Cucsa.123530 (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.GTTAGACATTGCTGACCAAAAATCCTCACCCTCCCCGTTCCCGCGCCGATGACGCTGCCGGAGAGTGTATCGCTGCATTATTTTCAACTAATTTCTTCAACGCATGCCTCTGTTTCTTCCTCCACCTTCTTATGTCCTTCAAGACCTTTGATGAATTGTAAAATTGTGATGACTCGGAAGATGTCATTCAGAAATGGAGGTGCTCTGAGGTTATGCTGCTCGGATTCAAATCATTCTGCTCCTTTGACTTCCACAACTGCGGCAGCCACGGGCGGCCCTGCTCCTCCAGTTCTGAAGAGGAGGAAGAGGTACAGGAGAGAGTATCCTGGCGAGAGCAAAGGCATTACTGAGGAGTTGAGGTTTGTCGCCATGAGACTTCTTAATGTTAACGGTAAAAAGTTGTCTGGTGATGCTGTGGATTCATCCAGCGAAGATGAAGTAGGGGAGAAAGGTGATGGAGATTTGGCGTTGAGTGACGATGACAATGATGAGAACGGGGATGGAACACAGACTTGGGACCCGAGTTTGGAAGGATTCCTTAAATATTTGGTTGATAGTAAGCTCGTCTTCAGCACCGTGGAGCGAATCGTTGATGAATCCAGCGACGTTGCTTGTAAGTTTCCTCTCACCATTTTCTCTTCCAGATTGCTTATATTTCGTTTATGCTTAGACGAGAGGATGCATGATAATGTTGGGGACTAATACTGGTTTCTGCGACCGTAGAGATTTGACTGTTGGTACTATTTTTATCCTTCCTACTTATGGCAAAAGTGAACCTCGATGCATGTCTTTTTACTTATTTTAAAGATCAGTGTCTTTCCTATGCATGCTTTTGTGCTTGAAGATGTACGCACTCATATTTTAAAATTTTAGGGTTCTCAATTAAGTTCTTGTGTAAGGATTTTCAAGATAGTGACAACTCCCTTGCCTCTGGTTGCTTGTTATTCCTCTTTGAATCTTTCTAATATCTCCTGTTACTGGCAGCAGGATATCCTCTCTAATGCTCCCTAGATATCTCTATGGCTCTTTGACAACTTTCAACAAGGAGCCCCAAATCAGCTAAAAACTTAATTACAAATGGCTTAAAAAATGAATGGAAATGAAAACACCCAGAAAAGGTAACAAGTCGAGCTGCTTCAAGCTTGATTGAAAAATACTTCGTGTGCCCTGGAAGACTTGCTGAAATCTTCCACCTCACTAAAAAAAGCTGCACGTGCACTATTGAAAAAGCCCATTCAAGCTCCAATTCTTCGAACAGAATTCTGAAAGGAAGAAAGAAATACAAAGGAAAAGGCCAAACATGAAATCTCTCACTTTACGAAAAACCATTATCTTGCTTCAACAATCCTTCCCATATGGCCTGGGAATCACCGGATTCCCATTCAATTTTTGAGATTAAATGTCTGAGGAACCAAAAATCATATCTACTTTCAGTGCTCAAGCCAAAACTAACCCACATTTCTCAACAAAGGACTTCAAATGATCTGGAATATCACATTGATGAGCTTGTGAGGGACTTCCAGTGGCCTGTTTCTCAAAAATTAAATCTCCCTTAGTCTGGAACAGAGAATTTAGATCAATCTCTAAAGGGTCCTTCAACAGTTGATCTTCCTTCTCATCTAATCTTATCAAATCACTTTCCTCACAGCTCACACTAAATGGAAAGTCAAAATATGAAACAAGCTTCTTTTTTTATGAGGGGACCGGAGTTTGGCTAGGAGAACCTCTCAAGAATTTTACCTTTGAATTAGGTATAGAAAAAATAGAGTATTTAAAATGTGGATGGATCGTGCTTTGAAGAACTGACCTGTTTGGAAAAGAATGGGCTTGAAGATGGGCACAATTTGATTCTAAAAGATCAGGATTTTGATCTGAAATCAACTTTGCCATTGTAAATCTCTTTTTGAGAGACCTCCTTCAACCTCTTTCTTCTAACAAAGTGTTTTGGGAATGGTTTAAAGAGGTTCGGGAAAGGCTTTGATTTTGAATGTGATTCTCAGGGTTGTTTGAATGGTTCTATATAAAAAAAAAGTAATTTGATGATGTGCACTCTTGGCTAGTATTTTTAAAAACTAACCAACTTGGTATAAAGTTTTTGATTTATTAAGAAATGGAAAAGCATGTTTACTGTTGACTGACGATTGGTTTCAGTTCATTTTTATTTTCAAAAGGCTGAAATCATGTATTTTGATTGCAGATAGTTACTTCAGAAAATCAGGGATGGAACGTTCAGAAGGTCTTGCAAAGGATCTAGAATGGTTTCGCGAACAGGGTATTGTGATACCTGAGCCTACCATTCCAGGAGTTTCTTATGCCAAGTATCTGGAGGAACTTGCTGAGAGGAGTGCCCCTTTATTCCTTTGCCATTACTACAATATATACTTTTCACATATAGCAGGTGGGCAAGTGATAGCTAAACGGGTATGTGTGAAGCCTTCTGACGTTTTTGCATTCACAATCTGATGCTACTGGGATCTGAGTTAAAAAAGAAACCTTTATTCTATAAGCTCTTCTACTAGAACTTATTATACGAAGATGATTAGTAGGCTAGTAGCCTTTCTTCATGGAAAGAAGCTGCCTCTGCCTGTGATTTTATATTTGAGTCACGAGTTATAAACCAACCTTTGGGCATTGCTTATATAAATAAGTAGTGTTTGATGACTTGTCGCCTCCTTCATGCAAAAAACGCCCGACAAGAATTGATTGTTTATCCTAAAAATTATTGTTACTTAAGAACTTACATGTATTTATATTGCTTGTTAGCTGATAAAAATTTATCATGATTATAATCTTTTCCCAAAGGTTTCTGAGAGACTTCTTGAAGGAAGAGAGCTTGAATTTTATACATGGGCTGGGGATGCAGAAGAATTGCTGAAAAATGTTCGTGAGAAGCTTAACATGCTTGGAGAGGTTGATTTCGTGGAATATTTAGTAAATTGGTTTTAGTTAATACTGTTTTTTTTAGATCTTGCTTTACCATTTTGTAATCCTATGTTGCTATGTGGGTGCTAATGCAGCACTGGTCTCGGGATGACAGAAATAAATGCTTGAGAGAAGCAACCAAGACATTCCGCTTTTTGGGACAGATAGTTCGTTTGATCATCTCATGACTGGCTGTTTTAAATGCTACAACTGTGAAGGTGTTCCTGGTAATGCAACAATCTTGTTTATGCTTCTCTTTATACCTTTGCTTCATTCATAAGTCAATTTCCTTTGCCTTACATTCTCAGTAGGCACAAGACCAGAATGCCTAGGAGCCAACAAATTTGTAAAGGCACATGTTTATTCACACGAGCCAAACATATTATAACTTTACAACCTCAAGAAAATACATAAATGTTTGATGTACTTTAAAACATCAAACTTAGATCATGTTCCCATTTTTTCCTTGTCCTTTTATGTCATCCATCTATTTCTCCTTTCTCTTTCAATTGTTGCTGCATGCTATCATCCTTTCTATTCATTGTTCCTCTTCCTCATCATTGCACCTGCAGACTTCCTCTTTCCACCGTGAGATTCATTAGGTCCACTGTCTAGATAGATTCCTGCCAACATGCAGACACATTCATAGTAATAGTTCAAAATTCTGGATGGCCGAATATATGAAAAGGGTAATTGAAAGTAGTGATTATTCCTTAATCATTTAGAACTTAGTTGCAGCCTCAGGTAAAAGAAAAGATGGATATTTTTAATTCTTGAAATCTCTTTAAACAAGAAAGGGGTAAAATTAGACCAAGAGCGGGGGTAGAGGAAATCTCTTCCCCTCCCACAAAACTACATCTAAACAACTTTCGGATGGTTAGTGTTAAACTTGATAGTATGGAGTTCNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNTCTTTGGGTTCACCTATCTTAGATTGAATACCCGTTTAGGCGATTGGCTTACTGGGCTCTAATATCATGTCAAATTTAATAGTATGGGGGTCCATCTCAAAATCAATTGGCAATTAGAGGAGTAGCTCATCTATCTTATATAGAGTATATGTCTCCTTGGTTTTTCCAATGTGAGACTCTCAACTTCTCCAACAAGTGTTTGTGATATATGATTAAATTTTCCTTCAACCACCAACTTAAGCTTTTGAGTGAATTGACGATTTAATATGGTATCAGCGCAGGTGGTTCATGGAGGTCCTGTGTTCAAACCCCTGCATTATCGTTTCCTCCCCAATTAAAATCGATTCCCCACATAGAAAAAATCAAAGAGATTCATACTCTATATAAGATATGGACTACTCCTCCCATTGCTAATTGGTTTTGAGATGGAGCCCCCTACTATCAAATTTAACATGGTATCATAGTCCAGTAAGCTCAAACGGTTATTTGGTCCAAGATAGATGAATCCGAAGAGGCACCATCTTGAAGGGGCATGTTGGGGAAGTTGAGAGTCTCACATTAAAAAAACCAAAAATCTCATACCCATATAAGATAGATGAGCTACTCCTCTAATTGCCAAATGGTTTTGGTATGGAATCCCATACTATCAAGTTTAACATGGTATCAGAGCAGGTGGTTTAGGGAGGTCCTGTGTTCAAGCCACTACATTATCGTTTCCTCTCCAATTAAAATCGATTCCACTTGTTGGGCCTTTCAAATATTTCAAGCCCACAAAGATTGATGTGCTTGATAAATATTAAATATATATCTTTTTCACTTCCGCCCTTTCACAAAAACTGACTGTTCTTATATTGATAAAAGAGGCTGTATTGACTTTTATAATTATGTATAAAATAGTAAGATCAATGACAAAGGAAGAGGAAACAATTTGAAAGTTCGTCGATTTTTCTATTTCAAGTTATGGAAAGATTGGACATGAATGAATGACGAGGCAAACTTTCGCAATAAAACATGTTATGAAGATACTACGTTGCAGTCTTCACAATTACTTCTAGGGGAGCTTGTAAAAAATTTTATGATAATAGGGCCTATGTCATTACATTTTCTAAATTGTAACAGTAGTAAAATTAAAAGCCGATAACCCTTTGATAGCTCTCTGATAACCCTTTGATGGCTCTCTAATAGGCTTATGATAGTCGTCTGATATCACTAATTACTTGCATATTTGTCATATTTGCAATATTCACAATATGTAAAAAAGAGGTGTCATGGGCTGTTATTTTCTAAATATTTCTCTTACTTCTATCCAAAGAGGCTTGTAGTAAATTCGATAACCAACTAGGATGTAGGGTACATTTTACATTTTTTTCCTTTCGTAGAACTTAAGATTGTCTCCAAGATTAGTTGCCTTAGAGTGAGTAAACTACAATCGCTACATATATTTTTAATAAAACATACTTATTATACTGTATAAACTAGTGTAATGATAAAGACTTAAAGAATGAAAAGAATCTGATTAATATATGTGTAAAAACTATCTCTAAATAAACAATATTACAGTCTACAAAATCAAATGCATATTCAACCTCCATTACGGTTAGAAAATTCCTTAAAAAAATGCTGCACAAGTTGTGAGTAATTGAAGAGTCGAGGACAAAGAAACGGACCAGTTATTTAATAAGAAAAAATTAGGTGCTTCAACTGAGATTGAGGCACATTTGATTCAATAATCAGAAAAGTTTATATTGTTTTCCTTTTTCCTTTTCTGCATCTAGCATGGCCTCACCCTGATTTTCGGTAGTCTCTAAATTTTGATATATGAACGAAGATATATCTTAACATAGGACCAGTCTCATTTTCGAACTCGTTTTCTTTGAAGTTGTGCTGCTACGTGTAAAGTTTCTGGAGGACTAATACTAACAGGTGAGATATCTCCCAAGTCTATCACTAAATTAGTTCCACATAGTTGATTAACTTACCAAGATTGATACTTTTATTTTTATTTTATGAATCATCGGCCATATGTTGATTGTTGGATATTTTTCCATTCTGTTTTGAACCAATATCTTGTGTCCCGAAACATGCCTAAAATCATGCGCTTAGTATATTCTGTACCATTTAAATTTTGGATGGAATGAGGGAGAGAGAAAGGCACTAAATGTTGTTATGCTGCATGTTGTTTGCTTAGGTAGGGGCTGTTTACTACGATATACGATATTAATGATTAGTTGTTGGTTTCTGTCTACAGTTACAGTTTGGAAAAAATTGAGAACAGAACCAAGCCCTATGAAAAAGCATAGAACAACAGATCTTTAGGAGAGGGTTCCTGTAACATCATTTAAATTGAAATTAGTTTGGTTCCTTTTCGTTGACCTGCGATGCAGGGTTCGTCTTTGTATATATAATCTCCTTTATAAGAAACAAATTTCATTATATGGAATTTACAAAAGAAGGACAAGGAGCCCAAGCAAAGGAGTAATAGAAGATTTCTCCAATTGGTCAAGTGTAGTCAGATCGTAAGAATTGAAAAAATTAGTACATCTGCACCAAGTCATAGCAAGGTAGCCAGTATGATAAAAAAAAAAGTGTCAAAAGATCTCCCCTTTTCATTGAAGAGGCGGTTGTTCCTTTCCTTCCATAATGTTCACAAGAAAGCACGAAGCATGCATGCCAATATAATCTGTCAAACAGAGATTTTCTCACCAAGTGTTCATAAGATTACCTACAATTTAGAAATCTAAGGATGGTAAAGTGTCTACTGGCAGACATGTAGAGCACGGGAACCAGCATTGTTTTTTAGATATCCCATAGCACAGCATGTTCTGCTTTAATAATTTTATGATGGCTGTGAGGTTAGGGGTTGGGGATTCCTATTTACATTGTTCATCTCTGTCAAGTTGTTCAGCTTCTCAGACTAACTTGTCTATTAAGAATCAGATAAAGTGCAACTTAAACTGAAATATGCAGAATTTTAGGTTTTTTTGTGTTAGGTCGGAGTGAAAATTGCATTAATTCCTTATGGATATTCACTGGAATGACAAGTAATTTAGTTTGTTTTCTGAGATGCACGTAGAAGAGTTCCATATAGCTGCAGTTTTTTTTAAAATTATTATTTAAATTTTTATTAATGTTATAACTCACTAGTATAAGATTTATGAGAATTGCTTATGATATTTTTGCCTTGGTAGTTGGTTGTTATGAACTTATTGATAAAAAGAAGGTTGCATAAGTTTTTTAAAAATATAATTTTTTAATGAAATAAACATTTTTCTTATCAGAAGGGGTGCAAGGTTCTATATTTTCATTATTATTATGATCTTTAAATAAACAGTAAAGAGATGAAGATTATCTAAAAATAAAATACCAACATTTTAGTTCAACTTTAATTACTTTTTGACCGTTAGATGATGGCAAAAGTTATTTTGTTTAATATTAATGTTAGATCAACTTTGATTTTAAAACAGCATAAAATATCTATACTTGAAACTCACCAGATCATACGACATCATAATACCTGATGCTAACAAGTAAAAGTATAAACTTCTTATACTATTTTATTAGAATATGTTCCTATTTGAAAATAAACAAGCTTGTATTATCTGAGGGTGAGAGGTTTTAGGTTCAAATCTCTCACCCTCAGCTGATAACCTCAAATCTCTCACCCCTCAGCTGATATATATATATATATATATATCATAATTTTAGCTCTAACAACAATTTGCTGAATAATTGGGAGTTGGACCTTTACTTACCAGCACTGGTCCAAGGTTTGACCCTGGTCCAAGGTTTGACCCCAGAAGATTCGAACATGGAACCCCTAAGATAGTATGAACTAGAGACACCAAACTTGCCAACAGAGCTGTTGGGCCAAATACTCTAGAGCTACTAAATCTAAATCTCTTTAATTTTTTGAGCTTATGAAACTTTTTTTTTATTCTTCATTTGCTTTTTGGAAATAATTATTTGAGCTTATGATACTTTTTTTTTATGAAAGTATTATTCTTCATAAACTGAGTACAAAAGTTTACGTTATTTTTTATTCATTGTGGGAAAATAAGTAAAGAAACCCTTATTTTACTAATTAAGAAAAAAAAATGAATTGCATAATTTTAACAAACTCAATACAAGTTATGCTGCCCTGCTGGGTTTATTAAGCAAATATACGGATGGAGAAATTTTGTTGGACAGAGCTAAAATGTTTCTATATTGGATAGTTTCAATTAATGACAACTCCTCAATAAACAGAGAATGAGCTTCTTATTTTTCCTTTCAATTTTTATTTTGATGCCTTACAACACCATTAATTTAGGTTATCTGATAGCTTCACTATTCACTTCGAACTACAACTTGGAATGTACTGTCATCCATATAACCATCAATTTTAATAGTGCTCTAGTTTTTTTTTCTTTAAAAGAAAAAAAAAACAAGATTCTGCCATATGATCTTAATTTTTGCATCTAATAACATTTCTTTTGATTAATCTTCAAGCATGTTATTATATTAATGACTAACGAAAACCATAGAATTACTGTCAAAACCATTAATGGTATTGTAGAAACTGGTATATGTAGATGAATACGAAAGTTAAACAATTCAATGGCAATATAGGTACATGGATCTACAATCTGAATTTGAATTACACACGATAAGATTTCAAATAATATAGCTTTTTTTTTTCTTCAGGGGTAGCAGTTGACAATGTTCAGAAAATGGCACTCTCTTTCAATCAATCAAAGCTGCAATGAGTCTACAGAGTTGCCCCCATTCAAAGGCTTTGATACTCTGATTGGTAATGAAAAGCAAATCAGCGACTTTTGACAGTGGTGGCTGAAGGTATGGAGTCAGTGACCTTCCCCAACTTGAGGAGCTAACCCCATTATTTTCAACATTCCATCAAATACCATCAGGTACACATTCTAAAGTACTTTAGAGAACCATTGGATTCATTTGACTTAGCTTTGGTGGGGTTTAAAGCTTTCTACACCTTCCTTTTTCTCACATTTTATACATACATTTTTCTTTAATTTTTTGTGTGTATATATTTCAAAATCATTATCAGTAATGCGCACTTGGTCAATTATCACTTTCACTTTGCCTAGTGGCTCAACATCGTTCAAGACAGTGACACACAGCACAAAATCAAATTGGCACTTTCATTCTTGATATGGTTAAGAATCTATCGAAAAGATTAAATATTAGGTTATATGTTTCGTTTGTGTTCAGAGTATCATATTAGTCTTTTAAATTTCAAAAAATTTCATTTACTTGTTTGAAATGCAAGGTGTGCTTCTATTTGATTTTTTCTCATTAATACCATCAACGGATTATCGAGTTGACATGTGTTCCCTCTCCCCCTTTTTTCTCTTTTTTTGAAAAGGATACAAAGCGTTTCATTAGCTAGAAAATGAAAAGAGACCAACACTCAAAAATACAAAAGAAACTAGTAACTAAAACATAAAATGACGAAGCAAAAACACAAAAACTAGAAACCAAAACCAAAGCTTAAGATACTCTGAAAAAAACAGTCCAACAACGATACAGTCTAGGATTGTGAATCCTTTAAGGGTTTGGGGAGTTAGCTCCATGAAAAGCCTTTAAACAAGCCGAATCAAACTTAGCGACAGAGATGTGGATTTTTTTTTAAAAAATGTGATAATTTCTTTCCAACCAAAGCAAGTTTCCTTTACTGCCGCACAGAAGATGACGAAAACTATCCCTGACTTTCAGAAAACCCAACTAATAAACCACTATGGATTGGCCTACTGGTAAAAAAATGAGACATAGTTTCAATAACTAACTAAGAGGTCCCGAGTTTAATTCATGGTGGTTACCTATCTAATAATTAATTTTTTACAAGTTTTCTTTATACTTGAACATTATAGGGTCAAAGTTTTCTTATACATGAATGTTATAGGATCAAACGGGTTGTCCCGTGAGATTAATCAAAGTCTGTGTAAGTGAGTCCGAGCGCTCACAGATTTAAAAAAAAAAGACTAGCTAATATTGAATAAACCAAATAAGAGCCAACAACAAGGTTGAGCATATGCTTTATAACACTCTTTGCTTTATCTCATGGTCAAGCATGATTCATTGGGCATGTTATATCAGGATTCTCGACATCAATGATAGGATTTGAATAGAAGTACAATCTAAAATTCAAGGCATGTTTGATAACTATTTGATATTTAGTTTTTGAAAATTAAGCTGTACTTCTACTTCTAAATTCTTGCTTTTGTATCTAGTATCTACTTTCTACCGATGTTAAAAAAACCAAACCGAGTCTTGAAAATTAAATAAGCCATTTTCGTTTCTAAAATTTGACCAAGAACTATACTCTTTAACTTAAGAAAGATAAAAATCATGGTAAGAAATTACGAGGAAATAAAATTAGTTTTCAAAATCTAAATGGTCGGAGCTTAACTTGAAACTTTTTAAAATTTGCTTACCAAATAGACATAAATATTATACAAGTATATATTTATAGTTTAACTAATATCTTGTTAGGTTTACTTTTATTTACTCAAATTCTTGTGATGATTTTTTTTTCTCTACTTTATAGAGTAATCTATGTTTGGTCCCATGTTAATGATATGAGCACACTCGATTAATATCAATTAATATTGAATTCAACATAAGGATGAGTGTTTGAAAGTTTTTATACTTTAAAATATGAATTTATGAGGATGTTTGAGCTTAAGTTCTTGAGTTTGATGATAATTCAACCGATATTAAACGCTTATCATTGCTTATTATTGTCTAATTAAGTTTGGATGATTACATAATCCCACATAATTTATATATAAATCATTTCTTGAGATATTATTATATATTAAAACCATACCACCGTTAACGGTGTTGAGCTTGTTTTTGTAATGAATCTACTCCTGCATTTGCATTTCCCTTACTTGTAACGGATATTTTTAAAAATTATATTATATTAATACCACCATTATCGGTGTTAAATCATTGTGCTATTTGAACATAAGTTTTAGTTCAGTTTACTTCAACAAAAGAAAAAAAGTTTGTTTTCCCGTTTGATTAATTTAATAATTAGAAAGATGTGGTTTTAGTAACTGTTACCTCATTTGAATTTTGGATTCTCGTCATTTCAACTGCAGAGTGAATCTACTTTATCTGCGGGGAACGCTATTTTCCCCCTGTTTATCTTTTTCAATCTTTGACATCTGATTAAGGAGAATTTAGGCTGTGAAAGAGTGAATTATCCTTGTGATAGTTCTCCATTGGTTGTTCATCTTGCACAGGTTTTCTAATTCGTTCGGCCACATGCTAAGGTTAGTATACTGAATTAAAAAGCCCAACACTTTCCTTTTCTTTTATGTATAGTTTAGGTGCAACCTTTATCAAATGATAAAATCAACTTTAAAAGCTTCATTACACCTCTACTGTTTAAAAGCCTCAAAACCCTTAAAAATTATTTGGTCTCTATTTAAACTGGTTTTCTAAGTGCTTAAAAAGTACAAGTATTTCTAAGTACTTAGAAAATCCATCCAAACAGGTTTTTTTTAGGGTTACCAAGAATTTTGATGGAGTAGAAATAATTTGAGGCACTAATGATAACTTGTTACTTGTTATATTATATTCTTCCA GTTAGACATTGCTGACCAAAAATCCTCACCCTCCCCGTTCCCGCGCCGATGACGCTGCCGGAGAGTGTATCGCTGCATTATTTTCAACTAATTTCTTCAACGCATGCCTCTGTTTCTTCCTCCACCTTCTTATGTCCTTCAAGACCTTTGATGAATTGTAAAATTGTGATGACTCGGAAGATGTCATTCAGAAATGGAGGTGCTCTGAGGTTATGCTGCTCGGATTCAAATCATTCTGCTCCTTTGACTTCCACAACTGCGGCAGCCACGGGCGGCCCTGCTCCTCCAGTTCTGAAGAGGAGGAAGAGGTACAGGAGAGAGTATCCTGGCGAGAGCAAAGGCATTACTGAGGAGTTGAGGTTTGTCGCCATGAGACTTCTTAATGTTAACGGTAAAAAGTTGTCTGGTGATGCTGTGGATTCATCCAGCGAAGATGAAGTAGGGGAGAAAGGTGATGGAGATTTGGCGTTGAGTGACGATGACAATGATGAGAACGGGGATGGAACACAGACTTGGGACCCGAGTTTGGAAGGATTCCTTAAATATTTGGTTGATAGTAAGCTCGTCTTCAGCACCGTGGAGCGAATCGTTGATGAATCCAGCGACGTTGCTTATAGTTACTTCAGAAAATCAGGGATGGAACGTTCAGAAGGTCTTGCAAAGGATCTAGAATGGTTTCGCGAACAGGGTATTGTGATACCTGAGCCTACCATTCCAGGAGTTTCTTATGCCAAGTATCTGGAGGAACTTGCTGAGAGGAGTGCCCCTTTATTCCTTTGCCATTACTACAATATATACTTTTCACATATAGCAGGTGGGCAAGTGATAGCTAAACGGGTTTCTGAGAGACTTCTTGAAGGAAGAGAGCTTGAATTTTATACATGGGCTGGGGATGCAGAAGAATTGCTGAAAAATGTTCGTGAGAAGCTTAACATGCTTGGAGAGCACTGGTCTCGGGATGACAGAAATAAATGCTTGAGAGAAGCAACCAAGACATTCCGCTTTTTGGGACAGATAGTTCGTTTGATCATCTCATGACTGGCTGTTTTAAATGCTACAACTGTGAAGGTGTTCCTGGGGTAGCAGTTGACAATGTTCAGAAAATGGCACTCTCTTTCAATCAATCAAAGCTGCAATGAGTCTACAGAGTTGCCCCCATTCAAAGGCTTTGATACTCTGATTGGTAATGAAAAGCAAATCAGCGACTTTTGACAGTGGTGGCTGAAGGTATGGAGTCAGTGACCTTCCCCAACTTGAGGAGCTAACCCCATTATTTTCAACATTCCATCAAATACCATCAGAGTGAATCTACTTTATCTGCGGGGAACGCTATTTTCCCCCTGTTTATCTTTTTCAATCTTTGACATCTGATTAAGGAGAATTTAGGCTGTGAAAGAGTGAATTATCCTTGTGATAGTTCTCCATTGGTTGTTCATCTTGCACAGGTTTTCTAATTCGTTCGGCCACATGCTAAGGTTAGTATACTGAATTAAAAAGCCCAACACTTTCCTTTTCTTTTATGTATAGTTTAGGTGCAACCTTTATCAAATGATAAAATCAACTTTAAAAGCTTCATTACACCTCTACTGTTTAAAAGCCTCAAAACCCTTAAAAATTATTTGGTCTCTATTTAAACTGGTTTTCTAAGTGCTTAAAAAGTACAAGTATTTCTAAGTACTTAGAAAATCCATCCAAACAGGTTTTTTTTAGGGTTACCAAGAATTTTGATGGAGTAGAAATAATTTGAGGCACTAATGATAACTTGTTACTTGTTATATTATATTCTTCCA ATGACGCTGCCGGAGAGTGTATCGCTGCATTATTTTCAACTAATTTCTTCAACGCATGCCTCTGTTTCTTCCTCCACCTTCTTATGTCCTTCAAGACCTTTGATGAATTGTAAAATTGTGATGACTCGGAAGATGTCATTCAGAAATGGAGGTGCTCTGAGGTTATGCTGCTCGGATTCAAATCATTCTGCTCCTTTGACTTCCACAACTGCGGCAGCCACGGGCGGCCCTGCTCCTCCAGTTCTGAAGAGGAGGAAGAGGTACAGGAGAGAGTATCCTGGCGAGAGCAAAGGCATTACTGAGGAGTTGAGGTTTGTCGCCATGAGACTTCTTAATGTTAACGGTAAAAAGTTGTCTGGTGATGCTGTGGATTCATCCAGCGAAGATGAAGTAGGGGAGAAAGGTGATGGAGATTTGGCGTTGAGTGACGATGACAATGATGAGAACGGGGATGGAACACAGACTTGGGACCCGAGTTTGGAAGGATTCCTTAAATATTTGGTTGATAGTAAGCTCGTCTTCAGCACCGTGGAGCGAATCGTTGATGAATCCAGCGACGTTGCTTATAGTTACTTCAGAAAATCAGGGATGGAACGTTCAGAAGGTCTTGCAAAGGATCTAGAATGGTTTCGCGAACAGGGTATTGTGATACCTGAGCCTACCATTCCAGGAGTTTCTTATGCCAAGTATCTGGAGGAACTTGCTGAGAGGAGTGCCCCTTTATTCCTTTGCCATTACTACAATATATACTTTTCACATATAGCAGGTGGGCAAGTGATAGCTAAACGGGTTTCTGAGAGACTTCTTGAAGGAAGAGAGCTTGAATTTTATACATGGGCTGGGGATGCAGAAGAATTGCTGAAAAATGTTCGTGAGAAGCTTAACATGCTTGGAGAGCACTGGTCTCGGGATGACAGAAATAAATGCTTGAGAGAAGCAACCAAGACATTCCGCTTTTTGGGACAGATAGTTCGTTTGATCATCTCATGA MTLPESVSLHYFQLISSTHASVSSSTFLCPSRPLMNCKIVMTRKMSFRNGGALRLCCSDSNHSAPLTSTTAAATGGPAPPVLKRRKRYRREYPGESKGITEELRFVAMRLLNVNGKKLSGDAVDSSSEDEVGEKGDGDLALSDDDNDENGDGTQTWDPSLEGFLKYLVDSKLVFSTVERIVDESSDVAYSYFRKSGMERSEGLAKDLEWFREQGIVIPEPTIPGVSYAKYLEELAERSAPLFLCHYYNIYFSHIAGGQVIAKRVSERLLEGRELEFYTWAGDAEELLKNVREKLNMLGEHWSRDDRNKCLREATKTFRFLGQIVRLIIS*
BLAST of Cucsa.123530 vs. Swiss-Prot
