CmoCh15G005910 (gene) Cucurbita moschata (Rifu)
The following sequences are available for this feature:
Legend: CDSexon Hold the cursor over a type above to highlight its positions in the sequence below.ATGTTTACGCTATTTCTGTTCGGATTTTCAGTTGCACAGTATTTTGGGGCGATCTAATCTCAGTTATAATTGATTATTATTTCAGTGTGATATTATGATTGTGTTCTGAGCTGCCGCACTTTTAACATTGACTGATTATACAGACTATTTTATCACGTTCACCATCAAAGAAGTGAAAGTTGTTATGAGAAATTTCTACTACATTGTTTTGTTAATTCCTCCTCGTTTGACAATGAATCTGAAACTTGAAAGTTTAAGCAATTTTTCTTGTTTAGTCGTTTGAACAAGTGAAAGAGATAAAATTACTCCGAAATTTGGTTCCTAATTTTTCAGTTTCATTATTGAAGACTTCGTATTTGTGATCTAGTCGCAAGTTAAATTTCTAGTTTCATTTGTTTTTTTCTTCCGTTGTCAATTCGCGTTACACCATCTGCTGTATTTACTTAGTAATTAGGTCTGATTTATTCTGTCACCTTGATTTTCTTCTATGATTTGTACATTATTTACTTTTGTTTCATAAGCTTGAAGGTTGTCAATAAAGATAGGTTTTGCCCCTTTCTGATGTGTCGTAGAAGTTCATATTTGTTAGGAATCAGGAAAATGTGAAATGTGCCTATGTATGGATACTGAAGGGGAATTTTAACTGCATTAAAATTTAATGACACTTTTTTTTCGAAATCTGAAAGTTGAGTTTAATGCCTTGAAAGAGAATGGTATGAAGAGTTCGTCTCATATATCATTCTGTATTTGGATTTAGATTGTGTTACGGGGTTAACTCAATGCTTTGTGCAGGTATTCAATGCGGCAGATGAAGAACGTGGTCCTTGCAGAACCTTGATGATTTCAGATTTTTAATCACTTTATGGTTAGTTGACTCCCGATTCTGATTAGATGTTTTTCTTAAGATGTTCTCTCTGAAAAGTGTTCTGGAATAACAACATGATATCCACCTTTGGCTGTGTGCAGCATTTTAAAAAGAATTCTCCCATCGTTCCATCTAGTCTCAGCCACTGCCTATCTCTCCATCATTCTTCGATCCCCAAACTATTACCAACATCACACAACGTTTTTGAAAGAAATTTCCTCCTACTGATTGCTAACATCATGTGAAGAAACTTCTCTCCCACCCTCCCCATGGTCTCCCCGGTCCCAATATTGCTTTGCTAAAAACATATTTTACTTTCCTTCTGGATGACATCGTACAACTGCCACTTCATTAGTGTTCTTTTCTTTCCATTTCCTTGCCCCATACAGCCCTCTCTGTAGTTCCCCAATACTTCCTGCTCCCATACTTTTTGCTGTCTCGTCCGATCTTCTTGGTTTCTGATGGAGTTAAATCTAGGATGCAACTAATTTATCTTTTGCCTGTCAAGAACCCAGTAATTGATTAACTCTAGGTGCTTCACCCACATTACCTGATTTGAATGGAAATTTGCCAAACTGATCTTGTCTCAAGAAGTACTAGATCATCATTAGATGCTATCCATTTTTCTTCATTGTTGATCATAAAATTTAGTTTTTTTTTTTTAGCTTTGAGACATGAAATCTATCTGATGATATTTGGGTTGAATTTTTTCTCTAATTCGACTGAATAGAAGAGCTTTTTATTTATTTATTAAATTTTTTCCTCTGCTTTCATCTTTAAACTATAAAGTTATTCAAACTAGACTGTCACCCTCTGGTTTTTCTGAAAATCTCAACAATTGACCATCATAATCCAAAGTAAGCCACCTTCTTAGTCCTACTCAACCTTACATATGACTTTTTTCTTAGTTGACTCAATCTTAGTAGCTAATGAGATTTCTGATAGGAAGAAAATAATTAATTCAATCTTAGTAGCTATTGAAGCTGTGGAATTTGGAAAACGAACAGTTGGATAAACCTCCCAATAATAAAAAATCATGACGTAGTTGACTGGAAGTTTTTGGAGGATGTATTGAAGCAAAATGAATTTAATCATCTATGTATAAGATGGATCATGGAGTGCATAAGAGGAACTAATTTCTATATTTTCTGATATAGTAGGCTGGGGCAAATTGTAGTTACTCAAAAGGCATAGGCAGGGTAATCAATGTGTTATGTAGATTGATAAATGAAAGAACACGGATAGATTCAATGGTAGGTTTTTTTTCTTCTTCTTTCTATTAGGGAGAAATGGAGTCCATACTCTATAATGTACTGATGGTACATTCCTTTTTGTAGAAACAGGCTAATTGGTGGCGAGAGGGTAAATTATATGGCATTTATGGTAGGTTAAGTTGCATAGGTGATGAATATCTTATAAGGTAGCTTGAAATGCTTTTTGGCGCTAATCCTATAAGGGAGGAGTTACTGAACCAGTTGAAGAGACAATATTGGGGAGATAAGCATAATGCAAGAACTCATTGAATTCTAAAAGTTGCATATTAGTCCCGATACAATTGATTATGTAGGCCTTTTTGACATACATCTTATTTGTTTCCTGTACTCCGACGTTGTGAAAATAAATAAGTAGTTTCGTCAAACAGTCTGTTCTTTAGTTTATAGCTTCTCTTGTATAAAGGTGTAAACTTCTGGAAGATGGATTGCTGTTAGACACTCTGGAATTTATATATACCACACTGTCCTTGATCTCAGTAAAATTTGCCTTCTAGATGAACCTTTCATTGATAGTTTTTGGTCATCTTTTCCTGTGAATATTTCATGGAAATGAGGCATTAATTGATATATTGATTTATCTATCTTCTGATTTGAAACTTTACGAGAAAGTTAATAACAGTGTTATTATGTTTGAAGGATCAACATATTGAAGGACTGCCACACTACAAAGATATCAAACAAAATGAATTCTGTTACCGAAAGTAAGATATTTTAATCATTTTCACCATCTCCTTCTTTTCAGTATGTTATATATTTCAATGAATGTTTTCATGAGTTTTATTGTACATAACAGAATGTGTGTTTTTTTTCTAAGTGGGATAAAGCAGCTTTAACCTTCAACCACGTTTAATTTGACGATAAGACAACTCCTTTCTCATCCACCTCAAAGAATGAATTTCTTCAGTCTTCTAAAAATTTCTTTGAGTTATTCTTGTGGCTGAATGTCAACTTGTGTGAAACAAAGATTATGGATCTCCTCCAAACGTTAATGCAAAGGGCATCATTTTCTGGAATCCTGTTGTCAAACAAGCTTCAAAGTCAGAAAACATTGATTTTATCGGAATGTGGTAGATTGACCCTCATCCAAGCCTCTCTCAAACCTTCCTACTTCTTTTATGTCATCTTTTTATGTCCTTACTCCTTAGTGGCTTCCGATATAGGTAGATTTGAGTAATTTCTAATAGGTTAGGTAAGTCTCTCATCCAGTCAGTTGGAACAAGGTAAAGTGTCAATTTTTTCTGGTTGTTTGACTTTGGAAACCTCTATTTATACTCTCTTTTATCGAAGTGGTTTGGGAGGTTTGCCTTAACCCCAAGGTTTTCATTTTATGATGTGATCCAAACTTCAATTTGGGAAGATTGGGGGACATGAATCTTAGAATGGAGCTTCTGCAGAACTTTGGGATACCATAGATTTTGCTTTTTTATAGGGTACTATTTCCCCTTTTGTTATTGCATTTTTATTTTTACTTAATACCAATTAGATCACATGTTTGCAAGCTTCTCTGGTTTGGGTTTTCTGTTTTGCTTTCATCTTTTCAATGGAATGCACTCGTTTCTTGTTAATACAAAAAGGGTTTGCCTGTGGAAAAGATGCTAAATACGGAGTTTCAAAGGGAGACTGGTGAGTAACCTAGCTGCTATCAAATGCTCCATGGGTTCTTAGAAGGACATTTATTTTTTGGGTTCGAAATTGGAGTTTTGGGTGGTTAATGGTGATTACATGAGATGCTGGGAAGACATTTTTAAAAGGAAATAAGTCTCTCTTTCAAGTTTCAAGAATCTCTGCAATTTCCAACTAGCAAAACTTCCTTATTAGTCAAATTTGGTTGGCAGCCTCCCCTTTGGATTTATCTAATAGAAGCAACTTAATTGACTTGGAGAATTAAGAATGAATATCTCTGAGGGTTTCTAAAAAAAAAAAAAACCTAGTTGCTATCCACCACTAAATTGGTGTACTACATGTGCCATGCTAGTACCAAAAACCCTTGATGTCTTGGGGGTTCAGGCCTTGGGGTAGACGTCGGTGGCCCGGGGTATAAGAGCACAACTCCAGCTCCCGGTTATCACACACACTCTCGAGCACACCCAAAAAAAAAGAAAAAGAAAAAAGACAAAGCTGAAGACCATTGCTTCATCAACTATCCTTTGGCCTTTCAATTTAGGCCTAGTTCCTTTTGCAGGTTGATTGCCTCACCTTGCAACATCAAAAGCCTTCTCATCTTTGCCTTGGCAGTCTTCCTTTTCACTTTGAAGCTTGAAGCTTGTGGCCAAATATTATAATTCTTTTTGTGATGGTAACCAAGCCCTTTTATGTGTACCTCAACTAATTTCAAGAGGACAATTATTTGACCCTAGAAACATCTAGTTAAGAAATTCAGGGTTTAAATATAACAGCCACCATGGCGCTTGAATTCATACTCTACGAATCACGTTACTTTTTTCACTTGCCCTTGTGGCTATTAGGCCAATCAATGGTAGTTTAGTTCTCACAAGCCTTTAATTTAATTTTAGTCCTGAACTTTCAAAATTACAAATTTAGTTCTTGAATTTTCAATTTTTTTAAAGTTCAAGGCTACTGGATACAAATTGAAAGTTAGTTCTATTAGATACAAAATTCAAATTTATATCAAGTAGAATAATTAATTTTTTAAAAACTTAAATTTTCAAAGACCTACTAGACTCAAAATTGAAAGTTTAGGGACCAACTAGATACTTATGAAAGTCTGGAGACCAAATAAACACAAACCTCAAAGTTTTGAGGCTAAATTTGTAATTTAACCTTTAGTCTTTGTAGTTCATCATTTTCTTTTTCTAATTGAAGTTTAGAAATATTTTTTTGTAACTCCCTCAGCTTGGTTTGAGGCTCTCCTCACCCCTTTTGGTTATTTTGTCATTTTAAAGAAATAGTTTCTTGTATTACAAAAAAAGTTCTATTGGAAATTTTATGAAAGGTTTTTTCTCCATAGACACAAGAAGCAGAAGGAGGAGGATATCGCCGTCTGTGTCTGCAGATTTGATGCTAATGATAACGATAGTGGTTGTGGGGAAGGGTGCTTGAATGTACTGACCAGCACTGAGTGTACTCCTGGATATTGTCCCTCTGGTGTTCATTGCAGAAATCAGGTAATCACGAGGCTACTTGATAACATGTCTATATAACCGATTTCATGTATAGTAGTTATTTATTAATATTATTTTTAATTTATTGTCCAATCATTATACTATGAGGTACACTTCACTCGATGTGTGTGAATGAATTTGTGTTTGACTTATCTATTGATTTGCAATTAACATTCTTGTGGCGTTTCTCTTTTCTTTTGATTTCTTTAAAAATTTGTTCTACTATTCTTATGTGAAGTATAAATTCACGAGGCCTTCTGCTATGCTCTATAGTGAACTCTCTGTCAATCTGTCTGTTGTTTACAAGTTATGCAACATAACAGTTACTTAGGCCCGTTTGACAACCAATTTATTTATTTTGTTTTTGTTTTTAGAGTATAGGTATGTTTGACAACCTATATTTTTTTTAATATAAAATTGAAAGTCGTTTTTTGAAATATATAAAGAAATGAGAAAACACAAAAAAAAAGGTATTTAAAAACTAGTTTTGGTTTTCAAACCAGGCTGACCGTGTGTGGTGGGGGTATGGGAGATATGCATGGTGAGTTGTGGCTTGTGATTTTGTAAGTGAATGTCTGTCTGTCCGTCTCTATCTTCAGCTTTTGTTTTGTTTTGTTTATTTGTTTGTTTTTTCTTTTGAGTTCTTTTAATCATTTAATCTTTTAATATGTTAATTTAATTCTTTCCATGTATAATCTATATTTCGGGTTCAGAATTACATATTATTTTAAACTAAAAAAATAACAATATGTTATTTTGATTTCTTTTTTCTCAATAATTTTTTCTAAATATAGGTAATTTAAATACAACTTGTAAAATTCAATGACTCATTTGTTAAAAATTAGATTTTAGGGATGAAATCTTTAGTTCAATGAAATATAGAAATCAAAAGTAATTTTTTACTTTATTTTAACATTATATCTTCATAGATTATGTTAAAACTCAAGTACTATCTTATTAGTTAGGCAACCTTTAAAAGTAATAATTATGTTTTGAGTGATTTATTTAAATGAAATGTTATTTTTCCAAGATAAAAGTAAGGGTATTGTTTACATTATAAACAAATTTAACTAATACATTATTTGTATATATTTGACTTTTTTTTTATAAATTTTATTGTGGGATTTGATGGTCATACTTTAGGACATCGTTTGGTTATTTATCTTTTGCTTGATGTCACTAAAAAACATTTTAAATCTTTCCAATTGTTGTATATTATAAAAAAAAATGGTAAGATATGATTTGGTTTTGTTATTGTACAAACAATATATAAATATAACATAAATAACAAACACCCCTCAGTTATATTTTTATATAACCAAAAACCAAAACACAATTATAAAAAAGTTAATAATTTTTTTAACATTAAAAAGAAAATTGTACTTATCAAACAAATTTGGTTTCTATACATCATGTTATAAACTCATTTGTTTTTTTTTTCAAAAATTTGAGTATGTATATTAAATATATTATAAATTATACGATATTGTAAAGTAATAATGATGCGAAGTATATAACATAAACATGGTTTTAAATTAGTTACCAATAGTTTAGAATCAACCTAATATTTAGTTGTTAACTAGAACTATTTTATGGTTTATAAATATATTATCCAATACATTTTGAACAATTGTAAATTAGGATCTAGATTCTAATCTGCTTCCAAACGCATATTGAAAACATGAAAAAACTTGAAATACCAATCTGTTTCATATTGAATCTTTTGTTTTTAGAGTTATGTTTTCAGATCACTAACCATACACGCCTTTATATAATCTAGTTTTACAATTGGTCTGTTATTGGAAGCATCTGTTTGTATGCGCCTGGAATGAGGATTAGAACGATGGTTTGCAGTCCTCACTTGTTTAGCTAAACTAAACTATCCTTCAATTCCCAATATGTAACAGAGGTTTCAGAAATGTGAGTATGCAAGAACAAAGTTGTTCAACACTGAAGGTCGTGGGTGGGGCCTTTTAGCTGATGAGAATATAAAGGTATTTACTTGACAAGGTAGATAGATGTATTTGTTAAGTATCTCATTTATATTGTTGTATGTGTCATATGTCTCATTGGACGATTACTGTTCTTCAATATGGGATCAAATCTCTTTTATTTGTCCTTTTTATCTGCTGGTGCTTATACTTTGTTGATCCTTACAGCCACCTTGCTAATGTGATCAGATTGATGATTTCATCAGTGTTCTAAGGTGTAATTGATTTGACAAATTTATTTTTAAGATGATGTTGGAATATCTCCATTGGTTTTTGGGTATCCAACCCACTGTTTGTATACTTTTCTTATAATAGTGATCAATTAATTTGGTTCCGAAGCAAGATGCAGTTGATGATTTTGAATAGTAACAGACTTGAGATGTAGCTTGCGCACCAACTTGATTTTAGTATCAACGCATCTTTGAGTCCTGTTATTATATTTACTCACCTAAATCTCATGTAGCATTATAAAAAATCATATTTGTTAAGATTGCTTGCTACAGAGGTATTCTTGTGCCAACAACAAAAGACTTAAATGAGGGGAGTTTAATTTTAAATTCATCTTTACTTGACTAACTAAATTGAACTTTCTTCTCTAAAGATTGTTTTCCGTTTCATTTTGTTTCATGGGGACAACGTAGAGTGGACAATTTATTATTGAATATTGTGGGGAAGTTATATCTTGGAAGGAAGCAAAACGGAGATCCCACACTTATGAAAATCAGGGTAACATATCAATTTTATCAAATTTCATCTCTTATGCGCAATATAGCAAATTTAGATAATTTTCTGTACCTTGATGGTAGGACTCAAAGATGCTTACATCATCTCACTCAATGCCTCTGAATCAATTGATGCAACTAGGAAGGGAAGTCTTGCTAGATTTATAAATCATTCGTGGTGAGCTGTTTATCCTGAATATACCATATATTATACATACAATATATATATACACACCAGGGGAAGAGTGAAAGTATGCCAGTAAACATAATTTACCTTTATTACTTTGTTGTTGTCGTTAATTAGTTATTATACCCTTGCAGCTGTCCGAACTGTGAGACAAGGAAGTGGAATGTGTTGGGTGAAATAAGGGTTGGAATATTTGCAAAGCAAGACATTACCATTGGGACTGAATTGTCATATGATTATAATTTCGAATGGTATGGAGGTGCCAAGGTTCGCTGCCTCTGTGGTGCAAGCAGCTGTTCAGGATTCCTTGGAGCCAAGTCTCGTGGGTTCCTGGTAATTCTTTATTTGTGGAGTAGTTTTACTTTTAAAAATAGAGAACACAAGTTGGATATGATCATGGTTCCTGATGAGAGGGTGTAAATTCATCACAAATTGGATAACTGCAAACTTTTTTTTTTTTTTTTTTGGGTATTATCTGACGTACATCAATCTGTTTTCCTTGTCAGGAGGATACCTATTTGTGGGAAGATGACGATGATAGGTAAAGTCTTGTTTATGGAAAATATCCAATGTTTAAGGTTTGGGTACCAACAGACTGAGGGCCTTGGTGGAGTGAGAAAACTTCTCATTCTAAAGCCAGGATGTAGTTAGATTTAGGACAAAGGAAAATATTTAGAAAATGATTCAATTATACCTGTTGATTAATTGTATGGATGGAAGGATGTCTCTGAAAATGTTATGATTTGGGAAGCAATACCCCAAAATTCTCTGGGTTTCATGTATGCATGGAATTAAAATTTGGGTGTTAACCTAATTATATTACGTTTTAAGAGTCGGGAAACCTGAGATGCTTAATAACTCGTGTAGGTGGCTCATGGCTGAAAGAACTCCTAACCAGATTACAATAACATTTGATTTCTATGCCAAATTATTGATAATGTTTAGTCCCAATTAGTCAACATAATGTGCTCATATTATTAGCGCGGTTAATGACAATGCTTTCATGAACAGCAGTAGTATTAAATTTGTTGCATTGTTAGTATCCTTTAGTTTTCTATCACAGCTATTTGAAATTTATCATTCAGATATCTATATGGAGGCCTTTTTGTTTTGTCATGCTCTTCTTGCTTATTTTCTAACAAGACAGCCATTTATTATCCTGCTTGGTTTTAGGTATTCTGTTGAGAAAATTCCACTGTACGATTCTGCAGAGGATGAGCCATTCGTTAAGCTCCACACTGTATTAAATAACCCATATTCTGAGTTTGAGGGTTATCTGAAAAATGAGAACCCAATGATCTTGGACGATAATTTGGGAGCGGAACAGCAGCTGGTATCCACTGCATTAATTGATACCTCGAAGAATTCAGTTCAATTACAAAATATAGTTGTGGGAGAAATTAAAAATGAAGCAAAAGAGGAGCCAGAAGACCATCCACAGAATACGCAGCAGACCTTTTCCCAGCAGAATGCAATGATATCTCGAATCCGAAGTAACACCGCATGCCGTAATTATCGCATTGGACCTGGACCTGCGGCCAAAAAACGAGCAAGAAACTTAACGAATGGAAGGACGAAAAATTTTACCCTGAAGCAAGTAGATGCAAAATATGTTGCTCGATTGTTAGAGTTGAAGGAAGCACAAGAAGAAGTCTTACAGTATGAGGTAATAAATGCGTTTTACTATACTCTTTGTTGTCTAGCTGTGCATTGCTGATAAAATATCCCTTCATTCGCTGTCTTAACGAGAAAACACTTTGGTGGGCTTCAAAACCGTTGCTCCGCTGATATGTTGTTAATTTTTTCACGAAGGAAACGAAGAATAAAGCTACCTCCGAACTTGATTTGTTGTACAATGAAATACGACCCGCCATTGAAGAATATGAGAGGGACAGCCAAGACAGTGTAGCTACCAGTGTTGCGGAAAAGTGGATAGAAGCAAGCTGTTTGAAACTGAAGGCGGAATTTGATCTTTATTCTTCTATAGTCAGAAATGTTGCTTGCACTCCATTAAGGTCAGGTGTCTCTACTGAACCTCAACCTCTCGAAGTGGATGGCGACAACGACCTGAAATTATTAACTAATTAGTTTGCTTGTCTCTAATAATATGGAGCTTAATTAATTACTTTGGTAAACCATTTCTGTCGTTCATTGGTTGATGGTCGGGGCACGCTAGTTCTTATGGGAGCCAGCCTGCAGGGTCTGTGGAGCAAAGTGTACTCAGGTTTGAGGTAATCGAAGCCTTCAATTATGATCGTATTTTTCATGCTATTCTTTCAAGGATTATTGTCTCCTATCTGCTACCTAGTGCTGCACTTGTTTTAAATCGGAATCATTTGATCTGATAATTGTAAAAGTGGATTAGGAAAAAAGAAATGGGTTTAGATAGAAATGATAGTGAGAAGCGTTTGATAGAATTAAAAGGCATATACTTGCATTGAAGTTAGAAAACATCAACTCTGTGGGTTCATCTGCTGTGTTTCATGTTAATTTGAGTTGCCCTTAATCATTTAAACTTTGAGTTAATTTAGTTTATTCTTTATTAAATTTAAAGGCTTTTTTCGTAGTTTAATGTTTTGGTGTTTTTTTCTTCAATTTAGTCATTATTGATTAAAAAGTTCTAAATTAGTCTCTTGTATTTTTACAGTTTTCAATTTAGTCCCTTATATATTGTTCTCATTTTAGTCCCAACTTGCATGACATAATACTTAGTATTCTTCCTAAGTATTGTACATTTAACATTATTGGCTACTTGAGAATAACACAGTTGGTCAAGGTGTTGTACCATTGATTAAAAAGAATTAGAGGTACAAATCCTTATTCCTACATGAACTAAAAAAAGTCTTTATCCATTGTAACATAAGGGACTGTGTATTGAGCTTCAATTTAATATAAAAGCTAATAAAGATTTTAGTTCCTAGAATTCTCCCCTTGAAAATCAAAATCATATTAATCATATTGATTGGTCTGATGGTCAATAATGGTCAACAAGGACTGAAAGTAGTAAAAGACCTCAATTGAATAAATTCAAGCCATGATGACAGTCTACCTAGAATTATGAATCCTATATGTTTTCTTGACAACCATATATAATAAGAACAGACAATTATTTTGTCAAAATAGTTGAGTTGTGCATAAACTAGCATAGAGACTGTAGTTATTTAAAAATAAACCTTCTCTTCGGGTGAAATTACTATTCATTCTAATAAGAATTAAGTTCAAAAAATGGTTAAAGTAACCAATACATCACTTGAATTTCTGCATAATCTTGCCACCAGAAGACTTCTAACTCAACCACTGGCCATGATTAGCCTCCCCACGAAGTCTCATCTTGCTATAGGGAAGTCTTTATCTATTGATGAATCTCCATAAAGACTTCAATTCAACTTCGAAGTCAAACAACTAAAACTATCACCCACCCAAAATTGTCTAGCTATGATTGCCCAAAACAGCAATTTGGAGGTTTGAGATTTAAGTTAATAAACTAAAACTAAATACAATGAAAAAAAACAAAAAAACAAAAACAAAACAAAACAAAAGTTATCTTGACAATTTGTTCTGGGATTTCATTTTTTCTATGTCGATTCTCCTGGAGTGGGATTATTCTAATTGATTCTTTTGTGTGTAATTTGTTTGGAACATTGGTGTTAGATTTCTGCACTCTATGACCTCCTTTCATAGGCTGCACAGGGTTTTTTATTTATTCATTCCTGTGCTTGAGATTTATGTGTATTTGGTCCTTCAACTTTCAAAATTACAAATTTAGTTCACTGAGTCTTCAAATTTTTTAAAATTCACTTATGTTCTACAATGCACAAAATTGAAAGTTCATGGACTTTTACGATATATTTTGGGTTAGGTATATTCTATACTCTTCAGTAGTACAAGTTTACCATTATTTTGACAATTTGTGATATTTCTGTACTCCGGAGTGGTATGGAATACTCTGGAAAATCACAGAGCTTTATACCCATATATTGAAATGTGAACTATAAAATTATTTTCTGTAAGAAATGAGACCCATAAAGCAGGCAATGTTGCTGTTTCTACACGGCGGAAGTATGTGGAGTCTGGCTGACTAAATTTACTTCTAGTCTTTGTTTCTCTGTATTCACGGATTTGATTTGAAAAAGGAAATGCCGTGTGGGTCCTTCCGTTCATGATTTTATCTTTCGATGCAAATATCCTTCTGCTTTAAGCTTTTTCCACTAAAGAAAACCTTCATGGATAATTCTCCAAATTTATTATTATGCTTTTGATGCTAATTCATCACAGGTATTGGCTCTGGACTACAGGGAAATGCTTCTGTTCAACACGTCCATTTCAGGTATTTAAGTTGGAAAGATATTCACTCCTTCAAGAGTTTTTCTTATAATTATTTGATGCTATGCCACTGAACCCTATATCACTCTTAAATGATATTAACCTTCTATCGTTCTTAAATGATATTAACGTGATTGGTAATAAGTAGTCTTGAAATTTTTTACGCATTATGTATAAGTTTCAATGCTTTTCTATTTTCTTTTTAAAAATTATATAACGTGTAGGGTCGGGGTGGGGCTTGAACGTAGGAGCAGTAACTATTAA