Frame = 1
BLAST of Cp4.1LG15g04110 vs. Swiss-Prot
Match: ZDH22_ARATH (Protein S-acyltransferase 24 OS=Arabidopsis thaliana GN=PAT24 PE=2 SV=1) HSP 1 Score: 513.8 bits (1322), Expect = 2.4e-144 Identity = 280/587 (47.70%), Postives = 363/587 (61.84%), Query Frame = 1
BLAST of Cp4.1LG15g04110 vs. Swiss-Prot
Match: ZDHC6_DICDI (Putative ZDHHC-type palmitoyltransferase 6 OS=Dictyostelium discoideum GN=DDB_G0275149 PE=2 SV=1) HSP 1 Score: 161.4 bits (407), Expect = 3.0e-38 Identity = 128/473 (27.06%), Postives = 198/473 (41.86%), Query Frame = 1
BLAST of Cp4.1LG15g04110 vs. Swiss-Prot
Match: ZDH17_HUMAN (Palmitoyltransferase ZDHHC17 OS=Homo sapiens GN=ZDHHC17 PE=1 SV=2) HSP 1 Score: 119.8 bits (299), Expect = 1.0e-25 Identity = 80/237 (33.76%), Postives = 119/237 (50.21%), Query Frame = 1
BLAST of Cp4.1LG15g04110 vs. Swiss-Prot
Match: ZDH17_RAT (Palmitoyltransferase ZDHHC17 OS=Rattus norvegicus GN=Zdhhc17 PE=1 SV=1) HSP 1 Score: 119.0 bits (297), Expect = 1.7e-25 Identity = 80/237 (33.76%), Postives = 119/237 (50.21%), Query Frame = 1
BLAST of Cp4.1LG15g04110 vs. TrEMBL
Match: A0A0A0K669_CUCSA (S-acyltransferase OS=Cucumis sativus GN=Csa_7G067470 PE=3 SV=1) HSP 1 Score: 843.6 bits (2178), Expect = 1.5e-241 Identity = 429/589 (72.84%), Postives = 464/589 (78.78%), Query Frame = 1
BLAST of Cp4.1LG15g04110 vs. TrEMBL
Match: A0A061DWW7_THECC (S-acyltransferase OS=Theobroma cacao GN=TCM_006369 PE=3 SV=1) HSP 1 Score: 726.5 bits (1874), Expect = 2.6e-206 Identity = 371/614 (60.42%), Postives = 423/614 (68.89%), Query Frame = 1
BLAST of Cp4.1LG15g04110 vs. TrEMBL
Match: W9QR56_9ROSA (S-acyltransferase OS=Morus notabilis GN=L484_010419 PE=3 SV=1) HSP 1 Score: 723.0 bits (1865), Expect = 2.9e-205 Identity = 374/616 (60.71%), Postives = 425/616 (68.99%), Query Frame = 1
BLAST of Cp4.1LG15g04110 vs. TrEMBL
Match: M5VIU2_PRUPE (S-acyltransferase OS=Prunus persica GN=PRUPE_ppa003909mg PE=3 SV=1) HSP 1 Score: 717.6 bits (1851), Expect = 1.2e-203 Identity = 372/591 (62.94%), Postives = 433/591 (73.27%), Query Frame = 1
BLAST of Cp4.1LG15g04110 vs. TrEMBL
Match: I1KL80_SOYBN (S-acyltransferase OS=Glycine max GN=GLYMA_07G185000 PE=3 SV=1) HSP 1 Score: 712.6 bits (1838), Expect = 3.9e-202 Identity = 360/615 (58.54%), Postives = 422/615 (68.62%), Query Frame = 1
BLAST of Cp4.1LG15g04110 vs. TAIR10
Match: AT2G14255.1 (AT2G14255.1 Ankyrin repeat family protein with DHHC zinc finger domain) HSP 1 Score: 576.2 bits (1484), Expect = 2.2e-164 Identity = 299/582 (51.37%), Postives = 375/582 (64.43%), Query Frame = 1
BLAST of Cp4.1LG15g04110 vs. TAIR10
Match: AT5G20350.1 (AT5G20350.1 Ankyrin repeat family protein with DHHC zinc finger domain) HSP 1 Score: 513.8 bits (1322), Expect = 1.3e-145 Identity = 280/587 (47.70%), Postives = 363/587 (61.84%), Query Frame = 1
BLAST of Cp4.1LG15g04110 vs. TAIR10
Match: AT3G48760.1 (AT3G48760.1 DHHC-type zinc finger family protein) HSP 1 Score: 84.7 bits (208), Expect = 2.0e-16 Identity = 46/125 (36.80%), Postives = 61/125 (48.80%), Query Frame = 1
BLAST of Cp4.1LG15g04110 vs. TAIR10
Match: AT5G41060.1 (AT5G41060.1 DHHC-type zinc finger family protein) HSP 1 Score: 83.2 bits (204), Expect = 5.9e-16 Identity = 35/71 (49.30%), Postives = 44/71 (61.97%), Query Frame = 1
BLAST of Cp4.1LG15g04110 vs. TAIR10
Match: AT3G04970.1 (AT3G04970.1 DHHC-type zinc finger family protein) HSP 1 Score: 83.2 bits (204), Expect = 5.9e-16 Identity = 41/90 (45.56%), Postives = 54/90 (60.00%), Query Frame = 1
BLAST of Cp4.1LG15g04110 vs. NCBI nr
Match: gi|449438256|ref|XP_004136905.1| (PREDICTED: probable protein S-acyltransferase 23 isoform X1 [Cucumis sativus]) HSP 1 Score: 843.6 bits (2178), Expect = 2.1e-241 Identity = 429/589 (72.84%), Postives = 464/589 (78.78%), Query Frame = 1
BLAST of Cp4.1LG15g04110 vs. NCBI nr
Match: gi|659110214|ref|XP_008455110.1| (PREDICTED: probable protein S-acyltransferase 23 [Cucumis melo]) HSP 1 Score: 840.9 bits (2171), Expect = 1.4e-240 Identity = 432/591 (73.10%), Postives = 466/591 (78.85%), Query Frame = 1
BLAST of Cp4.1LG15g04110 vs. NCBI nr
Match: gi|590682912|ref|XP_007041468.1| (Palmitoyltransferase TIP1, putative isoform 1 [Theobroma cacao]) HSP 1 Score: 726.5 bits (1874), Expect = 3.7e-206 Identity = 371/614 (60.42%), Postives = 423/614 (68.89%), Query Frame = 1
BLAST of Cp4.1LG15g04110 vs. NCBI nr
Match: gi|703084651|ref|XP_010092531.1| (putative S-acyltransferase [Morus notabilis]) HSP 1 Score: 723.0 bits (1865), Expect = 4.1e-205 Identity = 374/616 (60.71%), Postives = 425/616 (68.99%), Query Frame = 1
BLAST of Cp4.1LG15g04110 vs. NCBI nr
Match: gi|694380426|ref|XP_009366346.1| (PREDICTED: probable protein S-acyltransferase 23 [Pyrus x bretschneideri]) HSP 1 Score: 722.6 bits (1864), Expect = 5.4e-205 Identity = 370/615 (60.16%), Postives = 430/615 (69.92%), Query Frame = 1
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 Cucurbita pepo
Date Performed: 2017-12-02
The following gene(s) are orthologous to this gene:
The following gene(s) are paralogous to this gene: None The following block(s) are covering this gene:
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