Match: HMOX2_ARATH (Probable inactive heme oxygenase 2, chloroplastic OS=Arabidopsis thaliana GN=HO2 PE=2 SV=2) HSP 1 Score: 329.7 bits (844), Expect = 3.6e-89 Identity = 162/248 (65.32%), Postives = 201/248 (81.05%), Query Frame = 1
BLAST of Cucsa.123530 vs. Swiss-Prot
Match: HMOX2_ORYSJ (Probable inactive heme oxygenase 2, chloroplastic OS=Oryza sativa subsp. japonica GN=HO2 PE=2 SV=1) HSP 1 Score: 296.2 bits (757), Expect = 4.4e-79 Identity = 160/312 (51.28%), Postives = 203/312 (65.06%), Query Frame = 1
BLAST of Cucsa.123530 vs. Swiss-Prot
Match: HMOX1_ARATH (Heme oxygenase 1, chloroplastic OS=Arabidopsis thaliana GN=HO1 PE=1 SV=2) HSP 1 Score: 243.4 bits (620), Expect = 3.4e-63 Identity = 113/244 (46.31%), Postives = 168/244 (68.85%), Query Frame = 1
BLAST of Cucsa.123530 vs. Swiss-Prot
Match: HMOX3_ARATH (Heme oxygenase 3, chloroplastic OS=Arabidopsis thaliana GN=HO3 PE=1 SV=1) HSP 1 Score: 239.2 bits (609), Expect = 6.4e-62 Identity = 120/269 (44.61%), Postives = 176/269 (65.43%), Query Frame = 1
BLAST of Cucsa.123530 vs. Swiss-Prot
Match: HMOX4_ARATH (Heme oxygenase 4, chloroplastic OS=Arabidopsis thaliana GN=HO4 PE=1 SV=1) HSP 1 Score: 219.9 bits (559), Expect = 4.0e-56 Identity = 104/240 (43.33%), Postives = 157/240 (65.42%), Query Frame = 1
BLAST of Cucsa.123530 vs. TrEMBL
Match: A0A0A0L087_CUCSA (Uncharacterized protein OS=Cucumis sativus GN=Csa_4G639120 PE=4 SV=1) HSP 1 Score: 662.1 bits (1707), Expect = 3.4e-187 Identity = 329/329 (100.00%), Postives = 329/329 (100.00%), Query Frame = 1
BLAST of Cucsa.123530 vs. TrEMBL
Match: M5XQC0_PRUPE (Uncharacterized protein OS=Prunus persica GN=PRUPE_ppa009873mg PE=4 SV=1) HSP 1 Score: 384.4 bits (986), Expect = 1.4e-103 Identity = 187/264 (70.83%), Postives = 228/264 (86.36%), Query Frame = 1
BLAST of Cucsa.123530 vs. TrEMBL
Match: W9RIJ1_9ROSA (Putative inactive heme oxygenase 2 OS=Morus notabilis GN=L484_026081 PE=4 SV=1) HSP 1 Score: 377.1 bits (967), Expect = 2.2e-101 Identity = 193/312 (61.86%), Postives = 238/312 (76.28%), Query Frame = 1
BLAST of Cucsa.123530 vs. TrEMBL
Match: A0A067L1M4_JATCU (Uncharacterized protein OS=Jatropha curcas GN=JCGZ_04310 PE=4 SV=1) HSP 1 Score: 366.3 bits (939), Expect = 3.9e-98 Identity = 177/277 (63.90%), Postives = 215/277 (77.62%), Query Frame = 1
BLAST of Cucsa.123530 vs. TrEMBL
Match: U5FS37_POPTR (Uncharacterized protein OS=Populus trichocarpa GN=POPTR_0014s03350g PE=4 SV=1) HSP 1 Score: 364.0 bits (933), Expect = 1.9e-97 Identity = 181/285 (63.51%), Postives = 221/285 (77.54%), Query Frame = 1
