CmoCh11G010340 (gene) Cucurbita moschata (Rifu)
The following sequences are available for this feature:
Legend: exonCDSthree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.ATGGAGGTTTAAAAAAATTAGGAGAGTAATAATTTTACAACTATACCCTTATTATTAAAAAAATAAAAAAAATAAAAAAATAAAAAAATAAACAACGCCATTCATCCGGAAGCTCACATCTACAGTATTTTCTTCTCCCCTTGCTCCTTTTTCGTTCTTCCACGCATCCCGTTTCTTCTACAACCTACGCCGGCACATCCTCTTCGCCACAGTCGTACGCCGGCACACCTTCATCGGAACGGCTCATTTCATTCTTCTTTCACTATCTTTATCTCTGCTGCAACCGCGACAGCACGCAGGACTGTGCAGCCTTCTTCTGCTGGTCTCCAAAGTTCACACTCGCAACCTCAACCTCTCTCAGTTTCTGTACGCCTGGATCGTTTTTCTTTTTTCTTTGTGCTTGTTCATTTTTATTTCTTCAATTCAAACCATTCGAAAATAGGGTGAAATTGGACTGAATTGAAATTTAATTGAAGTTTTGCCCAATCCGACCTATTTTGGACGGGAATTTGGTTGAGACAAAACAGGATTTGAGATCAGATTGAAATTCAAATCCTAGTTTTCTTTTTTCCAAACCAAACCTGACGATGATTTCAAGTCCGTTATGATTCCAAATCCTTTCGGTTCCAAACAGAGGGTTAATATCATTTGATACGTGTTTCCAAATGGTTCAAACCACTATCAGTTGGTTGAATTATCCTGTTAAGTTTGCAATTTTGCTCAACCTTAAGTGTTGCAGGGACGTGTTTGAAAGGACTTCGCTAGTATGTCCTTTTCTACTCAGAATATCATATTATTGCAGGCTTTCAGGATTATAAAACAGTAGAGCATTTTCCAATCATGGAAAATCTTAAGGGTTGTTTGTTTGCATCTTTTGTTTTTGTCTTTAATACTAGAACAAAATTTTGAGCGACTAGCATTTGGAAGTAATTGCAGTATCGTGAACAAGTATTTTTAGGTTCACTTACTTTGTGGGAATTAGTTGCTCGAAGAGAGAGAAAAAAGGAATCGTTCTTTTTTCATCAAGGTACAATGATTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNTTTTTTTTTTTTTTTTTTTTTTTTTTTTGCATTGGTTGGAACAATATTTTGCTCAGCTTTGGAAAAGTCCTTTGAATGGTAAGTTCTTCAATCAGTTGAGAGGGGATAAGGGACTCTTTAGAGTTCACAAAAACGTATAATAAGTTTGGTTGGTATTCAAATTCTTTTTAACCAATAGAGGTGCTAAAATTAGTATTATGGTTCCAGCAGAGACTCAAAAAAGAGGTTGGATGGTTTTTTGGGAGATATTGGATGAATTGCAACAGCAATCTAGAAATCCGGTTGATTTTTGCATGCAGAATGATGATGTTTCTCAGGCACGTCTTAGAAGCAATGATTGTGACAATGACCAGGTTTTTTCAGCTTCTTTGGGATTTAAAAAGGAAAGGAGATGGCAGTTATACACTTCGAGGAAGTTTTTGTTATAATAAGGCTTCATACTTTTGAAGATTGAAGGTATATTTCTGAAATTTTGAAGAAATAAGTTTGTAAAAATTGTTAAACCAATCCTTTTTCAGCAGATAAGGCTTAGCTTAAAATGAAGGATTTTAAAGGGTTTGCTGACAGGGGACTTCTTGCTTCTTGGTAGAAGTTGGTGTCTAAAATACAAAAAATGGATGCTCAAAAGCATAGTAGGCTAAGTGGGGGTAGAAGGTTTTGGAGGATGGATCAAAATCAAGAATTTCCTCTTTCTTTATGGGATAAGGAACACGATGAAGCCATAGGCAAGGAATCTGGTTTGCTCATTAAGATTCTTCGGAAACAATTATTTGTTTATGGTTAGGTATCTTACCCAACTTCACTTGAAAATGCAAGAAAAGCACAACAAACAAAACAATAATTGACAATACCACAATGCAAGAGTGTTGGTCAAATCTTGATTTGAATTTTGGCATGGGGTGTTAAAAATGTTATTAGAGCAGGACCTCTTCTAGTAAGATGTGATTCGGGACAAACTAAGCAGAAGTTGGTGGGCATGTAACGCCAAGTAAAGGATATGATGCAATTAGGTGCGCTTTCCTTTTTTATGGCTCAATTTTAGGAACTTCAAAGTTAATCTTGTTTTCTTAAGCAAAATTCTATGTTGGATGACCACGTAGGAACTTTTCTAGAAAGTATGTGATTGAGAATATAGCATGCTGAAATGACCCGTATTGGTCTGTAGGGATATTATGCACTCTTAGAAGCAAGATAAGTAGATAATGTGGTCATGTCGCAAGAAATGCAGGGAGTATCAGAGGCATCATATGCAAAATCTGGATTCCAAGTGTTATAAATGATATTAGAGCAGACCTCTTCTACTAGGATGTCGCCAGGAATGTAAGGGAATGTTAGAGCCATCACATTCGAATTTGGATTCTGAATCCTAGTACGAATCCTAGGCTTGGTGGTGCTTTCAACAAGTTTTAGTTGGCCTTTAGTGTGGTTTTGAATGGGCTGTCTCTGGCATCATGTGTGGCTTCTCAAGCTCTGGCTTTGGTCTTTAGTGTGGTTTTTAGTGGGCTGTCTCTGGGTTTGGTTTTTAGCGCGGTTCATTGTTGTGTTTGTTGGCCTTTTTGTCTTCTCAGATCTTTGGTTTTTTCATTCCTTTTTGGGTTTCTTTTTGGCCCTTGTTACTTCACTTTTAGTTATTTTTTCACTCCCTTGTGGAATTTGTATTCATAAGCATTAGTCTCTTTTTTATTTCTTGTTGAAGAAAAAAAAAACAAAATGTTGAGTTACTTCTAAAAGTAGAGATTATTGTGCACTTAAAATTATTATTTATAATCTCCTGGAAAATTAACTTCAGCTATTTTAAAAAATTGATTTTCCATGGAAACACATTATAAGTAAACAGGAGACAATAGCTTAAAGAAAATGGTCATCTATACATGTTTTTGCTAAATTGTTTTTCAAAAAACTAATTTTTTTTTTCCAAAACACTTCCAATAGCCCCTATCATGCTGAATTTGTTCTGAATATGGGAAATGGTTGAAATATATAGTGTCAATGCTAAATTAGTTCTGAATTGGAGTGTTTTCGACTTCATCTAGTTCATGATTATTTGGCTCCTCTTGTGGTGGCTATTTTTTGGCCCCTTTTGTATTATTTTATTTTTCTCCATGAAAGCTCAGTATTTTTATTAATGAAAGTGTTAAATTAGTTTTGGCCAATTTTTTTGGTTTCCAATAGGGATGATTGTAATACATGATGTTGTACTTCACGTATGCAGACTGGTTGCTTCAGGTTTTGGAGATCAAGTTGATAGCAGACCATTATGGTAATATATATTTATGTACTTAGGTTGTTTACCGATGCCGATTACTTTATTATTTTCGTTATTTATTATTTGCTGAGAAGGAAATTATTCCGATGTTGGCACATGAAAAATATCAACTGCCAAAAGGAGTTGCAGAAAGGTACCCCACCTGGCAATTATCAAAAGAGTCATTATTTCGAAGGAGATTTGAGATTTTCCTGATATTTATTTTATTTATTTAAAATATTTCTTGCACGAATATTATGATGAGATGGTGTTTTATTTTTTTAAAATTTTATTTTGATATTTCAGAATTACCTGCTTGGAGCTTTTAAGCCATCTTGCAACATATCAATTGCATTTTCTGATGGGAAAACACGCAAGCAGGTATCCCGTTTTCAGTAGTTAGCTGATTTAATGAAAGAGAGAAAATGTTTGTTCCAATTCTCATTTAGACGTGTTTTTGAAATAATAAACAGGTAGTATCTATGTAAGCTTATTGTTTTTTTTAGAAGAGAAACAATTATGAATGGAACAAAAGGAGTTAGACAACCCTAATGCTGCCTATTTGACAATTGGTATGACCGAGGGAAAACTAGAGCTAATTTCCCACCATTTACACATAAATCATGCCAAAAAACTGTATGGAGACTTTCCAACCTTTACTTGAATACTAGTACTAACAAAAGCAATCGTGAGGCTAATATACCTCATACCTCCAAGGAGACTTTGAAAAACCCCCCAAATAGGGAGATGGCCAAAAACATTCAGCACTCGATGAATAGTAATTTAGCCACAATAAACTGCTGCCAGAGAGCATTTTCCTCATAAAACGCCAAATCCATTTTTCTAAGAGGGCCTCATTTTGATGCTCTCGATTACTGATCGCAAAGCCTACCGTAAGTTGGTGACGCTGAGTTGTCTTCCAATTTACATTGTGCATACCCCCATCCAATTGCGAATCTTCCCAAAAAATTAGCGAAGAATCTTTTCCAAGGAAAACTGCTACTTTGGTGGGAAGGTGGAACAAAGAGAGGCAATAAATCGGTAAATAGAGTGTAGCCTGAATAAGAATTTGTCTACCACCTTCGGATATGTTGGCATATTTCCAGTTGTGTAGTTTATGATCAATCCTCTTAGTTATATGAGGCCAAGAATTTCAAAAATTGAAAAGGATCAAACACCATGAGATGGTCCCAAATTTAAATGATAATGGATAGTGATTGGAAGTAATGCGCTCAAGCATGAGTTATTGTGCAGTCCCAAACTTCCAAAGACGATCATTGGTGAGCAAAAATTTGTCCAAGAGTGAGAGCATTATTGCCTGACCAAGTGAAACAATCATTTTGAATTGACATGTTAAGTAAGTTAACAATTCATTGATTAAAAATTCGCATGTTCCTAGTGTTCCCAGGTCCCACAAGTTTCATTAAAATTTCCACCAAGGATCCATCGACCCACCCAAACCCGCCAAATCGTGAAACTCTTGCCAAAAATCTGTTTTAAGGCTCTAGCTGAAGGACCATAAATGGAAGACAACCAAAAAGAAAATCCATCAGCCATAAAATCATGAATAGAAAGTCAGAAAAGACCTTAGTTCTTAATAGTGAATTTTGGATCGCTCCACATAATAATAATAATCCTATCCGACGCATAGAATCGAGGGAGGCCCATTTGATGTATTATGAGCTCCATATAGACTTGATTGTACGCGTCGTGACCTTGGACGATTTTGTTTCTTGTATAAGTACAAAAGAGGTGTTCTTCTTTTGAATTGTGGGTTTGATCACTGGCCGTTTTTTCCACGACTCCAAATGATGTACATTTGAAGAGAGAAATTTCATTGATCAACTGGAGGTCCTGCCAATAAATCCAGTTTTGTCATAATGTACAGTGGTTGTGAGGTTCTTTAGCTCTCTTCTGCAAACTATTTTCTTCCGTTTAGTAACAAAGTTTTTTTCCACAGTAGTTGCGGGTGGAATGCAATAATACAGAGGCCACGGTCTTGTAGAATGGAAACAATTTGGCTCAGTGATGGAGGAAGTTAGAGGAATTGCTTGGAGCAGTTGGAACAAATTGATGATAAAATAGATTCTGTAGTACACGGAGTTGTGAACAATTGAGATGGAATAGTTTGCCTCTCGAGGTTAGGGGAAGTTGGATCATGTGTAGCAAATGGTAGGGCTGGTTAAATTGGGTTATCAGGAAAATGACAATTGGAATCCTAAAAAATTAGTAAGGTGGATAAGGATGGAGCCTTGAGGAGGCTTCTTGATTTTTATATGAGCATCGGTTAGGTTGATTTTTCACGAGGTAAGGTTCGTTGTTGTTTCATACCTTTGTATTTATTTCCACTGACATGAAAGTTTTTGCCCTAAAAATTTGGAGGCAAATTGAGTAGTCCAATCCATCCTCCATTAAAACCTTTCAAGTTCTCCTTCGGGGATGTTTTGGAATTCCTAGTATAAAAGTTCAATCTATAATCTCCAATCAGAGTCCAATCATCATTCAGGCAGAGAGGATCATGTAAACTCTGACCATAACAATGAAGCAGAGCTTTGTTGTCTTGAAAGGGATAAATAGACTATCAGTCCAAAAACTCTGAGAGAATAGTTGACTTGATACACAGCCAATTGGGATTGTGGCTGGGGATTGGTTGGGCAGATTTGGGTGCCTGAATCTGCTGTTGAAGGTTTTCTTTGTATGTGAGCTTGCGGTTCTTTGTCAACTTCCTATATTAGCTTCTCCTTGATAGTCTGAGATAAAAGAGAAGGAAAACCGACAATGTTTGCTATTCTGAAGGGACAATAAGGCAATGACATCCTCTGTTATGAAAAAGCTGATTAATTTCGACAATGAAATCTGTCTTATTTTTCAATTTTTCTACCCAGAGAGCATATTCATCATTTCTCAATTCAAGAAGAGCTTGTGTGAGCAAGATTCATTGGAAAAGTGTTGAAGGACTTTGCTGACCAATGGAGTGAGTTCCAAGTAATGGGGATGGCAAAAGTATAGGTACACAACCAATTTCATAGATAAGGGCTCAGCTTCCATGAGAATCATCATCAAAAGCAATGGAGAAAACTTTTCAATCAATTGAGATAGATCGTTAGAGTTGTTCCATTCTGGGAGGGGAGGTAGAGGGTGAATCATGATGGCCGGAGATTATAGGCTACATAAGCTGGGAGGAGAGAGTAGAGGGAGGCAGAGAATTCATTCTGCTTCTAAAAATTCGGAGTCTCTCTCTCTCTCTATATATATGTACAAATATAAATATGTTTATTGTCTGTGTAAGCTATTGAGTTTTGAAATGTTTCTTTTCTTTTTTTTGTAGTAGGAGTACCATAAATTGTATTAAACTCATATTAATCAAAATGTAGTAGGGTTAGTGCAAATTGGGGTAAATTCATGTTAATCTTCATTAAATCCTCGATTAATCATTTTTAATTTCCTGTTTGGATTTTAATTTTCTTTTAATTCTCTATAAATAGTGAATCACTCTCTTGTATCCATAACTGTTCATTTAAAGTCTTGATTGATTCTCGTAAAGAATTCAACTGATTCTCTGAAAGAATTCTCCTTTTATCCTCTTAGGCTACACCAAATTGGAATCAAAGTGCCTGAATCCAGGGCCAGAATTTTTTTTAACCAAGACTGATATAAATTTACCGTAATCCTAATATATTTTCGTTTACACAATACTTTCACTTTGCAGAATAGGGTTATTTTTGTTCATTATTTTTCTCAACACATTTCTCTTTTAGGTTTCATTAAAGAAAGAAAATGGTCAGATGGTTTCGATTCCCCTTTTCCAAAGTCAAGAGAATATTACTGGGAAGGTATGTTTATTTTGTTAATTTGACATTTTCTTTGCCAATCTTTATGAACTTTGTTTCTTTTTATTGGAGACTGTTAGATTCCATTTTTCATTTTTCTTATTGTGCTCCAGATAACTGTAGATCCTCTACAAGGAAAGAAGATTGACCACAATGGTGTTAAAATTGAGCTTCTCGGTCAAATTGGTGTGCACTTCTGCTTTCACATTATGATAGTTTTCTTTTATTTGTCTATATATACATTTTTAACATCGGCGAGTTTCTCTCTTTACCACCAAATGTTTTCTTTATCTTCTTGCTTCGAGGGTATTCTTATTGGTTCTTTATATAATTTTTTATTGGGGATATTGCTACATTTCCTTATGTATATTTTTGCTTTCTTCCTGTCGTAATTTCTTTAAATGGGGCTACCTTGTGCTAATGGTGCTAACAACCATGCTTTCTGGGCATCAAACTTTGAAAAATTAATATACTCTCTCTCTCTCTCTCTGAGAAATTGATATAGTTAGTTTCATACTCTTTTTTGCAGAGATGTATTTTGATAGAGGCAACTTTTATGACTTTACTTCTCTTGGTAAGTATTATATGTGTTCATTCTTGACGCTGTTTGAACTTCACTCATTTTCAAGGGTTAGAGAATTATGAGGGTGCAAAAAGACAAATTACAGTTTCATTGTTTTTGATGCATCCATCATGTTATTTTTTGCATCATTATTATCATACCTGTCGAACATGTTCTTCAGCATTTAACTTTCATTAATTTTTCCAGTTCGTGAATTGGATGTTCCAGGAGAAATATATGAAAGGAAAACATACCCATTCGAATTTTCTACAGTTGAAATGCCTTATGAGACATATAATGGGGTGAATGTGAGGCTGAGGTAAAGTCTTTTGGAATTAAGATCCTTTCTTTAATAATGTGCTATCATCTTTTCTGCTGGCTTCTCTTATGAATGTTAACCAGCCTCACACCGATAATGCATTTCTCCTCACTGATGCTCAATTGTTAGTTTGATTGTTGTTTATCTATTTCGGACATTTGTTAGATGGTACATCATGGTATTTTTGCATTTTTCTATTTTAATATTTCAATTTTTTTAAACTAAGAGATTGTTTTGATCTGGTGCTCTCTTAATTTCCTTATATAGGTATGTCCTCAAATTTACCATCAGTCGTGGTTATGCTGGTAGCATAGTGGAATATCAAGACTTTATGGTAGCATTTCTAACTTCTTTTTCCAGTGGCATAACACACTGCTTTGAACAATGTTAGTGAATGTATATGTTGATATGCATGAACATTGTAGAGTAGTAGTTTGACACATGCATTGCATGAGGTGCATTCTTCTCTTTAACAATAATTGACATGAAGTCTCCTGATCTTGACATGTTCTTCATTGAGTTCGCAAAAAATCTTATATCATTTTAAATAATAATAAAAAAAATGTTCCAGTTTATTTACTATTATTATTATTTTCAAAATGGCATCATTAGCTCTTGCCTCAATGAAACGTTTTTGTGCTTATTTTCTTTATCTCTCCACTCTTGCGTTTGTTTTATTCTTTTTTTCATGCTTCATCCTCTTTTCAAGCTTATTCTGTTTTCTTGTACTTGCATCTCTAGCATTGACAGTTCTATTTTCATAAATTATGGAGGTGGTGGCGGAAGAAGTCTGAACTCTTGTTAATCTGCTTAGTTGTTTCTTTCTTAACATGTTAACTGCCACAAGTCTGTCTAGCCTATGTGGATACTGTACAATTAAGCTTGTAATCATTGGTTTGCATCAGGTTCGCAACTATTCACCCCTTCCATCAATCAACAATGGTATTAAGGTCAGTACAGTGATATACCCCATACCTTGAAACTTTTTGTACTACAGTAGTTTTCTGCCGTTTTCACTTGTTTCTACAATGACAAGCATTTAGTTTATGGCTGTCAACTCAATGAAATACACGTTTTAACACACTAGGGTTTGTGGCAGTTTACTTTCAGTAGCGTGAAATGCTTTCATGCTTTCATGCTTATGCTGCATCGTGTCACTAATATCTATCTATACCTGCTAAACAAGGCAACTTCCTTGTGGATCATCTTGATTATTTATGCTCTTTGTTTTAGATGGAAGTCGGGATTGAAGATTGCCTGCACATCGAGTTTGAGTATAACAAAAGCAAGTAAGTAGTGTAGATTTTCTGGCTGGGGTTTGAACTATGCTCTTGCAACATCTACCTCCTCAACTTCATTGTTTAATATGACGAATTTATTAAATCTTCAAGGAAGTATTCATTCTTTTGTCACTGACTAGATAGAACTTATATTGGTGTTTATAGAAGCTGATCATGTTGGCTGTTTCATTGGCTACCTTTAAATTGTTTTTATTTATTTATTTATTATTATTATTATTATCATATTGAAACTGGAAGCAATGGCTTTCCCCCTCTTTTCTTTCAGAGATGGAAAATTAAATTTTCTTAGTGAGTTAAGAAAATTTGTATATACAGGTACCATCTCAAGGATGTTATCATTGGCAAGATTTATTTTTTGCTGGTGAGAATCAAGATAAAGAATATGGATCTGGAGATCAGGCGACGAGAATCAACGGGATCTGGAGCTAACACTCATGTCGAGACAGAGACACTGGCTAAGTATGAGCTAATGGATGGAGCTCCAGTTAGAGGTTTGCTCCCAATGCTCCTTTTTTTAAAAAATTACCATTACCTAATGCAGGGTAGGATATTTGTGTACAAATGGTAAACCTCATTTGTTTCTTTCTCCATGAACCAAACTTTCTTCGATATTTGAATAGTAACAAAGATACTGAACACCTAAGACACGCTTAACAAGGCATAGGCCCAAAATAAAAAAGTGCACACATACAACCTTGAAAAACACGAGATACTAAACTTTCTTGCTAACACAGTGTGGGGTAATCTGCGTTGAAAGTTACTTTTTTGGCGTTGTGTTTTTTAGTTCCAAATGAATCGGAAAGCTTAAAATAGATTGTATTTGCTTCTCTAGGTGAATCTATTCCTGTCAGATTGTTTCTGAGCCCTTATGAGCTGACGCCTACGCATCGTAATATCAACAACAAATTCAGTGTGAAGTATTATTTAAATCTTGTTCTTGTTGATGAAGAAGACAGACGCTATTTCAAGCAGCAGGAGATCACTATATATAGGCTTCAAGAGACTTCCTGATTACTCATCTCCAAATACTGTTAGATAAAGTCACTATTGGGAAGGAGATCTACTACTGGGAGACCTCTGTAAAGCGCATTTTTTTCCGTGAAAATTGTCTATTTCTTTTCCAAGCAAAATGTTTGACTGGTTTGCTTAGGCATGAAATCTTGGTGAGATCATTTCTTTTAGTTGGTGGTAAGTTGGATGTGTTGATTGTATGAACGTTGTTGCCAAATTATTGAACAATTTCATCACGAGCATCGATATCTGGTTTTAGCATGCTCAATTGTAGATTCTTTTCCTTTTTTTTCCCGAAATCTGCATATTGTTCAGCAGTTCTTTTGTTGTTCAGAAGGAATAATATTATGCTTTTAG ATGGAGTATTTTCTTCTCCCCTTGCTCCTTTTTCGTTCTTCCACGCATCCCGTTTCTTCTACAACCTACGCCGGCACATCCTCTTCGCCACAGTCGTACGCCGGCACACCTTCATCGGAACGGCTCATTTCATTCTTCTTTCACTATCTTTATCTCTGCTGCAACCGCGACAGCACGCAGGACTGTGCAGCCTTCTTCTGCTGGTCTCCAAAGTTCACACTCGCAACCTCAACCTCTCTCAGTTTCTACTGGTTGCTTCAGGTTTTGGAGATCAAGTTGATAGCAGACCATTATGCTTTTAAGCCATCTTGCAACATATCAATTGCATTTTCTGATGGGAAAACACGCAAGCAGGTTTCATTAAAGAAAGAAAATGGTCAGATGGTTTCGATTCCCCTTTTCCAAAGTCAAGAGAATATTACTGGGAAGATAACTGTAGATCCTCTACAAGGAAAGAAGATTGACCACAATGGTGTTAAAATTGAGCTTCTCGGTCAAATTGAGATGTATTTTGATAGAGGCAACTTTTATGACTTTACTTCTCTTGTTCGTGAATTGGATGTTCCAGGAGAAATATATGAAAGGAAAACATACCCATTCGAATTTTCTACAGTTGAAATGCCTTATGAGACATATAATGGGGTGAATGTGAGGCTGAGGTATGTCCTCAAATTTACCATCAGTCGTGGTTATGCTGGTAGCATAGTGGAATATCAAGACTTTATGGTTCGCAACTATTCACCCCTTCCATCAATCAACAATGGTATTAAGATGGAAGTCGGGATTGAAGATTGCCTGCACATCGAGTTTGAGTATAACAAAAGCAAGTACCATCTCAAGGATGTTATCATTGGCAAGATTTATTTTTTGCTGGTGAGAATCAAGATAAAGAATATGGATCTGGAGATCAGGCGACGAGAATCAACGGGATCTGGAGCTAACACTCATGTCGAGACAGAGACACTGGCTAAGTATGAGCTAATGGATGGAGCTCCAGTTAGAGGTGAATCTATTCCTGTCAGATTGTTTCTGAGCCCTTATGAGCTGACGCCTACGCATCGTAATATCAACAACAAATTCAGTGTGAAGTATTATTTAAATCTTGTTCTTGTTGATGAAGAAGACAGACGCTATTTCAAGCAGCAGGAGATCACTATATATAGGCTTCAAGAGACTTCCTGATTACTCATCTCCAAATACTGTTAGATAAAGTCACTATTGGGAAGGAGATCTACTACTGGGAGACCTCTGTAAAGCGCATTTTTTTCCGTGAAAATTGTCTATTTCTTTTCCAAGCAAAATGTTTGACTGGTTTGCTTAGGCATGAAATCTTGGTGAGATCATTTCTTTTAGTTGGTGGTAAGTTGGATGTGTTGATTGTATGAACGTTGTTGCCAAATTATTGAACAATTTCATCACGAGCATCGATATCTGGTTTTAGCATGCTCAATTGTAGATTCTTTTCCTTTTTTTTCCCGAAATCTGCATATTGTTCAGCAGTTCTTTTGTTGTTCAGAAGGAATAATATTATGCTTTTAG ATGGAGTATTTTCTTCTCCCCTTGCTCCTTTTTCGTTCTTCCACGCATCCCGTTTCTTCTACAACCTACGCCGGCACATCCTCTTCGCCACAGTCGTACGCCGGCACACCTTCATCGGAACGGCTCATTTCATTCTTCTTTCACTATCTTTATCTCTGCTGCAACCGCGACAGCACGCAGGACTGTGCAGCCTTCTTCTGCTGGTCTCCAAAGTTCACACTCGCAACCTCAACCTCTCTCAGTTTCTACTGGTTGCTTCAGGTTTTGGAGATCAAGTTGATAGCAGACCATTATGCTTTTAAGCCATCTTGCAACATATCAATTGCATTTTCTGATGGGAAAACACGCAAGCAGGTTTCATTAAAGAAAGAAAATGGTCAGATGGTTTCGATTCCCCTTTTCCAAAGTCAAGAGAATATTACTGGGAAGATAACTGTAGATCCTCTACAAGGAAAGAAGATTGACCACAATGGTGTTAAAATTGAGCTTCTCGGTCAAATTGAGATGTATTTTGATAGAGGCAACTTTTATGACTTTACTTCTCTTGTTCGTGAATTGGATGTTCCAGGAGAAATATATGAAAGGAAAACATACCCATTCGAATTTTCTACAGTTGAAATGCCTTATGAGACATATAATGGGGTGAATGTGAGGCTGAGGTATGTCCTCAAATTTACCATCAGTCGTGGTTATGCTGGTAGCATAGTGGAATATCAAGACTTTATGGTTCGCAACTATTCACCCCTTCCATCAATCAACAATGGTATTAAGATGGAAGTCGGGATTGAAGATTGCCTGCACATCGAGTTTGAGTATAACAAAAGCAAGTACCATCTCAAGGATGTTATCATTGGCAAGATTTATTTTTTGCTGGTGAGAATCAAGATAAAGAATATGGATCTGGAGATCAGGCGACGAGAATCAACGGGATCTGGAGCTAACACTCATGTCGAGACAGAGACACTGGCTAAGTATGAGCTAATGGATGGAGCTCCAGTTAGAGGTGAATCTATTCCTGTCAGATTGTTTCTGAGCCCTTATGAGCTGACGCCTACGCATCGTAATATCAACAACAAATTCAGTGTGAAGTATTATTTAAATCTTGTTCTTGTTGATGAAGAAGACAGACGCTATTTCAAGCAGCAGGAGATCACTATATATAGGCTTCAAGAGACTTCCTGA
BLAST of CmoCh11G010340 vs. Swiss-Prot
