CSPI06G07040 (gene) Wild cucumber (PI 183967)
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.CAGAAAAACCGCTAACTCTCTTACGAATTTGTTTCACTGGTCTGTAAAATCTGTCCATTTTATTCTCTCTTTACCCTCTCCTTCTTTTTCTCTGTCATGGCGCTCAATTTCAAATGATTTTCTTTTCTTCCCTCCTTCTTTCTCTCTCTCCCGCTTGTTACTGATTAATTTCACTGCTTTCTTCTTCCATTTCTGTTGCACATTTCCCCACTCTCTTCCTCCCCTACCAAATGCGGGAGGTTTCAAGAAACCCCACCTCTCAATTTCATGCTATTTCTCACTTGAAACCTTTCTATATTTATTTTTCAGCTTCTTCCCCTCTTGGGCTTTCGTGGGTCGATTCAATCTTCAAGGTTTTGCCATCCCCATTTCTGTTTACTTGGTGAGTTTTTCTTTTTTCGATTCTTTTACTTGTTGGGGTTTTAGGGTTTTCTTTTCGCTTGTAAGATTTTATGGATGAATGTCTGTTTCTCATTTGAATAACGTGGGGTTTAGTTATATTCCCGCAATGATCAAGATATTTCATTTTACTTTGCATGCATTCTTGTGTTTTTTATTCTTTTACTGTCTGGTTGAGCATAGCTGCTTTCTGCTGCTTACTCTTCTCCACCCTTCTATCCAACTGGATTGTCCTGAACAATTTAGTTTAGCTGGTGCATGTTGTAATGATTCTGAAAAACTGACGAGCTATGAAACTTATTTTTTGGAGTTTGGATAGCCAAGAACACAGTGCATCTTTAGCTATTGACTATACTTCAAGAAATATAGTTACCTTTGTCATTGTCATTAAAAACGTAAATGTATGTTTTGCGACACTGCATTTAAAATCATAATACTAGTTTTGGTAGGGTTCTTGCAATCTGGCACAGAAAGTAGTGGTGGTTGATATTTATATATATTTTTTTTTAGTTTTATTCTTCGTAAGTCATTGTTATTGGTTTCTTTCACTTGATGTTTATGGACATATTTGGGAGCATTCAGCTGGCAGGAGGGAAATTTTCAAATTGGCTTGTCCTGTGCTTAAATTGTTGTCACAACGCTGATAATTAGTTGGTAAATGTAATAATATACTGTATAATATATTTAAATACGTACAAATATAAAGCATAAAAAATGTCAATAAAAATCAAAATCAATTAAAACTTAGTTTTACACTTTCTATGTTAAAGTGTTTATTTATTTATTTTCATACTTTGGACCCCTTTTTATTTTTATTTTTATTATATTTATTATTTTTACAGAGGTCAACTTTTATTGAAAAATGGAATTCTCAACATTGTGTCCTAATATGTTTTTGACTTTTAGAGTTTTGATATAGAATTCCGTTTACACTTACAATTTTCATATTTTGAACACTACTATGGTATCGTGGCCAAACTTTCTCTTTTTGACTATTTGGTGCTGGGATCCTCATGAAAAAAGTTTTAATGAAGTGGTTGCCATGGTTTGGAACTTTATATCTATGATGTATGAGGTCATACACGCCTGCATTTGGCTGTTTGCTTCTTTAACCACGGGAGTACATATCTAGTGATAGTAAACATTGTGCCCAAATATGTTTTTGACATTTAAGAGGTTTCAATATACAATCTCGTTTTGTTGTTGTCTTTTTTAATTCTATTATGCTGGTATTATTTTTTTTAACAAAAAATGTTTTCAATCTTGAAATGTTGCTTATAGATGTGTTCACTTCATATGCTTTCCAGAAGCATTTTGGATATTTGTTTTAATATTTGAAAACAATGTACAGCACATCATACTGTTACCTAACCTAAATTAAGCTTTACTGAATATTTTTGCTACAGTATCTTTAAATAGTTCTTGTCCACGTATTGCTGCTCTGCCTCTGCCCGCACCTAGTCAAACATGGAGGACATTCAGTTTTAACTTATAAAAATTATGGTTGAATAGAAATTTCCTTTTGTTGAGTAACAAAAATAAAATTTCATATACTGCAATGAAAATTTGCATTGCGCTTGATGTTTCAATGCTGCAGATTTCCAGTTAATTTCCAAGAACTATCTGGAAGGAGATGTGATGCATATTGATAGCATGAAAGTGGAAGGAAACTTGTAAATGCTATATTGACGGATGCAATATTATTTCTGTGGTTTGAGGATCTGTTTGCCTTGTGTATTCATGTTTCCTACGGCTTAGCAGGCAAGTCCATGCTATGTGACTGGGATGCTTTGCATTAAATCCCTTAGCCTAGGATGTGCAATTTTGTTAATTTTTTTGACAAGTGGTTGTAAGACCAGAAGGGCCTCCTTAATGCTCAAGTAAAAAAATCTTGATGTAATTCTAACAAATGCAGGCACTTTCTTCCTTTGGATCAGAATAAATATGGCACCGAATCCTCGAATTTTGAAAGCTTTTCGTGCAATGAAGGATATTGGGATCAGTGAAGATAAGACAAAACCAGTCTTAAAAAAACTCCTGAAATTGTATGATAAGAACTGGGAACTTATTGAAGAAGAGAACTACAGAGTTCTTGCAGATGCTATATTTGATGAGGAAGATAGTAAGGTACATTCTACTGAACTCATTTAATTGTATCTTGTTCCTTTTACGTATTGTGTTTCTATTTCTCACATATGTTACGTATCATCTTTCAGGTCGTAGAGGAGAAGAAATGTCAGAATTCTCAAGTGTGTACTCATTATCTTGCTTGATGCAAGGTCTTATTTTGACCCTCTTAGCCGTGCTTATATGTGCTGTTTTTGTTTTTGTTAACAAATAGGTGGAAGATTTTGGGGAAGAAGTTCAGGCGCCTGATGAGCCAGAACGCCCTCTGAAAAGGTTGCGCTTAAGAGGCCAAGAAACCCAGGTGGATGGGATGCCTTTGAAAAAGCCAAAATTGGAAGAGGATGCGTTTCCCGACGCCAATTCTCAACAGCAGATGCAGTTAAGTGGGCCTAAGAGATCTGAAACTGGTCCAAGTTCTCGTCGTGTAGACAAAGGGAAGGAACCTATGTCACCCCGTGTGGTTACAAGAGTGAAAAAATCTAGCCTAGAGAGACAATCTGCTGCTGTGCGTATTAAGGAACCAGGGGCTGATTCGGGTGTAAAAAATTCAATAGTGAGGGCATCCGGGGCTCATGCGTTGCTCAAACCTAAAGATGAGCCTGTTACTGATGATACATTTGCAAATGAGTTGCCTATTGCTGCGATTCATCCAGGTCAATAGATACTTTCTTTAGATATACATTAACATCACTTGCCTCGGCGTTACAGTATGATGTTGTTTGGTTGAACATACTTGTTCTAATTTGAGGCAAGAATTGATATTCAATAGGTGCTTGGTAGTTATTTGTTCTCAAATCCAATTGGTTCAAAATTCAAATCAAGCGTTGGAATTCAACATTGAAGTTCATTTGAAGACAGCCATTGTGAAATACATCTGAAATTTTAGATGATTACTTCATTGTTGTAAATTGTAATTAATATAAGTTAGAAATAGAAATGTTAATTTTAAGGTATTACGTAAAGATAAAAAAACCAGTTGAGTAAATGGTAAAAATTACTTCCAAGAATGAATGAAAAACTTGAACTATTGAAGTATGAAGATTGCTAGAAATGAATTGTCATTTACCAGTTTGAATCCCCTATAAGGATGAACTAATTTTTCTAATGCAATCAATCATTCAGAAGTAATATTCTGTTGAATCTTCAACCTGCAGGTTGTTTCTAAATTCTAACTGCTGAATTATTTTCCTTTGTGAAAACTTTAACAGATTCTTCAAGAAAAGAAGATTATTCCATTGCGAATGATTTAGTTAGGAAGGCAGATGGCCAAGTTGCTCAAGTATCATATCCTTCAGACGGAAGTAACAAAGGTGACGGTACGGAAACCTCATCATGTAAGAGGATTACAGGCAGTGAGCTTGCAAATGTCATGGAAGAATTACATCCTAACTTAGAGATTGCATCATCAGCCCTGGGAGAGGTAAAAATTTCTTTGTGCTGCGACTCCACTTTTGGACGACCAGATTTCCGTATGCCTAGTCGTGATGCAGTTATAAAATATATGGAGGAAAAATGTCTGCACTCATATAAAATCATTGACCCCACGTTTTCTGTTATGAAACTGTTGAGTGATATGTGTGAGTGCTTCTTGGAATTGGGAACTGATTCTCCTGATGAACAACAGGAAGGTTCAATTAGTAGAGTTCCACTTCTAGATGTAATCGAGAATTCAGACCCAATGGATACTCCAGGGACTGTTGCTAATGAAGAAAATTTGAATCTACCCACTTCTGTGAATGAACCAGTCAGTACTTCTGTGAATGAACCAGTCTGTACTTCTGTGAATGAACAAGTCAGTACTATCTGTGATGGAGAACTTGCACCACAAGTTCCTGGTATCATAGAGTCTTCAAGTGTTTCCAACGACCAGACTATCCATGAGAGGTCTAAAAGCAGTAAAGAAATACCAAATGGTCATTCTGAAGATGAAGCCAGGAAGGAGTTTGATAATCTTGAGCCTGCAAATCCACACAATTTGATGGTTGTTTCACAGAGTCAACAAGCTACCGATGAATTAAGCTTCTCTCATGATGTGGATGATATAACCAAGGGAGAAGAAAGGGTTCAAGTTTCTTGGGTGAATGAAATTAATAAAGAGCATCCACCATTCTTTCACTATATACCTTGCAGTCTAATTTTCCAAAGCGCGTCTGTAAACTTCTCTCTCTCTCTGATTGGTAATGATAATTGTTGCCACTCTTGTTTTGGAAATTGCCTTACATCTTCTGTCCCATGTGCTTGTGCACGGGAAACTGGGGATAAGTATGTGTACACACCAGAAGGTCTTGTTAAGGAAATTTTTTTGGAAGAGTGGATCTCTCTTGCTCGTGAATCTCAAGGAAGCCACCAGTTCTATTGCAAAGAGTGTCCCCTTGAAAGATTGAAGAATGATGATTGTTTAGAACCCTGCAAAGGCCACTTAGAGAGGAAGCTTATAAAAGAATGTTGGAGTAAATGTGGTTGCAACAAGCATTGTGGCAATAGAGTGGTGCAGCGAGGAATAACTTGCAAGTTGCAGGTACAGTTCATGTCACACCTCTCTCTCTCCCTGGCCTCCACTTCCTGCATCTGCCTGTATGTAGAAACAGATATTTCACACATCTTTGGCTATACCTTATGTCTGAAAATTATTTCTCTGTTTCAGGTATTTTTTACTTCAGATGAAAAACGATGGGGTCTTCGAACCCTTGAAGACCTACCTAAAGGGTATTTTGTTTGTGAATATGCTGGAGAAATATTGACCATTCCAGAAATGTATCATAGAAAGGTGCAAAGCACCAAAAATGAGGTGCATGTTGACCCAGTATTATTAGATGGCTTTTGGAATAAAGAAGGGCCTTTCAAGGAGGAAAAATCTCTCTGCTTGGATGCAACAAACTTTGGAAATGTTGCCAGGTTTATCAATCACAGGTACTTGATTAAACTTCATAGGCTTCGAGTTTCCATTGTTTCATACTTTCCCCCATGTTGCCCGCGTATCTACTATTTGGTGCTACTTTTTTACTTTCTATATTCTTTGTATTATTGCTACTACTATTATTTCATTCACTTATTTTTATTTCTATGGAAACCATAGCTTCTTCTTCATCACGTTGTACTTGTTTGATATTTCATTGATCAATGAAATTGTTTTTTATGGAAAAAAAACATCATTCTTCATCGTTCCATCATTACACTATAAACTATCATTTTCAATTTTCATCTTCTTTTTGTGTTAACTTCATTGAAATATTTCTTTAATATGTCTATTTATTAATCTGATTTCTAGTTTCATATTTTGTTAAAGAACAAAAACTTGTTCAAGATAATTACCTAATGAGCCTTGAGGTATTCTTAGAGATCATGTTAGCGCTAATTTGTGAGAAGGAACGATTTCAGATGAAGGAATTTGTTCCCTTCCATCATTGGAATTATAACACTGAGATGAGGGTTCGAAACTTGAAAAGATTGTTCCTGTATATGACATGGATGTTTTGGCTTTGTAATCTCCTTTTGTTCAAGATACAAATTAGTTGGATATGATTTGTGTATTAATATCACTAAATCAATAACACAGGTTGGTTGTGAATTGTGGACCTGTGGTAATTTGCGAGGCTTGCGGCCATTGGGATGTTTTGTGACTATTTAGGTTGAAAGGCACATTGCAGAGGCTATCTCTGTTCATTCAAATTCAGAAGGTTTCTGTGTATTGTGCTGTAATAAGATTATGTCAATGTCATAGTCTTTAAGTAATGGAGATAATAGTTGATACGAGGGACTAATATATGGAAGTTCCATTCACCATGAGACATAAAAGGCCTTGAATCACTAAACTTTCATGGTTTGGACACCTCTTAGGGCACTTGGGATGGGGTTTTAGATGATCTAATGATTATGTGTTTATCCCTAGTTTAGAACTTGGCAAACATTTAGGGTGTTTTTCAGATGCTAAATTATATATTATAATCTGTGGTTCTTACAGTCTATGGATTATAATAGTGTGTTTAGGGTGCATACTATTTTAGTTTGAGTTGGAAATAGTAAATACAGTAACAAAAAAGGATTTAGAATACTGTAGTTAATAGTAGGTTATAATAGTTGGACACCAACTATTATAATTAGAGTTCCACTGCACCCACTTAGAGTTGGGTACCCAAAGGCTTGGATATTAAAAGACATCTTAAACAAAACACGAATCTCTCCTAGTGAACATCGTGCATCAGGCCGAGATGGTTTAGTGATTGAAGGTTTTTCAGAAGTGGCAATACTAAGCTGAAGCATATATAGTGCTTATTTTTTCAAACAAAAATAGTACATCTGAAACTGTCGCTCTAAATCATGCATAAACCTGTTTTGTTAGGCATAATGTGATTTCTGTAGATTCTGGTCTTGTTGTAGCATAGTCTAATTTCTCTTTCTTTTCAAATTTATCAGATGCTTTGATGCAAACTTGGTTGATGTTGCAGTTGAAATAGAGACTCCAGATCATCATTATTATCATGTATTGACTCATGCAACTTTTGCCTTTTCTTTATCATTTTTGTGTTAGCCGTTTTTTCTCTATCTTAGTGATCAACTTCTTTATGTTATTTTTTATTTTTCTGGAAACAAGAAACAAACTGCAATAGGGATCATCTTATTCAGTTCCTTTCCTCTCTGCAGCTTGCCTTATTCACTACAAGAAAAATAGAGGCCATGGAAGAGTTAACTTGGGTCAGTGGAAATTATTATATATAATCGTTGTTTGGGTTTATTTGTTTGCATATCTTTTTGACTTAGTGTAATTTTACCTGTCCTGTCCTTATAACTGAATCTTGGCTGATAAACTGTGTCTTGGCTGCAAGAATTTCTGTCCTGTCCTTATACCTAATTGTGGTGATAAACTGTGTCTTGGCTGCAAGAATTTCTGCATTAGTTATATTGTGGTATCTCTCATAATGACGTGTTCTAGTTAGGTTTATGAACCCATCGTATATGCATATTAGGCTTATAGGGGAAAGCAATGAGACGATAGACCATGTCTTGGCTGCAAGAGTTTCTGCATGAGTTATAGTAAACAATGTTCCTGTTCTTCCCATTGCTTTCATGTACTTTTTTTTTTTTATAAATAATTTTAATTTCTTATTTTTACTCTTTTTTTTTTAAAAGAAAAAAATTCCTAAGATGTCAATGAAATAAAAAATTATGAAGAATCTGCACACGTGGAAAAAACAACATATTACGGATTCAAGAAGCAAACCACAATCATTTGCTTGATCTAAGAACTAAACAAGCCAAAACCCTTCCACTAGAACTTAAAATCACCCAGAAAAGAAAAAAAATCCTGGCTGACAAACCAAAACCGCACAACAAAGACACTTAAACACCCAATGGTGGACTACGTAAAAGTTTGCCGGTTAGAAATTGAAGAAGATAAATTATAATCAGCAAAAGCTTGTTTATATTAATGCAGAGCGTTGGTATGAAAATAGGAAATCCATAGAATAATCGAAGGTATAGGAAGTGTCTCTGAACATACGGTAATTTCTTTCTCCAAAATAAAAAAAACCAGTTAAAGATTTGATTGAGAGCAAGCCTTAAGATTTTCTTCGAACTATGGAAAGGATGTCCCACAAATCGCAAAGCCATGAAGATCTAAGATGTTATTAGGCATGTTCAATGACCAACCAAAAGCATCCAAATTAGTAAACCAATATTTTGAAGCAAAGGAGCGCTGGTTCTCTAGGTACATAGGATTGTTTGGATGGAAATTGGATTTTCAACAAGAAGGAAAAAAAAGGGAGGAAGAGAAGTTTGCAGAACAAATACTGTGAATGAGATACTACATCCGTCGTTAAATTTAGTATTATATAGGGTTACTTTTACTTCACTGATTTAAGAAAACAATACTTTTAGCTTGGATGGAAGTAGACATGTGTTTATGAGGTTTTATGTAATTGTCCTTTAGGCAAATTTTGGATTGGCTTCCTTTTTGTATGATTAATTGGTCTGGACATTTCCCTTTTTCTTGGGATGTATTTTGTATGCCTATTATGTTACTTTCATTGAGCTGGTTTTCTTGTTTTAAATAAAAACGTGGATGGAGGTTTATTTTGTTGGAGAACAATATTGGGGAGTTTGCAAAAATAGCAAAGAAAAATTATGATAATAGCGCCCATGTCACTTATATTTTCAAAATTGCAAAAATAGCAAATTTAAAAGTAAATTATCATCATATTACCGTTGATGAACGTGTAATATAATTTTATTTTATTTAACATTGAAATACTAGACAAAAGTAAATTAAGAAAGTAACTATTTAATTTTAAGTGAAGTTTTAAAAATTTAAAGTTCAGGACACCATAGAAAACATCTATTTAAGGGTTTTACTAAAAAATTTACCTCAGTTCATTTTAAGTTGCTACAAATCTAGCTTCTTTGTCTACTTGGTGCATGCAGTAGTTGAGTCATTCTCATTTCCTTTGAACTGTATGTTTCCTTTCTGAATGATGGATGCAAATTTTGATCATTACTAAGCGGTGCTCAAAGTGTTCATTTTGAATTTTTCATCACCAATGTATTTCCTTGGCCTCTTAAAAGGCCCTTACTGATATTTTGCTTTAACTGCAGGATTATGGCATTGATTTTAACGATCTTGATGATCATGTTAAGCCATTTCTCTGTCAATGTGGCAGCAAGTTCTGCAGAAATATGAAACGATCTTCTAGTAGGTTTCTTGCGTTTCTTTCCCAGTTACTCTTATCTTGATTGAATTAGCCCACCATGTGAACCTTGTTTCTTAATATTTTTCTCAATTCCTCCATTAATTAGTACAATTGTCGCATTAATAGTTTTATCTTTTTCTGGCGCTACTGCTCTGATGAATAAAATTGTTGAGTTAAATTGGATTGATCTGACTAGTCTTCTTAAACACTGGAATCTTATGGAATGGTTAATAGCCTAGGTAGATGACACCATCAGATCAGCTATTATGGAGCCATTTGGGACAAAGCTTATCTAGGACTATAATAACCTCCTTTTTTGCTACCCTAAATACTATTTAAAAGTTTTCAATTAGCTACCATAAAAACTATTTCAAAACTTTCAATTTGCTACTGAATTTATTATTTGTTATAGTTTTTACAATTTGACAATAATCATTTTCTTATTCTTTGCTATAATGTTTACTATTTTCTTATCAAACTAAAATAGTCTACACACTAAATACCTACTATTATAACTCAAGCTCAAATAATCTACACCTCAAACACAAATAATTCTAATCAAACTATAATAACCTAAGACTGATAATTCACTCTTTGTCCCAAACACTCTTCATGGGATTCAAATATTAAAAATCTCTAGTGCCATGCAATGTTATGACTTATGAGATCGATTACAGCCTATGTAGATGACATTGTCAGATCAACTATTATGAGATTCAAACATTAATAATAATCTCTAGTGCTATGCAATGTTATGATTTGTGAGTATATGATTGTGCTCTTTATCTATGCATTTTATAGCGATTAGTAAATATAGACTGCTGGAAGATCCAACATCTTGTAAGTTGATAGTTTGATGCTCAATGTCGCCACAAATGTTGAAAATTTAGACAGTCCATGCACAACACATTACTATCTTGTTTTTCTCTTGATGCTTACTGCAGTGTTCGTTTCTTTCATTATTCGCTTTTGTTTTTGATATCATTAAAGATCTCCCGTGTATGTCCATGTGAGTCTGTGATTGTTTCATATGCAAATGTATTTCACCTGTGTTTATTGTGGTATTCACATACCGGGCGCTGCTTACCAGTAGTTTCACTCTAAATTTTGCTTTGCTGACTTTATCAGGATGACTTTATTTTACTCAGGATCTAAATCAGCATCAAGTACAAGATGAAGTGGGATGATGCTTCTGTTTTTAATATCGTGGCTTTGCAAGATGAAGTTATTACGAAATATTGAAAACATAATGAATTTAGTTCAGCTGACCACTGTCTAGTTTAGTTTTGAAGACGATGGTTCAGTTTTGGGTAGTAAAGCTGAGGATCGATCACCGATTCACATTCTGTTTTGGTAGTTAGTTTATGTGTATTAGTACTACAGCAATGATGTCCATAGATTTTTTTATATCTGGCCATGATATTTAGTGGTGTTGAAAGTTTTGAAGATTATAGTTGACATAACCTGGATCTGGTTGCTGCTGTTCTTGCTGGGAAAGGTGAATGAAGTTTTTGTTTCTCTTCATTTCGTTCAATCATCCTGTGAGAAATCTTGAAAACGGAC