MC08g1102 (gene) Bitter gourd (Dali-11) v1
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Overview
Sequences
The following sequences are available for this feature:
Legend: polypeptideCDSutr3 Hold the cursor over a type above to highlight its positions in the sequence below.CCTTCTTGCAGGCATACACCGTTGCAGATAGTCCATGTAGTTGGAAATTTCTTTCGGATATGGTCAATCTATTCCATGTATCGCTATTTTTCCCAGACTGGAGCTTCAGTTGTACTTTTTCTCTTTTGTTGTTTGGCCCCAGCAGCCATCATATTCTTGACTTTGCAAAAGCCTTGGAAGGGAAAACCCCTTTCAAATACTCAGGTGAAGTGGAAAATTTAGCTGTAAGAACCAAATGTTATAACCTCTCATACTATTATTTCATCAGCTTTTTCTTAGATCTAACTTGCTTTTTTAGGTAGTTCCTTCTGTGATAAATGGTGGCATAACAGCTTTATACTTTATCATGTGGGGAAAGGGCCTTAAGGCATGTGGACCTCTGAGGTGGGTGCCTGTAGAAATATGTACCCTTTGCTCTTTCATTTTGGCACATACATGAATCATGCATGGATTCTGATGTGGTAGCTAATAATCGAGAAAAGCTATGAAGAGCTACTTAACTACGTCAGATTCACCTCACGGACTCAAATTTTTCATGGGAAACAGCCCCAAAAATTCTATTTAATCTAGATGAATATAAATCTAATCACACTTTTTAATAAGATAGTTTATATTCCATGTCATAACCTTATAGATTGATCAAGAGTTTGTTTCAATTTTCAGCATATGGCTCTAGGTAACCATGTTTTTAGATAATTTAACCTCATTGTTAGATTGAAATGCTAGAACTACAAGTTGTTAATAGATTAAGAAGGATCGGATAATAAATACTATTCAGATTCTTACCCCACCAGAACAGTTCATCTTAAAGTTTTGCCCTTTGGGAAATCAACTGTTTTAAGTAAATCTTCTTATTAAATTCTCATCTGTTTATTCAGAACCTTTGTTTTTTATTTTCATGATGTTGTTTGGTTTAACTGAACCTCTTTGAAAATTCGCAATGGAAAGAAGGTTCAATACCTGTAACAATAGAAGAGACTTTACCTTATTATTCTTCATCTCCTTCTTGGCATAGTATGTGCAAGTGTGATTTATTAGTCTTTGAATAATATATTCTTCATTGTCAGTGTGCAAAACATTCTGGTTCATACTTTTATATGAATTTGATGTTCTTTCGTTCTTCCTTCAAGGCATGTATTTGATTCTTTCATTCTCTAATTCTTTGGCGTAGAAATGTCAAATCAGTAGACCTTCGCTTTTGCTAGTCTGTGTAGTTGGAATTATTTATTTTATGTTTTGAGGGTTTCTTATCTGTTACCTATTCTTTTTTTCCCTTTTTTTATACACTACATTCTATCAATAGATTTTTGTTTTTGAATTTAAAAAAATGAACAGACCACTGTGTATTTCTATCTGGTACCATGAGTCATTGAGAGCTCATGTGGACAGTGATTTAGAAACTTATAAAAGGATGCAATGGGAGTATCTATAAGTGCCTTGTTGCTTTTCTCTTGCCTTCGGTCCATGTGGTCCATTTATTTATTGTCTTTTTTATTTTTAAAATTTCTATTTTAGGGCTATACTTGTGGAGTATTCTGGTGCTGTCCTTGGAGTGCTTTCTGCTGTTTTGTATGGTCGGAGGGGCTTTGTTTGGAAAAAGGTAGTTTTAATATACATGCGTATTCTTGGGCTTCTTTGTATTTGTTTAATACTGTCAGAAGTAGCATAGAAGTTAGGGCTTCGACAATTTAATTTAAGTTCTTAAAGGTTATGCCGACATTGTTAGTTTTTTATTATCATGTCATCCCTATATCTACAGCAGGCAGGTTGTAGGGAGTAAATGTATGTATCTTGTAGTAGTCTTGCTTTATCTGAATTCTTCTTCTTCTAATTTTATCATGAATTAGGCTTGCAATTTAAGTTGAGAGGTTTACACTTGTTATGGTAGGTTATTTAGGTTCTAGATGAATAATTGATTCCCTTTGGTATATCATATCAGGCTGCCGGTCTCCTTGCAATGTTGGTATCTTTCTACTTCTTATCACAAGGGTGGGCCATGGCCACACGTTTTCCCTTCTATATCCTTGAAAGTTCAACTGTAACTGTGTAAGTATGAAGGAAGGGGCTGCTGTGAGAGTTGTGACCCTCTGATGGTTTTCTTTTTCTTTATTTATAAATTTAATGTTATTTTATTTTCCCCTCTTTCTTTAAATCTTTCTGTATTTTCATTTCTATATCAAAATTGTTGTAAACTTTAATTTGAGACTACCTGCGAAAGATGGCTCTGTCTCTGAGGATCAGACTGAACAAGTGTTGGGTATGAAAGCAATGACAATTCCCATCTTTGCTGGAATATTATCAGCATTGAGAAGGGTCATTGCTCGCCGCGTTTCACTTAAGGTGTTGACTAATATTGAGTTCACTTAATATCCTTCTTTTTGTTATGTAAGCTACCAATGGCATTCTGATATGTGATTCTTGTTACAATGCGCCTTCAGAATCAACTTAAAAGACGACTTCATGCCATAACAATGGCTTCTGCAACTTGTTTTCTCTTTCCTATAGCCATGTGGGATATGATAATTGTAAGTTTCAGCAATATTTAATGAATGCTCTTTTTCCTGAAGTAGTAGTGCTTGATTTTTCTTCATTATCATAACTTCAGGGGTCAACTTCTGATAACAGCAGAGAGCTTCCTTTCTCCACCTGGGCATTTTTAAGCACTATACTTTTTGGTGTTATTCTGATATTTTACGTTGACAGCATTGCTGAAGAGAGGTACAATATAAATCAAAATAATTGGGATTCTCATGAAGAAATGTTCAGTATTTGTTCCCCCCCATTCTCCTCTCTTTCTGTACTTGGCATGTTGACATGTTTCATTCTTGCACCAAGCTGAAGGATTATAACCTCCAAATATGAAAATAGCTAATTACTAATGAGGATGGATTGTGAGATGAGTGGTGTAGCTGGTGTTTGTGTCTACGATCTTTCTAAGAAGAGCCTTTTACATTTTGGAATGAAGATGGATTCCTTCGTGATTTTGCTCGCATCAGTATTGATAAATAATATTTTCTATAAAGGGAGATAGTGTTTTTACTACATTAGCAATCTGTGTGACATAACTGTAATTTGTAAAAATTGGCATGCTCTGAGAAAAATGTCAAAATTCATGTGATGGTTGGTGGTTCGATTGGCTGTGTATGTGCTGTCTTTATCTGAAAACTATACTTTGTCTCATACAGTCAGCTAAAACTTGTAGAATTTAATTTTTGCATTGCATTACATATTATTACCCATCAGTTTCGTTCATTTGGCGGACTCTCAAAAAGGGGATTCTTACATGACAACTCTTGTTTACTTGTAGATTGCACATGGTTTTTTCTTCTCCAAGGCATTTGATGGTGGCTGGTGGAAGCATAATTGCACTGGAGATTTTATACAAGATGGATTTTTCTCTAATCGGCTTCATTATCTGCTGCTCAATTTTGGGGTTTGGTATGATCAAGCTTTCAACCATTTTGTTTATTACTAACCGAATCTGTACAGGGAAACAGATGAAATTAGGCATCACCGTCTCCTTTCATTCTCCAATCTTCATAGTTCTTCAATTGGATTGACAAATAATACCAAATGCGAATGTCTGTAGGGATACATGAAGCAACTTCTTTAGACCGCAGCAGAAAAGATTCTTCTCGCAATTCTGATACATCAAATGGTTTATTGGACGACCAAGATCAGATTCCATCACTTCCAACTTGATGTATGTTCATACTACGCTGACCTATATTTGTTTTAATATTATATTAGCAGTTTGTTAATAATTGCTTTCATATATACGATAAAGAATTTGAGCTTCAGAAGTAGTTGTGTCAATTTGATTGCTTTATACTACTACTCTCCAAGAGGACCAGCTGTTTTAGTGAAATGATTGATTTTCATTTATCATTGACAAATATAGTGGCCATTTACTCATTTCCTTTCGGTCTATTGATCTCAACATCACAACGTTGCCTACAGTAATCAGGAGATGGTGGTTTGGCCCAATTTTATTACTGTTATCAGGCGTGACACTTGTTTATTTGGCTGCCAAATGTGCCGTACTCAAATGCGTAATGCCCATCACATTTTTCGCCTTCATGCCCTGTACAGTCTGCTTTGCAAGCAGTCTCTCACAATTCTTTCCGAATTTTAGCGCTGACCATATGTAAGGTTCTCAAAACTTGTATCCACTTTAGCTTCAAATTTACGTGTCTATTGGATTTCTGATCTGTACTTAGAACCCTACTAACCTGTAAACCAATGACAGTTTTCACACCATGGAATTCCTTTGCTCTTTGTTCATTCTTTAATTTTCTATTGCATCTCAACTTCCTAGATTTCATTAATCATTCTGTAATTATTCTGTCGTAGTACGTTTTTAAAGTAGAAGGAAAGATAACTAGATCTTGCAGAAGTTGATAATCTAGACTGCACACTTCTTTCTCATCTGTAGTAGAGATTGATTTTCCGTTGATTCAGCTGCTAGGTGCAGTTTTTGAGGATCAGTAGAACGGTAGATGGTAATTGGAACACAAAATCGAACTTTTTTCAAGTTCTCTATAAACTGGGATTTTTGAAATCTGTTTGAACTTTGAACCCAAACATAGATTCCTAGGCATCAAATACTGTGCTAAAAGTTACATAACTTTCAAATTCAGATGGCATCGGCAAATCGGAGCTTAGAATAACAAATTGCAAAGGGATGGGTGAAGCACTAGTTGATCTACTCTGCCTTGTTATGTACCATGTTTTGCAGGACCAGATCTTGTGGTTAGTGCTTTGGTGATAACATGAATGAGAACTCCTATGGGGCAAAAGAAGAGGCAAAGAGAGACTGAATGTCGGGTCTCAATTTGATTCTCGAGTCCATCGTGGAACACCTGCCTGGAAAGTTTAGAGGATGGCTATTAAAAGATTGAAAAACTCTTAAAGCTAAATTATACAAAATGCCCTTAAAATATGTAGTTAAATTCAATTCTGCCTTTTAACCTTTTGAAAGTTACAATTTTACCCTCAAATTTTCACTCTTGAAAAATCCTTAGTTAAATTACAAATTTGGTTTTATTTGGTACTTAAATGGTAATGAAAAGTTTCTAACTGGGTTTCTATTAGAACTTTCAATTTTATATCTACCAGGTAACGATATAGATCTATTAGATACAAGATTAAAAGTTCAATCTACATCTGTAAGTACAGATGGACTAGTACCAAACTTATAGTTTTACTAACAAATTTCATTAGCAATTTCCGTTCAAGAAAAAAACTCATTGAAACTAGGTCAAAGGCAAATTGCATGCTCAGCTAATATATATAAAATGTTGGCTTGAGATATAAGTTATACATGCTCCTAATAACTAAATGAATCAACTAATGAGAGAGAGAGAGACCTTGCAGCAAAAAGGTCCACAACCAGCAGGTGAATCCAAGCAGAAGCCAATGTCATTTCACTGGAGAACATCTTTGACATTCCAGGCAGCTATACATTAACAGAGCCACATACAATGAGTTGAAGAACAAATGGATGGGTCGGGACGAGACGAGATGCTTCAAATTTCTCAAATTGTTAAGAACTTACCTCAGGCAGCCAGTATTTACTGGCAAAAATAAGCTGCACGGTTTCGGGTGTCCAAGAAAGGTACAGAAGATAAGCATATAGAAGCCCAAGCACCACATATGGTATGTTACTTTGCATAGACCTCTTAGTCTGCATAAAGAGGAAAAAAAAGTTCCATTTGTCGAGATGAAATATCGAAGAAAAAGAGTGCAAAGAGAAAAAATAAATAAGTAAACATACCCCAGAGCTAATGTAAAAAGTGATGGACAAAAATGAGTACATTTATGAAATTTTGCATACCAATTCTGATTTTGGAGCCAGAACCATGAGGCCATAAAATGGGAGAACAGCTACTGTACCTAGAGTAAAAGCATTGCTAGCAATTTGAGCATTTGCCAACCCTGTAAATGCAAACATGAAGTTATTCAAATATAATGTACACAGCCAAATGAGGTGTGGTGACAGAGTATATTGAGAAAACAAGTCTCACTGAACTTAAATGTTAAGAAGGAAACGTTGAGAAACTTGAACTCATCCAAGACACCCACCCTCTACTATCACTCTCCGAAAAGCGAGGAATAAGTATGACAATTGCAAAAAACATAAGGGAAGTAAGGTTCACAAGATGCTGGAAATTAGTACACCCGGTTGACCAGATTCTACCACCACAAGAACCCAATCATACTCGAAAGAAAAGTTTGATCTTCGCTCAAACGGAACACTAGCTATATGCTAAACACATCCAAGCCAAACATTGTTTTCATGGAACTAGGAAAAGGGGAGCAGAAGCTCGAGCATTAGTATGCCTTTGACTTCTAAATTCACTCCTGTCGAGGAAACAAATCATGTGCAGTACTGTCGAGGCAAAGTATCAGCCATTCACTTGAGATAATTTTAGTTATTCAACTCTAAAGGCACTCAGTAATTTTAAATAAAATGCTCAAAAGGCAAAGAGATTACATGAAGCGTGTACTCCGTGGGCTTTCTTGGACAAATCTACTCCTGCAAGTTTTGGTTTAAGAAGAATCCTTGATCCTGTAATGAAACTCCATTTTCTTGATGACACATCTGCAGTCAAACCATTAACTGAAAGATTGGGCTTATGGCTTCTTGTAGAGATAGAGGATCTTTGGCCAATTCTGACATCACAACAGGGCTTTGTAATCTGCCCCAAGTTTTAAACAGAAGATGAACTTTCATGATGAGGAAGCTCCAAGAAACATAGTTGAATATGTGAGGAAACTAAGCCAAAAATCTTAAATCACGAAACAGAAGAACTAAACAATTCAAGCAGGATTGAAAAGCATTTTTAGGGTCACAGAAGTATTTCATGCTACTTAAGACACCGATAAGTAAATAGTAAACTTGGTTAATTATTTACTTAACAGTGACTAAGTTGCATGAAACTTGGTACAAACAGTCACGTTTAACACAGAACAAAATGTGGTACTTGGTAGTTTGGATATTCAAATACAGCCGATGACAGAGTGTTCAAGTTTAGTATAGTCATAGCTAGACAAAGTTTGAGGAAAGAGCCAACAAAAAGCCATGATTAATCAAAAATTTTAGAAAACACGTGTGTTGAGAAGTGTGCCCATGAGCATAAGCATCAAACAAGAAGCATTCGTTGATGTAGTATAATTGAAACCATGGTCACATTAGTAAAATATAAGTTGACTGTTGAAGATGACCCAAAGCTGATGAAAAAGTAAACTCTCTGCATATTCTGAAGATGACCCGAGCTTATAAAAAGCACCGTTAGCGAAACACAAACGTGGAATATCTATTAGTCTAGCTAACAATCTGTCACATCATGTCAACGATAGAATTCATATATTATTAATGATTGGAGCGATTGAGAGCTCCCGAATCTCTCCTATTGCCAAACCTATTCCACAGCATAAAGGATGAGTATCTCCAGTTCATGCTAAAGCAAAATATATACTTATTCACACATTAGATATACTATATCGTAAGCGTAACTAAGTCATGGGAACCACAATAACAATTTCCCTATGTCACTTCCCATCACCTTCCTCCCTCTTCCCATGATAAATATTAACATTTGGGAGCAATCAAAATCTACCAACATGTATCTAATAGGCATGTCAGGCAACGTTTTGTTAATACTGTTAACAACCAATACTAAATAGAAGCATAATCTAGAACTCATTGACATAATGAAGCCTTTGTTTTTACGTTTAGGGGCTAAATATACACAATATTCAAAGTTCATGATTAAATCTCTAATTAAACCGATGGAAAGTGTGCAGCAAAAACATGAATGAGCAAGAACAAGTAACAAAAACTTTAAGCTAATCCAAGAGTATGATTCCCACTTGTTATCAGGATTTCACACAATGATGGTTATAGTCAGTGAATTCCCAACTCATCAAAACAAGCATCCCTTCACCAAAACAAGCATCTGCAAATAACTCCAACTAAATAAGCAGAAAAGGAAAGGGGCAAAATCTGGCGAGCCAATGGCTGCTAAATAAAGCATGAAAGCAACCTGGAACCTCATTTAGAAAGCAAAAGACAACTCAGTTCACCGTCATAACTAGATTAAGAGTCAGGTGGGAAGAAACCCTCCACAGATCTGATTTCTAATCAACCCAAAACAGCCACACAGAGATAAACCGAAAGATCAATTGAAAATTAAAGAAGAGGGTTGGAGAAAACGCACCTTAATTGATAAGGGGGAATTGGCAAGGCAAGAAGAGGAGGGAGAGAAACCCATGGCAGGTGCAGAGAGGCGAGAGGCAAGAAGGGGGAAAGAACGATAATGGCGTCTTCATCAGACCCAGAAAGTTAGTAAATAAACAAATACATAAAAGGGGGCCGACAGAAAGTTAAGTGAGGAAAAGGAATCGTACAAGTTTTCCACTCAGAAATCGCAATAGAGACAAGAAAGAAGCAGGGAAAGAAGGCGAAAAGGGGGAGAAGACTAAGAGGGGCTTAATCAGAATGTGGGTTTTATCTCTTCTCTGCCATTGCTGTCATTTCTTCCACTTCCTCTCCACTGCCCATTTTTTTGTTGGTTTCTGCCATTTCTCCTCTTTCTTCCGTTCCCTCCCATTTTCATGCTTTTCGATGTCATCCCCCAGCTCAGCTCAGCTCCAC CCTTCTTGCAGGCATACACCGTTGCAGATAGTCCATGTAGTTGGAAATTTCTTTCGGATATGGTCAATCTATTCCATGTATCGCTATTTTTCCCAGACTGGAGCTTCAGTTGTACTTTTTCTCTTTTGTTGTTTGGCCCCAGCAGCCATCATATTCTTGACTTTGCAAAAGCCTTGGAAGGGAAAACCCCTTTCAAATACTCAGGTAGTTCCTTCTGTGATAAATGGTGGCATAACAGCTTTATACTTTATCATGTGGGGAAAGGGCCTTAAGGCATGTGGACCTCTGAGGGCTATACTTGTGGAGTATTCTGGTGCTGTCCTTGGAGTGCTTTCTGCTGTTTTGTATGGTCGGAGGGGCTTTGTTTGGAAAAAGGCTGCCGGTCTCCTTGCAATGTTGGTATCTTTCTACTTCTTATCACAAGGGTGGGCCATGGCCACACGTTTTCCCTTCTATATCCTTGAAAATGGCTCTGTCTCTGAGGATCAGACTGAACAAGTGTTGGGTATGAAAGCAATGACAATTCCCATCTTTGCTGGAATATTATCAGCATTGAGAAGGGTCATTGCTCGCCGCGTTTCACTTAAGAATCAACTTAAAAGACGACTTCATGCCATAACAATGGCTTCTGCAACTTGTTTTCTCTTTCCTATAGCCATGTGGGATATGATAATTGGGTCAACTTCTGATAACAGCAGAGAGCTTCCTTTCTCCACCTGGGCATTTTTAAGCACTATACTTTTTGGTGTTATTCTGATATTTTACGTTGACAGCATTGCTGAAGAGAGATTGCACATGGTTTTTTCTTCTCCAAGGCATTTGATGGTGGCTGGTGGAAGCATAATTGCACTGGAGATTTTATACAAGATGGATTTTTCTCTAATCGGCTTCATTATCTGCTGCTCAATTTTGGGGTTTGGGATACATGAAGCAACTTCTTTAGACCGCAGCAGAAAAGATTCTTCTCGCAATTCTGATACATCAAATGGTTTATTGGACGACCAAGATCAGATTCCATCACTTCCAACTTGATTAATCAGGAGATGGTGGTTTGGCCCAATTTTATTACTGTTATCAGGCGTGACACTTGTTTATTTGGCTGCCAAATGTGCCGTACTCAAATGCGTAATGCCCATCACATTTTTCGCCTTCATGCCCTGTACAGTCTGCTTTGCAAGCAGTCTCTCACAATTCTTTCCGAATTTTAGCGCTGACCATATGTAAGGTTCTCAAAACTTGTATCCACTTTAGCTTCAAATTTACGTGTCTATTGGATTTCTGATCTGTACTTAGAACCCTACTAACCTGTAAACCAATGACAGTTTTCACACCATGGAATTCCTTTGCTCTTTGTTCATTCTTTAATTTTCTATTGCATCTCAACTTCCTAGATTTCATTAATCATTCTGTAATTATTCTGTCGTAGTACGTTTTTAAAGTAGAAGGAAAGATAACTAGATCTTGCAGAAGTTGATAATCTAGACTGCACACTTCTTTCTCATCTGTAGTAGAGATTGATTTTCCGTTGATTCAGCTGCTAGGTGCAGTTTTTGAGGATCAGTAGAACGGTAGATGGTAATTGGAACACAAAATCGAACTTTTTTCAAGTTCTCTATAAACTGGGATTTTTGAAATCTGTTTGAACTTTGAACCCAAACATAGATTCCTAGGCATCAAATACTGTGCTAAAAGTTACATAACTTTCAAATTCAGATGGCATCGGCAAATCGGAGCTTAGAATAACAAATTGCAAAGGGATGGGTGAAGCACTAGTTGATCTACTCTGCCTTGTTATGTACCATGTTTTGCAGGACCAGATCTTGTGGTTAGTGCTTTGGTGATAACATGAATGAGAACTCCTATGGGGCAAAAGAAGAGGCAAAGAGAGACTGAATGTCGGGTCTCAATTTGATTCTCGAGTCCATCGTGGAACACCTGCCTGGAAAGTTTAGAGGATGGCTATTAAAAGATTGAAAAACTCTTAAAGCTAAATTATACAAAATGCCCTTAAAATATGTAGTTAAATTCAATTCTGCCTTTTAACCTTTTGAAAGTTACAATTTTACCCTCAAATTTTCACTCTTGAAAAATCCTTAGTTAAATTACAAATTTGGTTTTATTTGGTACTTAAATGGTAATGAAAAGTTTCTAACTGGGTTTCTATTAGAACTTTCAATTTTATATCTACCAGGTAACGATATAGATCTATTAGATACAAGATTAAAAGTTCAATCTACATCTGTAAGTACAGATGGACTAGTACCAAACTTATAGTTTTACTAACAAATTTCATTAGCAATTTCCGTTCAAGAAAAAAACTCATTGAAACTAGGTCAAAGGCAAATTGCATGCTCAGCTAATATATATAAAATGTTGGCTTGAGATATAAGTTATACATGCTCCTAATAACTAAATGAATCAACTAATGAGAGAGAGAGAGACCTTGCAGCAAAAAGGTCCACAACCAGCAGGTGAATCCAAGCAGAAGCCAATGTCATTTCACTGGAGAACATCTTTGACATTCCAGGCAGCTATACATTAACAGAGCCACATACAATGAGTTGAAGAACAAATGGATGGGTCGGGACGAGACGAGATGCTTCAAATTTCTCAAATTGTTAAGAACTTACCTCAGGCAGCCAGTATTTACTGGCAAAAATAAGCTGCACGGTTTCGGGTGTCCAAGAAAGGTACAGAAGATAAGCATATAGAAGCCCAAGCACCACATATGGTATGTTACTTTGCATAGACCTCTTAGTCTGCATAAAGAGGAAAAAAAAGTTCCATTTGTCGAGATGAAATATCGAAGAAAAAGAGTGCAAAGAGAAAAAATAAATAAGTAAACATACCCCAGAGCTAATGTAAAAAGTGATGGACAAAAATGAGTACATTTATGAAATTTTGCATACCAATTCTGATTTTGGAGCCAGAACCATGAGGCCATAAAATGGGAGAACAGCTACTGTACCTAGAGTAAAAGCATTGCTAGCAATTTGAGCATTTGCCAACCCTGTAAATGCAAACATGAAGTTATTCAAATATAATGTACACAGCCAAATGAGGTGTGGTGACAGAGTATATTGAGAAAACAAGTCTCACTGAACTTAAATGTTAAGAAGGAAACGTTGAGAAACTTGAACTCATCCAAGACACCCACCCTCTACTATCACTCTCCGAAAAGCGAGGAATAAGTATGACAATTGCAAAAAACATAAGGGAAGTAAGGTTCACAAGATGCTGGAAATTAGTACACCCGGTTGACCAGATTCTACCACCACAAGAACCCAATCATACTCGAAAGAAAAGTTTGATCTTCGCTCAAACGGAACACTAGCTATATGCTAAACACATCCAAGCCAAACATTGTTTTCATGGAACTAGGAAAAGGGGAGCAGAAGCTCGAGCATTAGTATGCCTTTGACTTCTAAATTCACTCCTGTCGAGGAAACAAATCATGTGCAGTACTGTCGAGGCAAAGTATCAGCCATTCACTTGAGATAATTTTAGTTATTCAACTCTAAAGGCACTCAGTAATTTTAAATAAAATGCTCAAAAGGCAAAGAGATTACATGAAGCGTGTACTCCGTGGGCTTTCTTGGACAAATCTACTCCTGCAAGTTTTGGTTTAAGAAGAATCCTTGATCCTGTAATGAAACTCCATTTTCTTGATGACACATCTGCAGTCAAACCATTAACTGAAAGATTGGGCTTATGGCTTCTTGTAGAGATAGAGGATCTTTGGCCAATTCTGACATCACAACAGGGCTTTGTAATCTGCCCCAAGTTTTAAACAGAAGATGAACTTTCATGATGAGGAAGCTCCAAGAAACATAGTTGAATATGTGAGGAAACTAAGCCAAAAATCTTAAATCACGAAACAGAAGAACTAAACAATTCAAGCAGGATTGAAAAGCATTTTTAGGGTCACAGAAGTATTTCATGCTACTTAAGACACCGATAAGTAAATAGTAAACTTGGTTAATTATTTACTTAACAGTGACTAAGTTGCATGAAACTTGGTACAAACAGTCACGTTTAACACAGAACAAAATGTGGTACTTGGTAGTTTGGATATTCAAATACAGCCGATGACAGAGTGTTCAAGTTTAGTATAGTCATAGCTAGACAAAGTTTGAGGAAAGAGCCAACAAAAAGCCATGATTAATCAAAAATTTTAGAAAACACGTGTGTTGAGAAGTGTGCCCATGAGCATAAGCATCAAACAAGAAGCATTCGTTGATGTAGTATAATTGAAACCATGGTCACATTAGTAAAATATAAGTTGACTGTTGAAGATGACCCAAAGCTGATGAAAAAGTAAACTCTCTGCATATTCTGAAGATGACCCGAGCTTATAAAAAGCACCGTTAGCGAAACACAAACGTGGAATATCTATTAGTCTAGCTAACAATCTGTCACATCATGTCAACGATAGAATTCATATATTATTAATGATTGGAGCGATTGAGAGCTCCCGAATCTCTCCTATTGCCAAACCTATTCCACAGCATAAAGGATGAGTATCTCCAGTTCATGCTAAAGCAAAATATATACTTATTCACACATTAGATATACTATATCGTAAGCGTAACTAAGTCATGGGAACCACAATAACAATTTCCCTATGTCACTTCCCATCACCTTCCTCCCTCTTCCCATGATAAATATTAACATTTGGGAGCAATCAAAATCTACCAACATGTATCTAATAGGCATGTCAGGCAACGTTTTGTTAATACTGTTAACAACCAATACTAAATAGAAGCATAATCTAGAACTCATTGACATAATGAAGCCTTTGTTTTTACGTTTAGGGGCTAAATATACACAATATTCAAAGTTCATGATTAAATCTCTAATTAAACCGATGGAAAGTGTGCAGCAAAAACATGAATGAGCAAGAACAAGTAACAAAAACTTTAAGCTAATCCAAGAGTATGATTCCCACTTGTTATCAGGATTTCACACAATGATGGTTATAGTCAGTGAATTCCCAACTCATCAAAACAAGCATCCCTTCACCAAAACAAGCATCTGCAAATAACTCCAACTAAATAAGCAGAAAAGGAAAGGGGCAAAATCTGGCGAGCCAATGGCTGCTAAATAAAGCATGAAAGCAACCTGGAACCTCATTTAGAAAGCAAAAGACAACTCAGTTCACCGTCATAACTAGATTAAGAGTCAGGTGGGAAGAAACCCTCCACAGATCTGATTTCTAATCAACCCAAAACAGCCACACAGAGATAAACCGAAAGATCAATTGAAAATTAAAGAAGAGGGTTGGAGAAAACGCACCTTAATTGATAAGGGGGAATTGGCAAGGCAAGAAGAGGAGGGAGAGAAACCCATGGCAGGTGCAGAGAGGCGAGAGGCAAGAAGGGGGAAAGAACGATAATGGCGTCTTCATCAGACCCAGAAAGTTAGTAAATAAACAAATACATAAAAGGGGGCCGACAGAAAGTTAAGTGAGGAAAAGGAATCGTACAAGTTTTCCACTCAGAAATCGCAATAGAGACAAGAAAGAAGCAGGGAAAGAAGGCGAAAAGGGGGAGAAGACTAAGAGGGGCTTAATCAGAATGTGGGTTTTATCTCTTCTCTGCCATTGCTGTCATTTCTTCCACTTCCTCTCCACTGCCCATTTTTTTGTTGGTTTCTGCCATTTCTCCTCTTTCTTCCGTTCCCTCCCATTTTCATGCTTTTCGATGTCATCCCCCAGCTCAGCTCAGCTCCAC CCTTCTTGCAGGCATACACCGTTGCAGATAGTCCATGTAGTTGGAAATTTCTTTCGGATATGGTCAATCTATTCCATGTATCGCTATTTTTCCCAGACTGGAGCTTCAGTTGTACTTTTTCTCTTTTGTTGTTTGGCCCCAGCAGCCATCATATTCTTGACTTTGCAAAAGCCTTGGAAGGGAAAACCCCTTTCAAATACTCAGGTAGTTCCTTCTGTGATAAATGGTGGCATAACAGCTTTATACTTTATCATGTGGGGAAAGGGCCTTAAGGCATGTGGACCTCTGAGGGCTATACTTGTGGAGTATTCTGGTGCTGTCCTTGGAGTGCTTTCTGCTGTTTTGTATGGTCGGAGGGGCTTTGTTTGGAAAAAGGCTGCCGGTCTCCTTGCAATGTTGGTATCTTTCTACTTCTTATCACAAGGGTGGGCCATGGCCACACGTTTTCCCTTCTATATCCTTGAAAATGGCTCTGTCTCTGAGGATCAGACTGAACAAGTGTTGGGTATGAAAGCAATGACAATTCCCATCTTTGCTGGAATATTATCAGCATTGAGAAGGGTCATTGCTCGCCGCGTTTCACTTAAGAATCAACTTAAAAGACGACTTCATGCCATAACAATGGCTTCTGCAACTTGTTTTCTCTTTCCTATAGCCATGTGGGATATGATAATTGGGTCAACTTCTGATAACAGCAGAGAGCTTCCTTTCTCCACCTGGGCATTTTTAAGCACTATACTTTTTGGTGTTATTCTGATATTTTACGTTGACAGCATTGCTGAAGAGAGATTGCACATGGTTTTTTCTTCTCCAAGGCATTTGATGGTGGCTGGTGGAAGCATAATTGCACTGGAGATTTTATACAAGATGGATTTTTCTCTAATCGGCTTCATTATCTGCTGCTCAATTTTGGGGTTTGGGATACATGAAGCAACTTCTTTAGACCGCAGCAGAAAAGATTCTTCTCGCAATTCTGATACATCAAATGGTTTATTGGACGACCAAGATCAGATTCCATCACTTCCAACTTGA