Chy6G113600 (gene) Cucumber (hystrix) v1
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Overview
Sequences
The following sequences are available for this feature:
Legend: exonCDSpolypeptide Hold the cursor over a type above to highlight its positions in the sequence below.ATGCCTCAATTTCGTTTTACACTCTCCAAATTCAAATCTCCTAAGAAATCGCTTTGTACTTCATCTTCTTCCATTTATTACCTACGCGCCAATGCCTCAACTTCTCCACCTCAATTCTCTCCTTTCATCTCCAAATTCACTCAAAGACAACCAAATGTGGCAAATCCTTCAAAATTTCCATCTGGGTATTTCTCACATTGTCATCAGCATCGATATTCCAGCTTCTCCGGGTGCCATGGTGAATTTAACCCCGTTTTTACTAATGGGAGTCGGCTGAAATACTATAATTTAAGAGGTTACAGAAGAGGAAAAGTTTGGAGTTGCTTGAACATGGTCAGGAGATTTAGTAGTGAGGCGGAACGAGAGTCTATAGAATATGATGTTGTCATCATTGGAGCCGGACCTGCTGGGTTATCTGCGGCGATTCGGTTGAAGCAAATGTGTCAAGAAAAGGGTGTTGATTTATCGGTTTGTGTAGTGGAGAAAGGCGCTGAAGTTGGTAAGCTGCTTGTTCATATTCAGATGGACCATTGTAGATGTGAAGTGTGTGCAATTGTGTTTTAATTTGCAGTTTCTTGGATAATTTGGTTGTTTAACTGTTGATTTGTTCTCTGTCTCTATTTGTGGACATGCGTAGTATGTCAAATTGCTTCATAATCTGAATTTTAGTGCCCTTCTGTTGCATGCTTGGGTTAATTTGAAATTTGAAATAATTTGAGACCCTTGGTCTCATCAGGTTGTGCATGACAGCCAAGCCATTCTAGGCCCTCCAACAGTGGTGGGGGAAAGTTCTGGGTTCCATTTTAATTTGCATTTTAGACGTATTTTAGAACTTAGCAATGTGTGCTCTTTCTTCTTGGACTTTAGAGAATGAGCAGTTGAGTAGGAGAAGATTTAGGGAACATCTGAAGGACAGTTGCACAGCTGAGGGATGATTTTGAATGAAATGTTGATGGAACGATGCAATACTTCAAAGGGGATTCATTTCATGAACGTGCTGCCCCTCATCATTATTGAAATGAGAAGTTCATTTGGATGTTATTAACTATGATTTATTTTTGTTTTATTCCCATGGGAAGCAGCATTGGATTTTCTTGGCGAAATTTTAAGTGTCTATCCTATGCCGTCATGGAAACTTATGTTTCTCAATTCTTATGAAATCTTTTCGATTTATTGAACCTTCTAACTCTTCTATTGATTCTCAACAGGCGCTCACATCCTCTCCGGAAATGTTTTTGAACCCCGAGCATTGGATGAACTAATCCCCACATGGAAAGAGGATGAGGTTTATTTTACTTAGTTTTTCTCTCTTTTATAGCAATTCAGTTAAACCGAAGATATAGGAAATCAAATACATGGTCCCAAGAGTTCTTCTGCCTTTGAAAAACCCAAATACTCTTTCTGTCCGCGAACCTTAAAATTGAAGGTCTAACTAGGAAGAACCATCTTCAGAAACACAAATAAAAAGAGGAAAAAGCTCCTTGAAAGCAATCTATTAAGGGTCTGTTTGGATTAACTTAAAAAAACGTTTTTTAAAAATTCATTTTTATTTAAACACCTTTGATGAAAACTATAGAAAATATCAATTTAAACCCTAAACTTTGTGGGTCGTATCAATTTAAACCTTAAACTAATAAACTAACAATGGTAGATTTAAACTCTGAATTTTGAGGTTGTATCAATTTAAACCGCAAACTAAAAGTTATATCAAATTAACCTCTGAACTTTGACAATGGTAGATTTATTAGTGTATCAATTTAAACCTTGAACTTTCATGATTGTATCGATTTAAATCCTCCAATTATAAAAGAGCAGAAGAAGAACAAGAAAAACCCGAAGAAGAAGCGAGGAAAAAACCCCCTCAATTTATGTTTTATTTGGATACACTTATGAAACTTGATGGTTTAAATTGATGTATTTATGAAAGTTAAAAACTTAAATTGATGCACTTATAAAAGTTCAGAGTCTAATTTGATATGACTATTAGTTTGAAGTTTAAATTAGGCAACCCCCGAAGTTCAGGATTTAAATTAATACGACTTCTAAGTTTAGGCATCAAATGATATTTGCCCTAAAAATTATTTAAAGTACACTGTCAAACACTCCAATTTCTCCAAAATGACTTAATTTTTAAATTAAACACTTGAAATGTATTCCAAACATTACCCTAAATACCACATGAATTCTCTTTCTAACATAAAACACACCTCCAACTGATTTGCTTAGAAACTAATAGCTCCTTGAATGGTTTTCTGAGTCTTAAAAATTATTGGAACGGCCTTTGTTTTAAAAAAATGAAGTCCCACTTTTGTAATTTTGACTCCACAAGGTGTGTGGGCTTGAGTTTTTGTATGGTCTTTTTGTACTTCCGTTTGCTCCTAGTGAAGGCTAGTTTGTTATTTAAATCTGCATGTTTCTAAATGACTAACTAAAATAACTACTCTTGCATCTCTGAGATTTCAAAAACACTTTGCTTCAGGAATTTTCAACTAGTAAATGTTATAAACTTGTTTTTATTTAATTTTCGAGTTTCTATCTGGAATTAACAGATGATCCTTACTTACCATAACAACACTTCTGGTGATGATTTTTTTTATTCAAGAATTAATCTTTGCTGCCAATTATTTGCAGGCACCAATCAATGTCCCTGTGACTTCTGATAAGTTTTGGTTTCTAACAAAAAATCGTGCCTTTTCACTTCCCTGTCCCTTTAATAATGAAGGAAACTATGTGATAAGGTATTCGCTAATCATGTTTTGAATTGAGTCTTAGTCTAAGTGACCATGTATGAGTTTATACGATGCTATTTTCTTTTACCTTATACTGTGTATGACATAGAATAGTTCCTTGGGATAGTTTAACTGCATGCAGATTAGATTGCACACTTCTAATTGAGAATAATTTCCCTGTATTTAGTAGATTGAATGTATATCAGTGAACGTAAAAACTCCATGTTCACTCTTATGAATGAAGAAAAGAAGAAAAAAAACTTAAGATTCTTTGCATCTTTATGTGGTTTCCCATAAGCTGACTACACCAATTTAATCAAAGAGAAAGGAAAGGGTGTTTTGTATTAAGCCCTCCTCCCTAAACATATCCATCAGTAGGGTAATCTACCTTTCTAGATAGCTAATCATATCCTTAAAGGAAGTGGTATCCTCCTGTGGCAAAGAACTAAAAACAGAGCTCTTTATTTCAACTGGCACTTCTTTTTCACTTGTTATTCTTTCATAAATCACACATATTGTTATTGTATGCTTAAGCTTCCTTACAGGTCTTGGAGTATTGTTAAGATTTGACATTACATTTCTCGTGCCATATTTGTTTTTATAATTTTTGTAGTATCAGAAATTTACAACTCCCCATGGGATATAACATTTCGTATTCTTATTTGATTTTGGGAGGGGAGTTTTTGTATTTTTATTGAACTTTTCTTTTGTATTTTCTTCACCCCCCTCAACCCAAGTGGTCATGCTTTGTGCGGCTTTCTTTTCTATTTAAAAAAACTAAGAGATGTACAGTAACTAGGAGAGAGACCCCCCACTTGCCAAAATCCATTAGATTATTCCTGTGGATGCTTCCTTGTTTTTGTAGTTTAAGTGAGTTAGTTCGTTGGATGGGAATGAAAGCTGAAGAGCTGGGGGTAGAAATATATCCAGGCTTTGCTGCTAGTGAGGTATTCATTCAAGTCCTTTCTCATTCTCGCTTATCAGGTTTTGGATGATGATATCTTCAGATTACATGGTGAATTTTTCAGGTGTTATATGATACAACTGACGCTGTTATTGGCATTAGAACTAATGACATGGGAGTAGCAAAAGATGGCTCAAAGAAGGATAATTATCAACTTGGTGTAGAACTGAGAGGTTATCTCACTTTTTTCATTTCTCTGTTTCAATGCTAACTTTAAACTAATGTGTGTCCTTTATCTTCTATATAGGGCGCATAACGCTTCTGGCTGAGGGATGTCGAGGATCAATATCAGAGGTATCGCGAATAATATGCTTCTGCTTGAGTTATATGTGATCATACTTTCATTCTTTTAAGTTTTACCATCTAATGCAATCTGCACTTTTGTCTTTTTATATGATGAAACAGAAATTAATAAAAAAATACAGTTTGAGGAAGAAGGTAAATGCTCAGCATCAGACGTATGCTTTGGGGATCAAAGAGGTGAGTACTTTATTAAGCAACTTTTTATTTCCTAGTTCCAACTGTTAAAGAGGTACCCTGAATATCAGTCTCTTTTCCATTAGAGATTTGATCCGTTAATGTTTCAGACTTCTAATTTCACGAAAACAACTATGTTGCCCTATATTTCTTTGAGTAGTGTTAAAGGCTAGATTTGGTAAGGTGAAATGGAACATTCTTATGAAAGATATAAGATTTTTGTTACCTGGCCTGGATATGTAGTTGAGATTACTTAGACAGTTTATGACCTTTGCTCTGTTTAATACCTTTGACGATGTCTGTGAAACATCCTGCCATTGAGATAAGCTTGGAATTGCTACTTTTCATCTAAAAGAAAAACAAAAAACAAAAAGGTATTTTAGCATTGCAACCAAAGGGCAGAAAGTTTGGGGCTTGGCTCATCAGTTAGTTTAATGTTTAACATATAATTCTCAGGCCCGGGCTCTACCATTGTTGGGTTGTTCTCTAGCTTGATATTACTTCCAAGAGAGATTTCTGTGCATCAAAAAGAGGAAAAAGGAACTCCTTATTTCTTCTTTAACTTTAACGGCTTTTGATTGGCTACTCAAAAAATTAATTAAGAACTTTTACTTTGTCACACTACACATATAAATGATTTTTTTCTGTTTGAATAAGGAAAAGAAGAAAAGGAACAAATAGAAAAAAGTTAAGTAAGGATTAATTATTGTTAAGTTCACACCCTTCACCGCCAGGTGCTAGTCTAATTCTGCAGATTTGGATTTTATGATATTGGAGTTCCACGTAATTTCTCGTATCTGTACATACTTCCAAATCAATGTTTACAACTAGATGATTGATTGTACACTCAGGTGTGGGAAATAGACGAGGGCAAACATGATCCAGGAGCTGTGCTGCATACTTTGGGTTGGCCTTTGGACCGTAAGACGTATGGAGGCTCGTTTTTGTACCACATGAAGGATAGACAGGTAATACATGTTTCTTTTTTTAAAAAAAAATTGTAATACATTGTCTTGTCCATTATAAGATTTTTTTTTAATGTTAAATCACCCAATAAGATATATTTCCAATTGGCAGGATTAACTGTAACACACCCTTAGGTGATGGGAACCTTATAAGCTCTTTTTATTTCATTTATCAATAAAATCTGTTTCTTTATCTTTCGCTCTCTTTTTTTTTTTGTGGAAAAATGAAATCTGTATTGTGTGCAGTGGCGGATCTAGAAAATTTATTGATGGGCTTCAAGTTGTAACTTAGAGAAAAAATAAAAATTTGAAAAAAAAACTAGACAAGTAAGACTTGAACTCTGGTTGGAGGGGAGGCTGACAAACATAGTTACCACTAAACTGTCTACAAATATTAAACATTAATTGGTTTTTTTATACATATTATATAAAGACAATAAAGTTGAGGGGGGCCGAGTGTCACGGACATATTTTTCCAAGGTGTGTTTACCTTTGGTTATATGCTCCGATTAGCTCCCATTTATCTTATCTTTAAACACCATATTTAGTTTAGGCATTTGCATTTCATTCATTAGGTCATAAAGCTTGGGTGTGACGTTTCGGCATTTTCATATGCAAGCCTACCAGAGCTGAAAATGTTCAAAATGTACTATAGGGGAGGCATATCAGTTGAATCCCCGCCCAAGCATTAATTGTACTCTTTGCAAGCAACCCTTTTTCCTTGCAATTGACAGTCTTTAATGCTTATTGTAACGTCTATTTCAATGTATTTCTTTCTTTCCCGCGTTTTATAAATAAATTTCCCAAGAACGCTAAGGAAGGTTACGACATACGTCGACGTTACCCACAACTTTTTGATTTTGATCTACTGACTTGTTCATCGAGTTAGAACAAGTACCGCACAATCGTCCGTCTTAAGGTTGAAACGCTACGATTGTGACACCGAGCGGCCCCCTGGACCTATACTAAATCCGCCGGTGATTGTGTGTATATATAAACCACTTTAAAAGTGTAAGTTGATAGGTTACAGTAAATTTAATTATACCAATACTTTAGCATTCTTCCTCCCTTATGAATTTGAAATTTTGTTTTTAGGCCGAGCATGTGAAAATCAATATTAATTGGAAGAGACATTCCAGAGTTTCAAACATAGAACTTATGGCAAAGCACCATGTTGAATCACAAATCAATCTAAAAACTTACATTGATGGGTTATAGTATATTTTCTTTGTGTGCTTTGATTTCAAAAGTTTTTAGTAACCATTCTATAGCTGTTATTTTGCGTTGTTGGAGTCTCTTTTTATAGGGGGTGCTCCTTTCTTTTTTGGGCTTGTTTTTTTGTATGTCCTTGTATTCTTTAGTAGTTATTCTCATAACAAAAAATCAAAACTTTTAACATACATTTCCTTTTTAGTGTTATAAACCTAGACACAAAAATGAGAAAAGATTATTTGGACAGTTGGTTGTTATTTCTTTAGTTAATAAGATTGCATGTTATTTGTTTATTTATTAATACGGGTATATATTAGAGCCGAAACAAAGAGTTATGAAATTATTCCAGTCCAAGTCCTACAAAAGTTTATATATATTGCGAATAAAAGAACTTCTTGTAAAAGGCACCCCTATGAGACGTCACATACTAACATAATCACAAAGAGTAAAAATGTTTTTTAATATTTGTATGGCCAAAGAATACTGTTTTTTGTTTCTACCTCACTGATGTCTTTGTTTGTTTCTTTACCATTTTATTTATGTGTATCTGTATCCTAGAAACATACCAACTTGGTTTATTGGCATGTATTTCCCTGATATCTTTTTTGGTTTCAAAGCAATTTATATGCATATGACTTTGTGAACAATATGCTATTTGTGTCTTTTATTTCTAACTCAAGCTTCTCTTGATTTAACAGATTTCAATCGGCCTCGTAGTTGCTTTAAACTATCAGAATCCTTTCTTGAATCCTTATGAAGAATTTCAGGTATAATATTCTTATTGTATTATTTGCACAGCACTCACCTTCCAAGCATCCCTTTTTGAGCCCATTAAAAAATCTTGTTTCGCTTGACATGATTTTTGCTTCTGTTAGAAATTAAAACACCATCCTGCCATCAAAGATCTTCTAGAAGGTGGGACAGTTGTGCAATATGGGGCTCGAACATTAAATGAAGGCGGTCTTCAGGTGTGCAACCTTTATACTACTGAGAATTTAAAAAAATCTGTCATCGGAACTACATTGAAAGGCTTTGTGAATTGGGCAAATTAAAATCAAAATCAAAATCAAAATCAACATGCAATATTATATATATTTTGAGTACATGCAAACTAAGTTGTTTATTTTTTATTGTTTACATATTTAATATCATATTGGTTAGTTAAGGTTAATGGAGAGAAGAATGGTTATCCATAAACAGGTTGTTATTGTGTTATCAATAAATTTAAATGGTTAGTTACAAGTAATTGCAGCCGTCTCATTTGTGATTCGTGAGTCATGATCTGCTAGGGAAGGATCTATCTACTTTTATTTTCAGCAACTGTCATATACTATCAAATAGGAATATGATGCTAGTTAAATTTCAGTCTGTTCCATATCCAGTTTTCCCGGGAGGAGCAATTATTGGATGTTCAGCTGGCTTTTTAAATGTCCCCAAGATTAAGGGAACGCATACTGCAATGAAGTCAGGTACTTCTCAAAATTCTCTGATTTGCAACTCATGTTTGATAAAATCTGAAACTCCTTAAGAATAGGTCATTCTATATAAATTCTGAGGAAGCGATCTTTTCTGTTTTTTGTTGAATGTATTTCTTTCTTTAGCCAAGTTCAAGATATCTCCAAGACTAGAACTCTTGTTTCCTCCTGTATATTAGCTCTTCTCTTATCTTCTTGAATTCCAGTCTTAAAAACAGCTTAATTAAGTAATAAGCCATCAAAGACTGATATCTTATGCCTTCTAGTGTCCTCCTCCTCAAGAAGTTCTCAAATTGGTTGTTTGCCTTGTGATTCTGGTTTTTGAATACAGCAGTTTTTTTTATGTTTTCTGGTGCGAGTTTCTGGCAACATTATCTTTGACTAACATAACATTTTTTTTACCAAATAGAGACTTTGCCTAACGTGTTGATGTATATTTAGTTCTTTTAAAAGTAAAAATCAGTCTCTTTGTTTTGGTTTTGCTATTGACTACTGTCAAGTTGAGTGATAATACCGACGTCTTGAAGGATAAGGATTTTATGCTCAAAATCTCTGTTAAGTATTTCCTCTTCATGATTGGTGATTACTCATCGTATAGCCAAACATTTTCTTAAGAAGCATGTCAGATATTCAGATTTTTTGTTTATCCTTTCTCTTCTTGTTTAGCATAGTTAGGCCAAGAACTAGTTCTTGGACATAAAAAATTTCTTTAATCAAGATTCCTGTGGCAAACTTTCTATTGAGGTTGGAGTGTAATCTTCTTTTCTTATCCTATATCCATATGGCTGGACTTTGTGAAGCTCGTGTGTTCTTTCTACATCAGATTCAACTAAACTCGGTTTGCTTTAAATTGAATGCTGTAATGTCTACTTGAACTCAGCCATTTGTCTCCACCCTTGACGAATTGTTTTTTGTAAATACAGAAATATCTGTACAATTACTACATTAATTTAGTCTCGTGAATTACTTGCTTTTAATGACAATACCAACTGCACTAGTTTTATTTTTATCCCGTTCTTCAAAGTATCAATTGTGTATTAAATGGATCTAATATTCAAATGTCTATGTTCTGACAGGAATGCTGGCAGCTGAGGCTGCATTTGCCACGCTTCATGGAGCCTTAAAAATGGATGTGTATTGGGATAGTTTGCAAAGTAGTTGGATATGGGAAGAACTTTATCGAGCTCGGAACTATAGACCTGTAAGCATCTGTTTTCTTGTCTTCACATCTTTGTTTTTTTAGAGCATATTTATAATTATATTTAATTCCATATCTGTTTTTACTTTTATATATTTAAGAAGTTTAAGAGGTAAAAATAGACTGAGTACTAAGTTTTCACTAAATGTTGTAATTCCATCTTCTGTCTCCTGATATTATTGTTGCAGGCATTTGAGCATGGTCTTATCCCTGGCTTGACAATAAGTGCTCTGGAGCAGTATGTATTCGTCCTCACCTTCAGCTGTTTACAATCACTTAATATTGTTATTTTTTATGTGTGAAGACTATTCAAATCTCTTGTACTCTAAGTTCAGTGACTATTTCATTGCATTTTCTTTTCTGCCGGCAGCTACGTGCTTAAAGGAAGGTCCCCTCTCACACTAAAGCATGGGAAACCTGACCACGAAGCTACAAACGTCAGTATTTCTTATTTCAAAACCTTGCTTCTTATTTCTTAGTCATAAAGAAACATTAGTTTTTGAGCACTCAAATTTGTCCTTTTCTTGGCTTTCTCCATTCTGACATTAATCAAAAGAGCCTGCCTTTCTTTTTTTTTTCTTTTTTTTTTTGGTGGGGGTGAGGGGATGTAGATCTATCAATTGCAAATATATTCCAATTAAATACTGACCGTTGAACATCAATTGTACTAGTTTCCAAGTAATAATAATGATCAAATTGTGTTTTGTTTTGAATTTCGGATCTTTGTTATTTATGCAGGTTGCAAGTTTACATACTCCAATTGATTATCCAAAGTCTGATAATCTTTTGTCATTTGATGTGCCAACCTCACTACACAGGTTTTATACCATACAACTTCCTTTTTGTAGTTTCTGTTCAACGATTGAGGACATATAGGTAGATTATGCGAGGCACTTGTTTGGTTTTCACTGAATGTATCTGTGTGTGGTATAATGCCTTAGCTGATCAAGATAAATGCAGTGGTCTTGGACGTTAATGTGCCAGTAAGGCACAGAGTTGTCTTTGCAATGATATTTGTTAATGACCAGATAATATGTTCTGTGGACAGCAAGTGGCATTTTTCACTTTTTCTGATATTTATTTGGTTTCCAACTATTGATGAATGTTTGAAAATTTGTTTATACATATGTTAATCATTTTTGTTCATATAGGAGCAACACAAATCATGAACATGATCAGCCAGCTCACCTTCGCTTAAGGGACGCCAGGATTCCCAAGGAAGTAAATTTGAAAGAATATGCTGCACCAGAGTCAAGATATTGTCCTGCCCGCGTATATGAGTAATACATATATGCACTAAAGTTTGTGGCATGTACTCGGTAACTTTCATCTGATCATTTCTAATTGTGTTCATTCATGAGTGGAATTGTAGGTATATACCTGATGACAACGACCAGATGAAGTTGCAGATTAATGCTCAAAATTGTCTTCATTGCAAGGTAATGTCCAGTGCATATGAATTACAGTTAACTATCTTTAGCTCCTGCCTTCATTGATGGAGGGAAGAGAGAATTCTTTTCCCTAAGTATGCAGACAGGAAGAATGTAGGGGAACTGTCTTTTTCTGCATGCAGCTTTAGTTATGCATTTTAAGCTTTTTACCCCTGGGAAGCTTCATCAAGAATGTGTTTATGTGTTTGGGGGGCAAGCGAAGAGCTGTAGGAGTAGGGGAACTGAAGGCAGTATTAAATTGGGAAAAAAATCATTGAAAGGTCTCTGTTTAGTATGTGGGGATAATTAGAACAGGATGGTGGAGTTGGGTTCCCAATTTTCTTTTTGAGTCGTCATTACGGATTTCTACTCCATGGATAGTATAGAAATGTTTATGGAAATATTAGGATAACGTTGTAACTTCTGTAAGAATAGAGATTATTCTACGGTTTCGTGGTACAAAAGAATGCTATAGTTGAGCTGGTAATGAATGACACTTTTCTTGCAGGCTTGTGATATTAAAGATCCAAAACAAAACATAGAGTGGAGCGTTCCGGAAGGAGGTGGCGGTCCAGGCTACTCCGTCATGTAAATGCCTCAATTTCGTTTTACACTCTCCAAATTCAAATCTCCTAAGAAATCGCTTTGTACTTCATCTTCTTCCATTTATTACCTACGCGCCAATGCCTCAACTTCTCCACCTCAATTCTCTCCTTTCATCTCCAAATTCACTCAAAGACAACCAAATGTGGCAAATCCTTCAAAATTTCCATCTGGGTATTTCTCACATTGTCATCAGCATCGATATTCCAGCTTCTCCGGGTGCCATGGTGAATTTAACCCCGTTTTTACTAATGGGAGTCGGCTGAAATACTATAATTTAAGAGGTTACAGAAGAGGAAAAGTTTGGAGTTGCTTGAACATGGTCAGGAGATTTAGTAGTGAGGCGGAACGAGAGTCTATAGAATATGATGTTGTCATCATTGGAGCCGGACCTGCTGGGTTATCTGCGGCGATTCGGTTGAAGCAAATGTGTCAAGAAAAGGGTGTTGATTTATCGGTTTGTGTAGTGGAGAAAGGCGCTGAAGTTGGCGCTCACATCCTCTCCGGAAATGTTTTTGAACCCCGAGCATTGGATGAACTAATCCCCACATGGAAAGAGGATGAGGCACCAATCAATGTCCCTGTGACTTCTGATAAGTTTTGGTTTCTAACAAAAAATCGTGCCTTTTCACTTCCCTGTCCCTTTAATAATGAAGGAAACTATGTGATAAGTTTAAGTGAGTTAGTTCGTTGGATGGGAATGAAAGCTGAAGAGCTGGGGGTAGAAATATATCCAGGCTTTGCTGCTAGTGAGGTGTTATATGATACAACTGACGCTGTTATTGGCATTAGAACTAATGACATGGGAGTAGCAAAAGATGGCTCAAAGAAGGATAATTATCAACTTGGTGTAGAACTGAGAGGGCGCATAACGCTTCTGGCTGAGGGATGTCGAGGATCAATATCAGAGAAATTAATAAAAAAATACAGTTTGAGGAAGAAGGTAAATGCTCAGCATCAGACGTATGCTTTGGGGATCAAAGAGGTGTGGGAAATAGACGAGGGCAAACATGATCCAGGAGCTGTGCTGCATACTTTGGGTTGGCCTTTGGACCGTAAGACGTATGGAGGCTCGTTTTTGTACCACATGAAGGATAGACAGATTTCAATCGGCCTCGTAGTTGCTTTAAACTATCAGAATCCTTTCTTGAATCCTTATGAAGAATTTCAGAAATTAAAACACCATCCTGCCATCAAAGATCTTCTAGAAGGTGGGACAGTTGTGCAATATGGGGCTCGAACATTAAATGAAGGCGGTCTTCAGTCTGTTCCATATCCAGTTTTCCCGGGAGGAGCAATTATTGGATGTTCAGCTGGCTTTTTAAATGTCCCCAAGATTAAGGGAACGCATACTGCAATGAAGTCAGGAATGCTGGCAGCTGAGGCTGCATTTGCCACGCTTCATGGAGCCTTAAAAATGGATGTGTATTGGGATAGTTTGCAAAGTAGTTGGATATGGGAAGAACTTTATCGAGCTCGGAACTATAGACCTGCATTTGAGCATGGTCTTATCCCTGGCTTGACAATAAGTGCTCTGGAGCACTACGTGCTTAAAGGAAGGTCCCCTCTCACACTAAAGCATGGGAAACCTGACCACGAAGCTACAAACGTTGCAAGTTTACATACTCCAATTGATTATCCAAAGTCTGATAATCTTTTGTCATTTGATGTGCCAACCTCACTACACAGGAGCAACACAAATCATGAACATGATCAGCCAGCTCACCTTCGCTTAAGGGACGCCAGGATTCCCAAGGAAGTAAATTTGAAAGAATATGCTGCACCAGAGTCAAGATATTGTCCTGCCCGCGTATATGAGTATATACCTGATGACAACGACCAGATGAAGTTGCAGATTAATGCTCAAAATTGTCTTCATTGCAAGGCTTGTGATATTAAAGATCCAAAACAAAACATAGAGTGGAGCGTTCCGGAAGGAGGTGGCGGTCCAGGCTACTCCGTCATGTAA