Chy3G052460 (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.ATGAGCATTTCAGGTTCACACGAGGAGGAAGATGATCATGGTGAGGTCTTCCTTGATGAAGCTGACATAATCCATGAAGTTCCTGTTGATGAGGAAGGTCCGTCATTCCTCTGTTGATTTTGCATTTATGTTCCTGTGAAGTTTGCTTACTAATTATTAATTATTACATTTTATGTGTTGATTTAAGATCTTCCTGATGCTGTTGATGAAGAAGGCTTTGAAGACGAATATTTTGGTATGATATGTTATATACCAGTAATCTTTGCTTGCTTAATGCTTCATATTCTCGAAGAACATTTCTATTGTATTGGTTTCTTATTTTCTAAATTATGTTTTAAGGTTTTAGAAATTTATCTGAGTATTCTGCTCTGAAAATTGTTGTATTTATTGAATTTGTTGGTTTCAGATGAGGCTGATGATTCAGTTCATACTTTTACTGGCCATACTGGTAAGAGTATTTTAATTGTTTCTAATTTTTGTGTGCCACTGCCAATTAGTTATATAGATTCTACATTGCTTTCTTTTTCTTCTTTCACTGTCTTTTTAAAGTTCATATATTAAGTTAATGAATCAACTGAGGACTATAATTACCCATGTCACGAAGGTTTAAATCTAAATGTAGTAATAGCTCTAAGAAATTTTCCTAATGGAAGTGAAGCTTGCCCTTATTCATATTTATGAATGCAGGTGTCTTTTCATGCATATAAGTTAATGTGAATATTTAAATTTGTTCTTCATGTTAATGGACGTTTATATTGGGGTATCCATTTTCAGGTGAGGTGTACACGGTGGTTTGTAGTCCAAGAGATGCCACATTGGTTGCAACAGGTGGTGGAGATGACAAAGGATTTATATGGAAGATCGGTCGAGGAGATTTTGCACAGGAGCTTAGTGGTGTGTGCATGATACTCCAAATAGTTATACATATTTTTTGTTTTACCTTTCACTTCCAAAACCGAAAGTGTTATAATACGCTTCCTATGTGTGTTCCACCTTCTTTGCATTGGCTAAATCTATGAATCTATGAATTATCATAGATCTTATATCAATTTATCTTTTCCTAACTTATTTAAGGAAAACTGTTGCAGGTCACAAGGATTCCGTGTCTAGCGTAGCATTTAGTGCAGATGGGCAACTACTTGCATCGGGGAGTTTTGATGGAATTATCCAAATTTGGGATACTTCATCTGGGAATCTTAAATGCACACTTGAAGGCCCTGGAGGAGGAATTGAGGTAAAGCTATGATTATTTTTTTATAAAACTAATAATTTGATCAAGTCATTCAGTCTTTTGGATGTTATGGTTTAGATATATGAATAGTAAGTATTTGGGAGGTGGTTGGAAAGCCAATGAATATTAGGAATATAGAATTAGGGAATCCCATGATATAGGATTATAGCAAGCTAGTACGGTTCTCATCGGTTGAGTGGGTATCAAGTGAGGTCAAAGGCACTTGTAGGAAACCTTGGGAAAAGAATTCTATTAATCTCCATTTTCTCTCATTTGGTCTTGTTAGAATTTGTGGGCTTGGCCCTGGGTGTTCATGGAAAAAAGTATTTATGGAAAGCTTACCATAAATCTTTATGTTCCTTTTTTCTTTGCCCTTGTGTATCCTATTTAAGTTCCCTCATTGTACCTTTGTAAATCATCAGAAAATAGTAATATTAACAATATCGTGGTTTTTCTCTCGGTTCTCGGGTTTCCATGTAAAGTCTCGTGTTTGAATTTATTGCTTTCAATATGGTATCAGAGACGAGCAATAACGAAACCCTAGAAACCAACCTAGGAGAAACCTAGACTGAACTTGAAGTTGCCGTCGTCGTCGTGGGAAAACTATTCCGAAGGATTCAGACGCCACCAATCTATCCAATGGGCCAACCCTCACTGTCGTCCGCGTACCCCTCCGGCTAGAAACCACCTCACGCGCCGTTGCCTTTTCATCTCATCGCCCAGCCCAACCTCCTCTACGTGTTGTTGTCTGTCCAGACTCCAACCAGCCTACCCTTCTAGTCATCCGCCGCCGGACAACAACTTGCAAAACTGTCAAATCTGTACAACAATGCAAATTTGTCGATCGACTCTTTACAACAACCTTTTCTCTATGGGGAACGGGGCTGACCAACTCCATAACAGATCAAGGGTTGTAGCGGGTGAGTCTCGACGCATTCCAAACAAATCGAGTTGTCGATGTATTCCAAGAATTTAGTAACTTTGTTCTCTAACATATCGTCAAATTATAACTGGCTCTTTAGGTTTGTTTACAGGGAATTTTTCGGGTGAAAAATTAAATGGGCAAAATTATTTTCTTAGTCCCAATCAGTAAGGATGTTCCTCGAAGGTCGCCACCAGTTTGGCTTCTTAACTGGAGAGACTGTCGTCCTACACCGGGTGACGCCTTGGAACGACTCTGGAAAGGGGAAGATTTACTCATTCGGTCCATGCTGATTAATAGTATGGAACCTCAAATTGGCAAGCTTTTAATGTATGCAGCCACAACAAAAGATTTGTGGGATACAACTCAAACCCTTTACTCGAAACAACAGAATGCTCTCGGTTGTATACCCTGAGAAAATAGGTCCATGATTGCAAACAAAGGACCCTAGACGTGACTACCTTTTTCAACAAGCTCTCTCTTCTCTGGCAAGACTCAAGAGATGGATTTGTGCAAAGAGACGGTTTGGGACACACCAAATGACGGTATACAATATGCTAAACTTGAAGAGGTTGGCCGTATTTATGACTTTCTTGTAGGGCTTAAACCCAAATTTGCTACTCTTTGTGGTCGTATACTTGACAAAGACCTCTTCCTTCCCTAATGGAAGTGTGTTTTAAAGTCCGTCTTGAAGAAGACTGTACTAATGCCATGGGTGTACTGATTACCTCTGCCACTGCTCTGCTGCCTTTAGTGCTCGGTCCTCGAATCATGATAGTGACAAGAATAATGGAAAACCAATCTCTGTTTGTGAGCACTGCAAGAAACAATGGCACACCAAGGATCAGTGTTGGAAACTCCACGGTCGTCTCCCAGGAGGTAAGAAACGGTCCTCCAACAAGAAACATAACTTAGGATGTGCCCATGTTAGTGAGACTACCACTGCTAGCACTTCTCAATCAACTGACCTTACTGCAAGCCAGACCAAGACTCCTACTTTGGGTGCCATTGCTCAGTTAGGTATGCCTCAGTCCCTTGGGCTTATTAGCGTTGATAGGAAGAATCCCTGGAATCTAGACTTGGGGGCTACAGATCACTGGACAGGTTCTTCGGAGCACTTTATCTCTTATGCCCCGTGTGTCGGTAATGAAAAAGTTTGAATAGTCGACGACTCTCTAGCCCCAATTACTGGCAAAGGACAAATAGTTCCCTTTTATGATTTGGCTCTCCATAATGTTTTGCATGTGACTAAATTGTCTTACAATTTGCTATCTATAAGCAAGATCACTCGTGAGCTGCATTGTAAAGTTATCTTCTTACCTGAATCTGTTTGTTTTCAGGACATGAGCTCCATGAGGACGATTGGCATTGCCCAGCATAGCGAGGGACTTTACATTCTTGATGATGATACCTCCGGTAGTAGTTTCTCTAGGCTAGTTTACTTTCTTGCTTTAGCACTTCTAAACATGATTGTATGTTGTGGCATTTTTGGTTGAGCCACCCAAACTTTAGGTATATGCAATATTTGTTTCTCCATCTTTTTTCTAAACTTGATGTCTCCTCTCTATCTTGTGATGTGTGTGTTCGGGCTAAACAACATCGGGTTTCATTTTCCTCACAACCATATAAACATATACAACTGTTTACCCTTATCCATAATAACGTTTGGGGTCCTTCCAAGGTCACCACCTCATTTGGAAAACGGTGGTTTGTAACTTTCATCGATGATCATACTCGTTTTATGATAGAACACTGATATAGTGTTTTTATTTTCTTGATATCTCAAACAGAAATTACAATATGAAAGAATAGTGATCCTCATGAGATGAATCACGTTAACCAAAATTCACATTCAACAAACAGTTACCTCTCCTAAACAGAAAACTTAAGAACAAAGCAATACAAAAATCACAAAATGAACTTAGAACAAAAGAACCTGGCCCTCTGCTTCTCCTCTCTCTCAAGGAGTAATCCAATCCTATTCCTTCACTAAAATCTTCATGCCTTTCTTCCCTCCCCAACTTCCTATTTATAACCATCTAACTGCCAACAAATCTAATTACCCTTATACCTCTTCCCTATACTAATCTAGGTATCTAACATCTTACTTAGGTCTATTACCGATAAATCCGAGGTTTCATCTATTTTCCAAAACTTCTATCACACCATTGAAACACAATTCCATACAAAAATTGCAATTATTCGGAGTGATAATTTATGTTATGGAATTTCAAAACCATAACCTTAGTGAATTCTTAGCCTCCAAGTCCCTTATGCTATCTACTTCCCTTCCTTCGTACCTGTAAGGAGATGCTATTCTTACAGCAGCCTATTTAATCAATAGAATGCCTTCTCGTATCCTCCACCTTTAGACTCACTTAGATTGTCTTAAGCAGTCCTACCCTTCTACTCTTCTAATTTTTTAGGTTTCCCTCCTTGTGTTTGGGTGTACAACTTGTGTCCATAATTTTGGCCCTAATCAGACCAAATTTACTCCTCGGGCTCAAACATGTGTGTTTGTTGGGTATCTCCTTCATCAATGCAGTTATAAATGTTTTCATCTGTCATCTAGGAAATACTTCGTTACTACGGATGTTACCTTCTGTGAGGAAAGACCCTACTTTCTCGTTAGCCATCTGTGAGTGAAAAGTCTAACAGCACCTTAGAACTTATCAAACCTGCTCCTAGTACTTTGTTTGACTTCGATCCTCACCTATAGTCCTACCTACAAACCAAGCTCCCTGGAAAATGTATTACATGAGGAATCTCAGAAAGGAAGTTATGTTCCCTACTAGTCAATCGTCGACTCCTGTCTAAGACTCTGAACCTCCTCGAGATCAAGGTATGGAAAACCCTACTGAATATTGTACTAATAATAAGATGAGTGAGAATGACAGGTTTGATTTACTGTTCTTGAAAATTTGGAAGAAAAGAATAATGGTGATGAGACTGAGGTTAGAGCAGGAACCAGTAATAGTGAAGCTAAATAGGGTCATACAGGGAAAATTGATGAGTATGATCTCTTGACATTCCCATTGCTCTGAGTAAAGGTACCAGGTCTTATACTAAACATCTCATATGCAATTATGTTTCCTATGCTAATCTCTCTCCACAATTTAGAGCTTTTACAACAAGCCTTGACTCTACCATAATACCGAAAAATATCTAACTGCTTTAGATTGTCCTGAATGGAAGAGTGTTGTCATGGAAGAGATGAAGGCTCTTGCGAAGAATAAAACTTGGGAGATTTTGGCTCTACCCAAGGGACACAAAACTGTGGGATGCAAATGGGTGTTCTCTCTCAAATACAAAGTTGATGAAACTCTTGACAAACACAAGGCAAGGTTAGTTGCAAAGGGATGTGCTCAAACCTACGGTGTTGATTATTCAGAAACCTTTTCTCCTATTGCTAAGTTGAATACTGTTAGAGTCCTGCTATCTGTTGTTGTGAACAAATATTGACCTCTATACTAGCTGGATGTTAAAAATGCATTTCTAAATGGGGACCTAGTGGAGGAAGTCTTCATGAGCCCTCCGTCTGGGTTCGAAGCCCAGTTTGGTCAGCATGTATGTAAACTCTATAAATCCCTTATATGGTCTAAAACAGTCACCCATAGCATGGTTTGACAAATTCACTACATTTGTCAAGTCCCTAGAGTACAATCATGGGCACTCTGATCATACTTTTTTTACACAAGTTTTCAAGACAGGGAAGATTGCATTTCTAATAGTTTATGTGAATGACATTATTTTGTCCAGAGATTATCAGACAGAAATCAATCAACTCAAGCAGAGAATGGGTGATGAATTTGAAATTGGGAAATCTGAAATATTTCCTTGGAATGAAGCTGACCAGTTCTAAAGAAGGCATCTCTATGTCTCAGAGAAAATACACCCTTGATTTGCTAACCGATACAGGTATATTGGGATGTCGTCCTGCTGACACTTCTATTGAATTCAATTGTAAACTAGGAAACTCTGATGATTAAGTTCTAGCTGATAAAGAATAATATCAGCGCCTTGTGGGTAAATTGATTTACTTATCTCATACTTATCATGATATTTCCTTTGCTGTGAGTTTTGTCAGCCAGTTTATGTAGGCTCCCTATGAGGAACACATGGAAGCTGTCAATAGAATTCTGAGATACTTGAAAACAACACCTGGTAAAGGGTTGATGTTTAGAAAGACAGACAGAAAGACCATCGAGGCATATACTGACTCGAACGGGGCAAGATCTATTGTTGACAGAAAGTCTACCTTCGGTTATTGTACCAATGTTTGGGGCAATCTTGTAACTTGAAGAGTAAGAAGCAAAATGTTGTGGCCAAATACAGAGCAATGAGTTTGGAAATATGTGAGGAAATTTGGCTCCAGAAAGTCCTGTTTGAGCTTCATCAGGAATGTGAGACTCAATTGAAGCTCTTTTGTGACAATAACATTGCTATTAGTATTGCTAACAACCCAATTCAACATGATAGAATTAAACATGTAAAGATTGATAAGTATTTCATTAAAGAAAGACTTGACGGTGGGAGCATATGCATTTCGTACATCTCTTCGAGCCAACAGGTTGCTGATGTTCTCATCAAGGGGCTTCTTAGAACAAACTTTGATTTTTGTGTTAGCAAGTTGGGCCTCATTGATATTTACGTCCCAACTTGAGGGGGAGTGTTAGAATTTGTGGGCTTGTCCCTTAGGGTGTTTATGGAAAAAAGTATTTATGGAAAGCTTACCATAAATCTTTTCTTTTCCTTTTTTTCTTTGCCCTTGTGTATCCCATTTAAGTTTCCTCATTTTACTTTTGTAAATCATAATAAAATAATTAAATTAACAATATCGTGGTTTTTCTCTCGGTTCTCGGGTTTTCACGTCAAGTGTCGTGTTTGAGTTTATTGCTTTCAATAGGTCTATTGTTTTGTGGGGATGAGAAAGCAACCTACTTTTAGGGGATAGATCCTATGCTCTGTGTTTTCTTGTTTATATGACTTTAAGTTTTATTAAAAGTTGCAGGATGGTTAATGTCGTTGTTCGTGCAAGGAGCTCTTTATCTCTCTTGGGCCAACTCTCATTTGTTTGATAGACAACAGATATCGTGGCTCTCTTATCTTGTGGAGACTGAGTTTAGATGATGGAACAGAAATTTTAGTCTTCGGACACTTGATCCCTCTAGGGTTTTTTCTTGTAGCTCTTTGTTTTGTTATTTGTTGACCCTTTCTTTGTCTAGTAAGTCGGTATTGTCCTCTCTAGATGTTGAAAATCTTAAAGAAGGTTAAGTTCTTCAGTTGGGAAGCTATACATGGAATAGTTAATATACTTGATGGGCTTTTGAGGCAGTTGCTCTCATTGATAGGTCCTTTTTGTTGTATTCTTCCTCGGAAAGTGGAGGAAGATTTGGATCATAACATTTGAAGTTGCAAGTTTACTCAATCTACTTAGATTTGCTTTGTTGTTACATTTATTGTTGCATATTTGAAGACACATGGATTACATGGAGTTCCTCCGTCGCCCTTCTTGGGATAAAGGGAGTTTTTTTTTTTTTTTTTTTTTTTGGTAAGCTGGGTATGTGTTATTTTGTAGGGCCCTTTGGGTAAAAAAAAAAACATTCAGCAATTGTATCTTTTGAGGTTTAGAGGGGCGTCCTTTTTAGGCATCGATGATGTCATAATTATACTTCAGGTCTTATTGTTTTTTATTGGAATCTCTTCCTTTAAGGGACTTCTTTCTGTGGACTTGGTTTTTTTTTTTTTTTTTTTAATTTATTTTTCTTTCCTTTGTTATGCTTTTTATACTTTTTTTCTCATCGATTGTTTGGTTCTTTATAAAATAAATAAATAATTAGCATTGTGTATTTCAGTGGGTAAGGTGGCATCCAAGAGGACATTTGGTTTTGGCTGGTTCTGAAGATTCCACCGCTTGGATGTGGAATGCTGATAGAGGCATCTATCTTAATATATTTTCTGGTCACGGTGCTAGTGTTACATGTGGTGATTTTACTCCGGATGGTATTGAACTAATTTTCTTCTTTTATTTTTTCCTATCCCAAGTAATTAACTAATAGATTCTGTGATCTATACCATATTCTAATGATTCGGCTAAGCAAACTACTTATAAAAAGAAAATATATTTAATAATTAATGAAAAGCTTCTCCTTTGGATCATTTTGAATTAGCTCGGTTGAAGCTTTTTGGTGCTTCTTATTTAAGCTGATCGCGAGTTTCTTTTAGCAGCATATTTGCTTCAATTGGAACATTTCTATGTCACGCATAGATTTTTGTTGTCTTTATTTTGGTCCTGTTGTGGTTATTGTACTTCGTTTCTTTTTATTATGTTTTCTTTTTCTTTCGGGAGTTTGTATCTTTCAGCAGTAGCCTCTTTTATGTAATGAAATTTTTTGTTTCTTATTATAATAATAATAATAATAATAATAAATGAAAAGGATCAATATCTAATCTAAATTCAACAAGAATATATACAAATCTACCCTCTTCTTTCAAGGTGGATTGTGTATGGACTATGGAGTACAATCCAATCTTGGATTTGAATTCATGCCTTTTTTTCTTTCTATTGACCAAGATGTTATTATTAAGAGCTTTTGTTGCTCCAGGTAAAATTATATGCACAGGTTCTGATGATGCAACAATGAGGATATGGAATCCAAGAAGTGGTGAGAATATTCATGTCGTGAGGGGTATGTCAGAAACTTGTTCGTATGATTCATTTTAAATTAGTCCTTATAAGTCATAAATTTGTTGAAATTTTATACATAAGTTTGTTGAAATTTTATACTCAGGAGGGATTAAAGTGGAAATCCTTTGACTGATTTTGGTTCTTGACCATCAATCTTTTGTAGTTTACTATTTGGGAGTAAAATTTCAATTGGACAGATGATGTATTGGTTAGGAGGTGTCTAGAATTTAGTTTCCAATAATTTCCAATTTGTGAAAGTTAGGTGCAGCCTTATTCCAACTGCTTCTGAATATGTAAGCTCATAACGAACTCTTATAAACATAAAGGATGAATTTGCTGGTATGAGAGACTGAAGTGCAAGAGAATAGGGGTGTTTGGCAACTTGGGTAATTTGGGAGAGGTGGGTTGGGTGGGTAAAAAAACCAATTCATTGTTTGGTTCACCAATGATTGAAGAGGTTTATTACCTCGTTATTTGCATCAACTCACATTTCTTACTAAAACACTCGTATTTCTCACTTCGTTATTTGTGTCAACTCCCCCAATGACTTCTCAGTTATTACTAACTCAATTCAGCTCTTAGTTTTTATGGCTAACCAACTGTCCCCTTAGTGATAGACTTGCTTGATTTTGAAATTGAATCATTCTTTCGAATTTTACAAATGATACTTTCTTGTTATTTTTTTTTATAAGAAACAAATTTTATTGATGAATGAAATTACGAAAAACGGCCGAAGCTGGAAGCTGGAACTAAAGGAGTTGCATGATATTCCTCCAATTGGTTATAAGGTTAGAAAGGGTGCAGGAAGTGAAGAATGAAGAAAATTTACATCAATTCATAGCATGAAGGATAATAATGTTGAAATAACTATCAAAATAGTTCCTTTGTTTGGAAAAGTCGCTTGTTTCTCTCCTTCCATGTGATCCATAAAAAGGCCGGGGTCAAATGCTTCCAAATGTCTTGGTGGGACCAACCCTAGTAGACTTTCAAATGGCGTGACATTGGACTTCCAATGCCTAACCGACATGTGGCATGACCCCTCATCCGCCAGCCCACACATGCGCTTCCTTCAGTGTGCTTCCTCGCTACCCATGCTGGGAGGTTGGTGTGGCCACATTGATGCCGCCAGTTGCGATATGCACCATGCTCTCCATTATAGGTGCTTGTTCTGTCCGACCTCCCATGGCACTGCCTACGTGAGCTCGCGTGCTTCCTTTGGTTTGCCATCGTGCTTGCGCTAAGCGTCCACGAGAGGTTAGCTAGTGGCACAGGCCACAAGTGCCATCCCCACACCAACCAACGCACGCTCCCACAAGTCTTCTGAGCGCGTGCCCCACCCCGCCGCGCCACCCATGAACAAGTGCTTTTGAGAATTCTTTTTCTTCATTTCCTTTGTTTTTATTTTTTTCTTTATTTTAAGATATTTTGAAGGGGCTTATTTTAGTCTTTAAACATTTTATGGTTGAAGAGTTGGCAATTATTGACTCCTCAAACTTGGTTGAAGAAACCCTTTAGCCAAAAACCTTTTTTCTGCCAAGATGAAATGAAAGGTTTTTATTGTTAAATGATATAAAGTTGCAACTGGAAAATTGGTGGAGTTCGTTGAAGGAAAAGAAAATATATCTGTGGAAAATATGGCTGCTTTTGCCAACCCTTTAATTAACTTGGTCTACATTCGAGCGACTATGCATATCAACTTCTCTTTGGAACTTAGTTATAAGAAGAGAGATGTAAATTAGCCAATTACAGAGATTTTTTCTCTTTTGTTTTAAGAAGTGGAAGGTGCTCCCGTTGATTACTCAGTTCTTAAATATTCCCTTCTACTAACCTTTAATATTTTGAATCCCAATGAAATAAGTGTATTCTTTCATTCTTTCTTAATGGAAGTCGTGTTTTCTCATAAAAATGTTTTTTTGAATTCCAATTAAAAGTCGATGCATTCCTGGATAAAATATATTGTGGTTTCTTGTGAGAACACAACTAGGATGGAGGGAGCCAGCAAGTAAGTTGGTGTTTAATGTCTTAGAAAGCCCTTCCAAACATTTACAATTCCAAATGTTTGGCTTGAGCTGTGTTCATCACAGAGTTGTTAGAGATATGATCGAGGAGTTTCTCTTCAATCCACCATTTGAAGGTTGTTTTCTCTAGTGTGCCAGCATGTTAGGGTAGGGTGTTTAGGGGTGTTGAGAGGGAGAGTGATGGATTATGTTCTCTTGTTCACTTTCATGTCTCCCATTGGGCTTCTATATCAAAGATCTTTTGTAATTTTTCTATGAAATTAATTTTGTATAGTTGGAGTCCCTTCTTATATGGGATTCCTCATTTTCTGGGCTTGGTTTTTTCTGCCCGTACATTCTTTCATTCTTTCTCAATGAAAGTTGTGTTTTTATTAAAAAAAAAAAAGTTGTGCTTTTCATAAAAACAAAATAAGGCGCCACCGCCTTTGTGAAGCCCAAGGCTCAAAGCCTTGGTCCTTGGGTTTCATTATTTTTAAAGAACAGTAATAATTAGGGTTTTTCAGTTTTTATGAACTAACAAAATCAAATTTACTAGCGTAAATGTAAACTTTCTTAAGTTTAGGGGCTCTTTCAATATTTCCACATTAACTATGCTCTCTTTTAAGTGCTCACAAAAGAAAGGCCTTGCTTCTTTTGCGCCTTGTGCTTATGCCCTAGAAGACCATTGCGCTTTGCGCCTTGGCTTTTAGTTGGTGAAAGAAGTTTCTCCCTTGTTTGCACTAGGAAGTTATGGGATTGGCAACCTCAGAAAGAACTTTGCATGCCTGATAAAGTGGCATGGGAATTCACTCGAGAAACACTTCATCATGGAGATCAATAATTAAAAGTAATATGGATTGAAGGATCAAGATTGGATCCCTAGGCAGATTATTGCTCTGGCCTAAATATTTTTCTGAAGAGAATACTCTTTCTAAGCTGTGAAATGGGAATTTGAGAGCATATCTGTCTGTTCTTTTTCCTTCGTTTTTTCGGCTGTCATGCTTAAACTGCTTTCTGTCAATTATTGTTGGGAGGAAGAAGACCCAAACTGATTTGGTAAGGTCAAAGTTCAAAAGACCCAGTTCTTCCAAGGAGAAACAATTTGGATAATCGCCCTTAGTAGTTCTTAAACATCTTGGGTGGTTTTTCAAGGAGGAATCTTCTCTCCAAGTTTTTCCAAGGTTGTTCGATGTGTAGTAAAAATGAAGAATCGCCTAGCCACTTTTTCATCTCCATACCTTTCACAAGGGTTGGAGCTTCATTTGTCAACGCTCTGGGTTATCTTAGTACCCTCTCAAAAGCGTTGTGTATGAGCTTCATTAACTGCTCTCTACAATGCGTGGTTCCAAGAGAAGGCCATTTCTTTTATGGTCTATCATCAAAAGAGTTTTGGGGTTGCAAAAGATTTCTTCGGTCAAAAGAGTAGAGAGACTATTTAACCTAGAAAGGAAGTGCATTTACACCATAACATAGCTAGGAAAATAATTGGCTTGAAGTAGCTATTGGAAGAGATGATTGTTGGATTCCTTCCATGCTGCCCGTGCAAAAGCTTGAATAAGATGCATCCATAAGATTCTTTTTCCATCTGAGAACCGGTGGCTATGTATAATATAGGTGAGGAGGCTGTTCAGTCTCTTGGCAAGGCTATGCACTAGCTAAAGGTAATGGTTAACTCCCCCCAAAATGTGGCGGCAAATCGACGGCTAATGATGGTGTTGTAATTCGTGAGCAGCCTTACATATAGTGCCACAATGTGGAGACAAGACCGTGCATGGAAAATTGCTTTTCTAATCTTTCTGTCTTATAAAAGAAATAAACTAGATTTTCTGATAGGATATAATTTTTTTGTTAAGTTTTGTGATCTTGTATTTTTTACTCCATCTAGTTTGAGTGTTTTTCAAAACTCAAAACCTTGTAACCTTCATACTTCTATAATCTATTTAAGGCTATTTGTTTGATTCCTCATCAGCCTTTGCCCCTATGCCTTTAGGTCAAACGATTAGAATAATATCTACATACTATTTTTGAATCATCCTCGAAGCAAGGAATTAAAGTAGTGGTACGCTCCTTTCAGATTTTTGAAGATGTGGCTGTGTAGTTGGAGTTTTTACTCAATATCTTGATCATTCAAGAAGGGAACTCAACTTCAAGGGTAGCCTACAATACCAACAAATACTTCAGCAGGGAGTATATGTATCATGAGCTTGTTGAGGATTTACTTTGAGAATGTTAGCCAAGGTTTGGTGGAATCACGTAGGTTTTCTTATTAGTGCATGGTGATGTGAACTTGCTAAACCAGAAATGGAAATTGAGAGTTTCAAACCCATGGCTCAACCCTAATGTCTGGACTGCCTTAGTCCTGGCCGATTCATCTTGTTAGGTACTTAAGCACCTTGGAGAATCACACTCCAAAAGCCAGCTATTGGGGTGGGAGAGCCAAGCAACTTAAGTACCACATTGATCATCCCATTCTAACACATGTGGGACAAAGACATACCATACTATTTTGGTTCCTAACAGATCTTTCTTTGAGCTTTATTGTTAACTCTCTCGTGGTTGATTTAATCGGTTCAGTTTCCTCCACCCTTGAATGATCTTTGAAGATCAAAATTTTCCTCTGGGTGCTTAGTCCTAGTGCTATAAATACGGTTGATTGGGTTCAATGAGAAGTACCTTACATGCATCTTTCTAGTTTCTTGGTGTCTCATGTGTTGACATCATGCCGAATCTCCAGCTCACTTATTTGCTCATTTGCAAATCAATTCTAACATGTTTTGGAGGCTTTTGGTTAGTCCCTAGTATGCCCTAAGTCTATTTTTGACCTATTCCTTTATTGTGGGGCATTCTTTTGGTTTTTCTAAAAGGATATGTTGGTTGGTTATTGTGCGATTGTTCTTCTAGATCCTTTTGGGGGGGGGGGGGTTTCTGGAATTCCTCTTTTGATTGTTTAATGGATTTAGTTGTATCAAATGCTTTTCGTTGTGCATATCTGTGCATCCTTTTGCTCATTATAGTTTATTCTTTTTCCTTTTCAGTTGGAGAGTTTTCTTGTAATCACCTCTAGGTTTGAGGTTTCCTTTTATTTCATTAATCAATGAAAATTCTCTTTTTTTTTAAAAAAAAAAAAATGTGGCTCAGCATGCTTAGGCTTAAGATTCTTTATATCAATGGAACTTAAGCATAACTACCGTAGTTGTATCATCTTTTTCTTCTGACCAAACGTACTTGAAACTCCATCCTACAGGCTGCACCTCTTCTTTCCAATATTGAGTATGCTTTGAATACATAACTTGATCTTTTTTGTTCTTGAGAGTGCCATGTGAAAAGAGCTTGCAAATTCTGGTTACAAAAATAACAATGAAGAATCAGTGGTTTGTTTATCTTGGCTTCTGTTTTTTCCCTTGCTTTTAGTCTTCAAATGGTGATGATTTTATATTTTTGTACTATTCAGGTCATCCCTATCACACTGAAGGATTGACTTCTCTAGCACTCACTTCTGATTCAACACTTGCTCTTACTGGTTCAAAAGATGGTTCTGTTCATATTGTGAACATAGCAACTGGAAAGGTTATTTCTACAATTTATGTATATGAGCTTCTTTTGTCTAGCTAGCAGTTTTGTAAATGGGGATGTTAGGGGGGTTCTTTCCAATGAATATAACCCATCCCTTGATCTTTCTTGTCTCACAAAGTTGATTGCATTTGAATGAACAATTTATGCCACATTTTGGATCTCTTTTTGTTTGAAAGACATTGACTGAGCAACTAGATTGTATATTACGTAACCATTGAGAAGAATAATTAAAGTTCAGTTGAGTGAAAGCTACATAGTTAACGGTTATGGCATTGGTTTTTATGTATTATGGCATGGTGGGAACTAGTTTATATAGGAGCAGAAGCGACCTATCATCTTGATTTTTGAAAGCTTAAAAATTGTATCTTCTTGAAGCATTGCACAACGATTTGTAAGAACTTTCTTGAGCTTCTGGCTCACTTTATGTGTCTGTTTTCTTTAATATCGAAAACTTGGGACAGATCTTCTGTCTTTTACCAGACTTTATTTAGTTATTTGTTGACAATGTCGAACTAGATATCAGATATGTGTAATCTGCAAGATATTTTGTATTTGTCTTAGTATTGGGGGAGTCGGACCAGAATTGTTGATAAATGCCAGCAGTTGTAGCTCTGTTGATTAGCCTTACAACAAAGTTTAGATCCTTACTTTCCAATTTCCATGCATTAACCATTGTGGGTTGGGCTATTGCAATTGCTTGTAATGCTAAATGTTGTAGGGTCAATGAAAGTTCTGTAAGATTACTTGAGGTCTGGATATCCACAATGATTAGGAAAAATAAAAATAAATCGACACTGCTTTCAACCGTGGATGCAAATTTCTGATTTTTTTATGTACTTGATGATGCAATGGATAGATTGAAATGAAGACACATTATTTTAGGCTTTTTTTATTTAGTTAGTTGCTTGGATCATGTGTGTTTTTTATGGCCGTGGACTTCTGTTTTGTATTACTGTTTCTCATGCATAAAAACTTGCTACTTTTGACAGGTGGTGAATTCTCTTGTTTCCCATTCAGATTCAATTGAATGCATCGGTCTGGCACCCAGGTATTGTGATTTGTTTTTATATAATTTTCTATCACAAGTTAGAGTTTTCAGAAAAGAAATTGTGATTTATGAAAGCATATACACTGTAAAACGAATAACCAAATGCCTTCGACGTGTCACTAAATTATTAAGGACGTTGAAGTTAGTGCAAAATGTTATAGACACTTCCTTTTCTGTAAGCCTAATAAATGTTCTGATTTTTGAAATCTTGAACTGCAGCTCCCCATGGGCTGCAACTGGAGGAATGGATCAAAAGCTCATTATCTGGGATCTTCAACAATCAACGCCACGCAGTACATGCGAGCACGAGGTCTATTGACTACTTATTTATGTTTACAAGTCCATAAAATACTATCTAGTTTATCACTGATCTCACTGATCTTCATAATTTTCCGTTGGTGTAGACTGTAAGTAGAATTGACTAGTAGGGTTTGGCTTGTTTAAGCATAAATACAGCTTCCTTTCATTTTGGACAGGATGGAGTAACATGTCTTACTTGGATTGGCACGTCGAGATACCTTGCTACTGGATGTGTCGATGGTCGAGTACGAATATGGGATAGCCTCTCTGGAGAATGTGTAAAAACCTTCTCCGGGCACTCTGATGCCATCCAATCTCTCGCGGTGTGTGCCAACCTTGAGTATCTTGTTTCTGTTGCTCTTGACAATACAGCTCGGATCTTTGAGATTGCGGAGTACCATTAAATGAGCATTTCAGGTTCACACGAGGAGGAAGATGATCATGGTGAGGTCTTCCTTGATGAAGCTGACATAATCCATGAAGTTCCTGTTGATGAGGAAGATCTTCCTGATGCTGTTGATGAAGAAGGCTTTGAAGACGAATATTTTGATGAGGCTGATGATTCAGTTCATACTTTTACTGGCCATACTGGTGAGGTGTACACGGTGGTTTGTAGTCCAAGAGATGCCACATTGGTTGCAACAGGTGGTGGAGATGACAAAGGATTTATATGGAAGATCGGTCGAGGAGATTTTGCACAGGAGCTTAGTGGTCACAAGGATTCCGTGTCTAGCGTAGCATTTAGTGCAGATGGGCAACTACTTGCATCGGGGAGTTTTGATGGAATTATCCAAATTTGGGATACTTCATCTGGGAATCTTAAATGCACACTTGAAGGCCCTGGAGGAGGAATTGAGTGGGTAAGGTGGCATCCAAGAGGACATTTGGTTTTGGCTGGTTCTGAAGATTCCACCGCTTGGATGTGGAATGCTGATAGAGGCATCTATCTTAATATATTTTCTGGTCACGGTGCTAGTGTTACATGTGGTGATTTTACTCCGGATGGTAAAATTATATGCACAGGTTCTGATGATGCAACAATGAGGATATGGAATCCAAGAAGTGGTGAGAATATTCATGTCGTGAGGGGTCATCCCTATCACACTGAAGGATTGACTTCTCTAGCACTCACTTCTGATTCAACACTTGCTCTTACTGGTTCAAAAGATGGTTCTGTTCATATTGTGAACATAGCAACTGGAAAGGTGGTGAATTCTCTTGTTTCCCATTCAGATTCAATTGAATGCATCGGTCTGGCACCCAGCTCCCCATGGGCTGCAACTGGAGGAATGGATCAAAAGCTCATTATCTGGGATCTTCAACAATCAACGCCACGCAGTACATGCGAGCACGAGGATGGAGTAACATGTCTTACTTGGATTGGCACGTCGAGATACCTTGCTACTGGATGTGTCGATGGTCGAGTACGAATATGGGATAGCCTCTCTGGAGAATGTGTAAAAACCTTCTCCGGGCACTCTGATGCCATCCAATCTCTCGCGGTGTGTGCCAACCTTGAGTATCTTGTTTCTGTTGCTCTTGACAATACAGCTCGGATCTTTGAGATTGCGGAGTACCATTAA ATGAGCATTTCAGGTTCACACGAGGAGGAAGATGATCATGGTGAGGTCTTCCTTGATGAAGCTGACATAATCCATGAAGTTCCTGTTGATGAGGAAGATCTTCCTGATGCTGTTGATGAAGAAGGCTTTGAAGACGAATATTTTGATGAGGCTGATGATTCAGTTCATACTTTTACTGGCCATACTGGTGAGGTGTACACGGTGGTTTGTAGTCCAAGAGATGCCACATTGGTTGCAACAGGTGGTGGAGATGACAAAGGATTTATATGGAAGATCGGTCGAGGAGATTTTGCACAGGAGCTTAGTGGTCACAAGGATTCCGTGTCTAGCGTAGCATTTAGTGCAGATGGGCAACTACTTGCATCGGGGAGTTTTGATGGAATTATCCAAATTTGGGATACTTCATCTGGGAATCTTAAATGCACACTTGAAGGCCCTGGAGGAGGAATTGAGTGGGTAAGGTGGCATCCAAGAGGACATTTGGTTTTGGCTGGTTCTGAAGATTCCACCGCTTGGATGTGGAATGCTGATAGAGGCATCTATCTTAATATATTTTCTGGTCACGGTGCTAGTGTTACATGTGGTGATTTTACTCCGGATGGTAAAATTATATGCACAGGTTCTGATGATGCAACAATGAGGATATGGAATCCAAGAAGTGGTGAGAATATTCATGTCGTGAGGGGTCATCCCTATCACACTGAAGGATTGACTTCTCTAGCACTCACTTCTGATTCAACACTTGCTCTTACTGGTTCAAAAGATGGTTCTGTTCATATTGTGAACATAGCAACTGGAAAGGTGGTGAATTCTCTTGTTTCCCATTCAGATTCAATTGAATGCATCGGTCTGGCACCCAGCTCCCCATGGGCTGCAACTGGAGGAATGGATCAAAAGCTCATTATCTGGGATCTTCAACAATCAACGCCACGCAGTACATGCGAGCACGAGGATGGAGTAACATGTCTTACTTGGATTGGCACGTCGAGATACCTTGCTACTGGATGTGTCGATGGTCGAGTACGAATATGGGATAGCCTCTCTGGAGAATGTGTAAAAACCTTCTCCGGGCACTCTGATGCCATCCAATCTCTCGCGGTGTGTGCCAACCTTGAGTATCTTGTTTCTGTTGCTCTTGACAATACAGCTCGGATCTTTGAGATTGCGGAGTACCATTAA