PSCRHTPLQIVHVVGNFFRIWSIYSMYRYFSQTGASVVLFLFCCLAPAAIIFLTLQKPWKGKPLSNTQVVPSVINGGITALYFIMWGKGLKACGPLRAILVEYSGAVLGVLSAVLYGRRGFVWKKAAGLLAMLVSFYFLSQGWAMATRFPFYILENGSVSEDQTEQVLGMKAMTIPIFAGILSALRRVIARRVSLKNQLKRRLHAITMASATCFLFPIAMWDMIIGSTSDNSRELPFSTWAFLSTILFGVILIFYVDSIAEERLHMVFSSPRHLMVAGGSIIALEILYKMDFSLIGFIICCSILGFGIHEATSLDRSRKDSSRNSDTSNGLLDDQDQIPSLPT Homology
BLAST of MC08g1102 vs. ExPASy Swiss-Prot
Match: Q8TAD4 (Zinc transporter 5 OS=Homo sapiens OX=9606 GN=SLC30A5 PE=1 SV=1) HSP 1 Score: 52.4 bits (124), Expect = 1.2e-05 Identity = 64/284 (22.54%), Postives = 115/284 (40.49%), Query Frame = 0
BLAST of MC08g1102 vs. NCBI nr
Match: XP_022148182.1 (zinc transporter 5 [Momordica charantia]) HSP 1 Score: 655 bits (1689), Expect = 2.25e-236 Identity = 335/340 (98.53%), Postives = 337/340 (99.12%), Query Frame = 0
BLAST of MC08g1102 vs. NCBI nr
Match: XP_038887178.1 (zinc transporter 5 isoform X1 [Benincasa hispida] >XP_038887180.1 zinc transporter 5 isoform X1 [Benincasa hispida]) HSP 1 Score: 620 bits (1599), Expect = 1.17e-222 Identity = 309/343 (90.09%), Postives = 325/343 (94.75%), Query Frame = 0
BLAST of MC08g1102 vs. NCBI nr
Match: XP_004145858.1 (zinc transporter 5 isoform X1 [Cucumis sativus] >KAE8650581.1 hypothetical protein Csa_010127 [Cucumis sativus]) HSP 1 Score: 613 bits (1580), Expect = 9.16e-220 Identity = 309/343 (90.09%), Postives = 324/343 (94.46%), Query Frame = 0
BLAST of MC08g1102 vs. NCBI nr
Match: KAA0063373.1 (zinc transporter 5 isoform X1 [Cucumis melo var. makuwa]) HSP 1 Score: 612 bits (1578), Expect = 2.31e-219 Identity = 306/348 (87.93%), Postives = 325/348 (93.39%), Query Frame = 0
BLAST of MC08g1102 vs. NCBI nr
Match: TYK11637.1 (zinc transporter 5 isoform X1 [Cucumis melo var. makuwa]) HSP 1 Score: 610 bits (1574), Expect = 9.38e-219 Identity = 306/348 (87.93%), Postives = 323/348 (92.82%), Query Frame = 0
BLAST of MC08g1102 vs. ExPASy TrEMBL
Match: A0A6J1D4D1 (zinc transporter 5 OS=Momordica charantia OX=3673 GN=LOC111016918 PE=4 SV=1) HSP 1 Score: 655 bits (1689), Expect = 1.09e-236 Identity = 335/340 (98.53%), Postives = 337/340 (99.12%), Query Frame = 0
BLAST of MC08g1102 vs. ExPASy TrEMBL
