CSPI05G12990 (gene) Wild cucumber (PI 183967)
The following sequences are available for this feature:
Legend: five_prime_UTRCDS Hold the cursor over a type above to highlight its positions in the sequence below.GTTTGTTATTAGTTTTCTTAAATTTTGTGACTTCAAAACCCTATTTCATTTTCAGCCACATTGCACTCCACCGACTCAGCGCCGCCGCCACACACTTCATTCTCAGCCGTCCGACCAAATTTTCGCCGCCTTCTCCCTCTCCCACTTTCTCGCCTCCTTGAGCCATTACAGCTACATATCTCTGTTTTATTTCTCAGAAACGCAGTTGTTCAACCCCTAGCCGGCGCCGTTGGTGAGATGGTGCCGCTGCCCCTCATTTCTCAGATCCCTAAGGTCTTATTTTTTATATTGTTTCCTTGGATAAGAAAATTTAGAACAGCCCTGTAGTTTTGTTGGCTATAAAAAGACTTGTTGGAATTATAAACTATAAAATATTCAAATTAAATTTATCAATTCGATAAACCCACCAAAATACAATGCACAGGCTAAATTGAAAACTTAACTTTGACTCTAGTATGATTGAATAGCACTGAGTCTCGTTGAATATAGAAGAAACTTCATGGCAATTGGAGGCGGCTAGGCAGATATTATTATATTTGTAGAATTGGAAACATAATTGTTCAAGTTTACGAAGCCATCGTGGGTGTTTTATCGGTAAAAAGGAAACATACTCTTAATAACTCACCAATAGATCCTGACACTTACTTGAAAATTAATTTTTTAGGTTCAAATGTTATAGAACACGCTGTTCACTCACGAATATTCATAAAAAAAAGATTTAAAATCCTCTCTTATCAGACCTATGTAAACCAATTTATTTTATTTTATTTAAACAAAAATAAGATTTCAAGATTCCTACCCCCATTTTTATGCATCCTAAATTGATTTGAAGTTCTTTCCACATTAAGGGATTCCAAGCAGAGGGTTAGCTTTATCTATTATGAAAATATATTTTATAGTTTATAGGTTTTCCTCTCTGTGCCTTAATCTTTACTGTTGTCTATTTTAGTTCAATCAAGTTTCTAGATTTTGTATGGCCATGAAGAAGCAGGATGAAATGGTTGTAGCTTCAAGTAATCGAAATGAGACGTGTATTCCCCATGTGTTGAGTGTTGCTGGTTCTGATTCGGGAGCAGGGGCTGGAATCCAAGCAGATCTTAAGACTTGTGCTGCTCGTGGAGTGTATTGCTCCACTGTGATAACTGCTATTACTGCACAGAATACTGTGGGGGTTCAGGTCATTATCACACACTCATTATTATTATTATCTATATTTATGTATTGTTTTTTTTTTGTTTTGGGTTGAAAGAATAATGGGAAAGACTGGTGTATGAATAATCAAACGTTCACTTGCTATTTGTCCGACTGTTTTGGTATATTGGAGTGTAGAAAATGGTTTTACATGCTGCAATGGGCAAATTCTAATGTTTTTTTTGAGAGTTTGGGATAATTTTTGAAATCATGCTTTTAAGTGAAAGCTAATACTTCGTTAGCACTTTATTAAATGCTGTCTAGGGTGTGTTTAGGGTTGCTTTTGGCATGGTGAAAAGCACCTTTCTCATGGCTAAAGTACTAGTGATATGATCAAAGAGTTCTTCCTCCATCCATTTGGTGAGAAAAGCTAATTCTTGTGCCTTGCCGAAGTGTGCACTGTTTTGTGAGGTCTTTGATATGTGTGGAATAATAGTGTTTAGAGGGTTGGAAAGGGATCCTAATGATGTTTTGTTTTTTGTTGGATCTCACGTTTCCGTTGGGTGTGTTCAGTTTCGAAGATTTTTTGTAATTATTAGTATTTTCAGGTGACCCAAGTTGCATAATTGCAATGTTATTTACTACAGTATTTAAGGGTTATATTATTATTTAGTTAGACAAGTTGTTAGGATACTTGGTTATAAATTGAGATAGAGAGAGGGAGTAGTAAGACAATACTGTGGTGGTTGAGTTAGGGTTTGAGAGAGATCTCAAGAGGGGAGAGTCTAAGTACCTTGAATCACTTGACTATCTTGTAAGTTCTAGACACATACAAAGGTACTAGATTCGATTTGGTATAAGAACAGTTTGATTATGACCATGGGGTTGAGAGTTATATATAAAGTTAAGTGAAACAATATTAAACACTTTATGTGAAGCAATGGACCCTTTGAAGAATCCCTTGGATAACCAAATGAAATTGATGTTTCAAACGATATAGAGTACAATGACACTGAGTTCTGGTCTAATTAGAGAAGTACTTAACACTTTTCTACGAACACTTAAATACATGCATAGTTCTCTAAATAATTTTCAAAACCGCTTTTAAATACCTAATTAAACATTACGAAGAATTTGAGTAGTACTAGCATAAAACACTTTTCACCTTTGCAAAAATCATTCTAAACTCACTCTTAGAATATATTTGTTGTAGTTAGCTTTTGCTTGTTTTGAAATAGTATTAACTTAAAATTTTGTTTAACAATAAGCTGCAATAACTTTTTCAGGATGTAAACGTTGTTCCGGAGGGCTTTGTTTCAAAGCAGCTGAAATCTGTTCTCTCTGATATGCAAGTGGATGTGGTGAGTATAATTAAATTAGGTTTGATGTGGTGAGTATAACTAAATTAGGTTTGAGAGTAGGCTCTTCGTAAATCCATCAATATATATATTAAATAAGAAATTTCAAGGTATGGTTGCCTACTGATTTTTCTTAGGAGCTCATGCTAACAAGAATGTGGACTGTTCATGTATGGGATATTGCACCGGGTAGCTTTTATTGTTCTTTCAGAGTACATACTAATATGTACTTTATTTAATCTGGTAAGCACGGATAGAAGATTACTAATGATTACATTAATTTAGGTGAAAACAGGAATGCTACCTTCTACTGGCATCGTTCAAGTTCTACATCAGTGCTTGAAGGAGTTTCCCGTTCGAGGTATAAAGTAATTAAGGAAGTTGTTGGTGGATTTCTTTGATTTAATCGTGGTTTAAATTTTAATGTAATTAAAGGCAGCTTTGGTGGTTGATCCTGTCATGGTGTCTACTAGTGGAGATGTTCTGGCTGGTCCTGCTATTATTTCAGTGTTACAGTAAGTTGATGCTTTCTTGAAATGGAATATCTTCAGTCCTTCAAGGGGATTCTATTTGTATGATTATGATAATTTCTTTCGTTCCATATTTTCATTTTTTCAATATCTTCATAATTGGGACAGTGTTTTCTGCTTTAAAAGGCTTCCGAAACTTATGTGTGGAGCTCAAACTTTTAACGTTAAAGCTTACATCTGACGCACGTTTATAAGAGCTTATTGAGGCTTGAAATCCTCATGAATCACACAATAATTTGAAAAATAATACTATTTTGTTCCTCTCCCCACCATGATTTTAGATGGCATCCATTCATCATAGTAAGAGCTATATGAATCTGCCTATAATGTGATGTTTTATCTTTTATGTGGTATTGCTACTATGTTCACTTTCACTTGTTAGATTGAGGGTTTCAAAACCTCTCCGCTTGTGTAGGCTGCTTTAGAAGCTTTTCTTTTATACAATTTCTGGCATGTTTCTAATAAAAAAAGAACTCGTATTATCGCTGAAATATGAGGGACTACACGGGGTTGATAAACATTTGGAGAGCACTCATATTATCGCTGAAATGTTCAGGAGCTTTAAATAATGAGATTTCAATGTCACAGCAAGAATGTGATCCAAGTGAGTTCTGCGATTGCATTTGCCATAGCTAGATATTCTACCTCAACGCTGGATCTAGAGACAGTTGGGTGCTTCTTCGAAACCCATGAGATGAGGTTGGATCCAAGATACACACAAATGCCTGAGGTGCTCCTCCTTGTGGTTGGACAATCAACCAATCTGTATCACTAAAATCATAGTGCTTAAGGCAATTGTTTTTAAGAAAAATGATGCCATGATGCATACTATGCTTAGAGTGCATTTAACTTCCCTGAAGTGCTGCATTGTGGGTAGTTGCATCTTTTACAAGCTTTGTTGATGGCAAAGGCGATGTCAGGTCTTGTTAAGGTGAGGTATTGGATGGACCCAGCAAGGCCTCTATAAGTGGTAGGATCGACTAGTTCATCATCTCTTGGGCATTTTTTGTTGCTTGTTGCTGTTGGAGTTGATATTGGGTAAACATTTAGTTAGCCTTAGCTAGATATCTACTGTGTGTGTATACTTAATTTGAGTGATGTGAAAACCATGGGGTATATGCTTTACTTCAACTCCTAAGAACTAGTGAAGGATCCTGAAATCTTTTAAAGCAAGTTCTTGACCTAACTTGGTCACTAAGGTGGCAATAAAGGCTGGGTCATTGCCAGTGAGAATAATATTATCAACGTAAAAAAGCATAAGAACTAAGGTACTAGAATTTTTGAAAAGGAAGAGAGATGGGTCGAAGGTGCTACATGTCCTATGTGAGTAAGGAAAGTGGACGTCGAACCAAGCTCTAGGTGCTTGTTTTAAGCCATAAAGTGATCATTTCAATAAATAGACAATCAGGATGAGCAACGTAAGTGAAACCTGGAGGTTGAGCCATGTACACTTTTTCTTTGAGATAACCGTGGAGGAAGGCGTTTTTGACATATATTTGTTTCAGGGGCTAGTTGAAAGAAGCAGCAAGAGCAAGTACTAATCAAATTGTTGTTGGTTTAACAAGGCTAAAGGTTTCCTCATATTCGAGACCTTCAATTGAAGAATATCCTTGAGCTACTAGTCTCCTTTTGTGTTTCTCTATGGTTCCATCTTCTTTGAATTTTCTTTAAAGATCCACTTGGAGCCAACTATGTTGGTGTTGGGTGGCTTAGGTACAAGTTTCCATGTTTGCTTCTCATGTAAGGCTTTAATTTTTGCCTCCATTGCATCTTTCCACACGGAAATTTTGAGTGCAGAGCGAGATGTCTTTGGTTCAAGAGATGGGCTTCAAGTGGCACTAACTAGGAAGGTTGTGTAGGAATGGTTTTTGTTATGTATTTTGGTTTCACTTTGGACCGAGTGACCATGGGATTTAAAGAGAGAGGTATTACTGCTGGTTTGTTTAGGATGGGCTACATGATCTTGAGTTGGTAATGGAGGCAATGAATCTGTAGCATCGTCAAAAGGTAAGTCAATAAACAGAGAATTATAAGTGTAGGCAAATCAATAAAATTAGATTTAGTTGAGGGTTGAGAGATCTCATGGGCAGAGGATGCAGTTGACTGTTTTGGTGTTGAGGTTGGCGGTTGATCTAATATCTGCCCATATGATTCGTGCTCAAGGTTTTGACATTCGTCTAGGCTATGTTCTTCCACACCAATTCGTTTAGAACTTTGATCGTCTAGTGACATGAGATTGCTTGATGGTTCTTGGCTCTTGGTATCTGGTGTCGCGGTAACAATTGCTTTATAATTGTTGGGATCTCCAAAGATTATTTTGGTCTTACATGGTCTGACAGTCTCAAAATTATTTGAGTTGAAGGTAGGATGGAGAGGAGCTTGAGAAATTGTTTCTTGGCCAATCTTGGAGTTGATTGTGGCATCTAATTTGTCACTTTCTGCATCTAAAAATGTTGTAACATCCAAGATAGGTAATTATGTGGTGTGTGTTGATTCTGTTATGTAAGGCATGGTTCCTTCATCAAATATAACATGTCGAGATATACACACACGATTCTAGTAGGGTGTAAAGGGAAATGCATTTATCAAGTGTTTCATGACATAGCTTGTATGCATGACACGAGGCAGGGATTTTGTGAGGCACTTAATAATAAAGATTATTAAGTGTGCTTGACCAAATAAGCTACTAAACATATTTATAGTGATGAATGGTGGGTATTCATGATCATAGACATCATGGGTGGTTACTCCCTAATTTGTAGGAAGGTGGCCTAGAATTATGCAAGGTGGGAAGTGGATGAAATAGGGAGAAAGTGGTCATGTTCTCCACTATCCTAAAAGGTAGGAGTTAAATGTGGAAAAATGGAAGAGTGGCCCTAATTACATGTGTATTGGGTGGTTTTAACCCACTAGGGACCCACCTGGCCCTTCTAAAGTTATTTCTCCCACACCTGGATGAGCTTGGGGATTGTTCAAGGCATCTCAAAATAGTTAGGTTATCTTAGAGATCTCAATATCTCAAGTATTCATTAGTTCACACCTTGCAAGGGAAGATCTCTCATGGTGGGAGATTTCTAGTCTTGAGTCTTGTAAAGTGTGGTTTTCACTTTTCATAGAGCTTTGATGAATAAGGTGTGCTATATTTTCACCATGTATATGTGCATCACTCCTCTCTCTAGCTGGGTTATGTGGTGATCGTTTGAGTTGAAATTGGGAGTTCATTGTTACGATATCACCCTAAAAATAACACAAATAATCCTAACAAAGGCAACAAATGGAGGCAACACGCTGTAATCTTTACAATAATCAACCAAACCAGAAGTTGACAAGATGTTTAAGCAAGAAAATACAAGAAAACACAAAACAAAGCAAACTCCTTAGAGAAGGCTGGCAATCTCTCCCATAAAGCTCCAGCAGCCTTTTACTACAAAAAAACCTACCTACTCCAATCCCCAAACATTCTATTTATATCCCTCCTTTATTTGTGGGCCCCACTTGCCATATTCTTTATTACAATCATCTCTCCTTGATCTGTCTCCTGGTTAATGGACCTTTTTGCCTCTTCTTTTATATCTGTGAATAATTGGGGGTCTAACAATCATCTAGTGTTCTGAGTGTCCTTGTGGGTGTTTCGGGCAAAGTTCATTAAGGCTTGTCAAGTAGTGTCTTGATGTCGCATGGGGTTAAATGGTGAAAAATCTATAGCAGGGATTCTCTCTTGTGACACCCGAATTCCCCAATAGAGCAATAGTTCGCTAATTGAATCAAAATAGTTTCATTTTTTAAAATTCAGAAGTCATGTTTGATCTTTTTATGTTAGTTTTGCATAAATCTTTGACATATCTTTTGCTTGCAGGGAAAAACTTCTACCAATGGCGGACTTGGTAACTCCAAATTTGAAGGAAGCATCTGCCTTACTTGGTGATATGCCACTTACAACAATTTCTGACATGCGTCATGCTGCAATGTTAATCTATCAGATGGGATCAAAGTAAGTTCTTAATCTATTAGTCATCAGATAAGCTTGCCTTTGTAATTTCATTGGTATCAATGAAAGACACCCATTTTTCTCGTAATAAGAAAGGGAGAAGAAAAGGAAGTTTTTGGTTGCCTTGCCTCTGGTTACGGAGACTGACTTTGACACTCATTTTTTCTCATCTCTGCTTGTCTTGTAGCTGTATTTTTAGTGTATTTTTATTTCTAGTTGAAAATTTTTTAAGCTAAATTATCAAAGATACCTTTGAATTTTGCAGGTGCCTCTATTCTTTCAAAGTTGCATCTTTCATTAACGTTTTAAAACTACTCTAGGAGTACAAATCCTTTAGAATTTCGGATGAAATTTTAGGATATGAAACCATGTTGTGCTGATCTAGAATAGAAAATTGGATTGTAATATTTCAAACATTTGAAAGTATTGGGAGTACTTTTGAAACAAGTTATCTTTTATAATTTGAAGGGTGTAAATAAACCATCATGGATTGGTCGTGGTTTTATATTTTCCCCACTGTGCTGTTAGTAATTAGTTGACTGTTGGAAGCTGTAATGTTTTATATTTTCCTGATATATTAGTTGGCTATTGGGTTTAGTATAAAAACCCAATAGTTTGTCAATTTGTGGGGATAATAGAAAAATTTCCAGAACAAAGACTTTAGACTCTTTACGTGTTCTGTCCAAGAATCGGACATACACTAACTTGCTATTAGAGCTTCACCGATGAAGGGAGCTGTGACCGGCAAGAACACCTCCGACAAGGGAAAGGTGGTAGTGCCGACAGAGGAAGAACTCCCATCTCCACGCACTTCGACTGCCCGATTGATGGCCATTGAAGAAAGCATAGCAGAAATATTCAACCAAATGGGAGTTCTTGAAACAATTATGGAGAGACTTGCTCGCTGGCTTGAAGAGGCGTTGACTGCCCTTCTTCAGCAGCAAGAGATCGGAAATGGTAACCACCAAGAACTCGGAATTCGGAACACAAAAATCGCCAGAGTTCGTTAGAATTGTCCGAGAAAGGTGGGGACCACCTCAGAGGCCGCTGACTACAAGAACCCAATATGGGTCTTCAAGTTTTAGAGGGTTTTGAAGAGGAGGAGATGTTATTTCGGCCATGCCAAAGACGGAGGAAATTTGGGAGATGGCCGGCGATAGAGAGAGATTAGATATCAAAACCTAGTTTTCAGAAGGGGCCGAAATGGTGGAGAAGATTATTTTGAAGGCAGATTAGAACCAGCCTGATATAGAGGAGATCTAAGAAGAGGAATGTTTCAGCAAGACTTCAAGATGAAGGTCGATTTACCAAATTTCAGTGGTAAATTGGATGTAGAAGCATTTCTTGATTGGGTTAAAAATGTGGAGAGCTTCTTTGAGTATATGAAGACAGCCGAAGACAAGAAAGTCAAGATGGTCGCACTGAAGCTCAAATCGGGTGCATCGGCTTGGTGGGATCAAATCCAAGTCAATCGACGCTTAATTGGCAAAACACCCATAAGGAGCTGGCCAAGAATGCTCAAGATGATGAAAGAACGCTTTCTACCCACGGATTTCGAAAAGATTCTTTATCAACAATATCAATGATGCCGTCAAGGTAATAGGAAAATGGGAGAATATGCAGAGGAGTTTCACCGTCTAAGTGCAAGAACTCAGACGAACGAGAGTGAAAATTATCAAATAGCAAGATTTGTTGATGGTCTTAAGGAAGACATATACGAACAGCTAGATTTACAGCCCATAGCCACACTACTGGCTGCAATTTTGATGGCTTTTAAAGCGGAATGGAAGCTGGAAAAAAGGCAGAAAAACAGCGGCATCGAGAAGAACCTGTGGGAGAAGGCATTCGCCCCGTACCAACGAAAGAACTATGACAATGCCAAGCAAGCTCAAGGCTCCGGTACAACAATGGCGAAAGAAGGACAACCTTCCAAAACAACTCATAGCCCAAGAACTTGAGAACTCTCTACCAAGAAGAATGGTTCAACCAACTACCCAAGACTGAATTTGGGATTTTGCTACTGGTGCAACCAAAAGGGACACTTATCCAATCAATGCCCACAACGGAAGATGGTAGCATATGTTGAGGAAGGAGGGAGCCAAGAAGACGAAGCTGAACCTAATTCCGAAGAGGAAATAAATGAGTTGGAACCGGATGAAGGGGAACAACTATCTTGCATGATACAACGAATTCTCCTAACACCAAAAACGGAAACTCACCCTCAACGACATTCATTGTTCCATACTCGCTGCACAATCAACGGTAAAGTTTGCAATTAGGTAAAGTTTGCAATGTCATAATTGATGGCGGAAGTAGCGAGAACATTGTCTCCTCAAAACTTGTTCAAGAAAAGCTTGTTCTAAATTTCAAGTAGTTGCATTTGATTCTTTGCCCACTCTTTATAAAGACGACCCCGATTTTAGTCAAATTTGGTCTCTTTGTGTTGATCATGTCAATTGTAATGACTTCCATTTAACTAACGATTTTCTCTTTAAGAACAATCTTCTTTGCATTCCTAGAACATCTCTTCGTGAAGCCTTAATTAAAGATCTTCATAGCAATGGTCTTGTGGGGCATTTTGGCATAGACAAAACTTACCAATTATTGAGTGATAGGTTTTATTGGCCTCAACTCCACCGAGACGTTACAAAGACTGTTAAGCACTGTTTTACGTGCCAAACTGCCAAAGGACAGCAGCAGAATACTGGACTGTATACACCTTTACCTATTCCCAAAGGCATTTGTTAAGTTTTTTATTAATTAGATTAAAATTAGTTCACTTTTGTTAAGTTTTCTCTTAGAATTAGGATTAGGATTAGTTTACTTTTTGCTATAAATTGAGTAGTTATCTTCTTGTATTCACAACTTGAAAAACATTAATACAATTCTCTTATTTGAGTTACATCAAAGGGTCTATAGATGATGAAGATACAATTAATTTGTCGAAGCCTTTAGATCTTTGAGGAGATCGGTCTTTAGTTTATAGATGATGAAGATACAATCAATTTGGAAAAGATCAATTCGTTGAAGAGACAATTTATTCGTTTAGAAGAGATGCTCAATTTGTTGAAGACGAGACGATCTATTCATTGGAGAAGATATGCTTAATTTGTTGAGGGTCATTTTGTTGAATTCTCTAAATATTGATTTTTGGATCTCTGCCTGAATGTATCAAATGATGGGTATTCTCTGTTTATATAGTTTTGGGAGGCCCATGTGGGCTTGGTTGACTTTGGGCTCAACTTTTAGACTTGATCTTAAATTAATATGTTTTTAAATAGATTTATTGTTCAAGTTTGTCCCAATTTATTTTATTAAACCTGGGACAGCCTAGCTTCGGGCCCAATCGCCACTTAGCGTAATTCGATTGGACAAGCTAACATTGCCCGTTGGATCAATGCTTAGAAAAGTGGCGCCATTTGATTTGCCACCGTCATGTTTCTAATTTTAATTCTAGGAAGCATGCAAATTTGTAATTGGTCGCAAATTAATTACAGGTCAATTTGTGATTACATGGAATTTTGTCAATAGAAATAATTTTATCGATAGAAAACAAAGATAGGGAATTATAGAATGAGTGACGGGAGGGTGGGATGCCGAGTTCAGGTTTAGGCATGGGTTTACTCAAACAAAAACATCCAAATTTCTCTCCTTGGATTCTTAATTTTATATATGTGTGTATATATATATATATATATTCTAATTTCTTGTTCTGCAAGCTATTAACTATAAAGATAATTTCGATTGGAAAATTGCATCAAATGACAAACATTTAGGAAAATACAGCCCATGACACCTCTTTTTTGCATATTGCGAATATGACAAGTAATTAGTGATATCATAGGGTTATCATCAAATGGTCATCAACTTTTAAATTTGTTACTTTTGCAATTTTGAAAAATGCAGTAACATGAGTCCTATTATCGTAAATTTTTTTGCTATTTTTGCCAGCGCCCCATTTCGATTTGGCAAAATGAGTTAGTCCTATTCCCTTTTTCTGGGTCGGAGGTCTAGTTTCCCATCCTCAGTTTTTAATATTATATTCAAATAAAGAAACGATAACAATAATTTCGAATTCAATTTTCTAACCAATTAAAATCAACCTCACACATTTTAGAAGGCCTCAGTTTCATACGGTCATCCATAGGTTATAGAAGGTTTAATTTTGTAGGCATGACGGTCCTAAGACAATATACATTATTGGCATTTGGTTCAATGGTTCTATATTTTATTAAAAATTAACTTACGGAGTGTTGTGCTGTTTTCAGAAATGTACTTATCAAAGGTGGGGACCTGCCTGATTCATTGGATGCGGTTGATATATTCTTTGATGGTAAGTACATATTTGCAAAATTTTGACAATTTGATATTATTTCTTTTTGTTACGAAGGAAACATCCATTGAATCCAAAATTTAAAATAATTTTCACAGGCAAGGATTTGCATGAGCTACGATCTTCACGCATAAAGTCTCGCAACACACATGGTACTGGATGCAGCTTAGCATCATGCATTGCAGCTGAACTTGCTAAAGGGTCTTCAATGTTCTCAGCTGTTAAGGTAATTGTATATGGATCTCTTCTTTAGTTTACTAACTTCAGCCGTAAGAAGATCCAAGTCTTAAGGGCTCATAATACAACTTCCTATTGAATAGTTAAAGAAATCTAGTTATAATAATCTAGCTGTAGTAATAGCTCTAATTTACCGTTAGGGTGGGCCATGGGCATCATACAAGGAAAAATAGCATCGACAATCTTATTGATGAAAAAGGAGAGAAGAAAATAATAGAAACAAACATCTTATTATGATATATTTTCTTAACTCATTCATCAAAATATGGTTGCCCCTCAATTAAATTAGGAGTTTTGGATTCTTTGATTATTTGTCTTCTTTCTTTTTGGATGAAAAGACATCATTCTCACTCCATATCCATTTGATGACTGAATCACGCTTATAAGCTTTGTTGTTGATTAACAGACTTGATGACTGCCTACAACTAAGGTTTTACTTATCTGGATTTTTACAGGCAAGCAAACAGTTCATCGAAAGAGCATTGAGGTACAGCAAGGACATTAACATTGGACATGGACCTCAAGGCCCATTCGATCATCTATGTTGTCTCAAGAGTCGAGAACAAAGTTCCTACAGTCAGGGATGTTTCAATCCAGCTGACTTGTTTTTGTATGCTGTTACGGATTCAGGTATGAATGAGCGTTGGGACCGTTCTATCACTGATGCTGTTAAAGATGCAGTGGAAGGAGGTGCTACTATTGTTCAAATAAGGTTTGCCTAA ATGGTGCCGCTGCCCCTCATTTCTCAGATCCCTAAGTTCAATCAAGTTTCTAGATTTTGTATGGCCATGAAGAAGCAGGATGAAATGGTTGTAGCTTCAAGTAATCGAAATGAGACGTGTATTCCCCATGTGTTGAGTGTTGCTGGTTCTGATTCGGGAGCAGGGGCTGGAATCCAAGCAGATCTTAAGACTTGTGCTGCTCGTGGAGTGTATTGCTCCACTGTGATAACTGCTATTACTGCACAGAATACTGTGGGGGTTCAGGATGTAAACGTTGTTCCGGAGGGCTTTGTTTCAAAGCAGCTGAAATCTGTTCTCTCTGATATGCAAGTGGATGTGGTGAAAACAGGAATGCTACCTTCTACTGGCATCGTTCAAGTTCTACATCAGTGCTTGAAGGAGTTTCCCGTTCGAGCTTTGGTGGTTGATCCTGTCATGGTGTCTACTAGTGGAGATGTTCTGGCTGGTCCTGCTATTATTTCAGTGTTACAGGAAAAACTTCTACCAATGGCGGACTTGGTAACTCCAAATTTGAAGGAAGCATCTGCCTTACTTGGTGATATGCCACTTACAACAATTTCTGACATGCGTCATGCTGCAATGTTAATCTATCAGATGGGATCAAAAAATGTACTTATCAAAGGTGGGGACCTGCCTGATTCATTGGATGCGGTTGATATATTCTTTGATGGCAAGGATTTGCATGAGCTACGATCTTCACGCATAAAGTCTCGCAACACACATGGTACTGGATGCAGCTTAGCATCATGCATTGCAGCTGAACTTGCTAAAGGGTCTTCAATGTTCTCAGCTGTTAAGGCAAGCAAACAGTTCATCGAAAGAGCATTGAGGTACAGCAAGGACATTAACATTGGACATGGACCTCAAGGCCCATTCGATCATCTATGTTGTCTCAAGAGTCGAGAACAAAGTTCCTACAGTCAGGGATGTTTCAATCCAGCTGACTTGTTTTTGTATGCTGTTACGGATTCAGGTATGAATGAGCGTTGGGACCGTTCTATCACTGATGCTGTTAAAGATGCAGTGGAAGGAGGTGCTACTATTGTTCAAATAAGGTTTGCCTAA ATGGTGCCGCTGCCCCTCATTTCTCAGATCCCTAAGTTCAATCAAGTTTCTAGATTTTGTATGGCCATGAAGAAGCAGGATGAAATGGTTGTAGCTTCAAGTAATCGAAATGAGACGTGTATTCCCCATGTGTTGAGTGTTGCTGGTTCTGATTCGGGAGCAGGGGCTGGAATCCAAGCAGATCTTAAGACTTGTGCTGCTCGTGGAGTGTATTGCTCCACTGTGATAACTGCTATTACTGCACAGAATACTGTGGGGGTTCAGGATGTAAACGTTGTTCCGGAGGGCTTTGTTTCAAAGCAGCTGAAATCTGTTCTCTCTGATATGCAAGTGGATGTGGTGAAAACAGGAATGCTACCTTCTACTGGCATCGTTCAAGTTCTACATCAGTGCTTGAAGGAGTTTCCCGTTCGAGCTTTGGTGGTTGATCCTGTCATGGTGTCTACTAGTGGAGATGTTCTGGCTGGTCCTGCTATTATTTCAGTGTTACAGGAAAAACTTCTACCAATGGCGGACTTGGTAACTCCAAATTTGAAGGAAGCATCTGCCTTACTTGGTGATATGCCACTTACAACAATTTCTGACATGCGTCATGCTGCAATGTTAATCTATCAGATGGGATCAAAAAATGTACTTATCAAAGGTGGGGACCTGCCTGATTCATTGGATGCGGTTGATATATTCTTTGATGGCAAGGATTTGCATGAGCTACGATCTTCACGCATAAAGTCTCGCAACACACATGGTACTGGATGCAGCTTAGCATCATGCATTGCAGCTGAACTTGCTAAAGGGTCTTCAATGTTCTCAGCTGTTAAGGCAAGCAAACAGTTCATCGAAAGAGCATTGAGGTACAGCAAGGACATTAACATTGGACATGGACCTCAAGGCCCATTCGATCATCTATGTTGTCTCAAGAGTCGAGAACAAAGTTCCTACAGTCAGGGATGTTTCAATCCAGCTGACTTGTTTTTGTATGCTGTTACGGATTCAGGTATGAATGAGCGTTGGGACCGTTCTATCACTGATGCTGTTAAAGATGCAGTGGAAGGAGGTGCTACTATTGTTCAAATAAGGTTTGCCTAA
