CmaCh04G013390 (gene) Cucurbita maxima (Rimu)
The following sequences are available for this feature:
Legend: CDSexonthree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.ATGAAATTCAAATTCACTGCCATCCAATCAGGTTCTATTATTTGATCACAGTCTCCACAGCCACAACTTTGGATACAGTTTTCTCACACGTGTCGTCTCTCTCGCTCCTCTACTCCCAACTCTACCACTTCACGTGACCTCACGTGATTCCCTGTTTCAACCAAACCAAATCCCTTGGCTACTCCTCCATCCCAAATCCTTCGCCTCCAGAAAGCTCCTTTTCATTTGGTTTTTTCCTGAATTTATCGCGTGGCTCTGTGTTTTTCTGCCTGTTTCTCTCTTTTTTTCCCCCCTTCCATGTTCCAGGGCTTTTGAACGCCATCCTGTTTCTGGAGGAGTTTGATGCTTTCTGTTGCTGATTCCGGAATTTTCTTTCCGTAACTACTTTTTCGGAGAATTCGGCGATGTGCGGATCAATCTTCGATCAGTTGTTGGATTTGGATTCTGGATTAGAGATTTTGTTTGATTTTTTCAGCCATGTTTGATTGGAACGACGAAGAGGTAGCCACCTTTTTTTTTTTTTTTTTTAAGTGAATTTTTGTTTTTCTTGGCTTCAATTTTACTTCTGTAGCGTGAAATAGTTGTTGATGTTTTACTTCTGTGGCGAAGGAGTGGATAGTGTATCTGGGTGTTGCTTAGCTTGTTTTGTTTATAGTACTGCCATGGATAGTTTTTGCATTGAACCACCGAATCTGTATGCGCGCGGCAAAACCCATACCTTACACTTTCATTGGAAAAGCTTATTGCAAGAATGGGAGACGAATCTGATGGATCTGATACTCAGCTCAGCATTTCATTCCTTAGGCAGTTCAATATCGTTAAAAGCAAAGGGATGTAATTTAGTAACTCGTGGAATGAGGAAAGTCTTTTGGGAGGAGCTAGGAGGCCTTTTCGAGCTTTGTGTTGCTGTGGGTGTCTGGGGGGGACTTTAGTATGACCTAATGGCACACGAGATGGAGTGTACTGGGACGGCATCACTTGATCTATGAGGAGGTTTAATAGATTTATCAAATCCTGTGGTCTCTTAGATCTTCCCCGAGTGAATGACTGGTTTACATTGTCCAACCAATGAGAGAGAGAGAGAGAGAGAGTGTTGTATTGTAGACGAGATATGTTTTTGTTGTCAAGAGGTTGGTTGGACACTTTCAAAGAAATGAGAGAATCCTTAGGCTCGATAGTCATGTTTATCTGCTTGAGTTTAGGTTACACTTTTAGGTCATTTACCTTCTTGACTGGGTGTAAATGTTGAAGATTAGCAAGCAAGAGAGATTTTGGTATATGGTGAAATTATCCTTGCTTGAAGAAGTTCAAAAGGATTGGAATTACAGTCTTGGGACCTAGGAATTTTGGATAAAATTAGACTCTTGAGAGGAAGGAACTATGAGCAAGGAGTTGAGAGAAGTTTGTATAAGGTTTAAAGAGGATTTCAAGAAGTTAATTTATTGGGAGGATTCCTGCTAGAGACAAAAAGCAAAGGTAAAGTAGGTTAAAAAGAGCGTGGTTGTGATGCATACTATTTTTTCCCTTTCTATTTTTATCCCTCGCTTCCTCCAGACTTTTCTTGGAAGGTTTATGTTGGTATTTCCTTATAGCCTGGGATCATGAAGGGTTGAAGACTCCCTTTATTTTGGAAGAGAGTGGTCTTTAGCTTTAATGGGAGTAAAGGCCTGATTTGGATGGCTTCACTATGGCTATCTTCACTGAAAATTGGAATAGTTTTAGAGAGGACTTAGGCAAGGTCTTTTTTGAGTTCGTGGAGGGGGATTATAATTCTTCCACACACGAAACTTATATTTACTTTATTTCCAAGAAGAGAAGGGTTAGAGGAACAAGGACTCTATTAGTCTTGTCACTAGTTTATTTCTGTAAGATCATTGCTTAAGTTTTGAGAGATAGGTTACGGAAAGTCTTTTATAATGCTATTTAGATTTTTAAGTGCCTTTATGAGGAGACAATTCTTAGATTAAGTTTTCTATTGTCAATGAGGCTACGGATGATTATAGAAGTTCATTGTAAGTGGGAAGAAAAGATGGCCCAGAGGAAATGAGTTTAAGTTAGAGTGGCTACCAACCTAGGATTCAATAACCTATAAGTTTTTATCTATTAAACAAATCAATAGATGTGAAATTGATAAAAGATTAGAATATGCAACTGAAATTTTCAAGAGATTCAAGTTAAAGAAGAGTACAAATATTAGAGCAGAATTTTATATTTAGCCAAAAAAAGCATGATCTCGGTCAATTTTATTTCACTGGTAGTACGGGTTGTATATGAAACCTTGTTTTGGAACATTTGTCTTATTGTCGCAATGGATTTACCCACTCAGATTATAATCTCTTCCACCATTTACAAGTACTCTGGACGGCGATATGCATCTGCTGTTGTTAGATTAATCATGACAGATCAGAGCATATAGCCTTTGCTCTTCTCATTTCTGTGGACAATTCATTCCGAAGGTTTTTTTTTTTTTTTTTTTAAGTTAAAAAAAAACAAGAAATTAAATTTTCACTGATGGATGGAAATATACATTCCCTAGAAGCCATTGGGTCAAGTTATACTCCTTACTCTGACACCAACTGATGAAAAGAATATTTTTCTTGAATTTATAATCTCATTCCTTCACAACTTTGCAGCACTTGCGTTTGAGGGCAGCGGTTATTGTAGCTAGTAATAGTCTTATACAACGTAGCATTCACTGAAAGTAGAAGATTTAGTAGTGAATACTAAATAGTACATTCAGTTAAAACATTCTGAAAAACTTAGGTGAGATCCCCATGTAAGGAGAAAGAGAAGAGGAGATACCTGTAGGGAGCCCAAATTGGTACAAGCTCGACTTTCTCTGTACCTATTTTCTACTTCTTTATTGAAGCTTTTCATTTCAACAGTGAAGGAGCAATTTCCGTTGTTACTTGAGATTGTAGAAGAATAAAGCTCATTGTTTCACATGTATCTGGCTGCGTGGTTGATCATTTAAGCGATTCTATGATTTAGTTCATTGATTTCTTTCCTTTTCCTGGGCATACAAAAAAATGGGTCTTGATTAGAATGTGCTTGCCACTCGTTGATTACAATTAATAATTACGTGCTACAAAAAAATTCCTCTCTTAAATTGTGATCTTAAATTTATGTGATAATTTCAGCTTGCAAATATAATATGGGGTGAGGCTGCTGATAGTGATGATCATATTGTGCCTTATCGGGAGGCTAGTGAGAATTATTATGACAAGAAAGAATGGCATCAAGACACGGTATGCACAAAACTTATGGAGCAAAAGTCACCTGGGACTAATGTTGATGATACCCATGAAAGAAAGCTGGAAAGCAGTCCTGGCAATGAAGAAGGAACCTCTGCCTCAAATCTCGACAATGATCCATTGGCTGACATATCCTTGTCCAAACCTTGCAGAATTGACCAGGACTCTAATGGTAATGAAGTATCTCATGAATTAACTGAAAATAGCAAATATAATTCACCAAGATATGGTAAAGATATTATATTTTTGATTCTCTGTTAATTCTACAGAGATATATGTGCGCTCACATACAATGCAACATTGACGAGCTTTAGCATAAAAGTTCAATTGTGTACTAATTTTTTGAATGACATGTATACTGACAGCTGCGATGATCAAAGATGCCCAAAGTTTTCAAAGAACTGAAGAAGGTAAAGGACAGGCTGATTTTGTTGACTATGGATGGGCTAATATTGGAAGTTTTGATGACCTAGATAGAATTTTCAGGTACATCGGTAGTTTATTTTCTTAACTCCTTGATTGATGGTTGTATAATTAAAATAAGAACTCATCATTCGTAAGCTCTTTTTTTTACTGAAGCCAAATTATACCCATGATGAAGAGGAAACAAAAATGTCTAACGTTGACCTGAAACAGTGTGGTCATGCAGTGAGCTGATCTTGTTTTATACCCTTTTGGGAAAGACTTGTCTTTTTTACTGATGAAATGGAACAGATTCTTGTTGCTTTGCTCCCTTATATTATTAAAAGACATTCTTCATAAATCGTGAGAGAACACCATGAAGATGTTCGGAGGCAAATAAGGTCCCATAAACCAGCAATAGTTGACTCTGACCCCTCAATCCTAGCCGACCAGGCATGCCACAGCACTGAGTAAACTGTAATAATTCAAAGAATTTTAGAGCGGCCCTTAAAATTGGTACCAACAAGAAGCTGGTTAATTTAGCAAGCTGGAGACTTAGGAAAACTCCAGCTCAACCCAAAAATAGAAAGCAGCTTAGTCCAACAATCACACATTTTTAATGGTAAATTACAATCTAATTAAAGTTTTGGGATCTTAGTAGGTCTTAGTCCTCTTAATCCTCTCTAGCAGTAGCGCCATATCTTTTATCTTTAGTTTTAACCCTGTCGTCACAACTGTAGATACTTGCCCGACAGTGGTTATCATGTGTAATTTTCATTTTACAAGGATTTTTCCTCTTCTTCTCTAGTTCTTAATCAATTGTCGATGATTCTTGGACAATGTTGCAAAATATAATATGCTCGTTTTTTTACAAAAATTCAATTATGATTCATTATTTCTATTATCATGTTCAAATTAGTCAGTACATGATCACCATTACCAAAGTTGTTGGATAGTCTTGAAGCATGATAGTGCATCAGAGTTTTTATTTGTCCCGTAGGTCAGAGTTTTTCTTTGTCCCGTAGGAATGCAGTCTTATTCTTTGAAACGTTTTTGTCCCTATATTAAATCTTTTTTTTTTTTCTCTAACCAATGTCAATTTTGTAGCAACGATGACCCAGTATTTGGCCAAGTAAGTCTCAGTGATGCTGATGAGATGTGGTCTTCTTCTTTGAAAGATTTGCACAACAGCCCGATGAAATTATTCCCAACTGTGGAGTCGCAGAATTTGGACTCAGGAGTGGACACTGAAAAGAATCCAGAGTACTCGAAACAAAATGAGCAATTATCTACTCTTGCCAGTGGGCGAAGTAGTGATACTGGATCACTTGGGTTGCAGACTGGAAGTGCAATCTTAACAAATGTAGGAGATAGGACTGGAGCTCTTGCAAAGGATCTGGTATTAAACATGTTGGAATAGTGCATTTTCTTTTGCTATTTTTTGAGCAAACTGAAAATTCTATGTAATTTGCTTGGCTTATCCAGACGGATCTGGAGAAAATGGAAAAACCATCTGCAGCCACACTTCACCAAAGACCTGATATTACCGCAACTGCCAATGAGTTTTCAAATAAGGTTTGTTTCTCATTTGTTTACTCAATTAATTAGTTGATCATCCTTTTGTTTACTGTATTTCAGCCTTTTTACCTGCCAATGAATATTGAATGTGGAAACAGCAACTTTGTCCAAATACCTGCAATGATAATTAATCTAAAAGAATGGTCAGCATTAGTAGATAGGATGTTGTCATTTTCAATCTACCGTTTTCAAGTAGATTAATTTTCATGTGGTAACCAGGTGGTAAAAAGTAAATCCTCGAGTTTATCATCGTTGATATTGAGTGTAAAATCTACAAAACTCTAAGCTATCTGTCATTAGCTTGCAATTCCGATTGATTTGGAAGGTGGTACCTAATGCCCCTGTTCTTTCAAATTCAAGTTTTCTGCAATGCCTATCTAATTCAACCTCTACCCGTAGGTGTCCTTATATATTCATAGGAATGAAGTGAGAGAATACAAATGGTTGTCCCAAAAAAAAAAAAATAAATAAATAAAATAAGGGTCTCCATGCCAAAATAATAACACCTAATGACAATTATGAAAGTCCTATGGAACTGCTGCCAAACTGAGGCATTGAGCATAACTTTCAACCACACCTCCTCCCAAGATCCCTCCCACCAAAGGTATGTTCAATCCATGCAGCAACCATAAAAACTTTTAAATGGTTGTAATTTAATGGTAAACTCCAGCAACCATTGGTGAAAAGATTACCGACTCACCATTCACATGTTTACTTGCTGTCACATTTGCTTTAATTTCAAATCTTTATGCAAATTTCAAAGAACTTTTTTGTTTTACTACCAATCAGTCAAATTTGAACTTGTTCCTCTACGATGGAATCTACTCCACTTACAACTCCAAGCAAATAATAAGTACCTTTGGTAGGAAGGTTGTTATAGCTATAACTAGTAGAGGGACAACTTCCAATTAACTTGATAGTACTACAATAAACAGTAAACCTATATTCAATAGTTAGATCTGACAGGTGAGATTACACTGGACTCTAATAAGTTGAAAGGAGCAACAGGCACCGACTTATGGTTGTCAATGTAGTGTTATATAACTGCGTATGCCTTTTTCATTTGCCCACCCAGAACTAGCAACCTTGCTTTGTGCTGGTGGTTTTTACATCAACTTAACTATTTAGACGTCCACTTCTCAACCCTGATAGATGTAGTCATAGTCTTTTCTGTCTGATCTCTAATTTTTATTACTTTTTCATGTTTCAGATTGGTAGTCAGAAAAAAGTGTTGAAATCTCGTAAAAGATCGGAGGGGAGAAGTGTTGAGAAGATGTTTCAAGATTTTCATGGAAACTGGCCTTCACCAACGAACCCAGCAGCTCAGTTTGATAACAAATCACCTCAGTACCAACGAAGCTCCAATCCTTTGATGCACCAGCCATTATATCCGATTGCTGCAAATGCATATCCTGTTGTACCCTTGCTGTCCCAAATTCAGCCGGGAGATCTTCAGCCTCAGCCTTTTATCAGTCAAGATATTTCCCCCAGTGGCGCAAATCATGTGGACAAACCAGCCGATGGTTTTGTAAAGTCTCTTACCATGACACCTCAAGAAAAAATTGAAAAGCTTAGGAGAAGACAACAAATGCAGGCAATGCTTGCCATTCAAAAACAACAGCAACAGTTCAATAATCAAGTCTCTACTACCAGTCAATCCATTTCTCCAAAATGTCCCCAAGAAATTCAGTCTCAGCACATCAAAAAGACTGATCTTGTTTCTGAAGAAATATACACTTTTCCTGCTCAAGATCCGAAGTCACCTTTAGAGCAAGATGATTCCAGTACAGTCTCCACCATGGTTGATCGTTTTTCTATGGAAGATACAACTCTTTGCAGACTTCAAGAAATTATTTCTAAGGTATACCTGACTTTGTGAGTGGATTATTTTCCTCCTAGAGTAACCTGACTTTAGTTACAATGCCCTAGAAATGTTTTACTACAGCTGGATTTCAAAATCAGACTTTGTATTCGGGACAGCTTGTTCCGGTTGGCCCAAAGTGCAATGCAGAGACATTATGCTAACGACACAAGTAGTTCCAACAAAAGTACCAGAGATGAAAATGAAACCACTGCAAAAGGAGAAATCAATAGTCATTGTAGGTTAGTAAATGCGCTTTATTACTCATTCTCTCGCATTGAGTTGTTCAAAAAATATTTTTGAGATCCTGCCTCAATTGTTGAGTCATGAACTTATCTCTTGTCATTTCGAATGTCTGCTAATAAAATCTAATATTTTTATGTCAAAACTAAGATTATTACATTGAGGGACCAAAACATTAATATGTTAGTGCAACATAGTTCACTGTGTTTTAAGGTTCATGGTATGAAAAACTTAATCCACTCAAATTATTTCATAATTAAAAAATAGTCGTGAGTGCTTATTCTAGAGAACAAAACAACCTAATTGCAAATAATAGAATTGCTTCTATCTTTTCTCAAAAACTTTTTTTTTATTAAATGTATGGTCTGATTTGAAGTATTGCTTTCTAATTTGAGAAAATGGAGAGTTTGTAACGTTGGTTAAGTCTTAAGAAAGTTACAAATCTGGTGGGTGAAAAGGGGAAATTTGGGAGCTGAGATTATAATCAGTGGCCTAGAGAGCCTTTCAATCCCCACCTATTTCACTTGTGTTTTTCAATAAATAGTTCTAGTTCTTCTCAACTCTACTTGGTCGCTTAATATATGGCGTAAGAGCTTGTGCAAACATAATAGAAGTCAAGCCAATATAAGGCAAGAAGAGCTCTCTTGATATTTAGTAATAAATTACTTCACATCTTAGTTATAGTTGAATATGATCCTGTGGTTACATCCTAAGAATGGACTTGGTTACTCGAGTACTACATATTTCCATCTGTGTTACCAATGATTTTCCGTATGATTTGAAGAATTCTAATGGAATCTCTAACTCTGTGATGTCCTCTGCTTTCTTTTGTATTCTTTTCTAGAATGGCTGGGGAGCCGGATGCTGAAACAGAGACCAACTCCATCGACAGAACTGTGGCTCATCTTCTCTTCCATAGACCCTTCGAGTTTTCACAAAACTATCCTGATGCACCCGAATCGCCAATTTCTGCGAAGTTTTCTTCCGAGCAGAAGGCAGGTTTGAAGAGCTCGCCAATGGAATTCTTGTCTTGCAATGCGTTGGGTAAACATCATATTTCCATGGATGGGTCTAGAAGTTCTTGGACGTCGGCAGAGATGCAGCAGATTAAAACTAGTCCTTGTATGGACATATCAGATAACACGTCCAATACTGGACTGGTAGATGATGCAGTTCTGGAGTATGAAGCCTCTCAGTGAGGAAATGTGCACGTTAGGACTATCATACGGGTAATTCATTCCTTTATCTCTTCCATGCCCTGTTGTTTGATTCTCATGCTTGACCATATGGATTCATTAATAATGCAAGATCTTCTTTTCATTCATCTGCCTACTAGATCATACAAACCACTGTTATGGGAGCTTCAAAACTTTGACTAACTCGTGGATCCAGAAGTATCAAAATCATGGAACATAGATCTCGAAGTATTGAAATCTCGAAGCACACAACATGCTTCTTATGTATTCAGAAAAAAATAAACTCTGAACAACGATTTGGAGACCGACTTGTATGTAACTTAACACGCACCAGCAATAACTGGATTGTGTTATTTATGTGATGCTATGTCTGTAGTGGTGTGAGCCTTTGGATGTTTTATTTTAGTCCGCTTGGAAGATTGAAACATAACATGCAATTTCCACGACTCATAAAATGTTATTCCTAGTGATTGAATTGTATTCTCATAAAATGTTATTCGTAGGAGTTTAGGATATCTCAGTTTGTGTATGTGTAGAATTTTATATTGTAAGTTAAGATTGAATATGATGCGTTG