ATGGCACCGAATCCTCGAATTTTGAAAGCTTTTCGTGCAATGAAGGATATTGGGATCAGTGAAGATAAGACAAAACCAGTCTTAAAAAAACTCCTGAAATTGTATGATAAGAACTGGGAACTTATTGAAGAAGAGAACTACAGAGTTCTTGCAGATGCTATATTTGATGAGGAAGATAGTAAGGTCGTAGAGGAGAAGAAATGTCAGAATTCTCAAGTGGAAGATTTTGGGGAAGAAGTTCAGGCGCCTGATGAGCCAGAACGCCCTCTGAAAAGGTTGCGCTTAAGAGGCCAAGAAACCCAGGTGGATGGGATGCCTTTGAAAAAGCCAAAATTGGAAGAGGATGCGTTTCCCGACGCCAATTCTCAACAGCAGATGCAGTTAAGTGGGCCTAAGAGATCTGAAACTGGTCCAAGTTCTCGTCGTGTAGACAAAGGGAAGGAACCTATGTCACCCCGTGTGGTTACAAGAGTGAAAAAATCTAGCCTAGAGAGACAATCTGCTGCTGTGCGTATTAAGGAACCAGGGGCTGATTCGGGTGTAAAAAATTCAATAGTGAGGGCATCCGGGGCTCATGCGTTGCTCAAACCTAAAGATGAGCCTGTTACTGATGATACATTTGCAAATGAGTTGCCTATTGCTGCGATTCATCCAGATTCTTCAAGAAAAGAAGATTATTCCATTGCGAATGATTTAGTTAGGAAGGCAGATGGCCAAGTTGCTCAAGTATCATATCCTTCAGACGGAAGTAACAAAGGTGACGGTACGGAAACCTCATCATGTAAGAGGATTACAGGCAGTGAGCTTGCAAATGTCATGGAAGAATTACATCCTAACTTAGAGATTGCATCATCAGCCCTGGGAGAGGTAAAAATTTCTTTGTGCTGCGACTCCACTTTTGGACGACCAGATTTCCGTATGCCTAGTCGTGATGCAGTTATAAAATATATGGAGGAAAAATGTCTGCACTCATATAAAATCATTGACCCCACGTTTTCTGTTATGAAACTGTTGAGTGATATGTGTGAGTGCTTCTTGGAATTGGGAACTGATTCTCCTGATGAACAACAGGAAGGTTCAATTAGTAGAGTTCCACTTCTAGATGTAATCGAGAATTCAGACCCAATGGATACTCCAGGGACTGTTGCTAATGAAGAAAATTTGAATCTACCCACTTCTGTGAATGAACCAGTCAGTACTTCTGTGAATGAACCAGTCTGTACTTCTGTGAATGAACAAGTCAGTACTATCTGTGATGGAGAACTTGCACCACAAGTTCCTGGTATCATAGAGTCTTCAAGTGTTTCCAACGACCAGACTATCCATGAGAGGTCTAAAAGCAGTAAAGAAATACCAAATGGTCATTCTGAAGATGAAGCCAGGAAGGAGTTTGATAATCTTGAGCCTGCAAATCCACACAATTTGATGGTTGTTTCACAGAGTCAACAAGCTACCGATGAATTAAGCTTCTCTCATGATGTGGATGATATAACCAAGGGAGAAGAAAGGGTTCAAGTTTCTTGGGTGAATGAAATTAATAAAGAGCATCCACCATTCTTTCACTATATACCTTGCAGTCTAATTTTCCAAAGCGCGTCTGTAAACTTCTCTCTCTCTCTGATTGGTAATGATAATTGTTGCCACTCTTGTTTTGGAAATTGCCTTACATCTTCTGTCCCATGTGCTTGTGCACGGGAAACTGGGGATAAGTATGTGTACACACCAGAAGGTCTTGTTAAGGAAATTTTTTTGGAAGAGTGGATCTCTCTTGCTCGTGAATCTCAAGGAAGCCACCAGTTCTATTGCAAAGAGTGTCCCCTTGAAAGATTGAAGAATGATGATTGTTTAGAACCCTGCAAAGGCCACTTAGAGAGGAAGCTTATAAAAGAATGTTGGAGTAAATGTGGTTGCAACAAGCATTGTGGCAATAGAGTGGTGCAGCGAGGAATAACTTGCAAGTTGCAGGTATTTTTTACTTCAGATGAAAAACGATGGGGTCTTCGAACCCTTGAAGACCTACCTAAAGGGTATTTTGTTTGTGAATATGCTGGAGAAATATTGACCATTCCAGAAATGTATCATAGAAAGGTGCAAAGCACCAAAAATGAGGTGCATGTTGACCCAGTATTATTAGATGGCTTTTGGAATAAAGAAGGGCCTTTCAAGGAGGAAAAATCTCTCTGCTTGGATGCAACAAACTTTGGAAATGTTGCCAGGTTTATCAATCACAGATGCTTTGATGCAAACTTGGTTGATGTTGCAGTTGAAATAGAGACTCCAGATCATCATTATTATCATCTTGCCTTATTCACTACAAGAAAAATAGAGGCCATGGAAGAGTTAACTTGGGATTATGGCATTGATTTTAACGATCTTGATGATCATGTTAAGCCATTTCTCTGTCAATGTGGCAGCAAGTTCTGCAGAAATATGAAACGATCTTCTAGATCTAAATCAGCATCAAGTACAAGATGA