Cp4.1LG09g10030 (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.AAAGATTGAGCCATTGAGCTAAGGTATGTACCTTCCAAGAGTAGCTCGTTGATGATCTAACAAAACCCTTGTCTGAGTCATTGCTCCCTCATTGAGTGTCTAATGCCGATGGCTGAGGGCCATGACACAATCCCATTCATGAGAACCATTTGTTTCCACAGCCATCGCTTTCATCTCTTCATTTCCAATGGCTACTTTTTCTTTCCATCAAAGCCTCTTTTTCTGGACCCATCGAATGAACTGTCCCACTTCCCATGATTTGCTTCATGTCTCTCGTGTCTCCCCTGCTTAATTTGGAGCATAATGACCAAAGAAATTCCGGGCCTTGTATTTTCACTAATGGCTATACTCTCTCCGCCACTCTCTCTCTGTTTCCGTGTCAGACTTTTCTTGTGCTGCTCTCGCGAATCGTGTAAGCCCCACTGCTAGATACCCACCTCCCTCTTTATCCTTGCGACCCTTTGGTTTGTTCCCTTCTTGCAATGGAGTCCTCTACGATCATGGCTAGTAGAGCGACCACTTCCTCTGTTTTCTCCTTTTGTTCAAACCCAAATTCTAAGAGTACCCATGTGAAATTTCTTGCTCAAAAACCTCCCATACCGTTCTTCGAGACCCATAAATGCATTCAATCACTAAAACCCAATACCCAAAATCTCAGCTCTCGTTTCGCCTGCTCTGCTGCGACCCTTTCGCCGTCTTCTACCACTGAGCTTGTTCCCTTTAAGCTTCATCGCTTGATTGAGGAATTCGAGTCAATATCCGAGCCGGTCGATAGAGTGAAACGGTTGCTACGTTATGCGAGTCTTCTCCCTCCTTACGGTGCGAGAAATGACTCGAATCGGGTCATGGGGTGTACGGCGCAGGTGTGGTTGGAAGTTAGGATTGATCAAGAGGGCAAGATGAGGTTCGCTGCTGATAGTGATTCGGAAATCTCTAAAGGGTTTTGCTCGTGTTTGATTTCGGTGCTTGATGGTGCGTTGCCAGAGGATGTTCTTAGGTTGAAGACGGAGGATTTGGTGGCTCTGAATGTGGGGTTGCCGGTTCGAGAGCGATCGAGAGTAAATACTTGGTATAATGTTTTGATTAGTATGCAAAAGAGAACTAAGGGTTTGATTGCGGAGCTTGAAGGGAAATTGCCATTTGAGGCGTTTCCATCTCTGGTTGTGAGTGCTGATGGAATTCATGCTAAAGGAAGCTATGCTGAAGCTCAGGTTAGTGATGGTAGAAAATGAAGAACAGAGAGCTGTGTGTTCCTATTTGTTAATATTAGACAACCCTGCATGGGTATCATTATGATATTGTATATCATTCTATTTCACTCACTAGAGCACATGCATGGCCTTTGAGCATGTTTTTCACTGTAGTGGAGTAGGTATGTGTAACATTCGAGAGGTTTTTACACCCTTTTAAACAATGTTTCGTTCTCCTCCCAACCGATGTGGGATCTCACAATCCACCCCTTTTGAGGGCCAGCGAGTAGCACTCGTTCCCTTTCTCCAATTGATGTGGGACCCCCCAATCCACTCCGATTTAGGACCCAGTGTCCTTGCTGGCCCACCACCTCGTGTCCACCCCCTTCGAGGCTCAACTTTCTCGCTGGCACCTCCTTTGGTGTTTGACTCTGATACCATTTGTAACATACCTAACTCATCGCTAGCAAATATTGTGTTCTTTGGACTTTCCCTTTCAGGCTTCTCCTAGGGAGAGATTTCCACACCTTTATAAAAAATGTTTCGTTCTCGTGGGATCTCTTTTGGAAAAAGTTAGAATTTGGTTTGATTTGTTGATGTTTTGTATGTTATGGGTGGCAGATTTGGATGTTCTACATCAGTTTTTCATTGTTATATGTTGTAATTGGTTTGTGGTAGCAGTTCATTTATTAAAGTTTCTCTTCAGGCAAGATATTTGTTTCCAAATGATTCTACGGTGAAAGAACTTGTTAAAGTTCTAAAGGAGAAGAAAATTGGTGTTGTTGCACACTTTTACATGGATCCTGAAGTTCAAGGAGTCTTAACTGCTGCCCGGAAGGAATGGCCTCACATTTATATATCTGATTCATTGGTAATGGCAGATATGGCTGTCAAGATGGCCAAAGATGGATGCCAATTTGTAACAGTACTTGGAGTCGACTTCATGTCGGAAAATGTGCGTGCAATTCTTGATCAAGCTGGCTTTGGAGAGGTGCATCTTCTTCCTCTCAAGTTTCTTAACTTTTTATCGTTATCTAATAGATATATAAGATGAGCTGACCGTGAAAGTAAGTCACGAGGGGTAACAGCCCAAGCCCAAGCCCACCGCTAGTAGATATCATCCTCTTTGGACTTTTTCTTTCGGACTTTCCCTCAAGGTTTTTAAAACGTGTCTGCTAGGGAGAGGTTTCCACACCTTTATAAAGAATGTTTCGTTCTCTTCCCCAACTGATGTGGGATATCAGAATTCACCCCCTTTGAGGCCCAACGTCCTTGCTGGCACTCGTTCTCTTCTCTAATGGATGTGGGACCCTCCAACCCACCCTCCTATGGGGCCCAACGTTCTTACTGGCACACTGTCTTGTGTCCACCCCCTTCAGAGCTCAGCCTCCTCGCTAGCACATTTGTAACAGCCCAAGCCCACAACTAGCAGATATTGTCCTCTTTGGGCCTCCCCTTTCGGGTTTTCCCCTCAATGTTTTTAAAACGCGTCTGTCAGAGAGAGATTTTTACACCCTTGTAAAGAATGTTTCGTTCTCCTACCCAACCGTAGTGGGATATTGCAATTCATCCCCTTCGGGACCCAACATCCTCGCTGGCACATGTTCTCTTCTCCAATCGATATGGGACCCCCCAATCTACCCCTTCGGTCCAACGTCTTTACTGGCACACCATCTCGTGTTCACTCCCCTTCGGGGCTCAACCTCCTCGCTGGCACATCGCCCAGTGTCTGTCTTTGATACCATTTGTAACAGCCCAAGTCCACTGCTAACAGATATTATCCTCTTTGGGCTTTCTCTTTCGAGCTTTCCTTCAAGGTTTTTAAAACGCGTCTGTTAGGGAGAGGTTTTCACACGCTTGTAAAGAATGTTTCGTTCTCCTCCCCAACCAATGTGGGATCTCGCAGACGAGGTAACTTACTCAAAAGCTTACTTTCTATTCCTAATATCTGAACCTTCCCATGCCGGATATCCATTAAAGCCTCTTAGAAGTTGCCTTCTAACCTCTTGAGTGTATAGATAAAACTTGTTCACTTTACATCACAGTACGTTTCTTTACCTAATATAGATAAGCTCAGGTGCTGCTGATCCAATTATTTAGCGGTGGAACGATTAAGATATTGATAATGGTTCCATATATATGCAGGTAGGTGTGTACAGGATGTCTGATGAACAAATCAGTTGCTCCTTGGCTGATGCTGCTGCTACTCCTTCTTATATGAACTATCTTGAAATGGCTTCAAGGGAGGCTCCCTCCCTGCATGTTATCTACATAAATACATCATTAGAAACTAAAGCCTATGCTCATGAGCTTGTGCCTACGATCACGTGTACTTCTTCTAATGTCATGCAAACAATTTTGCAGGTAAAGAACACTCCCATTTGCATTTGTTCTGATTCTTATCGATCTTTTAGCAGCAAGTAAAATCGACTTCGAAATACCCTGTTACAGGCTTTTGCTCAAGTACCAGAATTAAATGTTTGGTATGGACCTGATTCCTACATGGGTGCAAATATTGTAGAACTTTTGCAGCAGATGACCAAGATGACAGATGATGAAATTGCAAAGATTCATCCAAATCATAGTAGGGACTCAATTAGATCGTTGCTCCCTCGTCTGCACTACTATCAGGTTTTTTTTCGAACGTGCTTTTCTTGTTTTTGCTTTCTGTTTTGTAACAGCCCAAGCCCACCGGTAGTAGGTATTGTCTTTTTTGGGGTTCCCCTCAAGGTTTTAAAACGCGACGGCTAAGGAGAGGTTTTCACACCTTTTCAAAGAATGTTTTGTTTCCCTCTCCCATCGATGTGGGATCTCCCAATCCACTTACTTCAGGGCTCAGCTTCTTCACTGGCACACCGCCCAGTGTTTGGCTCTGATACCATTTGTAATAGTCCAAGCTCATACTAGCAAATATTGTCCTATTTAGGCTTTCCCTTCTGGGCTTCCCCTCAAGGTTTTAAAACGCGTATGCTAGCAAGAGGTTTCCACACCCTTCTAAAGAATGTTTCGTTCCCTTTTTCAATCAATGTGGAATCTCACAATCCACCCCCTTCGAGACTCAGCATCCTCGCTGGCACACCCCCCAATGTCTGGCTCCGATACCGTTTGTAACAGCCCAAGTCCAACACTAGCAGATATTGTCCTCTTTGGGTTTTCCCTCCCGGGCAACCTCAAAATTTTAGAACACGGTTGCTAGGGAGAGATTTTCACACCCTTCTAAGGAATGTTTCGTTGGTGTGGAATCTCACAATCCACCCCTTTCGGGACTTAGTGTCCTCACTGGCACACTGCCCGATGTCGGCTCTGATACCATTTGTAACAGCCCAAGCCCACCGCTAGCAAATATTGTTCTCTTTGGGCTTTCCCTTCCAAGCTTCCCTTCAAGGTTTTAAAACGCGTATGCTAGGGAGAGATTTCTATACCCTTCTAAAGAATATTTCGTTCCCCTCTCCAATCAACGTGAAATCTCACATTTTCACCCTTTTATCTTCATCATGGGCTTTGGTTGAACATGCACGTATAAATCTTGTACCTCAACTATCCTTTTGGATCATGATATCTTTGCAGATTGTGTTGATTGCAGAACCTTCACTAGCCTATTTACCTACAGATTATCATCATCATCACTTGATATAATTGATGTCTTCTAATTTCAGGAAGGTACGTGCATTGTTCATCATCTTTTCGGGCACGAAGTTGTGGAGAAGATAAATGAAATGTACTGTGACGCCTTCCTTACTGCTCACTTTGAAGTTCCTGGAGAAATGTTTGCCTTAGCAATGGAGGCAAAAAGAAGAGGAATGGGAATTGTAGGTTCCACCCAGAACATATTAGACTTCATAATACAAAGGGTGCAAGAAGCTTTAGACAGAAATGTTAATGAACATCTACAATTTGTGTTGGGAACAGAATCTGGAATGATAACTTCAATTGTTGCAGCTGTTCGTAATTTATTAAGTTCTTCAAAAACCACTTCTGGAGGAGCAAAGATCAATGTAGAGATTGTCTTTCCTGTGTCGTCGGATTCAGTGACAAGCACGTCATCAAGTTCGTCCCCAGGCCGAAAATCGGTTGCGCTTGGTGAGATCAATTTGCCTGTAGTACCTGGAGTTTCGAGTGGGGAGGGATGTTCCATTCATGGTGGCTGTGCATCTTGTCCATACATGAAGGTTAGTATATATATAGTTAATTTACGCCCCGTTCGATAATCGGTTGGTTTTTGAAAATTAAGCTTATAAACACTATTTTCATCGATGAAAACTGTACAGCCCAAGCCCACCGCTAGCAAATATTGTCTTCTTTAGCTTTCCCTTCTGAACTTTTCCTCAAGGTTTTAAAACGTGTCTACTAGGGAGAGAGGTTTTCGCACCTAGAAATGCTTCGTTCCCCTCTCTAACCGATTTGGGATCTCACAATCCACCCCCTTGGAAGACCAGGGTCTTCGCTGACACACACACTATTTCTACCAATGAAAACTGTACAACCCAAGCACACCGCTAACAGATATTGTCCACTTCGATTTTCCTTTCCAAACTTTTCCTCAAGGTTTTAAAACGCGTCTACTAGGGAGAGGTTTTCACACCTAGGAATGCTTCGTTCCCCTCTCTAACTGATTTGGGACTTCACAATCCACCCCTCTTGGAGGACCAGGGTCCTCGCTGACACACTGCCCAATGTCTGGCTCTAGTACCATTTGTAAGAGCCCAAGTAGACAATATATTGTCCTCTTTGAGTTTTCCCTTCTGAGCTTCCCTCAAGGTTTTAAAATACATGTACCAGGGAGAGGTTTCCACATCCTTATAAGGAATGCTTCCCCTCACCAACCGATGTGGGACCTCACAATCCACCTCGTTGGGGAACCAACGTCCTCGCACACTGCTCTGGCTCTGATACCATTTGTAGCCACCCAAACTCATCGCTAGTAGATATTGTCCTCTTTGGATTTTTCCTTTTGGGGCACGTCTACTAGAGAGAGGTTTCCACACATTTGGCACAAATGTTTCGTTTCTCTTTCCAACCCACGTGGGACCTAAAAAAAAGATAGTTTTTTAGTGTTATTAGTATAATCGTGCTGATGTGATGCGATGTGATCTGATGAAACTTGGTGTGGAATTCTGATACTGTCTTGTTTGGGATCATCCAGATGAACTCTCTTAGCTCTCTTATGAAAGTTTGTCAAGAGCTACCCCATAACAAAACTGCTATCTCAGCTTATGAAGCCAAGAGATTCAAACTGCACACAGTAACTGGAAAATCAGTTGCAGATATTGGATGCGAACCAATTTTGCACATGAGAGATTTCCAGGTTTGTTCCTTTGAATCTGCTACTCTTTCGAGTTGTCTGGTTTAACGTTCTTGTTTCTTGTTTTGGGTTTTGTGAACTAGAAACATTCGATAACTATAAACAAGAAACCGGGACGTTAGCTTGGAAATCTGCTACTCTTCGGAGTTGTCTGGTTTAACGTTTTTGTTTCTTGTTTCTTGTTTCGGGTTTTGTGAACTAGAAACATTTGATAACTATAAACAAGAAACCGAGACGTTAGCTTGGAAATCTGCCACTCTTCGGAGTTGTCTGGTCTAGCGTTTTTGTTTCTTGTTTCTTGTTTCGGGTTTTGTGAGCTAGAAACATTTGATAACTATACACAAGAAACCGGGACATTAGCTTGGAAATCTGCAACTCTTCGGAGTTGTCTAGTCTAACGTTTTTGTTTCTTGTTTCTTGTTTCGGGTTTTATGAACTAGAAACATTTGATAACTATAAACAAGAAACCAGGACGTTAGCTTGGAAATCTGCTACTCTTCGGAGTTGTCTGGTCTAGTGTTTTTGTTTCTTGTTTCTTGTTTCGGGTTTTGTGAACTAGAAACATTCGATAACTATAAACAAGAAACCGGGACGTTAGCTTGGAAATCTGCCACTCTTCGGAGTTGTCTGGTCTAACGTTTTTGTTTCTTGTTTCGGGTTTTGTGAACTAGAAACATTCGATAACTCTAAACAAGAAACGTGGACGTTAGCTTGGAAATCTGCAACTCTTCGGAGTTGTCTGGTCTAGCGTTTTTGTTTCTTGTTTCTTGTTTCGGGTTTTGTGAACTAGAAACATTCGGAAACTCAAAACAAGAAACCGGATCGTATTCTCCTTGTTCATACTAATTGGTGTTGGATTCTTCCTGACTGAATCTTTCTTCAGGCTGCAAAACAGCTGCCGGAGAAACTTGTTCATCAGATCATGAACCGGTAATATCAATGGGGACAGTTTCAGCAAGTCAATCGGCTGCTGTTGTCCAAGGATGATTGTCTCTTGTGAGCCAAGTTTTCCCATTAGTTTGTTTTATTCGACTTTTGAATTGTATATTCCTTTAACTTTAGGCTCAAGTTGAGCTCGAAAATTTGGGTCGTGCCAATATATATAATTATTATTTCACAATCGCACATTTCATGGGAGCGGACTTACGATTGTGCGGCACTCACTTCCCTACAACAAGTGAGTTGAGC AAAGATTGAGCCATTGAGCTAAGGTATGTACCTTCCAAGAGTAGCTCGTTGATGATCTAACAAAACCCTTGTCTGAGTCATTGCTCCCTCATTGAGTGTCTAATGCCGATGGCTGAGGGCCATGACACAATCCCATTCATGAGAACCATTTGTTTCCACAGCCATCGCTTTCATCTCTTCATTTCCAATGGCTACTTTTTCTTTCCATCAAAGCCTCTTTTTCTGGACCCATCGAATGAACTGTCCCACTTCCCATGATTTGCTTCATGTCTCTCGTGTCTCCCCTGCTTAATTTGGAGCATAATGACCAAAGAAATTCCGGGCCTTGTATTTTCACTAATGGCTATACTCTCTCCGCCACTCTCTCTCTGTTTCCGTGTCAGACTTTTCTTGTGCTGCTCTCGCGAATCGTGTAAGCCCCACTGCTAGATACCCACCTCCCTCTTTATCCTTGCGACCCTTTGGTTTGTTCCCTTCTTGCAATGGAGTCCTCTACGATCATGGCTAGTAGAGCGACCACTTCCTCTGTTTTCTCCTTTTGTTCAAACCCAAATTCTAAGAGTACCCATGTGAAATTTCTTGCTCAAAAACCTCCCATACCGTTCTTCGAGACCCATAAATGCATTCAATCACTAAAACCCAATACCCAAAATCTCAGCTCTCGTTTCGCCTGCTCTGCTGCGACCCTTTCGCCGTCTTCTACCACTGAGCTTGTTCCCTTTAAGCTTCATCGCTTGATTGAGGAATTCGAGTCAATATCCGAGCCGGTCGATAGAGTGAAACGGTTGCTACGTTATGCGAGTCTTCTCCCTCCTTACGGTGCGAGAAATGACTCGAATCGGGTCATGGGGTGTACGGCGCAGGTGTGGTTGGAAGTTAGGATTGATCAAGAGGGCAAGATGAGGTTCGCTGCTGATAGTGATTCGGAAATCTCTAAAGGGTTTTGCTCGTGTTTGATTTCGGTGCTTGATGGTGCGTTGCCAGAGGATGTTCTTAGGTTGAAGACGGAGGATTTGGTGGCTCTGAATGTGGGGTTGCCGGTTCGAGAGCGATCGAGAGTAAATACTTGGTATAATGTTTTGATTAGTATGCAAAAGAGAACTAAGGGTTTGATTGCGGAGCTTGAAGGGAAATTGCCATTTGAGGCGTTTCCATCTCTGGTTGTGAGTGCTGATGGAATTCATGCTAAAGGAAGCTATGCTGAAGCTCAGGCAAGATATTTGTTTCCAAATGATTCTACGGTGAAAGAACTTGTTAAAGTTCTAAAGGAGAAGAAAATTGGTGTTGTTGCACACTTTTACATGGATCCTGAAGTTCAAGGAGTCTTAACTGCTGCCCGGAAGGAATGGCCTCACATTTATATATCTGATTCATTGGTAATGGCAGATATGGCTGTCAAGATGGCCAAAGATGGATGCCAATTTGTAACAGTACTTGGAGTCGACTTCATGTCGGAAAATGTGCGTGCAATTCTTGATCAAGCTGGCTTTGGAGAGGTAGGTGTGTACAGGATGTCTGATGAACAAATCAGTTGCTCCTTGGCTGATGCTGCTGCTACTCCTTCTTATATGAACTATCTTGAAATGGCTTCAAGGGAGGCTCCCTCCCTGCATGTTATCTACATAAATACATCATTAGAAACTAAAGCCTATGCTCATGAGCTTGTGCCTACGATCACGTGTACTTCTTCTAATGTCATGCAAACAATTTTGCAGGCTTTTGCTCAAGTACCAGAATTAAATGTTTGGTATGGACCTGATTCCTACATGGGTGCAAATATTGTAGAACTTTTGCAGCAGATGACCAAGATGACAGATGATGAAATTGCAAAGATTCATCCAAATCATAGTACGTGCATTGTTCATCATCTTTTCGGGCACGAAGTTGTGGAGAAGATAAATGAAATGTACTGTGACGCCTTCCTTACTGCTCACTTTGAAGTTCCTGGAGAAATGTTTGCCTTAGCAATGGAGGCAAAAAGAAGAGGAATGGGAATTGTAGAATCTGGAATGATAACTTCAATTGTTGCAGCTGTTCGTAATTTATTAAGTTCTTCAAAAACCACTTCTGGAGGAGCAAAGATCAATGTAGAGATTGTCTTTCCTGTGTCGTCGGATTCAGTGACAAGCACGTCATCAAGTTCGTCCCCAGGCCGAAAATCGGTTGCGCTTGGTGAGATCAATTTGCCTGTAATGAACTCTCTTAGCTCTCTTATGAAAGTTTGTCAAGAGCTACCCCATAACAAAACTGCTATCTCAGCTTATGAAGCCAAGAGATTCAAACTGCACACAGTAACTGGAAAATCAGTTGCAGATATTGGATGCGAACCAATTTTGCACATGAGAGATTTCCAGAAACATTCGATAACTATAAACAAGAAACCGGGACGCTGCAAAACAGCTGCCGGAGAAACTTGTTCATCAGATCATGAACCGGTAATATCAATGGGGACAGTTTCAGCAAGTCAATCGGCTGCTGTTGTCCAAGGATGATTGTCTCTTGTGAGCCAAGTTTTCCCATTAGTTTGTTTTATTCGACTTTTGAATTGTATATTCCTTTAACTTTAGGCTCAAGTTGAGCTCGAAAATTTGGGTCGTGCCAATATATATAATTATTATTTCACAATCGCACATTTCATGGGAGCGGACTTACGATTGTGCGGCACTCACTTCCCTACAACAAGTGAGTTGAGC ATGGAGTCCTCTACGATCATGGCTAGTAGAGCGACCACTTCCTCTGTTTTCTCCTTTTGTTCAAACCCAAATTCTAAGAGTACCCATGTGAAATTTCTTGCTCAAAAACCTCCCATACCGTTCTTCGAGACCCATAAATGCATTCAATCACTAAAACCCAATACCCAAAATCTCAGCTCTCGTTTCGCCTGCTCTGCTGCGACCCTTTCGCCGTCTTCTACCACTGAGCTTGTTCCCTTTAAGCTTCATCGCTTGATTGAGGAATTCGAGTCAATATCCGAGCCGGTCGATAGAGTGAAACGGTTGCTACGTTATGCGAGTCTTCTCCCTCCTTACGGTGCGAGAAATGACTCGAATCGGGTCATGGGGTGTACGGCGCAGGTGTGGTTGGAAGTTAGGATTGATCAAGAGGGCAAGATGAGGTTCGCTGCTGATAGTGATTCGGAAATCTCTAAAGGGTTTTGCTCGTGTTTGATTTCGGTGCTTGATGGTGCGTTGCCAGAGGATGTTCTTAGGTTGAAGACGGAGGATTTGGTGGCTCTGAATGTGGGGTTGCCGGTTCGAGAGCGATCGAGAGTAAATACTTGGTATAATGTTTTGATTAGTATGCAAAAGAGAACTAAGGGTTTGATTGCGGAGCTTGAAGGGAAATTGCCATTTGAGGCGTTTCCATCTCTGGTTGTGAGTGCTGATGGAATTCATGCTAAAGGAAGCTATGCTGAAGCTCAGGCAAGATATTTGTTTCCAAATGATTCTACGGTGAAAGAACTTGTTAAAGTTCTAAAGGAGAAGAAAATTGGTGTTGTTGCACACTTTTACATGGATCCTGAAGTTCAAGGAGTCTTAACTGCTGCCCGGAAGGAATGGCCTCACATTTATATATCTGATTCATTGGTAATGGCAGATATGGCTGTCAAGATGGCCAAAGATGGATGCCAATTTGTAACAGTACTTGGAGTCGACTTCATGTCGGAAAATGTGCGTGCAATTCTTGATCAAGCTGGCTTTGGAGAGGTAGGTGTGTACAGGATGTCTGATGAACAAATCAGTTGCTCCTTGGCTGATGCTGCTGCTACTCCTTCTTATATGAACTATCTTGAAATGGCTTCAAGGGAGGCTCCCTCCCTGCATGTTATCTACATAAATACATCATTAGAAACTAAAGCCTATGCTCATGAGCTTGTGCCTACGATCACGTGTACTTCTTCTAATGTCATGCAAACAATTTTGCAGGCTTTTGCTCAAGTACCAGAATTAAATGTTTGGTATGGACCTGATTCCTACATGGGTGCAAATATTGTAGAACTTTTGCAGCAGATGACCAAGATGACAGATGATGAAATTGCAAAGATTCATCCAAATCATAGTACGTGCATTGTTCATCATCTTTTCGGGCACGAAGTTGTGGAGAAGATAAATGAAATGTACTGTGACGCCTTCCTTACTGCTCACTTTGAAGTTCCTGGAGAAATGTTTGCCTTAGCAATGGAGGCAAAAAGAAGAGGAATGGGAATTGTAGAATCTGGAATGATAACTTCAATTGTTGCAGCTGTTCGTAATTTATTAAGTTCTTCAAAAACCACTTCTGGAGGAGCAAAGATCAATGTAGAGATTGTCTTTCCTGTGTCGTCGGATTCAGTGACAAGCACGTCATCAAGTTCGTCCCCAGGCCGAAAATCGGTTGCGCTTGGTGAGATCAATTTGCCTGTAATGAACTCTCTTAGCTCTCTTATGAAAGTTTGTCAAGAGCTACCCCATAACAAAACTGCTATCTCAGCTTATGAAGCCAAGAGATTCAAACTGCACACAGTAACTGGAAAATCAGTTGCAGATATTGGATGCGAACCAATTTTGCACATGAGAGATTTCCAGAAACATTCGATAACTATAAACAAGAAACCGGGACGCTGCAAAACAGCTGCCGGAGAAACTTGTTCATCAGATCATGAACCGGTAATATCAATGGGGACAGTTTCAGCAAGTCAATCGGCTGCTGTTGTCCAAGGATGA MESSTIMASRATTSSVFSFCSNPNSKSTHVKFLAQKPPIPFFETHKCIQSLKPNTQNLSSRFACSAATLSPSSTTELVPFKLHRLIEEFESISEPVDRVKRLLRYASLLPPYGARNDSNRVMGCTAQVWLEVRIDQEGKMRFAADSDSEISKGFCSCLISVLDGALPEDVLRLKTEDLVALNVGLPVRERSRVNTWYNVLISMQKRTKGLIAELEGKLPFEAFPSLVVSADGIHAKGSYAEAQARYLFPNDSTVKELVKVLKEKKIGVVAHFYMDPEVQGVLTAARKEWPHIYISDSLVMADMAVKMAKDGCQFVTVLGVDFMSENVRAILDQAGFGEVGVYRMSDEQISCSLADAAATPSYMNYLEMASREAPSLHVIYINTSLETKAYAHELVPTITCTSSNVMQTILQAFAQVPELNVWYGPDSYMGANIVELLQQMTKMTDDEIAKIHPNHSTCIVHHLFGHEVVEKINEMYCDAFLTAHFEVPGEMFALAMEAKRRGMGIVESGMITSIVAAVRNLLSSSKTTSGGAKINVEIVFPVSSDSVTSTSSSSSPGRKSVALGEINLPVMNSLSSLMKVCQELPHNKTAISAYEAKRFKLHTVTGKSVADIGCEPILHMRDFQKHSITINKKPGRCKTAAGETCSSDHEPVISMGTVSASQSAAVVQG
BLAST of Cp4.1LG09g10030 vs. Swiss-Prot
Match: NADA_ARATH (Quinolinate synthase, chloroplastic OS=Arabidopsis thaliana GN=QS PE=1 SV=1) HSP 1 Score: 758.1 bits (1956), Expect = 8.4e-218 Identity = 414/692 (59.83%), Postives = 496/692 (71.68%), Query Frame = 1