Match: A0A5A7V5K1 (Zinc transporter 5 isoform X1 OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold508G00010 PE=4 SV=1) HSP 1 Score: 612 bits (1578), Expect = 1.12e-219 Identity = 306/348 (87.93%), Postives = 325/348 (93.39%), Query Frame = 0
BLAST of MC08g1102 vs. ExPASy TrEMBL
Match: A0A5D3CI94 (Zinc transporter 5 isoform X1 OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold828G00010 PE=4 SV=1) HSP 1 Score: 610 bits (1574), Expect = 4.54e-219 Identity = 306/348 (87.93%), Postives = 323/348 (92.82%), Query Frame = 0
BLAST of MC08g1102 vs. ExPASy TrEMBL
Match: A0A1S3CFJ4 (zinc transporter 5 isoform X1 OS=Cucumis melo OX=3656 GN=LOC103500159 PE=4 SV=1) HSP 1 Score: 607 bits (1565), Expect = 8.55e-218 Identity = 303/343 (88.34%), Postives = 322/343 (93.88%), Query Frame = 0
BLAST of MC08g1102 vs. ExPASy TrEMBL
Match: A0A6J1F493 (zinc transporter 5-like isoform X1 OS=Cucurbita moschata OX=3662 GN=LOC111442023 PE=4 SV=1) HSP 1 Score: 603 bits (1554), Expect = 4.05e-216 Identity = 299/343 (87.17%), Postives = 321/343 (93.59%), Query Frame = 0
BLAST of MC08g1102 vs. TAIR 10
Match: AT5G38380.1 (FUNCTIONS IN: molecular_function unknown; INVOLVED IN: biological_process unknown; LOCATED IN: membrane; EXPRESSED IN: 22 plant structures; EXPRESSED DURING: 14 growth stages; CONTAINS InterPro DOMAIN/s: Protein of unknown function DUF6, transmembrane (InterPro:IPR000620); BEST Arabidopsis thaliana protein match is: Cation efflux family protein (TAIR:AT2G04620.1); Has 123 Blast hits to 121 proteins in 39 species: Archae - 0; Bacteria - 0; Metazoa - 69; Fungi - 0; Plants - 45; Viruses - 0; Other Eukaryotes - 9 (source: NCBI BLink). ) HSP 1 Score: 499.6 bits (1285), Expect = 2.0e-141 Identity = 249/344 (72.38%), Postives = 292/344 (84.88%), Query Frame = 0
BLAST of MC08g1102 vs. TAIR 10
Match: AT5G38380.2 (unknown protein; FUNCTIONS IN: molecular_function unknown; INVOLVED IN: biological_process unknown; LOCATED IN: membrane; EXPRESSED IN: 22 plant structures; EXPRESSED DURING: 14 growth stages; CONTAINS InterPro DOMAIN/s: Protein of unknown function DUF6, transmembrane (InterPro:IPR000620); Has 109 Blast hits to 107 proteins in 35 species: Archae - 0; Bacteria - 0; Metazoa - 59; Fungi - 0; Plants - 43; Viruses - 0; Other Eukaryotes - 7 (source: NCBI BLink). ) HSP 1 Score: 361.7 bits (927), Expect = 6.6e-100 Identity = 184/274 (67.15%), Postives = 208/274 (75.91%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Bitter gourd (Dali-11) 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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