ATGGCACCGAATCCTCGAATTTTGAAAGCTTTTCGTGCAATGAAGGATATTGGGATCAGTGAAGATAAGACAAAACCAGTCTTAAAAAAACTCCTGAAATTGTATGATAAGAACTGGGAACTTATTGAAGAAGAGAACTACAGAGTTCTTGCAGATGCTATATTTGATGAGGAAGATAGTAAGGTCGTAGAGGAGAAGAAATGTCAGAATTCTCAAGTGGAAGATTTTGGGGAAGAAGTTCAGGCGCCTGATGAGCCAGAACGCCCTCTGAAAAGGTTGCGCTTAAGAGGCCAAGAAACCCAGGTGGATGGGATGCCTTTGAAAAAGCCAAAATTGGAAGAGGATGCGTTTCCCGACGCCAATTCTCAACAGCAGATGCAGTTAAGTGGGCCTAAGAGATCTGAAACTGGTCCAAGTTCTCGTCGTGTAGACAAAGGGAAGGAACCTATGTCACCCCGTGTGGTTACAAGAGTGAAAAAATCTAGCCTAGAGAGACAATCTGCTGCTGTGCGTATTAAGGAACCAGGGGCTGATTCGGGTGTAAAAAATTCAATAGTGAGGGCATCCGGGGCTCATGCGTTGCTCAAACCTAAAGATGAGCCTGTTACTGATGATACATTTGCAAATGAGTTGCCTATTGCTGCGATTCATCCAGATTCTTCAAGAAAAGAAGATTATTCCATTGCGAATGATTTAGTTAGGAAGGCAGATGGCCAAGTTGCTCAAGTATCATATCCTTCAGACGGAAGTAACAAAGGTGACGGTACGGAAACCTCATCATGTAAGAGGATTACAGGCAGTGAGCTTGCAAATGTCATGGAAGAATTACATCCTAACTTAGAGATTGCATCATCAGCCCTGGGAGAGGTAAAAATTTCTTTGTGCTGCGACTCCACTTTTGGACGACCAGATTTCCGTATGCCTAGTCGTGATGCAGTTATAAAATATATGGAGGAAAAATGTCTGCACTCATATAAAATCATTGACCCCACGTTTTCTGTTATGAAACTGTTGAGTGATATGTGTGAGTGCTTCTTGGAATTGGGAACTGATTCTCCTGATGAACAACAGGAAGGTTCAATTAGTAGAGTTCCACTTCTAGATGTAATCGAGAATTCAGACCCAATGGATACTCCAGGGACTGTTGCTAATGAAGAAAATTTGAATCTACCCACTTCTGTGAATGAACCAGTCAGTACTTCTGTGAATGAACCAGTCTGTACTTCTGTGAATGAACAAGTCAGTACTATCTGTGATGGAGAACTTGCACCACAAGTTCCTGGTATCATAGAGTCTTCAAGTGTTTCCAACGACCAGACTATCCATGAGAGGTCTAAAAGCAGTAAAGAAATACCAAATGGTCATTCTGAAGATGAAGCCAGGAAGGAGTTTGATAATCTTGAGCCTGCAAATCCACACAATTTGATGGTTGTTTCACAGAGTCAACAAGCTACCGATGAATTAAGCTTCTCTCATGATGTGGATGATATAACCAAGGGAGAAGAAAGGGTTCAAGTTTCTTGGGTGAATGAAATTAATAAAGAGCATCCACCATTCTTTCACTATATACCTTGCAGTCTAATTTTCCAAAGCGCGTCTGTAAACTTCTCTCTCTCTCTGATTGGTAATGATAATTGTTGCCACTCTTGTTTTGGAAATTGCCTTACATCTTCTGTCCCATGTGCTTGTGCACGGGAAACTGGGGATAAGTATGTGTACACACCAGAAGGTCTTGTTAAGGAAATTTTTTTGGAAGAGTGGATCTCTCTTGCTCGTGAATCTCAAGGAAGCCACCAGTTCTATTGCAAAGAGTGTCCCCTTGAAAGATTGAAGAATGATGATTGTTTAGAACCCTGCAAAGGCCACTTAGAGAGGAAGCTTATAAAAGAATGTTGGAGTAAATGTGGTTGCAACAAGCATTGTGGCAATAGAGTGGTGCAGCGAGGAATAACTTGCAAGTTGCAGGTATTTTTTACTTCAGATGAAAAACGATGGGGTCTTCGAACCCTTGAAGACCTACCTAAAGGGTATTTTGTTTGTGAATATGCTGGAGAAATATTGACCATTCCAGAAATGTATCATAGAAAGGTGCAAAGCACCAAAAATGAGGTGCATGTTGACCCAGTATTATTAGATGGCTTTTGGAATAAAGAAGGGCCTTTCAAGGAGGAAAAATCTCTCTGCTTGGATGCAACAAACTTTGGAAATGTTGCCAGGTTTATCAATCACAGATGCTTTGATGCAAACTTGGTTGATGTTGCAGTTGAAATAGAGACTCCAGATCATCATTATTATCATCTTGCCTTATTCACTACAAGAAAAATAGAGGCCATGGAAGAGTTAACTTGGGATTATGGCATTGATTTTAACGATCTTGATGATCATGTTAAGCCATTTCTCTGTCAATGTGGCAGCAAGTTCTGCAGAAATATGAAACGATCTTCTAGATCTAAATCAGCATCAAGTACAAGATGA
BLAST of CSPI06G07040 vs. Swiss-Prot