Match: VP26A_ARATH (Vacuolar protein sorting-associated protein 26A OS=Arabidopsis thaliana GN=VPS26A PE=2 SV=1) HSP 1 Score: 537.3 bits (1383), Expect = 1.4e-151 Identity = 256/293 (87.37%), Postives = 279/293 (95.22%), Query Frame = 1
BLAST of CmoCh11G010340 vs. Swiss-Prot
Match: VP26B_ARATH (Vacuolar protein sorting-associated protein 26B OS=Arabidopsis thaliana GN=VPS26B PE=2 SV=2) HSP 1 Score: 533.5 bits (1373), Expect = 2.0e-150 Identity = 252/293 (86.01%), Postives = 277/293 (94.54%), Query Frame = 1
BLAST of CmoCh11G010340 vs. Swiss-Prot
Match: VP26B_XENTR (Vacuolar protein sorting-associated protein 26B OS=Xenopus tropicalis GN=vps26b PE=2 SV=1) HSP 1 Score: 359.8 bits (922), Expect = 3.9e-98 Identity = 170/292 (58.22%), Postives = 231/292 (79.11%), Query Frame = 1
BLAST of CmoCh11G010340 vs. Swiss-Prot
Match: V26BA_XENLA (Vacuolar protein sorting-associated protein 26B-A OS=Xenopus laevis GN=vps26b-a PE=2 SV=1) HSP 1 Score: 358.6 bits (919), Expect = 8.7e-98 Identity = 170/292 (58.22%), Postives = 230/292 (78.77%), Query Frame = 1
BLAST of CmoCh11G010340 vs. Swiss-Prot
Match: V26BB_XENLA (Vacuolar protein sorting-associated protein 26B-B OS=Xenopus laevis GN=vps26b-b PE=2 SV=1) HSP 1 Score: 356.7 bits (914), Expect = 3.3e-97 Identity = 169/292 (57.88%), Postives = 229/292 (78.42%), Query Frame = 1
BLAST of CmoCh11G010340 vs. TrEMBL
Match: A0A0A0L3Y1_CUCSA (Uncharacterized protein OS=Cucumis sativus GN=Csa_4G538580 PE=4 SV=1) HSP 1 Score: 582.0 bits (1499), Expect = 5.4e-163 Identity = 285/295 (96.61%), Postives = 291/295 (98.64%), Query Frame = 1
BLAST of CmoCh11G010340 vs. TrEMBL
Match: J7G2X3_ROSRU (Vacuolar protein sorting-associated OS=Rosa rugosa PE=4 SV=1) HSP 1 Score: 561.2 bits (1445), Expect = 9.8e-157 Identity = 271/295 (91.86%), Postives = 285/295 (96.61%), Query Frame = 1
BLAST of CmoCh11G010340 vs. TrEMBL
Match: M5X831_PRUPE (Uncharacterized protein OS=Prunus persica GN=PRUPE_ppa009222mg PE=4 SV=1) HSP 1 Score: 557.4 bits (1435), Expect = 1.4e-155 Identity = 269/295 (91.19%), Postives = 286/295 (96.95%), Query Frame = 1
BLAST of CmoCh11G010340 vs. TrEMBL
Match: A0A061G2S3_THECC (Vacuolar protein sorting 26A isoform 1 OS=Theobroma cacao GN=TCM_015475 PE=4 SV=1) HSP 1 Score: 557.4 bits (1435), Expect = 1.4e-155 Identity = 269/294 (91.50%), Postives = 283/294 (96.26%), Query Frame = 1