ATGCCTCAATTTCGTTTTACACTCTCCAAATTCAAATCTCCTAAGAAATCGCTTTGTACTTCATCTTCTTCCATTTATTACCTACGCGCCAATGCCTCAACTTCTCCACCTCAATTCTCTCCTTTCATCTCCAAATTCACTCAAAGACAACCAAATGTGGCAAATCCTTCAAAATTTCCATCTGGGTATTTCTCACATTGTCATCAGCATCGATATTCCAGCTTCTCCGGGTGCCATGGTGAATTTAACCCCGTTTTTACTAATGGGAGTCGGCTGAAATACTATAATTTAAGAGGTTACAGAAGAGGAAAAGTTTGGAGTTGCTTGAACATGGTCAGGAGATTTAGTAGTGAGGCGGAACGAGAGTCTATAGAATATGATGTTGTCATCATTGGAGCCGGACCTGCTGGGTTATCTGCGGCGATTCGGTTGAAGCAAATGTGTCAAGAAAAGGGTGTTGATTTATCGGTTTGTGTAGTGGAGAAAGGCGCTGAAGTTGGCGCTCACATCCTCTCCGGAAATGTTTTTGAACCCCGAGCATTGGATGAACTAATCCCCACATGGAAAGAGGATGAGGCACCAATCAATGTCCCTGTGACTTCTGATAAGTTTTGGTTTCTAACAAAAAATCGTGCCTTTTCACTTCCCTGTCCCTTTAATAATGAAGGAAACTATGTGATAAGTTTAAGTGAGTTAGTTCGTTGGATGGGAATGAAAGCTGAAGAGCTGGGGGTAGAAATATATCCAGGCTTTGCTGCTAGTGAGGTGTTATATGATACAACTGACGCTGTTATTGGCATTAGAACTAATGACATGGGAGTAGCAAAAGATGGCTCAAAGAAGGATAATTATCAACTTGGTGTAGAACTGAGAGGGCGCATAACGCTTCTGGCTGAGGGATGTCGAGGATCAATATCAGAGAAATTAATAAAAAAATACAGTTTGAGGAAGAAGGTAAATGCTCAGCATCAGACGTATGCTTTGGGGATCAAAGAGGTGTGGGAAATAGACGAGGGCAAACATGATCCAGGAGCTGTGCTGCATACTTTGGGTTGGCCTTTGGACCGTAAGACGTATGGAGGCTCGTTTTTGTACCACATGAAGGATAGACAGATTTCAATCGGCCTCGTAGTTGCTTTAAACTATCAGAATCCTTTCTTGAATCCTTATGAAGAATTTCAGAAATTAAAACACCATCCTGCCATCAAAGATCTTCTAGAAGGTGGGACAGTTGTGCAATATGGGGCTCGAACATTAAATGAAGGCGGTCTTCAGTCTGTTCCATATCCAGTTTTCCCGGGAGGAGCAATTATTGGATGTTCAGCTGGCTTTTTAAATGTCCCCAAGATTAAGGGAACGCATACTGCAATGAAGTCAGGAATGCTGGCAGCTGAGGCTGCATTTGCCACGCTTCATGGAGCCTTAAAAATGGATGTGTATTGGGATAGTTTGCAAAGTAGTTGGATATGGGAAGAACTTTATCGAGCTCGGAACTATAGACCTGCATTTGAGCATGGTCTTATCCCTGGCTTGACAATAAGTGCTCTGGAGCACTACGTGCTTAAAGGAAGGTCCCCTCTCACACTAAAGCATGGGAAACCTGACCACGAAGCTACAAACGTTGCAAGTTTACATACTCCAATTGATTATCCAAAGTCTGATAATCTTTTGTCATTTGATGTGCCAACCTCACTACACAGGAGCAACACAAATCATGAACATGATCAGCCAGCTCACCTTCGCTTAAGGGACGCCAGGATTCCCAAGGAAGTAAATTTGAAAGAATATGCTGCACCAGAGTCAAGATATTGTCCTGCCCGCGTATATGAGTATATACCTGATGACAACGACCAGATGAAGTTGCAGATTAATGCTCAAAATTGTCTTCATTGCAAGGCTTGTGATATTAAAGATCCAAAACAAAACATAGAGTGGAGCGTTCCGGAAGGAGGTGGCGGTCCAGGCTACTCCGTCATGTAA MPQFRFTLSKFKSPKKSLCTSSSSIYYLRANASTSPPQFSPFISKFTQRQPNVANPSKFPSGYFSHCHQHRYSSFSGCHGEFNPVFTNGSRLKYYNLRGYRRGKVWSCLNMVRRFSSEAERESIEYDVVIIGAGPAGLSAAIRLKQMCQEKGVDLSVCVVEKGAEVGAHILSGNVFEPRALDELIPTWKEDEAPINVPVTSDKFWFLTKNRAFSLPCPFNNEGNYVISLSELVRWMGMKAEELGVEIYPGFAASEVLYDTTDAVIGIRTNDMGVAKDGSKKDNYQLGVELRGRITLLAEGCRGSISEKLIKKYSLRKKVNAQHQTYALGIKEVWEIDEGKHDPGAVLHTLGWPLDRKTYGGSFLYHMKDRQISIGLVVALNYQNPFLNPYEEFQKLKHHPAIKDLLEGGTVVQYGARTLNEGGLQSVPYPVFPGGAIIGCSAGFLNVPKIKGTHTAMKSGMLAAEAAFATLHGALKMDVYWDSLQSSWIWEELYRARNYRPAFEHGLIPGLTISALEHYVLKGRSPLTLKHGKPDHEATNVASLHTPIDYPKSDNLLSFDVPTSLHRSNTNHEHDQPAHLRLRDARIPKEVNLKEYAAPESRYCPARVYEYIPDDNDQMKLQINAQNCLHCKACDIKDPKQNIEWSVPEGGGGPGYSVM* Homology