ATGAAATTCAAATTCACTGCCATCCAATCAGCCATGTTTGATTGGAACGACGAAGAGCTTGCAAATATAATATGGGGTGAGGCTGCTGATAGTGATGATCATATTGTGCCTTATCGGGAGGCTAGTGAGAATTATTATGACAAGAAAGAATGGCATCAAGACACGGTATGCACAAAACTTATGGAGCAAAAGTCACCTGGGACTAATGTTGATGATACCCATGAAAGAAAGCTGGAAAGCAGTCCTGGCAATGAAGAAGGAACCTCTGCCTCAAATCTCGACAATGATCCATTGGCTGACATATCCTTGTCCAAACCTTGCAGAATTGACCAGGACTCTAATGGTAATGAAGTATCTCATGAATTAACTGAAAATAGCAAATATAATTCACCAAGATATGCTGCGATGATCAAAGATGCCCAAAGTTTTCAAAGAACTGAAGAAGGTAAAGGACAGGCTGATTTTGTTGACTATGGATGGGCTAATATTGGAAGTTTTGATGACCTAGATAGAATTTTCAGCAACGATGACCCAGTATTTGGCCAAGTAAGTCTCAGTGATGCTGATGAGATGTGGTCTTCTTCTTTGAAAGATTTGCACAACAGCCCGATGAAATTATTCCCAACTGTGGAGTCGCAGAATTTGGACTCAGGAGTGGACACTGAAAAGAATCCAGAGTACTCGAAACAAAATGAGCAATTATCTACTCTTGCCAGTGGGCGAAGTAGTGATACTGGATCACTTGGGTTGCAGACTGGAAGTGCAATCTTAACAAATGTAGGAGATAGGACTGGAGCTCTTGCAAAGGATCTGACGGATCTGGAGAAAATGGAAAAACCATCTGCAGCCACACTTCACCAAAGACCTGATATTACCGCAACTGCCAATGAGTTTTCAAATAAGATTGGTAGTCAGAAAAAAGTGTTGAAATCTCGTAAAAGATCGGAGGGGAGAAGTGTTGAGAAGATGTTTCAAGATTTTCATGGAAACTGGCCTTCACCAACGAACCCAGCAGCTCAGTTTGATAACAAATCACCTCAGTACCAACGAAGCTCCAATCCTTTGATGCACCAGCCATTATATCCGATTGCTGCAAATGCATATCCTGTTGTACCCTTGCTGTCCCAAATTCAGCCGGGAGATCTTCAGCCTCAGCCTTTTATCAGTCAAGATATTTCCCCCAGTGGCGCAAATCATGTGGACAAACCAGCCGATGGTTTTGTAAAGTCTCTTACCATGACACCTCAAGAAAAAATTGAAAAGCTTAGGAGAAGACAACAAATGCAGGCAATGCTTGCCATTCAAAAACAACAGCAACAGTTCAATAATCAAGTCTCTACTACCAGTCAATCCATTTCTCCAAAATGTCCCCAAGAAATTCAGTCTCAGCACATCAAAAAGACTGATCTTGTTTCTGAAGAAATATACACTTTTCCTGCTCAAGATCCGAAGTCACCTTTAGAGCAAGATGATTCCAGTACAGTCTCCACCATGGTTGATCGTTTTTCTATGGAAGATACAACTCTTTGCAGACTTCAAGAAATTATTTCTAAGCTGGATTTCAAAATCAGACTTTGTATTCGGGACAGCTTGTTCCGGTTGGCCCAAAGTGCAATGCAGAGACATTATGCTAACGACACAAGTAGTTCCAACAAAAGTACCAGAGATGAAAATGAAACCACTGCAAAAGGAGAAATCAATAGTCATTGTAGAATGGCTGGGGAGCCGGATGCTGAAACAGAGACCAACTCCATCGACAGAACTGTGGCTCATCTTCTCTTCCATAGACCCTTCGAGTTTTCACAAAACTATCCTGATGCACCCGAATCGCCAATTTCTGCGAAGTTTTCTTCCGAGCAGAAGGCAGGTTTGAAGAGCTCGCCAATGGAATTCTTGTCTTGCAATGCGTTGGGTAAACATCATATTTCCATGGATGGGTCTAGAAGTTCTTGGACGTCGGCAGAGATGCAGCAGATTAAAACTAGTCCTTGTATGGACATATCAGATAACACGTCCAATACTGGACTGGTAGATGATGCAGTTCTGGAGTATGAAGCCTCTCAGTGAGGAAATGTGCACGTTAGGACTATCATACGGATCATACAAACCACTGTTATGGGAGCTTCAAAACTTTGACTAACTCGTGGATCCAGAAGTATCAAAATCATGGAACATAGATCTCGAAGTATTGAAATCTCGAAGCACACAACATGCTTCTTATGTATTCAGAAAAAAATAAACTCTGAACAACGATTTGGAGACCGACTTGTATGTAACTTAACACGCACCAGCAATAACTGGATTGTGTTATTTATGTGATGCTATGTCTGTAGTGGTGTGAGCCTTTGGATGTTTTATTTTAGTCCGCTTGGAAGATTGAAACATAACATGCAATTTCCACGACTCATAAAATGTTATTCCTAGTGATTGAATTGTATTCTCATAAAATGTTATTCGTAGGAGTTTAGGATATCTCAGTTTGTGTATGTGTAGAATTTTATATTGTAAGTTAAGATTGAATATGATGCGTTG ATGAAATTCAAATTCACTGCCATCCAATCAGCCATGTTTGATTGGAACGACGAAGAGCTTGCAAATATAATATGGGGTGAGGCTGCTGATAGTGATGATCATATTGTGCCTTATCGGGAGGCTAGTGAGAATTATTATGACAAGAAAGAATGGCATCAAGACACGGTATGCACAAAACTTATGGAGCAAAAGTCACCTGGGACTAATGTTGATGATACCCATGAAAGAAAGCTGGAAAGCAGTCCTGGCAATGAAGAAGGAACCTCTGCCTCAAATCTCGACAATGATCCATTGGCTGACATATCCTTGTCCAAACCTTGCAGAATTGACCAGGACTCTAATGGTAATGAAGTATCTCATGAATTAACTGAAAATAGCAAATATAATTCACCAAGATATGCTGCGATGATCAAAGATGCCCAAAGTTTTCAAAGAACTGAAGAAGGTAAAGGACAGGCTGATTTTGTTGACTATGGATGGGCTAATATTGGAAGTTTTGATGACCTAGATAGAATTTTCAGCAACGATGACCCAGTATTTGGCCAAGTAAGTCTCAGTGATGCTGATGAGATGTGGTCTTCTTCTTTGAAAGATTTGCACAACAGCCCGATGAAATTATTCCCAACTGTGGAGTCGCAGAATTTGGACTCAGGAGTGGACACTGAAAAGAATCCAGAGTACTCGAAACAAAATGAGCAATTATCTACTCTTGCCAGTGGGCGAAGTAGTGATACTGGATCACTTGGGTTGCAGACTGGAAGTGCAATCTTAACAAATGTAGGAGATAGGACTGGAGCTCTTGCAAAGGATCTGACGGATCTGGAGAAAATGGAAAAACCATCTGCAGCCACACTTCACCAAAGACCTGATATTACCGCAACTGCCAATGAGTTTTCAAATAAGATTGGTAGTCAGAAAAAAGTGTTGAAATCTCGTAAAAGATCGGAGGGGAGAAGTGTTGAGAAGATGTTTCAAGATTTTCATGGAAACTGGCCTTCACCAACGAACCCAGCAGCTCAGTTTGATAACAAATCACCTCAGTACCAACGAAGCTCCAATCCTTTGATGCACCAGCCATTATATCCGATTGCTGCAAATGCATATCCTGTTGTACCCTTGCTGTCCCAAATTCAGCCGGGAGATCTTCAGCCTCAGCCTTTTATCAGTCAAGATATTTCCCCCAGTGGCGCAAATCATGTGGACAAACCAGCCGATGGTTTTGTAAAGTCTCTTACCATGACACCTCAAGAAAAAATTGAAAAGCTTAGGAGAAGACAACAAATGCAGGCAATGCTTGCCATTCAAAAACAACAGCAACAGTTCAATAATCAAGTCTCTACTACCAGTCAATCCATTTCTCCAAAATGTCCCCAAGAAATTCAGTCTCAGCACATCAAAAAGACTGATCTTGTTTCTGAAGAAATATACACTTTTCCTGCTCAAGATCCGAAGTCACCTTTAGAGCAAGATGATTCCAGTACAGTCTCCACCATGGTTGATCGTTTTTCTATGGAAGATACAACTCTTTGCAGACTTCAAGAAATTATTTCTAAGCTGGATTTCAAAATCAGACTTTGTATTCGGGACAGCTTGTTCCGGTTGGCCCAAAGTGCAATGCAGAGACATTATGCTAACGACACAAGTAGTTCCAACAAAAGTACCAGAGATGAAAATGAAACCACTGCAAAAGGAGAAATCAATAGTCATTGTAGAATGGCTGGGGAGCCGGATGCTGAAACAGAGACCAACTCCATCGACAGAACTGTGGCTCATCTTCTCTTCCATAGACCCTTCGAGTTTTCACAAAACTATCCTGATGCACCCGAATCGCCAATTTCTGCGAAGTTTTCTTCCGAGCAGAAGGCAGGTTTGAAGAGCTCGCCAATGGAATTCTTGTCTTGCAATGCGTTGGGTAAACATCATATTTCCATGGATGGGTCTAGAAGTTCTTGGACGTCGGCAGAGATGCAGCAGATTAAAACTAGTCCTTGTATGGACATATCAGATAACACGTCCAATACTGGACTGGTAGATGATGCAGTTCTGGAGTATGAAGCCTCTCAGTGA