BLAST of Cucsa.123530 vs. TAIR10
Match: AT2G26550.1 (AT2G26550.1 heme oxygenase 2) HSP 1 Score: 301.2 bits (770), Expect = 7.8e-82 Identity = 164/303 (54.13%), Postives = 200/303 (66.01%), Query Frame = 1
BLAST of Cucsa.123530 vs. TAIR10
Match: AT2G26670.1 (AT2G26670.1 Plant haem oxygenase (decyclizing) family protein) HSP 1 Score: 243.4 bits (620), Expect = 1.9e-64 Identity = 113/244 (46.31%), Postives = 168/244 (68.85%), Query Frame = 1
BLAST of Cucsa.123530 vs. TAIR10
Match: AT1G69720.1 (AT1G69720.1 heme oxygenase 3) HSP 1 Score: 239.2 bits (609), Expect = 3.6e-63 Identity = 120/269 (44.61%), Postives = 176/269 (65.43%), Query Frame = 1
BLAST of Cucsa.123530 vs. TAIR10
Match: AT1G58300.1 (AT1G58300.1 heme oxygenase 4) HSP 1 Score: 219.9 bits (559), Expect = 2.3e-57 Identity = 104/240 (43.33%), Postives = 157/240 (65.42%), Query Frame = 1
BLAST of Cucsa.123530 vs. NCBI nr
Match: gi|778696061|ref|XP_011654097.1| (PREDICTED: probable inactive heme oxygenase 2, chloroplastic [Cucumis sativus]) HSP 1 Score: 662.1 bits (1707), Expect = 4.9e-187 Identity = 329/329 (100.00%), Postives = 329/329 (100.00%), Query Frame = 1
BLAST of Cucsa.123530 vs. NCBI nr
Match: gi|659103192|ref|XP_008452519.1| (PREDICTED: probable inactive heme oxygenase 2, chloroplastic [Cucumis melo]) HSP 1 Score: 618.6 bits (1594), Expect = 6.2e-174 Identity = 308/329 (93.62%), Postives = 317/329 (96.35%), Query Frame = 1
BLAST of Cucsa.123530 vs. NCBI nr
Match: gi|645226724|ref|XP_008220173.1| (PREDICTED: probable inactive heme oxygenase 2, chloroplastic [Prunus mume]) HSP 1 Score: 402.5 bits (1033), Expect = 7.0e-109 Identity = 209/320 (65.31%), Postives = 256/320 (80.00%), Query Frame = 1
BLAST of Cucsa.123530 vs. NCBI nr
Match: gi|694382798|ref|XP_009367388.1| (PREDICTED: probable inactive heme oxygenase 2, chloroplastic isoform X4 [Pyrus x bretschneideri]) HSP 1 Score: 392.1 bits (1006), Expect = 9.5e-106 Identity = 200/316 (63.29%), Postives = 251/316 (79.43%), Query Frame = 1
BLAST of Cucsa.123530 vs. NCBI nr
Match: gi|658002669|ref|XP_008393831.1| (PREDICTED: probable inactive heme oxygenase 2, chloroplastic [Malus domestica]) HSP 1 Score: 387.9 bits (995), Expect = 1.8e-104 Identity = 201/316 (63.61%), Postives = 247/316 (78.16%), 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 (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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