ATGTTTACGCTATTTCTGTTCGGATTTTCAGTTGCACAACACAAGAAGCAGAAGGAGGAGGATATCGCCGTCTGTGTCTGCAGATTTGATGCTAATGATAACGATAGTGAGTATAGCTGTCCGAACTGTGAGACAAGGAAGTGGAATGTGTTGGGTGAAATAAGGGTTGGAATATTTGCAAAGCAAGACATTACCATTGGGACTGAATTGTCATATGATTATAATTTCGAATGGTATGGAGGTGCCAAGGTTCGCTGCCTCTGTGGTGCAAGCAGCTGTTCAGGATTCCTTGGAGCCAAGTCTCGTGGGTTCCTGGAGGATACCTATTTGTGGGAAGATGACGATGATAGGTATTCTGTTGAGAAAATTCCACTGTACGATTCTGCAGAGGATGAGCCATTCGTTAAGCTCCACACTGTATTAAATAACCCATATTCTGAGTTTGAGGGTTATCTGAAAAATGAGAACCCAATGATCTTGGACGATAATTTGGGAGCGGAACAGCAGCTGGTATCCACTGCATTAATTGATACCTCGAAGAATTCAGTTCAATTACAAAATATAGTTGTGGGAGAAATTAAAAATGAAGCAAAAGAGGAGCCAGAAGACCATCCACAGAATACGCAGCAGACCTTTTCCCAGCAGAATGCAATGATATCTCGAATCCGAAGTAACACCGCATGCCGTAATTATCGCATTGGACCTGGACCTGCGGCCAAAAAACGAGCAAGAAACTTAACGAATGGAAGGACGAAAAATTTTACCCTGAAGCAAGTAGATGCAAAATATGTTGCTCGATTGTTAGAGTTGAAGGAAGCACAAGAAGAAGTCTTACAGTATGAGGAAACGAAGAATAAAGCTACCTCCGAACTTGATTTGTTGTACAATGAAATACGACCCGCCATTGAAGAATATGAGAGGGACAGCCAAGACAGTGTAGCTACCAGTGTTGCGGAAAAGTGGATAGAAGCAAGCTGTTTGAAACTGAAGGCGGAATTTGATCTTTATTCTTCTATAGTCAGAAATGTTGCTTGCACTCCATTAAGGTCAGGTATTGGCTCTGGACTACAGGGAAATGCTTCTGTTCAACACGTCCATTTCAGGGTCGGGGTGGGGCTTGAACGTAGGAGCAGTAACTATTAA ATGTTTACGCTATTTCTGTTCGGATTTTCAGTTGCACAACACAAGAAGCAGAAGGAGGAGGATATCGCCGTCTGTGTCTGCAGATTTGATGCTAATGATAACGATAGTGAGTATAGCTGTCCGAACTGTGAGACAAGGAAGTGGAATGTGTTGGGTGAAATAAGGGTTGGAATATTTGCAAAGCAAGACATTACCATTGGGACTGAATTGTCATATGATTATAATTTCGAATGGTATGGAGGTGCCAAGGTTCGCTGCCTCTGTGGTGCAAGCAGCTGTTCAGGATTCCTTGGAGCCAAGTCTCGTGGGTTCCTGGAGGATACCTATTTGTGGGAAGATGACGATGATAGGTATTCTGTTGAGAAAATTCCACTGTACGATTCTGCAGAGGATGAGCCATTCGTTAAGCTCCACACTGTATTAAATAACCCATATTCTGAGTTTGAGGGTTATCTGAAAAATGAGAACCCAATGATCTTGGACGATAATTTGGGAGCGGAACAGCAGCTGGTATCCACTGCATTAATTGATACCTCGAAGAATTCAGTTCAATTACAAAATATAGTTGTGGGAGAAATTAAAAATGAAGCAAAAGAGGAGCCAGAAGACCATCCACAGAATACGCAGCAGACCTTTTCCCAGCAGAATGCAATGATATCTCGAATCCGAAGTAACACCGCATGCCGTAATTATCGCATTGGACCTGGACCTGCGGCCAAAAAACGAGCAAGAAACTTAACGAATGGAAGGACGAAAAATTTTACCCTGAAGCAAGTAGATGCAAAATATGTTGCTCGATTGTTAGAGTTGAAGGAAGCACAAGAAGAAGTCTTACAGTATGAGGAAACGAAGAATAAAGCTACCTCCGAACTTGATTTGTTGTACAATGAAATACGACCCGCCATTGAAGAATATGAGAGGGACAGCCAAGACAGTGTAGCTACCAGTGTTGCGGAAAAGTGGATAGAAGCAAGCTGTTTGAAACTGAAGGCGGAATTTGATCTTTATTCTTCTATAGTCAGAAATGTTGCTTGCACTCCATTAAGGTCAGGTATTGGCTCTGGACTACAGGGAAATGCTTCTGTTCAACACGTCCATTTCAGGGTCGGGGTGGGGCTTGAACGTAGGAGCAGTAACTATTAA
BLAST of CmoCh15G005910 vs. Swiss-Prot