MKFKFTAIQSAMFDWNDEELANIIWGEAADSDDHIVPYREASENYYDKKEWHQDTVCTKLMEQKSPGTNVDDTHERKLESSPGNEEGTSASNLDNDPLADISLSKPCRIDQDSNGNEVSHELTENSKYNSPRYAAMIKDAQSFQRTEEGKGQADFVDYGWANIGSFDDLDRIFSNDDPVFGQVSLSDADEMWSSSLKDLHNSPMKLFPTVESQNLDSGVDTEKNPEYSKQNEQLSTLASGRSSDTGSLGLQTGSAILTNVGDRTGALAKDLTDLEKMEKPSAATLHQRPDITATANEFSNKIGSQKKVLKSRKRSEGRSVEKMFQDFHGNWPSPTNPAAQFDNKSPQYQRSSNPLMHQPLYPIAANAYPVVPLLSQIQPGDLQPQPFISQDISPSGANHVDKPADGFVKSLTMTPQEKIEKLRRRQQMQAMLAIQKQQQQFNNQVSTTSQSISPKCPQEIQSQHIKKTDLVSEEIYTFPAQDPKSPLEQDDSSTVSTMVDRFSMEDTTLCRLQEIISKLDFKIRLCIRDSLFRLAQSAMQRHYANDTSSSNKSTRDENETTAKGEINSHCRMAGEPDAETETNSIDRTVAHLLFHRPFEFSQNYPDAPESPISAKFSSEQKAGLKSSPMEFLSCNALGKHHISMDGSRSSWTSAEMQQIKTSPCMDISDNTSNTGLVDDAVLEYEASQ
BLAST of CmaCh04G013390 vs. Swiss-Prot
Match: LNK2_ARATH (Protein LNK2 OS=Arabidopsis thaliana GN=LNK2 PE=1 SV=1) HSP 1 Score: 211.1 bits (536), Expect = 3.9e-53 Identity = 142/337 (42.14%), Postives = 196/337 (58.16%), Query Frame = 1
BLAST of CmaCh04G013390 vs. Swiss-Prot
Match: LNK1_ARATH (Protein LNK1 OS=Arabidopsis thaliana GN=LNK1 PE=1 SV=1) HSP 1 Score: 72.8 bits (177), Expect = 1.7e-11 Identity = 124/486 (25.51%), Postives = 192/486 (39.51%), Query Frame = 1
BLAST of CmaCh04G013390 vs. TrEMBL
Match: E5GCK1_CUCME (Putative uncharacterized protein OS=Cucumis melo subsp. melo PE=4 SV=1) HSP 1 Score: 984.9 bits (2545), Expect = 4.8e-284 Identity = 540/696 (77.59%), Postives = 572/696 (82.18%), Query Frame = 1
BLAST of CmaCh04G013390 vs. TrEMBL
Match: A0A0A0KV34_CUCSA (Uncharacterized protein OS=Cucumis sativus GN=Csa_5G623710 PE=4 SV=1) HSP 1 Score: 983.4 bits (2541), Expect = 1.4e-283 Identity = 540/704 (76.70%), Postives = 573/704 (81.39%), Query Frame = 1
BLAST of CmaCh04G013390 vs. TrEMBL
Match: A0A061FRH3_THECC (Agglutinin-like protein ALA1, putative isoform 3 OS=Theobroma cacao GN=TCM_045335 PE=4 SV=1) HSP 1 Score: 527.3 bits (1357), Expect = 2.7e-146 Identity = 336/691 (48.63%), Postives = 425/691 (61.51%), Query Frame = 1
BLAST of CmaCh04G013390 vs. TrEMBL
Match: A0A067KWH6_JATCU (Uncharacterized protein OS=Jatropha curcas GN=JCGZ_24511 PE=4 SV=1) HSP 1 Score: 515.4 bits (1326), Expect = 1.1e-142 Identity = 339/717 (47.28%), Postives = 437/717 (60.95%), Query Frame = 1