BLAST of CSPI05G12990 vs. Swiss-Prot
Match: TPS1L_ARATH (Thiamine biosynthetic bifunctional enzyme TH1, chloroplastic OS=Arabidopsis thaliana GN=TH1 PE=1 SV=1) HSP 1 Score: 432.6 bits (1111), Expect = 4.3e-120 Identity = 220/319 (68.97%), Postives = 268/319 (84.01%), Query Frame = 1
BLAST of CSPI05G12990 vs. Swiss-Prot
Match: TPS1_BRANA (Thiamine biosynthetic bifunctional enzyme BTH1, chloroplastic OS=Brassica napus GN=BTH1 PE=1 SV=1) HSP 1 Score: 419.9 bits (1078), Expect = 2.9e-116 Identity = 213/319 (66.77%), Postives = 263/319 (82.45%), Query Frame = 1
BLAST of CSPI05G12990 vs. Swiss-Prot
Match: TPS1_ORYSJ (Probable thiamine biosynthetic bifunctional enzyme, chloroplastic OS=Oryza sativa subsp. japonica GN=Os12g0192500 PE=2 SV=2) HSP 1 Score: 416.0 bits (1068), Expect = 4.2e-115 Identity = 209/336 (62.20%), Postives = 267/336 (79.46%), Query Frame = 1
BLAST of CSPI05G12990 vs. Swiss-Prot
Match: THIED_GEOSL (Thiamine biosynthesis bifunctional protein ThiED OS=Geobacter sulfurreducens (strain ATCC 51573 / DSM 12127 / PCA) GN=thiDE PE=3 SV=1) HSP 1 Score: 218.4 bits (555), Expect = 1.3e-55 Identity = 129/255 (50.59%), Postives = 168/255 (65.88%), Query Frame = 1
BLAST of CSPI05G12990 vs. Swiss-Prot
Match: THID_RHIME (Hydroxymethylpyrimidine/phosphomethylpyrimidine kinase OS=Rhizobium meliloti (strain 1021) GN=thiD PE=3 SV=2) HSP 1 Score: 203.0 bits (515), Expect = 5.6e-51 Identity = 124/257 (48.25%), Postives = 164/257 (63.81%), Query Frame = 1
BLAST of CSPI05G12990 vs. TrEMBL
Match: D7TGZ0_VITVI (Putative uncharacterized protein OS=Vitis vinifera GN=VIT_12s0035g00320 PE=3 SV=1) HSP 1 Score: 483.8 bits (1244), Expect = 1.8e-133 Identity = 247/319 (77.43%), Postives = 283/319 (88.71%), Query Frame = 1
BLAST of CSPI05G12990 vs. TrEMBL
Match: A0A067KRT8_JATCU (Uncharacterized protein OS=Jatropha curcas GN=JCGZ_04989 PE=3 SV=1) HSP 1 Score: 479.6 bits (1233), Expect = 3.5e-132 Identity = 245/328 (74.70%), Postives = 287/328 (87.50%), Query Frame = 1
BLAST of CSPI05G12990 vs. TrEMBL