Match: SUVR1_ARATH (Probable inactive histone-lysine N-methyltransferase SUVR1 OS=Arabidopsis thaliana GN=SUVR1 PE=1 SV=2) HSP 1 Score: 400.6 bits (1028), Expect = 4.2e-110 Identity = 190/344 (55.23%), Postives = 239/344 (69.48%), Query Frame = 1
BLAST of CSPI06G07040 vs. Swiss-Prot
Match: SUVR2_ARATH (Probable inactive histone-lysine N-methyltransferase SUVR2 OS=Arabidopsis thaliana GN=SUVR2 PE=1 SV=2) HSP 1 Score: 399.1 bits (1024), Expect = 1.2e-109 Identity = 192/362 (53.04%), Postives = 249/362 (68.78%), Query Frame = 1
BLAST of CSPI06G07040 vs. Swiss-Prot
Match: SUVR4_ARATH (Histone-lysine N-methyltransferase SUVR4 OS=Arabidopsis thaliana GN=SUVR4 PE=1 SV=2) HSP 1 Score: 393.7 bits (1010), Expect = 5.1e-108 Identity = 190/393 (48.35%), Postives = 261/393 (66.41%), Query Frame = 1
BLAST of CSPI06G07040 vs. Swiss-Prot
Match: EHMT1_HUMAN (Histone-lysine N-methyltransferase EHMT1 OS=Homo sapiens GN=EHMT1 PE=1 SV=4) HSP 1 Score: 136.3 bits (342), Expect = 1.5e-30 Identity = 79/201 (39.30%), Postives = 114/201 (56.72%), Query Frame = 1
BLAST of CSPI06G07040 vs. Swiss-Prot
Match: EHMT1_MOUSE (Histone-lysine N-methyltransferase EHMT1 OS=Mus musculus GN=Ehmt1 PE=1 SV=2) HSP 1 Score: 135.6 bits (340), Expect = 2.5e-30 Identity = 78/201 (38.81%), Postives = 114/201 (56.72%), Query Frame = 1
BLAST of CSPI06G07040 vs. TrEMBL
Match: A0A0A0KA75_CUCSA (Uncharacterized protein OS=Cucumis sativus GN=Csa_6G088060 PE=4 SV=1) HSP 1 Score: 968.8 bits (2503), Expect = 4.3e-279 Identity = 461/468 (98.50%), Postives = 467/468 (99.79%), Query Frame = 1
BLAST of CSPI06G07040 vs. TrEMBL
Match: B9SKN2_RICCO (Set domain protein, putative OS=Ricinus communis GN=RCOM_0542660 PE=4 SV=1) HSP 1 Score: 776.9 bits (2005), Expect = 2.4e-221 Identity = 427/841 (50.77%), Postives = 534/841 (63.50%), Query Frame = 1
BLAST of CSPI06G07040 vs. TrEMBL
Match: V4U487_9ROSI (Uncharacterized protein OS=Citrus clementina GN=CICLE_v10018896mg PE=4 SV=1) HSP 1 Score: 770.4 bits (1988), Expect = 2.2e-219 Identity = 426/845 (50.41%), Postives = 555/845 (65.68%), Query Frame = 1
BLAST of CSPI06G07040 vs. TrEMBL
Match: B9GRD9_POPTR (Uncharacterized protein OS=Populus trichocarpa GN=POPTR_0002s25920g PE=4 SV=2) HSP 1 Score: 758.4 bits (1957), Expect = 8.8e-216 Identity = 432/861 (50.17%), Postives = 536/861 (62.25%), Query Frame = 1
BLAST of CSPI06G07040 vs. TrEMBL
Match: M5VVG2_PRUPE (Uncharacterized protein OS=Prunus persica GN=PRUPE_ppa001542mg PE=4 SV=1) HSP 1 Score: 739.2 bits (1907), Expect = 5.5e-210 Identity = 425/838 (50.72%), Postives = 531/838 (63.37%), Query Frame = 1
BLAST of CSPI06G07040 vs. TAIR10
Match: AT1G04050.1 (AT1G04050.1 homolog of SU(var)3-9 1) HSP 1 Score: 400.6 bits (1028), Expect = 2.4e-111 Identity = 190/344 (55.23%), Postives = 239/344 (69.48%), Query Frame = 1