BLAST of Cp4.1LG09g10030 vs. Swiss-Prot
Match: NADA_ORYSJ (Quinolinate synthase, chloroplastic OS=Oryza sativa subsp. japonica GN=Os12g0290150 PE=3 SV=2) HSP 1 Score: 619.4 bits (1596), Expect = 4.6e-176 Identity = 351/656 (53.51%), Postives = 428/656 (65.24%), Query Frame = 1
BLAST of Cp4.1LG09g10030 vs. Swiss-Prot
Match: SUFE2_ARATH (SufE-like protein 2, chloroplastic OS=Arabidopsis thaliana GN=SUFE2 PE=2 SV=1) HSP 1 Score: 170.2 bits (430), Expect = 7.4e-41 Identity = 100/213 (46.95%), Postives = 136/213 (63.85%), Query Frame = 1
BLAST of Cp4.1LG09g10030 vs. Swiss-Prot
Match: SUFE1_ARATH (SufE-like protein 1, chloroplastic/mitochondrial OS=Arabidopsis thaliana GN=SUFE1 PE=1 SV=2) HSP 1 Score: 79.0 bits (193), Expect = 2.3e-13 Identity = 52/159 (32.70%), Postives = 86/159 (54.09%), Query Frame = 1
BLAST of Cp4.1LG09g10030 vs. Swiss-Prot
Match: NADA_THEON (Quinolinate synthase A OS=Thermococcus onnurineus (strain NA1) GN=nadA PE=3 SV=1) HSP 1 Score: 77.4 bits (189), Expect = 6.6e-13 Identity = 65/241 (26.97%), Postives = 114/241 (47.30%), Query Frame = 1
BLAST of Cp4.1LG09g10030 vs. TrEMBL
Match: A0A0A0LRC5_CUCSA (Uncharacterized protein OS=Cucumis sativus GN=Csa_1G047450 PE=4 SV=1) HSP 1 Score: 1023.8 bits (2646), Expect = 9.1e-296 Identity = 549/698 (78.65%), Postives = 577/698 (82.66%), Query Frame = 1
BLAST of Cp4.1LG09g10030 vs. TrEMBL
Match: A0A061FYZ6_THECC (Quinolinate synthase OS=Theobroma cacao GN=TCM_014491 PE=4 SV=1) HSP 1 Score: 838.2 bits (2164), Expect = 7.1e-240 Identity = 451/705 (63.97%), Postives = 528/705 (74.89%), Query Frame = 1
BLAST of Cp4.1LG09g10030 vs. TrEMBL
Match: B9IF02_POPTR (Quinolinate synthetase A-related family protein OS=Populus trichocarpa GN=POPTR_0015s09690g PE=4 SV=2) HSP 1 Score: 832.0 bits (2148), Expect = 5.1e-238 Identity = 452/702 (64.39%), Postives = 528/702 (75.21%), Query Frame = 1
BLAST of Cp4.1LG09g10030 vs. TrEMBL
Match: A0A067KFH1_JATCU (Uncharacterized protein OS=Jatropha curcas GN=JCGZ_11391 PE=4 SV=1) HSP 1 Score: 825.1 bits (2130), Expect = 6.2e-236 Identity = 450/704 (63.92%), Postives = 525/704 (74.57%), Query Frame = 1
BLAST of Cp4.1LG09g10030 vs. TrEMBL