BLAST of CmaCh04G013390 vs. TrEMBL
Match: B9RGC7_RICCO (Putative uncharacterized protein OS=Ricinus communis GN=RCOM_1453000 PE=4 SV=1) HSP 1 Score: 510.8 bits (1314), Expect = 2.7e-141 Identity = 343/714 (48.04%), Postives = 425/714 (59.52%), Query Frame = 1
BLAST of CmaCh04G013390 vs. TAIR10
Match: AT3G54500.3 (AT3G54500.3 FUNCTIONS IN: molecular_function unknown) HSP 1 Score: 311.2 bits (796), Expect = 1.6e-84 Identity = 252/719 (35.05%), Postives = 358/719 (49.79%), Query Frame = 1
BLAST of CmaCh04G013390 vs. TAIR10
Match: AT5G64170.2 (AT5G64170.2 dentin sialophosphoprotein-related) HSP 1 Score: 72.8 bits (177), Expect = 9.4e-13 Identity = 124/486 (25.51%), Postives = 192/486 (39.51%), Query Frame = 1
BLAST of CmaCh04G013390 vs. NCBI nr
Match: gi|659092173|ref|XP_008446935.1| (PREDICTED: uncharacterized protein LOC103489500 isoform X1 [Cucumis melo]) HSP 1 Score: 1038.5 bits (2684), Expect = 5.3e-300 Identity = 560/704 (79.55%), Postives = 594/704 (84.38%), Query Frame = 1
BLAST of CmaCh04G013390 vs. NCBI nr
Match: gi|449449288|ref|XP_004142397.1| (PREDICTED: uncharacterized protein LOC101219885 isoform X1 [Cucumis sativus]) HSP 1 Score: 1036.9 bits (2680), Expect = 1.5e-299 Identity = 561/704 (79.69%), Postives = 594/704 (84.38%), Query Frame = 1
BLAST of CmaCh04G013390 vs. NCBI nr
Match: gi|659092175|ref|XP_008446936.1| (PREDICTED: uncharacterized protein LOC103489500 isoform X2 [Cucumis melo]) HSP 1 Score: 1019.6 bits (2635), Expect = 2.5e-294 Identity = 552/696 (79.31%), Postives = 586/696 (84.20%), Query Frame = 1
BLAST of CmaCh04G013390 vs. NCBI nr
Match: gi|778706745|ref|XP_011655906.1| (PREDICTED: uncharacterized protein LOC101219885 isoform X2 [Cucumis sativus]) HSP 1 Score: 1018.1 bits (2631), Expect = 7.4e-294 Identity = 553/696 (79.45%), Postives = 586/696 (84.20%), Query Frame = 1
BLAST of CmaCh04G013390 vs. NCBI nr
Match: gi|307136398|gb|ADN34208.1| (hypothetical protein [Cucumis melo subsp. melo]) HSP 1 Score: 984.9 bits (2545), Expect = 6.9e-284 Identity = 540/696 (77.59%), Postives = 572/696 (82.18%), 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 maxima
Date Performed: 2017-05-20
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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