BLAST of Chy6G113600 vs. ExPASy Swiss-Prot
Match: O22854 (Electron transfer flavoprotein-ubiquinone oxidoreductase, mitochondrial OS=Arabidopsis thaliana OX=3702 GN=ETFQO PE=2 SV=1) HSP 1 Score: 939.9 bits (2428), Expect = 1.6e-272 Identity = 430/547 (78.61%), Postives = 493/547 (90.13%), Query Frame = 0
BLAST of Chy6G113600 vs. ExPASy Swiss-Prot
Match: Q337B8 (Electron transfer flavoprotein-ubiquinone oxidoreductase, mitochondrial OS=Oryza sativa subsp. japonica OX=39947 GN=Os10g0516300 PE=3 SV=1) HSP 1 Score: 891.3 bits (2302), Expect = 6.4e-258 Identity = 403/558 (72.22%), Postives = 479/558 (85.84%), Query Frame = 0
BLAST of Chy6G113600 vs. ExPASy Swiss-Prot
Match: Q54XM6 (Electron transfer flavoprotein-ubiquinone oxidoreductase, mitochondrial OS=Dictyostelium discoideum OX=44689 GN=etfdh PE=3 SV=1) HSP 1 Score: 656.0 bits (1691), Expect = 4.6e-187 Identity = 315/584 (53.94%), Postives = 415/584 (71.06%), Query Frame = 0
BLAST of Chy6G113600 vs. ExPASy Swiss-Prot
Match: Q921G7 (Electron transfer flavoprotein-ubiquinone oxidoreductase, mitochondrial OS=Mus musculus OX=10090 GN=Etfdh PE=1 SV=1) HSP 1 Score: 634.4 bits (1635), Expect = 1.4e-180 Identity = 309/584 (52.91%), Postives = 400/584 (68.49%), Query Frame = 0
BLAST of Chy6G113600 vs. ExPASy Swiss-Prot
Match: Q6UPE1 (Electron transfer flavoprotein-ubiquinone oxidoreductase, mitochondrial OS=Rattus norvegicus OX=10116 GN=Etfdh PE=1 SV=1) HSP 1 Score: 633.6 bits (1633), Expect = 2.4e-180 Identity = 309/584 (52.91%), Postives = 398/584 (68.15%), Query Frame = 0
BLAST of Chy6G113600 vs. ExPASy TrEMBL
Match: A0A0A0L9D2 (Electron transfer flavoprotein-ubiquinone oxidoreductase OS=Cucumis sativus OX=3659 GN=Csa_3G173020 PE=4 SV=1) HSP 1 Score: 1340.1 bits (3467), Expect = 0.0e+00 Identity = 647/659 (98.18%), Postives = 652/659 (98.94%), Query Frame = 0
BLAST of Chy6G113600 vs. ExPASy TrEMBL
Match: A0A1S3AYI2 (Electron transfer flavoprotein-ubiquinone oxidoreductase OS=Cucumis melo OX=3656 GN=LOC103483963 PE=4 SV=1) HSP 1 Score: 1325.1 bits (3428), Expect = 0.0e+00 Identity = 640/661 (96.82%), Postives = 651/661 (98.49%), Query Frame = 0
BLAST of Chy6G113600 vs. ExPASy TrEMBL