Match: ASHH1_ARATH (Histone-lysine N-methyltransferase ASHH1 OS=Arabidopsis thaliana GN=ASHH1 PE=1 SV=1) HSP 1 Score: 322.4 bits (825), Expect = 6.7e-87 Identity = 176/317 (55.52%), Postives = 220/317 (69.40%), Query Frame = 1
BLAST of CmoCh15G005910 vs. Swiss-Prot
Match: NSD1_HUMAN (Histone-lysine N-methyltransferase, H3 lysine-36 and H4 lysine-20 specific OS=Homo sapiens GN=NSD1 PE=1 SV=1) HSP 1 Score: 85.5 bits (210), Expect = 1.4e-15 Identity = 35/62 (56.45%), Postives = 45/62 (72.58%), Query Frame = 1
BLAST of CmoCh15G005910 vs. Swiss-Prot
Match: NSD1_MOUSE (Histone-lysine N-methyltransferase, H3 lysine-36 and H4 lysine-20 specific OS=Mus musculus GN=Nsd1 PE=1 SV=1) HSP 1 Score: 85.5 bits (210), Expect = 1.4e-15 Identity = 35/62 (56.45%), Postives = 45/62 (72.58%), Query Frame = 1
BLAST of CmoCh15G005910 vs. Swiss-Prot
Match: NSD3_HUMAN (Histone-lysine N-methyltransferase NSD3 OS=Homo sapiens GN=WHSC1L1 PE=1 SV=1) HSP 1 Score: 84.0 bits (206), Expect = 4.0e-15 Identity = 35/72 (48.61%), Postives = 48/72 (66.67%), Query Frame = 1
BLAST of CmoCh15G005910 vs. Swiss-Prot
Match: NSD2_MOUSE (Histone-lysine N-methyltransferase NSD2 OS=Mus musculus GN=Whsc1 PE=1 SV=2) HSP 1 Score: 83.6 bits (205), Expect = 5.2e-15 Identity = 37/66 (56.06%), Postives = 47/66 (71.21%), Query Frame = 1
BLAST of CmoCh15G005910 vs. TrEMBL
Match: A0A0A0KEC6_CUCSA (Uncharacterized protein OS=Cucumis sativus GN=Csa_6G055910 PE=4 SV=1) HSP 1 Score: 558.9 bits (1439), Expect = 4.7e-156 Identity = 281/319 (88.09%), Postives = 301/319 (94.36%), Query Frame = 1
BLAST of CmoCh15G005910 vs. TrEMBL
Match: B9H7V1_POPTR (Uncharacterized protein OS=Populus trichocarpa GN=POPTR_0005s21720g PE=4 SV=2) HSP 1 Score: 397.9 bits (1021), Expect = 1.4e-107 Identity = 203/314 (64.65%), Postives = 246/314 (78.34%), Query Frame = 1
BLAST of CmoCh15G005910 vs. TrEMBL
Match: A0A0D2UBF6_GOSRA (Uncharacterized protein OS=Gossypium raimondii GN=B456_010G131600 PE=4 SV=1) HSP 1 Score: 389.8 bits (1000), Expect = 3.8e-105 Identity = 202/314 (64.33%), Postives = 249/314 (79.30%), Query Frame = 1
BLAST of CmoCh15G005910 vs. TrEMBL
Match: A0A0D2V9P0_GOSRA (Uncharacterized protein OS=Gossypium raimondii GN=B456_010G131600 PE=4 SV=1) HSP 1 Score: 389.8 bits (1000), Expect = 3.8e-105 Identity = 202/314 (64.33%), Postives = 249/314 (79.30%), Query Frame = 1
BLAST of CmoCh15G005910 vs. TrEMBL
Match: A0A061FHJ3_THECC (SET domain protein isoform 2 OS=Theobroma cacao GN=TCM_035680 PE=4 SV=1) HSP 1 Score: 386.3 bits (991), Expect = 4.2e-104 Identity = 196/313 (62.62%), Postives = 247/313 (78.91%), Query Frame = 1
BLAST of CmoCh15G005910 vs. TAIR10