MSISGSHEEEDDHGEVFLDEADIIHEVPVDEEDLPDAVDEEGFEDEYFDEADDSVHTFTGHTGEVYTVVCSPRDATLVATGGGDDKGFIWKIGRGDFAQELSGHKDSVSSVAFSADGQLLASGSFDGIIQIWDTSSGNLKCTLEGPGGGIEWVRWHPRGHLVLAGSEDSTAWMWNADRGIYLNIFSGHGASVTCGDFTPDGKIICTGSDDATMRIWNPRSGENIHVVRGHPYHTEGLTSLALTSDSTLALTGSKDGSVHIVNIATGKVVNSLVSHSDSIECIGLAPSSPWAATGGMDQKLIIWDLQQSTPRSTCEHEDGVTCLTWIGTSRYLATGCVDGRVRIWDSLSGECVKTFSGHSDAIQSLAVCANLEYLVSVALDNTARIFEIAEYH* Homology
BLAST of Chy3G052460 vs. ExPASy Swiss-Prot
Match: Q3SZK1 (Angio-associated migratory cell protein OS=Bos taurus OX=9913 GN=AAMP PE=2 SV=1) HSP 1 Score: 243.8 bits (621), Expect = 3.2e-63 Identity = 136/409 (33.25%), Postives = 203/409 (49.63%), Query Frame = 0
BLAST of Chy3G052460 vs. ExPASy Swiss-Prot
Match: Q7YR70 (Angio-associated migratory cell protein OS=Canis lupus familiaris OX=9615 GN=AAMP PE=3 SV=1) HSP 1 Score: 243.0 bits (619), Expect = 5.5e-63 Identity = 136/410 (33.17%), Postives = 202/410 (49.27%), Query Frame = 0
BLAST of Chy3G052460 vs. ExPASy Swiss-Prot
Match: Q13685 (Angio-associated migratory cell protein OS=Homo sapiens OX=9606 GN=AAMP PE=1 SV=2) HSP 1 Score: 243.0 bits (619), Expect = 5.5e-63 Identity = 136/409 (33.25%), Postives = 202/409 (49.39%), Query Frame = 0
BLAST of Chy3G052460 vs. ExPASy Swiss-Prot
Match: Q5RCG7 (Angio-associated migratory cell protein OS=Pongo abelii OX=9601 GN=AAMP PE=2 SV=2) HSP 1 Score: 243.0 bits (619), Expect = 5.5e-63 Identity = 136/409 (33.25%), Postives = 202/409 (49.39%), Query Frame = 0
BLAST of Chy3G052460 vs. ExPASy Swiss-Prot
Match: Q00808 (Vegetative incompatibility protein HET-E-1 OS=Podospora anserina OX=2587412 GN=HET-E1 PE=4 SV=1) HSP 1 Score: 215.7 bits (548), Expect = 9.4e-55 Identity = 122/334 (36.53%), Postives = 175/334 (52.40%), Query Frame = 0
BLAST of Chy3G052460 vs. ExPASy TrEMBL
Match: A0A0A0KBX7 (WD_REPEATS_REGION domain-containing protein OS=Cucumis sativus OX=3659 GN=Csa_6G016980 PE=4 SV=1) HSP 1 Score: 800.4 bits (2066), Expect = 3.3e-228 Identity = 386/392 (98.47%), Postives = 390/392 (99.49%), Query Frame = 0
BLAST of Chy3G052460 vs. ExPASy TrEMBL
Match: A0A1S3CIC4 (angio-associated migratory cell protein isoform X1 OS=Cucumis melo OX=3656 GN=LOC103501304 PE=4 SV=1) HSP 1 Score: 798.5 bits (2061), Expect = 1.3e-227 Identity = 384/392 (97.96%), Postives = 390/392 (99.49%), Query Frame = 0
BLAST of Chy3G052460 vs. ExPASy TrEMBL
Match: A0A6J1DN15 (angio-associated migratory cell protein-like isoform X1 OS=Momordica charantia OX=3673 GN=LOC111022602 PE=4 SV=1) HSP 1 Score: 739.6 bits (1908), Expect = 6.9e-210 Identity = 352/392 (89.80%), Postives = 371/392 (94.64%), Query Frame = 0
BLAST of Chy3G052460 vs. ExPASy TrEMBL