Match: A0A0D2PMJ8_GOSRA (Uncharacterized protein OS=Gossypium raimondii GN=B456_001G064000 PE=4 SV=1) HSP 1 Score: 823.2 bits (2125), Expect = 2.4e-235 Identity = 445/702 (63.39%), Postives = 519/702 (73.93%), Query Frame = 1
BLAST of Cp4.1LG09g10030 vs. TAIR10
Match: AT5G50210.1 (AT5G50210.1 quinolinate synthase) HSP 1 Score: 758.1 bits (1956), Expect = 4.7e-219 Identity = 414/692 (59.83%), Postives = 496/692 (71.68%), Query Frame = 1
BLAST of Cp4.1LG09g10030 vs. TAIR10
Match: AT1G67810.1 (AT1G67810.1 sulfur E2) HSP 1 Score: 170.2 bits (430), Expect = 4.2e-42 Identity = 100/213 (46.95%), Postives = 136/213 (63.85%), Query Frame = 1
BLAST of Cp4.1LG09g10030 vs. TAIR10
Match: AT4G26500.1 (AT4G26500.1 chloroplast sulfur E) HSP 1 Score: 79.0 bits (193), Expect = 1.3e-14 Identity = 52/159 (32.70%), Postives = 86/159 (54.09%), Query Frame = 1
BLAST of Cp4.1LG09g10030 vs. NCBI nr
Match: gi|449469578|ref|XP_004152496.1| (PREDICTED: quinolinate synthase, chloroplastic [Cucumis sativus]) HSP 1 Score: 1023.8 bits (2646), Expect = 1.3e-295 Identity = 549/698 (78.65%), Postives = 577/698 (82.66%), Query Frame = 1
BLAST of Cp4.1LG09g10030 vs. NCBI nr
Match: gi|659067361|ref|XP_008439050.1| (PREDICTED: quinolinate synthase, chloroplastic [Cucumis melo]) HSP 1 Score: 1020.8 bits (2638), Expect = 1.1e-294 Identity = 546/698 (78.22%), Postives = 578/698 (82.81%), Query Frame = 1
BLAST of Cp4.1LG09g10030 vs. NCBI nr
Match: gi|1009130780|ref|XP_015882483.1| (PREDICTED: quinolinate synthase, chloroplastic [Ziziphus jujuba]) HSP 1 Score: 853.6 bits (2204), Expect = 2.3e-244 Identity = 458/714 (64.15%), Postives = 541/714 (75.77%), Query Frame = 1
BLAST of Cp4.1LG09g10030 vs. NCBI nr
Match: gi|590669433|ref|XP_007037772.1| (Quinolinate synthase [Theobroma cacao]) HSP 1 Score: 838.2 bits (2164), Expect = 1.0e-239 Identity = 451/705 (63.97%), Postives = 528/705 (74.89%), Query Frame = 1
BLAST of Cp4.1LG09g10030 vs. NCBI nr
Match: gi|566206811|ref|XP_002322206.2| (quinolinate synthetase A-related family protein [Populus trichocarpa]) HSP 1 Score: 832.0 bits (2148), Expect = 7.3e-238 Identity = 452/702 (64.39%), Postives = 528/702 (75.21%), 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:
The following block(s) are covering this gene: None |