Match: AT1G76710.1 (AT1G76710.1 SET domain group 26) HSP 1 Score: 322.4 bits (825), Expect = 3.7e-88 Identity = 176/317 (55.52%), Postives = 220/317 (69.40%), Query Frame = 1
BLAST of CmoCh15G005910 vs. TAIR10
Match: AT1G77300.1 (AT1G77300.1 histone methyltransferases(H3-K4 specific);histone methyltransferases(H3-K36 specific)) HSP 1 Score: 76.3 bits (186), Expect = 4.7e-14 Identity = 37/83 (44.58%), Postives = 50/83 (60.24%), Query Frame = 1
BLAST of CmoCh15G005910 vs. TAIR10
Match: AT4G30860.1 (AT4G30860.1 SET domain group 4) HSP 1 Score: 72.8 bits (177), Expect = 5.2e-13 Identity = 32/66 (48.48%), Postives = 43/66 (65.15%), Query Frame = 1
BLAST of CmoCh15G005910 vs. TAIR10
Match: AT3G59960.1 (AT3G59960.1 histone-lysine N-methyltransferase ASHH4) HSP 1 Score: 62.8 bits (151), Expect = 5.4e-10 Identity = 32/64 (50.00%), Postives = 40/64 (62.50%), Query Frame = 1
BLAST of CmoCh15G005910 vs. TAIR10
Match: AT2G44150.1 (AT2G44150.1 histone-lysine N-methyltransferase ASHH3) HSP 1 Score: 59.3 bits (142), Expect = 5.9e-09 Identity = 30/64 (46.88%), Postives = 38/64 (59.38%), Query Frame = 1
BLAST of CmoCh15G005910 vs. NCBI nr
Match: gi|659081755|ref|XP_008441496.1| (PREDICTED: histone-lysine N-methyltransferase ASHH1 isoform X3 [Cucumis melo]) HSP 1 Score: 566.6 bits (1459), Expect = 3.2e-158 Identity = 283/318 (88.99%), Postives = 300/318 (94.34%), Query Frame = 1
BLAST of CmoCh15G005910 vs. NCBI nr
Match: gi|659081753|ref|XP_008441495.1| (PREDICTED: histone-lysine N-methyltransferase ASHH1 isoform X2 [Cucumis melo]) HSP 1 Score: 566.6 bits (1459), Expect = 3.2e-158 Identity = 283/318 (88.99%), Postives = 300/318 (94.34%), Query Frame = 1
BLAST of CmoCh15G005910 vs. NCBI nr
Match: gi|659081749|ref|XP_008441493.1| (PREDICTED: histone-lysine N-methyltransferase ASHH1 isoform X1 [Cucumis melo]) HSP 1 Score: 566.6 bits (1459), Expect = 3.2e-158 Identity = 283/318 (88.99%), Postives = 300/318 (94.34%), Query Frame = 1
BLAST of CmoCh15G005910 vs. NCBI nr
Match: gi|659081761|ref|XP_008441499.1| (PREDICTED: histone-lysine N-methyltransferase ASHH1 isoform X4 [Cucumis melo]) HSP 1 Score: 566.6 bits (1459), Expect = 3.2e-158 Identity = 283/318 (88.99%), Postives = 300/318 (94.34%), Query Frame = 1
BLAST of CmoCh15G005910 vs. NCBI nr
Match: gi|778710768|ref|XP_011656629.1| (PREDICTED: histone-lysine N-methyltransferase ASHH1 [Cucumis sativus]) HSP 1 Score: 558.9 bits (1439), Expect = 6.7e-156 Identity = 281/319 (88.09%), Postives = 301/319 (94.36%), 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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