BLAST of CSPI06G07040 vs. TAIR10
Match: AT5G43990.2 (AT5G43990.2 SET-domain containing protein lysine methyltransferase family protein) HSP 1 Score: 399.1 bits (1024), Expect = 6.8e-111 Identity = 192/362 (53.04%), Postives = 249/362 (68.78%), Query Frame = 1
BLAST of CSPI06G07040 vs. TAIR10
Match: AT3G04380.1 (AT3G04380.1 SET-domain containing protein lysine methyltransferase family protein) HSP 1 Score: 393.7 bits (1010), Expect = 2.9e-109 Identity = 190/393 (48.35%), Postives = 261/393 (66.41%), Query Frame = 1
BLAST of CSPI06G07040 vs. TAIR10
Match: AT2G23740.2 (AT2G23740.2 nucleic acid binding;sequence-specific DNA binding transcription factors;zinc ion binding) HSP 1 Score: 120.2 bits (300), Expect = 6.1e-27 Identity = 71/188 (37.77%), Postives = 101/188 (53.72%), Query Frame = 1
BLAST of CSPI06G07040 vs. TAIR10
Match: AT1G73100.1 (AT1G73100.1 SU(VAR)3-9 homolog 3) HSP 1 Score: 110.5 bits (275), Expect = 4.9e-24 Identity = 79/235 (33.62%), Postives = 108/235 (45.96%), Query Frame = 1
BLAST of CSPI06G07040 vs. NCBI nr
Match: gi|778711637|ref|XP_011656773.1| (PREDICTED: histone-lysine N-methyltransferase SUVR2 isoform X1 [Cucumis sativus]) HSP 1 Score: 1660.6 bits (4299), Expect = 0.0e+00 Identity = 818/824 (99.27%), Postives = 823/824 (99.88%), Query Frame = 1
BLAST of CSPI06G07040 vs. NCBI nr
Match: gi|778711643|ref|XP_011656775.1| (PREDICTED: histone-lysine N-methyltransferase SUVR2 isoform X2 [Cucumis sativus]) HSP 1 Score: 1648.6 bits (4268), Expect = 0.0e+00 Identity = 810/816 (99.26%), Postives = 815/816 (99.88%), Query Frame = 1
BLAST of CSPI06G07040 vs. NCBI nr
Match: gi|659119995|ref|XP_008459955.1| (PREDICTED: histone-lysine N-methyltransferase SUVR2-like isoform X2 [Cucumis melo]) HSP 1 Score: 1560.4 bits (4039), Expect = 0.0e+00 Identity = 779/824 (94.54%), Postives = 790/824 (95.87%), Query Frame = 1
BLAST of CSPI06G07040 vs. NCBI nr
Match: gi|659119993|ref|XP_008459954.1| (PREDICTED: histone-lysine N-methyltransferase SUVR2-like isoform X1 [Cucumis melo]) HSP 1 Score: 1551.2 bits (4015), Expect = 0.0e+00 Identity = 778/831 (93.62%), Postives = 789/831 (94.95%), Query Frame = 1
BLAST of CSPI06G07040 vs. NCBI nr
Match: gi|659119997|ref|XP_008459956.1| (PREDICTED: histone-lysine N-methyltransferase SUVR2-like isoform X3 [Cucumis melo]) HSP 1 Score: 1548.9 bits (4009), Expect = 0.0e+00 Identity = 771/816 (94.49%), Postives = 782/816 (95.83%), 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 cucumber (PI183967)
Date Performed: 2017-01-17
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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