Match: A0A6J1EQW6 (angio-associated migratory cell protein OS=Cucurbita moschata OX=3662 GN=LOC111436976 PE=4 SV=1) HSP 1 Score: 734.9 bits (1896), Expect = 1.7e-208 Identity = 347/392 (88.52%), Postives = 373/392 (95.15%), Query Frame = 0
BLAST of Chy3G052460 vs. ExPASy TrEMBL
Match: A0A6J1IRV7 (angio-associated migratory cell protein OS=Cucurbita maxima OX=3661 GN=LOC111479949 PE=4 SV=1) HSP 1 Score: 730.3 bits (1884), Expect = 4.2e-207 Identity = 345/391 (88.24%), Postives = 371/391 (94.88%), Query Frame = 0
BLAST of Chy3G052460 vs. NCBI nr
Match: XP_004138371.1 (angio-associated migratory cell protein [Cucumis sativus] >KAE8646588.1 hypothetical protein Csa_005442 [Cucumis sativus]) HSP 1 Score: 794 bits (2050), Expect = 6.21e-290 Identity = 386/392 (98.47%), Postives = 390/392 (99.49%), Query Frame = 0
BLAST of Chy3G052460 vs. NCBI nr
Match: XP_008463066.1 (PREDICTED: angio-associated migratory cell protein isoform X1 [Cucumis melo]) HSP 1 Score: 792 bits (2045), Expect = 3.59e-289 Identity = 384/392 (97.96%), Postives = 390/392 (99.49%), Query Frame = 0
BLAST of Chy3G052460 vs. NCBI nr
Match: XP_038884723.1 (angio-associated migratory cell protein [Benincasa hispida]) HSP 1 Score: 768 bits (1984), Expect = 2.00e-277 Identity = 372/392 (94.90%), Postives = 383/392 (97.70%), Query Frame = 0
BLAST of Chy3G052460 vs. NCBI nr
Match: XP_023535004.1 (angio-associated migratory cell protein-like [Cucurbita pepo subsp. pepo] >XP_023535005.1 angio-associated migratory cell protein-like [Cucurbita pepo subsp. pepo]) HSP 1 Score: 748 bits (1931), Expect = 8.55e-272 Identity = 362/392 (92.35%), Postives = 377/392 (96.17%), Query Frame = 0
BLAST of Chy3G052460 vs. NCBI nr
Match: XP_022155468.1 (angio-associated migratory cell protein-like isoform X1 [Momordica charantia]) HSP 1 Score: 733 bits (1892), Expect = 7.50e-266 Identity = 352/392 (89.80%), Postives = 371/392 (94.64%), Query Frame = 0
BLAST of Chy3G052460 vs. TAIR 10
Match: AT1G71840.1 (transducin family protein / WD-40 repeat family protein ) HSP 1 Score: 578.6 bits (1490), Expect = 3.9e-165 Identity = 266/387 (68.73%), Postives = 326/387 (84.24%), Query Frame = 0
BLAST of Chy3G052460 vs. TAIR 10
Match: AT4G02730.1 (Transducin/WD40 repeat-like superfamily protein ) HSP 1 Score: 126.3 bits (316), Expect = 5.3e-29 Identity = 83/297 (27.95%), Postives = 147/297 (49.49%), Query Frame = 0
BLAST of Chy3G052460 vs. TAIR 10
Match: AT3G49660.1 (Transducin/WD40 repeat-like superfamily protein ) HSP 1 Score: 120.6 bits (301), Expect = 2.9e-27 Identity = 79/297 (26.60%), Postives = 138/297 (46.46%), Query Frame = 0
BLAST of Chy3G052460 vs. TAIR 10
Match: AT5G52820.1 (WD-40 repeat family protein / notchless protein, putative ) HSP 1 Score: 120.6 bits (301), Expect = 2.9e-27 Identity = 99/344 (28.78%), Postives = 161/344 (46.80%), Query Frame = 0
BLAST of Chy3G052460 vs. TAIR 10
Match: AT5G08390.1 (Transducin/WD40 repeat-like superfamily protein ) HSP 1 Score: 119.8 bits (299), Expect = 5.0e-27 Identity = 68/249 (27.31%), Postives = 118/249 (47.39%), 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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