BLAST of CmoCh11G010340 vs. TrEMBL
Match: A0A067K695_JATCU (Uncharacterized protein OS=Jatropha curcas GN=JCGZ_20830 PE=4 SV=1) HSP 1 Score: 556.6 bits (1433), Expect = 2.4e-155 Identity = 265/295 (89.83%), Postives = 285/295 (96.61%), Query Frame = 1
BLAST of CmoCh11G010340 vs. TAIR10
Match: AT5G53530.1 (AT5G53530.1 vacuolar protein sorting 26A) HSP 1 Score: 537.3 bits (1383), Expect = 7.7e-153 Identity = 256/293 (87.37%), Postives = 279/293 (95.22%), Query Frame = 1
BLAST of CmoCh11G010340 vs. TAIR10
Match: AT4G27690.1 (AT4G27690.1 vacuolar protein sorting 26B) HSP 1 Score: 533.5 bits (1373), Expect = 1.1e-151 Identity = 252/293 (86.01%), Postives = 277/293 (94.54%), Query Frame = 1
BLAST of CmoCh11G010340 vs. NCBI nr
Match: gi|659083106|ref|XP_008442185.1| (PREDICTED: vacuolar protein sorting-associated protein 26A [Cucumis melo]) HSP 1 Score: 582.0 bits (1499), Expect = 7.7e-163 Identity = 285/295 (96.61%), Postives = 291/295 (98.64%), Query Frame = 1
BLAST of CmoCh11G010340 vs. NCBI nr
Match: gi|659120299|ref|XP_008460119.1| (PREDICTED: vacuolar protein sorting-associated protein 26A-like [Cucumis melo]) HSP 1 Score: 576.6 bits (1485), Expect = 3.2e-161 Identity = 282/295 (95.59%), Postives = 289/295 (97.97%), Query Frame = 1
BLAST of CmoCh11G010340 vs. NCBI nr
Match: gi|1009123818|ref|XP_015878741.1| (PREDICTED: vacuolar protein sorting-associated protein 26A [Ziziphus jujuba]) HSP 1 Score: 562.4 bits (1448), Expect = 6.3e-157 Identity = 273/295 (92.54%), Postives = 285/295 (96.61%), Query Frame = 1
BLAST of CmoCh11G010340 vs. NCBI nr
Match: gi|399920197|gb|AFP55544.1| (vacuolar protein sorting-associated [Rosa rugosa]) HSP 1 Score: 561.2 bits (1445), Expect = 1.4e-156 Identity = 271/295 (91.86%), Postives = 285/295 (96.61%), Query Frame = 1
BLAST of CmoCh11G010340 vs. NCBI nr
Match: gi|694364535|ref|XP_009361318.1| (PREDICTED: vacuolar protein sorting-associated protein 26A [Pyrus x bretschneideri]) HSP 1 Score: 557.4 bits (1435), Expect = 2.0e-155 Identity = 271/295 (91.86%), Postives = 283/295 (95.93%), 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 moschata
Date Performed: 2017-05-19
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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