Match: A0A6J1C9N1 (Electron transfer flavoprotein-ubiquinone oxidoreductase OS=Momordica charantia OX=3673 GN=LOC111009225 PE=4 SV=1) HSP 1 Score: 1166.4 bits (3016), Expect = 0.0e+00 Identity = 562/661 (85.02%), Postives = 605/661 (91.53%), Query Frame = 0
BLAST of Chy6G113600 vs. ExPASy TrEMBL
Match: A0A6J1GU91 (Electron transfer flavoprotein-ubiquinone oxidoreductase OS=Cucurbita moschata OX=3662 GN=LOC111457563 PE=4 SV=1) HSP 1 Score: 1165.2 bits (3013), Expect = 0.0e+00 Identity = 572/661 (86.54%), Postives = 600/661 (90.77%), Query Frame = 0
BLAST of Chy6G113600 vs. ExPASy TrEMBL
Match: A0A6J1IX49 (Electron transfer flavoprotein-ubiquinone oxidoreductase OS=Cucurbita maxima OX=3661 GN=LOC111479356 PE=4 SV=1) HSP 1 Score: 1161.0 bits (3002), Expect = 0.0e+00 Identity = 574/661 (86.84%), Postives = 597/661 (90.32%), Query Frame = 0
BLAST of Chy6G113600 vs. NCBI nr
Match: XP_004147657.1 (electron transfer flavoprotein-ubiquinone oxidoreductase, mitochondrial [Cucumis sativus]) HSP 1 Score: 1332 bits (3447), Expect = 0.0 Identity = 647/659 (98.18%), Postives = 652/659 (98.94%), Query Frame = 0
BLAST of Chy6G113600 vs. NCBI nr
Match: XP_008439064.1 (PREDICTED: electron transfer flavoprotein-ubiquinone oxidoreductase, mitochondrial [Cucumis melo]) HSP 1 Score: 1317 bits (3408), Expect = 0.0 Identity = 640/661 (96.82%), Postives = 651/661 (98.49%), Query Frame = 0
BLAST of Chy6G113600 vs. NCBI nr
Match: KAE8650424.1 (hypothetical protein Csa_010529 [Cucumis sativus]) HSP 1 Score: 1272 bits (3291), Expect = 0.0 Identity = 620/632 (98.10%), Postives = 625/632 (98.89%), Query Frame = 0
BLAST of Chy6G113600 vs. NCBI nr
Match: XP_038874605.1 (electron transfer flavoprotein-ubiquinone oxidoreductase, mitochondrial [Benincasa hispida]) HSP 1 Score: 1239 bits (3207), Expect = 0.0 Identity = 601/661 (90.92%), Postives = 622/661 (94.10%), Query Frame = 0
BLAST of Chy6G113600 vs. NCBI nr
Match: XP_022137932.1 (electron transfer flavoprotein-ubiquinone oxidoreductase, mitochondrial isoform X1 [Momordica charantia]) HSP 1 Score: 1158 bits (2995), Expect = 0.0 Identity = 562/661 (85.02%), Postives = 604/661 (91.38%), Query Frame = 0
BLAST of Chy6G113600 vs. TAIR 10
Match: AT2G43400.1 (electron-transfer flavoprotein:ubiquinone oxidoreductase ) HSP 1 Score: 939.9 bits (2428), Expect = 1.1e-273 Identity = 430/547 (78.61%), Postives = 493/547 (90.13%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Cucumber (hystrix) v1
Date Performed: 2021-10-25 Position : 0 Zoom : x 1
Relationships
The following mRNA feature(s) are a part of this gene:
GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
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