Cucsa.260010 (gene) Cucumber (Gy14) v1
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.ATTTTGGTAGGCAGGTTATTTACCCCCACTCCACCACCACATAAGCTATATCTGTTTTTGAAAGAACACTTGTGTATATTGAGTCAGATTCTTCTCTAAGATATTATCTTAGTACAAGTTTATTTTGATAATAAATGCTGTATTTCTAGGTCCTTATTGAAGACTTCAATTGCGCTTTCCAAGAAAACATACTAATTCAGGTAGTTTTTATCTTTCATAGAGCCTCGTTCAGGTTCAGAATAAGTTGTGAACTTGAAATTTTACATTTGATTGATTATCTTGATAGGCATGGCATATAGCCACTTTCGATTTTACCATAAGAAAACCAATGTTCTATCTCCGGTTTTTTGCTTTCTCTTATTGAAATGTAAAATACATGAATTTGTAATTGGAAATGAATGGATTATGGTCCAGCCATTTTTTGCCTTTAGTATCATTATTTTGTATATGTTTCAGGGCCACATGTATCTGTTCGTGCACTATATCTGCTTTTACTCCAACATCTTTGGGTTTGAGACAAAGGTAAGTTATGATTTAAACCAAAAGCTGTCTCTCTCACTTTAGTGCATGGGTTTGGATTATGCAAGCACACAGATCCCTCACAATCATTTTATCAATAAAACCACTGTCTTAACCATCATGGGTTGACCTAGTAGTAAAAAAGTCAATAATTAACTATGAGGTTATGAGTTCGATCCATGGTGGCCACCTACTTAGGAATTAAGCCACCTACTTAGGAATTAATTTCCTACGGGTTTCCTTGACATTCAAATGTTATAGGGTCAGGCGGGTTGTCCTGTGAGATTAGTTAAAGTGTGCGTAAATTGGTTCGAACACTCACGGATATAAAAAAAAAGAAAAAAGAAAAATCCACCGTCTTCTTTCATCTACTCAGGCTAGAAGTTCTTATTTTTTTGGTGTAAAAAACGTAGATGCATTATGGTAATGAAAGTAGCTTGAGGCATTTCAGACTAGGTATTCAAGTGAAGGATGGCTCCTATTTCTGCATTCAAGTAGAATTAATTATAGACATGTCATCTTCAGTGCCATATTTATAAGTTACTATTATTATTTTTATTAGAATTTAGAAGTATTTTTAGTCTCCACTTGAATGTCTGCACACCTTATATGGCTAGTACTGTTTCAATATCAATCAAGGAAAGAATCCCTACAATTGCGCTGATCCCCCTACCTAACGCATTGTGTGGTCGTTAATTAGGTTTCGAGAAGGACCCTTTAGAGGTTTGGTCCTTAGGTTCCATGTTTCTCTTTGGGCTGCAGTTTCAAAGTTTTTTCTGTAATTATTCCCTTGGTAACATTTTTTGAATAAGGTTTCATGTTTCTTTTTGGCTTCGCTTCGATTGGTTTTTTTTTTTTTTTTGTAATTATTCCCTTGGTAACATCATAGTGAATAGAAGCCTTTCTTGTAGTAATCCACATGGATATGTTGACCCTTTTAGGGCTCTTTGTTTTCCAAAGCCTCTGAATAAGAAACATCAATGGGAGAAGCAAATGATAGATGAGTAACCAAGGATTTAACAGTGAAGCAGCCACTTGGTTCTAGGGACCAAACTTTCTTGTCTGGGTTAGAATTTACCATTTTCCCATTTAAAGAAATCATCAGCGATTGAAAGTCAACAACCTCCTCCTCTTCCAATAATCTTCTAAATTAAACTGCCCAAGAACTAGTTTGGCTATCCCAGTGCTCAGAAATTGACCCTTTAGGCAAGAGGGCAATATGAAATAATCTAGGGAACTTGCTGTTTGGGCAATATTATCCAGCCATGGATCATTCCAATTGAACACTCTGCTGCCATTACCAATTCTGAAAGTTGCTAGAGCTTCAATCTTGCGCCATTCTCTTGAAATACTAACCAACGGGCTTTCTCAAACTCAAATTATCCTTCCTGCTAGTGAGCCAAAGGAAGGGCTGGGTACCGTGAATACATTAAACTACTTTGCACCACAAGGCTTTCTGTTCTGACATAAATCTCCATCCCCATTTTGATAAAAGAGTTATATTTCTTATTCTCAAATCACTTAGGCTGAGGCCCCATCTATTTGGCTTTTGATGATTTTAGACCATTTAGCTAAGTGGTTCAGCTTTCCCCCAGTATTACCTTCCCATAAAAGTTTTCTCATGATTTTCTCTGAAGTATTAGAAACTGAAATTGGCATGAGGAGGGTTGAAATGTAGTAAGTAGGGAGATTGGAAAGGACTGATTTGCATTGTGTGATTCGTCCACCACGAGATAAGTTGTACCTCCTCCACTTGCTTAGTTTACCTTGAATTTTATCTATAATGGGCTGCCAGAATAACGAGCATTTTGGGTAGCCTCCAAGCAGTAGACCAAGGTACATTAAGAGAAGCTTTTCTGTCTTACATCTTAGTCTTGAAGCTGATTCAGTGATCATTCTTTCCTCTATATTAATTCCACAAATGTCCGATTTTTCCCAATCTACTTTTTATTCTGAATCCTACAGGTGTAGTTAAGAAAAACTTCAACTCTTCAAGTATCTTTTTTATCCATATGCCCTCACAAATTCCTAAGAGCCAAGGCTATAAATTCTGCTTCAGCACTGCTTTTGGCCACCACATTCTGTTTTTTAGTTCTCCAAGTAACCAAATTTCCTCCAACAAAGTAACAATTACTAGACGTGGATCTTCTATTTGTAGCACTTCCTGCCCAATCTGCATCATTGCAGAGTTCTACTTGGAAGTGATTATTCTTTTGAATAGAATGCCTTTTTCAGGGTATACCTCAACATTCTATAAGCAGCTTCAAAATGAGTCGGTCCAGGGGCATGCATAAATTGACTAACCATGCTTATAGCATACACAATATTAGAGCGTGTATGAGATAGATTAATCTACCAACAAGTCTTTGATATCATTATTTGCCCATTATTTCTTTAGCTCTTGCTGTTAGAAGTTTCAGATTAGGTTCAACAAGAGTTTCTGCAAACCTAAAAAATCTTACAGATATAAATGATAAATATAAACATAATACACATCTAATGTTACAAGGATAACATAAGTAGGAGAAGGTAGAAAGATAGTAAAGGACAATATGACGAAGATATTTACAATAATATAATAAATACTAATATTGACAGTATAACAAATAGAAAACCCTTCAAGTTTGGACTTCGTTTATTTGTTCATTTTATAAACATGTTTCTCCTGGGCAGATAATCCGATCAATCAAATTATACTAGAAAGTGAGGAATATATGAAAAGTTGCTTAGCCAAAGTACTCAATGAATTCACATACTTTATTGTTTGGTGTGCACGACTTCTCACATCTATTCATTGTTTAATTTGTATGTATGATTTTGATATCATGTTTCTATTGCCATTTGAATGTGAACCACACGATTCATTTTGATTTCTTATCACTATTTTTAAAAATTTCGGTTATTGTCAAGGTTGGATTGCTACATCATTTATATGTCTTTGATCTTGTTTATGGTTATTATTATGCTTCAGAAAATAATCCCATTTCGAGAAATAACAGCTGTACGTAAAGCAAAAACGGCAGGGATCTTCCCTAATGCCATCGAAATTTGTGTTGGGGAGAAAAAGGTAGTTTTAAGTCTTTTATGATTTGTATTTTTATTTTTCTTTAATTTTGAATTTCATCTACCAGAATTAATTATTAGGGGTATCTTTGATATCCGTTATGTTTTTAGTCTTTTTATTTTTTTTAAAATTAAATATGCTGATCTATAATTTAATAACACTTTTCTTTCTTTCCTAAATCTTCTTTCATCTTGAAGCTTTTGGTGTGCACTTTTCAGATTAAAGTGTGCGAAGTGTGTGAGAGCTTTTACATTTTACTTTGTATCTAGCTCTTTCCCGATGTTTTGAATCTCGGTTGCTTTGAATAGCTCGTTGATTTATCTTTTGTGTTTATTTTTAGGTCGTGTTCATTTTTGTGTTGCCCGGGTACTTTCTTTGTTTCAGTTTTAGGCTGTATTTTCTTTTGTTATTTTGCTCTTTGCTCTCAGTATAATTCTCTTGTACTTTGAACATTAGTTTCATTTATTATGATTAAAAAAGAGGCTCATCTCTGTTTCAAAAGAAGAAAAAAGTAAGTTTTCAGAACACCTTTTTTATTTCTATTTTTAATTTAAAAAGTTGGCTAAGGTTTTATGAATATTTTGAAAGAGAAAAACTAAACTACCTTCCAAAAAGAAAAAATCTATTTATGAGCATATATTACGAGCTTAGTAAAATGAAACCTATAGATAAATTCATTCTCCTTCTCAAGTAATTTGTTGGTTAAATTACAAGTTTAGTTCTCAAACTTCAAGGTTTGTGTCTATTTAACTTTCAAAATTTTAAAAGTGTTTAATAGGCCCCTAAAGTCATATGAATTTTGTGTCGAATGGGTCAATGAACTTTCAACTAGAGCATATTAACTAGCATAAATTACTCACTTTTCTCTTTTCTTTTGCAGTATTTCTTTGCATCTTTTCTATCTCGTGATGAGGCCTTTAATCTCATTAATGATGGCTGGTTGCAACATGCTAAAGGTACCGAAGCAATTATGAAAAAGCAGGTGAAGAACTGTTAATTCAATGCTTTGTTTGTAACAGCAGCATTGTTTGAGTTGTAATGCAAGCTAAGTCTTACCTTAGATTATTAGTTCATATGTAGAGAAAGGCATGAAAGTTATTAATTTTTTGGGTGGAGAATCACAGTATTTTGACATATGGCATAGCATATCTCAATATAGTTTTATTCTTCTCTATGAGTTGCCCCATATCCTGGTGTATTTTAATCATGCCCAGTTGATTGAAGTTTTAGGCAATACATTTTCAACATGTTCTGGCTTATGTTATGTGGTCTCTGGGACCAAAATGTGGTTTGAGATCAATAATGCTCGATATCTGGATTTTCCTTTCTTTGTGGCTTTATTTATTTGCACGTGTCCTTATACACAGCCTATATGCATGTGCATGTATGCATGAATGCAGACACGTATATATGTTTTTCTTGCATGCTATGGATGTGTGAGCTTGCTTGCAATATGTTCACAAAATGGCAATGCTATATTTATGCTTAAAGCACTAGAGTTGTTCAGAGTTGGCAATGTGTATCTAAGATATCAGTGATAGCTACGAATAAACCCAACTAAAAGAGTGAAGACATTCCTTTTCTGCTTTTGTTTGTCTCTATTATGCATTAAAAAAGTGACTTTTATGTTAGAAATCAATAAATGAATCTAGCAGACAAGAAATTGGCATCCTTGGTGTCGAAAAGGCCAAGGAGCTGGATCCTTCAGATTCTTCTGACAGGTAATTTTGTTTCCACCTTTATTTATGTCGTTTTCCTAAACTTGCTGCTTGACTTACTGGATTATTAAATCATCTTGTGCGTAAGGAGTATGGATACTCCTATTCTTAATGTTTCGGTGGTTCAAGCCAATGTTGAAGAGGTAAATGTGCCAACCACGCTACCACCAGAACCTATCGTTGCCACTCAGGAAGCAGAGCCAATTCTTGATATTCATGCTTCAACTTCAAGAGAGACATTAATGTGGAAGCCGGAAGACACAGATGCTCCCAACGGTGGGTTTGCAGCATTTTCTCTCTCTTTTCTTTCTATTCAGATTAAGGAGTTAGCCTACAATTCTTGAATAGTGCAGTCCAAGAGTATCTTATGTTATTCTTTCTACCTTTAAGCTCATGCTGGCCTTTGAGAGGGGATGCAGAAATTAGTTTAAAATATTGTAATAACATTATTCTTAGTTTAAGTGTTAGATTGGATAGGCATTTTATCCTTATATTTTTTCTAACGAGGAACTAAGCTTTCACTATGATAAACAAAAGAATTCATATAGGTAATTCAAGAAAAAGAAACCCACTGCAAAGTTGCCTATAAAAAAGACACCCTAATAATTGCAAAAAAGGGGATTTAGTAGTAAAGAATAAGATGAAAGATAGTTAAAAAGATTCTTAGATACTGACATCCAAAGAGGCATGAAACCTGACCATAGCTCATACTCAAGACTTTCGGCCCGATAAGACTTTCTGGCCCTCTCCAGCTAATCGTTGAACAAAGTAGTAAAGAAAGCTGCACCCTAAAGGATCCCACCCTTATCTCAAAACTGCGGATGGGACAAAATCTCTCCTATCATTGACCAGCAAAAGTCAGTGTTGCACCAAAGAAAAGCGCGAGGTATATAAAACAGTTCCCAAAATCAAGTACCTAAATTGACAATGTCATAGTACATGTTCTAGGTTCTCTAAGTATATGGAATCAAGTAATGTGCTTCTATTTTGCATTTTTAAGGGTGCTTTTATTTATTACTTTAGTGACTCACTTTGTACTTGGCTTTTCCTTCAACTGTTATAACAAGTGAAATCTGGTCCTGAATGCATGATCTAGTTTGATTTTGAAATGCAGTACCGGATTATTATACCCAAGTTGCAGAATCAAAGTTTCCGGTACAGTTGCTTTTTCTTTGATGGGTTTGACATCTAATGTGTACTTCACATTCAACTCCTCCAAATTCATAGTCTTTTAAAAATTATTAATCAATTTTGATCAGATAAGTTGGTTCAATTTGAATGGCAGATAAACGTGGAAGATTTCTTTAGTTTCTATTTTTCCGACAGTGCAGTTGATTTTGTTTCTTCATATCATGAAAAATGTGGAGATAAAGGTAGCGTGTTGGATATATGCAATGTAGAAATCCTTTTTGAATTTTTCTAACTAATGTTACGTTGTATGTACTCTGAATTAATATTTGGTCGGTGATACTTTTTCAGAGCTTAAATGTTCTCTGTGGCGTCACGATGACATGTTTGGGCATACCCGTGATGTATCATTTCAGCATCCGATAAAAATATATTTTGGTTCGCTTTTTATTCAGTATCTTGCCTTTTTCCCCATGTTTCTATTTTAGATATATAATTTCTTTATGATAATACTGATTTTACGTGGCTATAAAGGTGCAAAGTTTGGTGGCTGCCTGGAGACTCAGAAATTTCGAGTTTATCGAGACAGGTTTGACAAGTTGGTTCTCATTGATTATATTCTTTTGTTGATCTTATTTCTCTCTAGTCAGCCGATTGCCTTTTCTTGATGTTTTCCTTTCCATTCTTTTCTGAAGCATTTTGTGATCAAGATTTCAGCTGTTTTGGGGCTCCTTGTTGAAAGTTTTTTCATTTTGCTTTGTATTTAGTTCTAGAGGGTCTTGTCCAGCTCGTTAGTAATTACATTAGGTTCTCTCTTTGTCTTAGTTTATGTTGCATCTGTTCTTTTAGTCATTTTTGCTCTTGGTATATCTCTCTTGAACTTTGAGCATTAGTCTCTTTTATTAATATTAATAAAGAGGCTCGTTTTTTTTAAAAAAAGAAAATGTATGTGACTAGTAAATCCTATTGATTGGTCTAGGTCTCATCTCGGCCAAGCTGATATGGTCTGTAACCATTGTGCACTGTTCAATCTTTTCTTAGTTTCTAACTTTTAGGGGGAAGGTAAGGTGCAGGCTGAGGGGGTTGACTGTCCATGTATTTTTACTATTACACTGATAAGTGGTTGCTCATAGACTAATAACATCACAGTACCTAACTACTTAGCAAGTTTTTTTTTAATTAATTTAAATCTTAATTTTTTATACTAATACTACTACTACGACTATTATCATCATTATTATTTGAGCCAGTTTTCTGTCATTAACGCCTTCTTCAGTTAGTTTGACTATCTGTTCATTTTCTCAGTCATTTGGTCATCGAGGTAACCCAAGAAGTCAGTGAGGTTCCATATTCAGATTATTTCCGTGTTGAGGTATTTGATTAATACTATTAAGTTCTATTTGGTCCATGTGGTGGCCGTTATCCCTATGTTACTTTGGTAATAATTTCCAAACGTAGAAGATCAGTGTATGTTTCTAGTAGTGGTATGTCTACATCAAAGCGTCAGCTGGTTTTAAATTGTCCACCATTTAGTTTCTTATAAGTTTGTCTTCTTTGTGAAACGTCATTCACTAGCTCAGGAAGCTCTAGACCTGATATTAAATTTACAAATTAGCCTTTATTTTTGAAGAACCAAGGCTCCAGAAGTGTTTTAGAAGGTTGAACATTAGAATTCCATCCAAATATTTATTTCCAACTACAAATTTGAACAGTTAAAACGTGAGAAACTTTTTATTCTTCTCTCTTAATTATAAATCTATTTTGATGAGTCAAAATTTGAATGTTAATAATGATCTATTTTTTTTTTGAAATGGAAACAAAGACTTCTTTATTAATATGAACTCAAAGTACAAGAGATTTATACAAAGAGAACAATAAAGAAGTAGTAATCAAGGGAGTCCTAGAGGGATCATGAGGCGCACCCGGGCATCTCAACTAGGTTGACACCCTCATAGCGCTAAACATCATATCCCGAGTACAACCAATCAAAACAATAAAGAAAACATAATAAAAGCAGCCAGTACAAAGGCCTGGAAAACAATATGGGACCAGAAGGAACAACAACGAGAAACTGGGGGGGGGGGGGGGGCAAAAAACAATCATTAAATTCAAACATCTTTTATCTAGCTATAATTTTTTTTTATAAGAAACGAAATTCACTGATAAATCACTTATATACTAGGTAGACTTTTGATTATATTATACGAAATTCATCTACTTCTAAAAATTCAAGCTAGTCAGCATTTATATACTCGGTAGACTTTTGATTGTATGTTAATTTTTAAGGACAACTTTAATATTGTAACCAAATATATATCATTATTTCAGAAGATTTTTTTAAGAACCCTGTTTCTCTTTTCTGATCACAAATAAGGCACTTCATCTCTTAGTCTGGCTCACAAAAGAAAAGAAAAAAGATCTCTTTTTGGTCCATCCTATGTTTCTTTCATCATTATTGGGACTTGAAATTGTTATTGAAACTAGTGTAAGAGGACCCACATTTCTAATTACATAAGGCAATTATTTCTTAGCTTTCCTATGTAATTTGTAAGTGTTTTTCTTGTTATTTTCCATGGTGAACATGTGTGTCTCTGCATAAATTTTAGGCACATTGGGAGGTGAAGAAAGATGTTGATGATGAATCAAATAATTGCTGCATCTTGAGAGTATATGTGAATGTGGCATTTTCAAAAAGAACGGTTTGGAAAGGTATATCTTTATGTATGAACATTGCCTTGGAATCATAGATCTCGAACTAAAAAAGAAGATTATAGTGCTTTGTGTTGGGAATTTACGCCAGATATAAATAAACGTGGAACAAACCAAATTATTTCTCAAACTTCCACTTCACATGTTAGAGCCAAATAAGGAGTGGATCATACAATTGTAAATGATGAGTGGAACTTGACCTCTAACTAGTTTCCTTCATTTTGGCCCCATGATCCCCACAACCTGGCCCAACTCGAGGATGGGGTTCTTGAGAAGGGTGGAATTATGTAGTAGAATTACGGCAAATTAGGGTATGTTGGTCAAATTCTTAATCAATTAGAATCAGAATCAATTTTCTTTTAATTCTCTATAAATAGAGAGATTGTCTTCTACTATTGATAACTTTTGATTCATAATAAAGATTTTAATTTTATTATAAGAGCTTTCTCTCCTTTTATCCCTTAGGCTACATCACTCTGCCCCTAGTTCAACTATAAAAGGCCATGCTTCAACTTCTAAAAGGTATCTCCCTTCTCCTCGCTCCACCCTGTCTCATCGGCCCTATAATCCATGTCAAAGAGGAAACAACGAAGAAAATTGAGAAGATGATCTTGGAAGTTACTCTAACGAAATAAATATGGGACTTAATAAAATTTAGGCTGTTTCTATCTTTCTGATGATGAGGTTTTTGTGGTGCTTATTGGAGGAAGATTTACAGAAAGAAGAGTTTGATTTGCCTTTTCGATCACCACATGTTTCGAATCTGGTATCAGATTATGCCAGAATTGGAACACACAGAGATTTTGAGCTAGGTCAAAGGAGGAACTGGGTCCAAGTGCAGTCTCTCGGTGACAAAACTGCTGTTCACTGCCATGCTATAGTGGAGCTTTGTTTTAGATCTAGAGATGCCATTCTTGATAACTATCTTTGGCTAGATTTGATTTCCTTACTCGGTCAAGATTTAGAACATTGGAAAATGGGCGTTCTTCAGGGTGGGGTTAAGAAAGAGAGGTAATTCATCTGATTGGTATTGTGAAGTTGGGAGGTGCTAGATCTGGAAATGGCAGAAAGGGTTCATCAAAGAGGAGTGATGGCAGTATCGTTTGGGAGAAGAGAGAGATGAGAGAAAAATAAGTTTTTTTTGTTAGCAACTTAATTGACATAAAATCAATAAATTGATGTCGAATCAACCTAATCATAATCATAATCACAATCAACACTCGATAACATAAAATTGACAGGAAAGGCCAAAAGTGTTGACAGACTTTTGAGTTTGAAAACCTAGAGAATGAAATGCAATCCAAGTAAAATCTCAAGGATCAAAACTATATTTTTCCTCCTAATTTGTGATTTGCATCATATGGTGATTAGGTCATTTTATTTTCTAGATAAGTAGTTAGACCTATGTATTGTTGCAAACTAAATCTCAGGAAAAATGGAAAAAATTAGTAAAAGATATGGAATGCTAAAGTACTATATAGGCCTGAAAGTTCTCGATAACAAAAAGAGAAAACACATACTATTAGAGCCTCAGAGGCGAGGGTAAAAATTCAGTGTGGAAATTTTGGATAATTCAGATTTGACCTTTTGTCTTTCTCGTTCATATTTATATTCAAGACAGTTAAGGTTCTTTATTATTGAGATAGTTGAAATATAGCTAATTTTGTAATAATGTGATGCCATTTTGATTATTAAAGAACTTTGGAGTTGAATAACTTAAGGGAAAAAGGAACTGAAGAATTGGATACTAAAGACTAGGAGAGTTCTTGATCTCTTTGAAGCTGAAGGAGTAAAAATTAAAGAGAGAAATCTCAGCACGTCTGATTAAAGAAACTATCTTTCTTTTTGGGACATGAGTTTGATGTCCTAACGGCAGTCATTGTTTATGTGGTATTGCAGTCAATGACAGCAGATATAAAAAGGTTTTGAAGCAGCTAACCATTCTTGTGTATATAATTGTTTTTTGTTTAAAAGAAAACATGCTAACTGTTAGTTTTCTTTTAATTTTTATTATAAATCTTAGCATTCCAATTCCTGTTTGTCTTCTTATCAATGGAGCATATAGTAATTTCTTATTTGAGTGAACGGTTTTCAGAATATGATTCCAAATAAGTGTGGAGTTTTGTGGATTGTCATGCACAGGGAAAATAGTGCAGTCTACTCTTGAAGAATGCCGAGAGGCTTATGGACTGTGGATTCAGATGGTATCCTCTTTTCCTTAACAAATTTGGCAAGTATTAATCAAAGTTAAAGTGCTTTCTGATGAAATTTTTTCAGGCAAAGGAATTATTGAAGCAGAAACTTACAGGTTCTGAAGGTCCGAATGTTATATAATTTTACCTTTCATCTAAACACGATGTTGTGTTCAAACAAGCAATTTGATGACCTCAAACTTTTTGGTTATTGATTTACCATACAGAGGGAACACGTGGTAGTGCATCACAGAGTGGTGAAGATCATCATATTGAAAAAGAAAGAAATAATAACAAATCATTGGAAATGTCAAATGAGAAGAATGACGAAAGAAGATCAACTGAATCACAATATTCCACCGACGTTGATCAACAAGCCAAAAACTCTATCCAAGGAGTCAATTCTACTTCCGCTGCTTCTTGGTTAAGAGAATACACGAAGAAGCTTTGGATTGTTTTACGGAGTCAAAATTATCTTCCTCTTGCCCTAGTTATCACTTTTGCTGTGATTTTTCTAATGCAGGTATGCTTATTTCTTTTACTAATCTGCCATGTAGTCGAAGTTAGTACACCCAAATGCTCATCTATCCGTGAATTTGCATCATTGTGGCTTGCTTGAATCATGTTAGTTAGCCCATGAATACGATTTCCAATATGAGATCTTTCAGGCACTTGGCTCCTATTTTATTATTTTTTATTGTCTAATTTTACAACAAATCTTTGATGGTTTCTCTGCATGCACCCTATAGATATATTCTTTTCTTCTCTTTTCTTTTCGGTCTCTCTCTTACACAGATTTTTGTTATGCTACTGCCATAAATGAATTCAATTATATTACTCAATTTACTTGCTGAAACCCCGTGCTGGCCTCTGGTAAGAAATAAAATGCCAAACTCAATCGACTCTGGCCTTCTCAGTTATCAGCATCTCTTTCCCCTTCCAATTCGATTCAATTCTTATTTATCATTAGTCAATCTTGCGTTCTTCATCCAACTGGATGGACAGATTTGAGCCTCCTCTTTGCCTCTAAATCTATTACTTACGTTTTTTTTTTTATGGTTATTAGATTTATCATTCATATTTTACTTGAATTTCATATCTAATACTTATGGTCTATGATAGAAGCTACTTTATCCATTTATGCAACCTATTGGTAGTCTAAAACTTATAAATAATGTCATATGGAGGCAGTTGAGCATGTTTGATGTCCAACTTTCATGCCAACTTAGTCTGTTTGAGTCAAACGTATATGAGATGATATGTTCACCCATATTGGGATAATAATCCTCACCCATATTGGGATAATAACCTATAAGGTAAGATGATAATGAGTCATAGTTATGTTGGGACGGGCAGGCATTATAATGTTTTTACTTTTTAACTGATTTGGCCTGAGAAAATGCGAATTTCTCCAAATTTGAGCAAGCAAGGCATAACTGTTTTTTGGTTGGCCTGAATGAATTAAGATTGCTCAGCCTAGTTGGGTGGCAGGATATGTTCTGTTCCCCCTTGTTAAGGTGTGCGATTTTCATCTCTCAAACATTTTGTTCTAGGAATAGAGGGCTCATCTCCTTAGGTATCTACTTCCATCATTGTCCTTTGCAGTCTGCACACAATTTGAAGCCTTTAGAGGTGAGTATCTGCAATGGCCAGAGGAAAAATGTACAAGGGAAAAGGTAGGTACCAAATTGATAGGAACACAGTTTTGTCGAGTTTATTTTCAGGAATGGTAAGCAAATCTCAATACTGACACAGTAGGAAGGTTTTGGAAATCTCATTTTGAAGTCTTCAAAGGCCCGGAAGATCCTATTGCATATCTTCATCCATATTAGATCAGGATATCTTCTCTCTTGTAGTTTAATTCAAATTCCTGAAGTTGCAGTAAATTTTCAATTATTTGAATGCACTATGAAATATTTAATACTTAAATTATTAATTGATAAGAACACTATTCAAGTTAGATATGATGTTGAAGAAATGTTGAAAGGAATTTACTTCTTGCTTGCATGTGTATTGATTAGTGAATATCATATTAGCAATTGGTGGTTTCGATACATAATCTACCTTATTTTTGTAACGTTGAGGTAGCTGGTTGTCTACCACTAGATTGTATCTTATGGTCCTTTCCTCAGTTTGTTTACCCCTCCGTTCTAGTTTACAGACCATTTGATTTTTTTCCCAGAACTGGACATGGAGTAATTGACGGATAATTATGTTGTTTCTAATTGCAGTTGAGTATAGTTATGTTATTATCCAGACCCCAACACATCCATGTGAGTTCTCCCGACTATGGAAGGGGTCTAAAATTCAGTGGTGGGAGATCTTCTGATGCTACGGCATGGTTGGAAAAGCGAATGCACCACCTTAAGGATGAGATGTACATGGTTGAGGCTCGGCTAGAGATGATGCGACGTGAGCATGCCCAATTGAAAGCACAACTAAGAGAGCTTGAGGAATTAAGTTAAAAGGTTTTCTTTTTTATTATTATTATTTTCAATTTCTCATTGAGATTAATTCATATACGATTCATCTATGGAAAACATCATCGATTAGTATGATTGTTTCAATGATTGGAAATTATGTAACTAAGGAGGGGAAGGAAAGCAAGACCTGTAACATGTGGATCGAAATAATTATTGGTTGATGAATCATGGCAAAGTTTGATTAGGTGATACAAGATGAGATGTTCTCCCAAATCTGAGTTTTCTACCAAGTCTTCAGCAGGAATCCTCTACAGATATTATATTTAGATGTTCCTGCATTATTGTTGACTTAGATCTACAAATTAAAATGACAGAGAAATAAGAGTTGATTTTTTTTTAGTCTCAACTGTCTATGAATGAGCTCATTTGATGGAGCCTTTATCCCTAAAAGAAGCTTTGCAGTCCGTAATATGGAAA ATTTTGGTAGGCAGGTTATTTACCCCCACTCCACCACCACATAAGCTATATCTGTTTTTGAAAGAACACTTGTGTATATTGAGTCAGATTCTTCTCTAAGATATTATCTTAGTACAAGTTTATTTTGATAATAAATGCTGTATTTCTAGGTCCTTATTGAAGACTTCAATTGCGCTTTCCAAGAAAACATACTAATTCAGGGCCACATGTATCTGTTCGTGCACTATATCTGCTTTTACTCCAACATCTTTGGGTTTGAGACAAAGAAAATAATCCCATTTCGAGAAATAACAGCTGTACGTAAAGCAAAAACGGCAGGGATCTTCCCTAATGCCATCGAAATTTGTGTTGGGGAGAAAAAGTATTTCTTTGCATCTTTTCTATCTCGTGATGAGGCCTTTAATCTCATTAATGATGGCTGGTTGCAACATGCTAAAGGTACCGAAGCAATTATGAAAAAGCAGAAATCAATAAATGAATCTAGCAGACAAGAAATTGGCATCCTTGGTGTCGAAAAGGCCAAGGAGCTGGATCCTTCAGATTCTTCTGACAGGAGTATGGATACTCCTATTCTTAATGTTTCGGTGGTTCAAGCCAATGTTGAAGAGGTAAATGTGCCAACCACGCTACCACCAGAACCTATCGTTGCCACTCAGGAAGCAGAGCCAATTCTTGATATTCATGCTTCAACTTCAAGAGAGACATTAATGTGGAAGCCGGAAGACACAGATGCTCCCAACGTACCGGATTATTATACCCAAGTTGCAGAATCAAAGTTTCCGATAAACGTGGAAGATTTCTTTAGTTTCTATTTTTCCGACAGTGCAGTTGATTTTGTTTCTTCATATCATGAAAAATGTGGAGATAAAGAGCTTAAATGTTCTCTGTGGCGTCACGATGACATGTTTGGGCATACCCGTGATGTATCATTTCAGCATCCGATAAAAATATATTTTGGTGCAAAGTTTGGTGGCTGCCTGGAGACTCAGAAATTTCGAGTTTATCGAGACAGTCATTTGGTCATCGAGGTAACCCAAGAAGTCAGTGAGGTTCCATATTCAGATTATTTCCGTGTTGAGGCACATTGGGAGGTGAAGAAAGATGTTGATGATGAATCAAATAATTGCTGCATCTTGAGAGTATATGTGAATGTGGCATTTTCAAAAAGAACGGTTTGGAAAGGGAAAATAGTGCAGTCTACTCTTGAAGAATGCCGAGAGGCTTATGGACTGTGGATTCAGATGGCAAAGGAATTATTGAAGCAGAAACTTACAGGTTCTGAAGAGGGAACACGTGGTAGTGCATCACAGAGTGGTGAAGATCATCATATTGAAAAAGAAAGAAATAATAACAAATCATTGGAAATGTCAAATGAGAAGAATGACGAAAGAAGATCAACTGAATCACAATATTCCACCGACGTTGATCAACAAGCCAAAAACTCTATCCAAGGAGTCAATTCTACTTCCGCTGCTTCTTGGTTAAGAGAATACACGAAGAAGCTTTGGATTGTTTTACGGAGTCAAAATTATCTTCCTCTTGCCCTAGTTATCACTTTTGCTGTGATTTTTCTAATGCAGTTGAGTATAGTTATGTTATTATCCAGACCCCAACACATCCATGTGAGTTCTCCCGACTATGGAAGGGGTCTAAAATTCAGTGGTGGGAGATCTTCTGATGCTACGGCATGGTTGGAAAAGCGAATGCACCACCTTAAGGATGAGATGTACATGGTTGAGGCTCGGCTAGAGATGATGCGACGTGAGCATGCCCAATTGAAAGCACAACTAAGAGAGCTTGAGGAATTAAGTTAAAAGGTTTTCTTTTTTATTATTATTATTTTCAATTTCTCATTGAGATTAATTCATATACGATTCATCTATGGAAAACATCATCGATTAGTATGATTGTTTCAATGATTGGAAATTATGTAACTAAGGAGGGGAAGGAAAGCAAGACCTGTAACATGTGGATCGAAATAATTATTGGTTGATGAATCATGGCAAAGTTTGATTAGGTGATACAAGATGAGATGTTCTCCCAAATCTGAGTTTTCTACCAAGTCTTCAGCAGGAATCCTCTACAGATATTATATTTAGATGTTCCTGCATTATTGTTGACTTAGATCTACAAATTAAAATGACAGAGAAATAAGAGTTGATTTTTTTTTAGTCTCAACTGTCTATGAATGAGCTCATTTGATGGAGCCTTTATCCCTAAAAGAAGCTTTGCAGTCCGTAATATGGAAA ATGTATCTGTTCGTGCACTATATCTGCTTTTACTCCAACATCTTTGGGTTTGAGACAAAGAAAATAATCCCATTTCGAGAAATAACAGCTGTACGTAAAGCAAAAACGGCAGGGATCTTCCCTAATGCCATCGAAATTTGTGTTGGGGAGAAAAAGTATTTCTTTGCATCTTTTCTATCTCGTGATGAGGCCTTTAATCTCATTAATGATGGCTGGTTGCAACATGCTAAAGGTACCGAAGCAATTATGAAAAAGCAGAAATCAATAAATGAATCTAGCAGACAAGAAATTGGCATCCTTGGTGTCGAAAAGGCCAAGGAGCTGGATCCTTCAGATTCTTCTGACAGGAGTATGGATACTCCTATTCTTAATGTTTCGGTGGTTCAAGCCAATGTTGAAGAGGTAAATGTGCCAACCACGCTACCACCAGAACCTATCGTTGCCACTCAGGAAGCAGAGCCAATTCTTGATATTCATGCTTCAACTTCAAGAGAGACATTAATGTGGAAGCCGGAAGACACAGATGCTCCCAACGTACCGGATTATTATACCCAAGTTGCAGAATCAAAGTTTCCGATAAACGTGGAAGATTTCTTTAGTTTCTATTTTTCCGACAGTGCAGTTGATTTTGTTTCTTCATATCATGAAAAATGTGGAGATAAAGAGCTTAAATGTTCTCTGTGGCGTCACGATGACATGTTTGGGCATACCCGTGATGTATCATTTCAGCATCCGATAAAAATATATTTTGGTGCAAAGTTTGGTGGCTGCCTGGAGACTCAGAAATTTCGAGTTTATCGAGACAGTCATTTGGTCATCGAGGTAACCCAAGAAGTCAGTGAGGTTCCATATTCAGATTATTTCCGTGTTGAGGCACATTGGGAGGTGAAGAAAGATGTTGATGATGAATCAAATAATTGCTGCATCTTGAGAGTATATGTGAATGTGGCATTTTCAAAAAGAACGGTTTGGAAAGGGAAAATAGTGCAGTCTACTCTTGAAGAATGCCGAGAGGCTTATGGACTGTGGATTCAGATGGCAAAGGAATTATTGAAGCAGAAACTTACAGGTTCTGAAGAGGGAACACGTGGTAGTGCATCACAGAGTGGTGAAGATCATCATATTGAAAAAGAAAGAAATAATAACAAATCATTGGAAATGTCAAATGAGAAGAATGACGAAAGAAGATCAACTGAATCACAATATTCCACCGACGTTGATCAACAAGCCAAAAACTCTATCCAAGGAGTCAATTCTACTTCCGCTGCTTCTTGGTTAAGAGAATACACGAAGAAGCTTTGGATTGTTTTACGGAGTCAAAATTATCTTCCTCTTGCCCTAGTTATCACTTTTGCTGTGATTTTTCTAATGCAGTTGAGTATAGTTATGTTATTATCCAGACCCCAACACATCCATGTGAGTTCTCCCGACTATGGAAGGGGTCTAAAATTCAGTGGTGGGAGATCTTCTGATGCTACGGCATGGTTGGAAAAGCGAATGCACCACCTTAAGGATGAGATGTACATGGTTGAGGCTCGGCTAGAGATGATGCGACGTGAGCATGCCCAATTGAAAGCACAACTAAGAGAGCTTGAGGAATTAAGTTAA MYLFVHYICFYSNIFGFETKKIIPFREITAVRKAKTAGIFPNAIEICVGEKKYFFASFLSRDEAFNLINDGWLQHAKGTEAIMKKQKSINESSRQEIGILGVEKAKELDPSDSSDRSMDTPILNVSVVQANVEEVNVPTTLPPEPIVATQEAEPILDIHASTSRETLMWKPEDTDAPNVPDYYTQVAESKFPINVEDFFSFYFSDSAVDFVSSYHEKCGDKELKCSLWRHDDMFGHTRDVSFQHPIKIYFGAKFGGCLETQKFRVYRDSHLVIEVTQEVSEVPYSDYFRVEAHWEVKKDVDDESNNCCILRVYVNVAFSKRTVWKGKIVQSTLEECREAYGLWIQMAKELLKQKLTGSEEGTRGSASQSGEDHHIEKERNNNKSLEMSNEKNDERRSTESQYSTDVDQQAKNSIQGVNSTSAASWLREYTKKLWIVLRSQNYLPLALVITFAVIFLMQLSIVMLLSRPQHIHVSSPDYGRGLKFSGGRSSDATAWLEKRMHHLKDEMYMVEARLEMMRREHAQLKAQLRELEELS*
BLAST of Cucsa.260010 vs. Swiss-Prot
Match: VAD1_ARATH (Protein VASCULAR ASSOCIATED DEATH 1, chloroplastic OS=Arabidopsis thaliana GN=VAD1 PE=1 SV=1) HSP 1 Score: 545.4 bits (1404), Expect = 8.2e-154 Identity = 305/639 (47.73%), Postives = 407/639 (63.69%), Query Frame = 1
BLAST of Cucsa.260010 vs. Swiss-Prot
Match: YSP2_YEAST (Membrane-anchored lipid-binding protein YSP2 OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=YSP2 PE=1 SV=1) HSP 1 Score: 117.1 bits (292), Expect = 7.2e-25 Identity = 117/454 (25.77%), Postives = 196/454 (43.17%), Query Frame = 1
BLAST of Cucsa.260010 vs. Swiss-Prot
Match: GRM1A_RAT (GRAM domain-containing protein 1A OS=Rattus norvegicus GN=Gramd1a PE=2 SV=2) HSP 1 Score: 108.6 bits (270), Expect = 2.5e-22 Identity = 54/107 (50.47%), Postives = 75/107 (70.09%), Query Frame = 1
BLAST of Cucsa.260010 vs. Swiss-Prot
Match: GRM1A_MOUSE (GRAM domain-containing protein 1A OS=Mus musculus GN=Gramd1a PE=1 SV=2) HSP 1 Score: 108.6 bits (270), Expect = 2.5e-22 Identity = 54/107 (50.47%), Postives = 75/107 (70.09%), Query Frame = 1
BLAST of Cucsa.260010 vs. Swiss-Prot
Match: GRM1A_HUMAN (GRAM domain-containing protein 1A OS=Homo sapiens GN=GRAMD1A PE=1 SV=2) HSP 1 Score: 108.6 bits (270), Expect = 2.5e-22 Identity = 54/107 (50.47%), Postives = 75/107 (70.09%), Query Frame = 1
BLAST of Cucsa.260010 vs. TrEMBL
Match: A0A0A0L3J6_CUCSA (Uncharacterized protein OS=Cucumis sativus GN=Csa_3G116750 PE=4 SV=1) HSP 1 Score: 1280.0 bits (3311), Expect = 0.0e+00 Identity = 639/640 (99.84%), Postives = 639/640 (99.84%), Query Frame = 1
BLAST of Cucsa.260010 vs. TrEMBL
Match: A0A061E2G1_THECC (GRAM domain family protein, putative isoform 1 OS=Theobroma cacao GN=TCM_005713 PE=4 SV=1) HSP 1 Score: 670.2 bits (1728), Expect = 2.4e-189 Identity = 362/649 (55.78%), Postives = 456/649 (70.26%), Query Frame = 1
BLAST of Cucsa.260010 vs. TrEMBL
Match: A0A061DUJ5_THECC (GRAM domain family protein, putative isoform 2 OS=Theobroma cacao GN=TCM_005713 PE=4 SV=1) HSP 1 Score: 664.5 bits (1713), Expect = 1.3e-187 Identity = 362/653 (55.44%), Postives = 456/653 (69.83%), Query Frame = 1
BLAST of Cucsa.260010 vs. TrEMBL
Match: D7SLY9_VITVI (Putative uncharacterized protein OS=Vitis vinifera GN=VIT_15s0021g01530 PE=4 SV=1) HSP 1 Score: 651.7 bits (1680), Expect = 9.0e-184 Identity = 344/642 (53.58%), Postives = 451/642 (70.25%), Query Frame = 1
BLAST of Cucsa.260010 vs. TrEMBL
Match: A0A0D2QYY0_GOSRA (Uncharacterized protein OS=Gossypium raimondii GN=B456_004G166100 PE=4 SV=1) HSP 1 Score: 644.0 bits (1660), Expect = 1.9e-181 Identity = 344/648 (53.09%), Postives = 444/648 (68.52%), Query Frame = 1
BLAST of Cucsa.260010 vs. TAIR10
Match: AT1G02120.1 (AT1G02120.1 GRAM domain family protein) HSP 1 Score: 545.4 bits (1404), Expect = 4.6e-155 Identity = 305/639 (47.73%), Postives = 407/639 (63.69%), Query Frame = 1
BLAST of Cucsa.260010 vs. TAIR10
Match: AT1G03370.1 (AT1G03370.1 C2 calcium/lipid-binding and GRAM domain containing protein) HSP 1 Score: 50.1 bits (118), Expect = 6.1e-06 Identity = 38/147 (25.85%), Postives = 69/147 (46.94%), Query Frame = 1
BLAST of Cucsa.260010 vs. NCBI nr
Match: gi|778676602|ref|XP_011650619.1| (PREDICTED: protein VASCULAR ASSOCIATED DEATH 1, chloroplastic isoform X3 [Cucumis sativus]) HSP 1 Score: 1280.0 bits (3311), Expect = 0.0e+00 Identity = 639/640 (99.84%), Postives = 639/640 (99.84%), Query Frame = 1
BLAST of Cucsa.260010 vs. NCBI nr
Match: gi|778676598|ref|XP_011650617.1| (PREDICTED: protein VASCULAR ASSOCIATED DEATH 1, chloroplastic isoform X1 [Cucumis sativus]) HSP 1 Score: 1273.5 bits (3294), Expect = 0.0e+00 Identity = 638/643 (99.22%), Postives = 639/643 (99.38%), Query Frame = 1
BLAST of Cucsa.260010 vs. NCBI nr
Match: gi|778676600|ref|XP_011650618.1| (PREDICTED: protein VASCULAR ASSOCIATED DEATH 1, chloroplastic isoform X2 [Cucumis sativus]) HSP 1 Score: 1266.9 bits (3277), Expect = 0.0e+00 Identity = 637/643 (99.07%), Postives = 638/643 (99.22%), Query Frame = 1
BLAST of Cucsa.260010 vs. NCBI nr
Match: gi|778676604|ref|XP_011650620.1| (PREDICTED: protein VASCULAR ASSOCIATED DEATH 1, chloroplastic isoform X4 [Cucumis sativus]) HSP 1 Score: 1229.2 bits (3179), Expect = 0.0e+00 Identity = 621/643 (96.58%), Postives = 622/643 (96.73%), Query Frame = 1
BLAST of Cucsa.260010 vs. NCBI nr
Match: gi|659074733|ref|XP_008437767.1| (PREDICTED: GRAM domain-containing protein 1A isoform X3 [Cucumis melo]) HSP 1 Score: 1066.6 bits (2757), Expect = 1.7e-308 Identity = 533/561 (95.01%), Postives = 539/561 (96.08%), Query Frame = 1
The following BLAST results are available for this feature:
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 (Gy14)
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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