Match: M5XRD0_PRUPE (Uncharacterized protein OS=Prunus persica GN=PRUPE_ppa003609mg PE=3 SV=1) HSP 1 Score: 479.6 bits (1233), Expect = 3.5e-132 Identity = 245/337 (72.70%), Postives = 289/337 (85.76%), Query Frame = 1
BLAST of CSPI05G12990 vs. TrEMBL
Match: A0A067EGP5_CITSI (Uncharacterized protein OS=Citrus sinensis GN=CISIN_1g010260mg PE=3 SV=1) HSP 1 Score: 478.8 bits (1231), Expect = 5.9e-132 Identity = 248/337 (73.59%), Postives = 283/337 (83.98%), Query Frame = 1
BLAST of CSPI05G12990 vs. TrEMBL
Match: B9SXF8_RICCO (Phosphomethylpyrimidine kinase, putative OS=Ricinus communis GN=RCOM_0321500 PE=3 SV=1) HSP 1 Score: 476.9 bits (1226), Expect = 2.2e-131 Identity = 243/319 (76.18%), Postives = 279/319 (87.46%), Query Frame = 1
BLAST of CSPI05G12990 vs. TAIR10
Match: AT1G22940.1 (AT1G22940.1 thiamin biosynthesis protein, putative) HSP 1 Score: 432.6 bits (1111), Expect = 2.5e-121 Identity = 220/319 (68.97%), Postives = 268/319 (84.01%), Query Frame = 1
BLAST of CSPI05G12990 vs. NCBI nr
Match: gi|449445302|ref|XP_004140412.1| (PREDICTED: thiamine biosynthetic bifunctional enzyme TH1, chloroplastic [Cucumis sativus]) HSP 1 Score: 696.8 bits (1797), Expect = 2.0e-197 Identity = 357/359 (99.44%), Postives = 358/359 (99.72%), Query Frame = 1
BLAST of CSPI05G12990 vs. NCBI nr
Match: gi|659120551|ref|XP_008460243.1| (PREDICTED: thiamine biosynthetic bifunctional enzyme TH1, chloroplastic isoform X1 [Cucumis melo]) HSP 1 Score: 665.6 bits (1716), Expect = 4.9e-188 Identity = 343/359 (95.54%), Postives = 350/359 (97.49%), Query Frame = 1
BLAST of CSPI05G12990 vs. NCBI nr
Match: gi|659120553|ref|XP_008460244.1| (PREDICTED: thiamine biosynthetic bifunctional enzyme TH1, chloroplastic isoform X2 [Cucumis melo]) HSP 1 Score: 625.9 bits (1613), Expect = 4.3e-176 Identity = 323/339 (95.28%), Postives = 330/339 (97.35%), Query Frame = 1
BLAST of CSPI05G12990 vs. NCBI nr
Match: gi|1009124250|ref|XP_015878965.1| (PREDICTED: thiamine biosynthetic bifunctional enzyme TH1, chloroplastic [Ziziphus jujuba]) HSP 1 Score: 492.3 bits (1266), Expect = 7.4e-136 Identity = 255/343 (74.34%), Postives = 292/343 (85.13%), Query Frame = 1
BLAST of CSPI05G12990 vs. NCBI nr
Match: gi|297739580|emb|CBI29762.3| (unnamed protein product [Vitis vinifera]) HSP 1 Score: 483.8 bits (1244), Expect = 2.6e-133 Identity = 247/319 (77.43%), Postives = 283/319 (88.71%), 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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