Sgr021611 (gene) Monk fruit (Qingpiguo) v1
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.ATGGAGTGCAACAAAGATGAGGCAGTTAGAGCAAAGGAAATTGCTGAGAGAAAATTTACAGAGAGAAATTATTCTGCGGCAAAGAAGTTTGTTTTGAAGGCTCAAAATTTGTACCCTGGGCTTGATGGTCTCTCTCAAATGATGACAACTCTCGAAGTGTATATCTCTGCAGAGAATAAGATAAATGGGGAAATGGATTGGTATGGAATACTTGGTGTGAACCACTTGGCTGATGATGAGACTATTAGGAGACAATATAGAAAGCTAGCTCTTGTCCTCCATCCTGATAAAAACAAATCACTTGGTGCAGAGGGTGCATTTAAATTGGTTTCAGAGGCCTGGAGTTTGTTATCTGACAAGGGAAAGAGATTGGCTTATAATCAGAAGAGGGATTTGAAAGGGGGTCGACAGAAAACTCCTACCCACACTCATAGTACTTCAGTGCCGCCTAGTGCAAATGGCTTTCAAAATTTTAATAATGTTGCTTCAAATGCAAGGAATGTGCAGAGTAAGGTTCGGGTAGGGGCCACCGCATTTCAGTCTTCCCATAGAAAGCCAGATACTTTTTGGACTCTTTGCAACCGATGCAAGACACATTATGAGTACCTTAGAGTCTATCTAAATCACACTCTCCTATGCCCTAATTGTCATGAAGCTTTTTTGGCTGTAGAGAAGGCTCCACCCCCAAATGTATTCAAGTCACCTAGTTGGTCTTCTCAGCAGCAGCATCAAAATTCTAGACAGCATACTGTTAGTGGTAATGCTTATGGTACTGGAAGAAACGCTAAAAATCCTGATAATTCAGTTGATAATACAAACTTTCAGTGGGGTCCTTCCTCCAGGACAGCTGGTGATGGTAGCACTTTTTCATCAGCTTCCACTCAAGCTGCAAACTTGGTTCAACAAGCAAGTGAGAAAGTGAAGAGAGATCGTGATGAAACACAGCCATCGACTGAAGTGGAGAGGAGTCACCTGCCTTCTTTGAAAAAGAAAAGAACTGATGACAGAAATAACAGCCATGGGGTCCACATGGCAAATCAAATGGCCAGAGGAGATGGATCAGCTGGTGTTGGTTTACCTGAATTAAGGAAGAGTTATCCTGAAACTCAAAAGTTTCATGGTCTTTATGGTGCATTTAACCGGGCCAATAGCCAGAAAGAGTTGTCAATCTTTGAAATTCGAAACATGCTAATGGAGAAGGCTCGTGCTGAAATTCGTAAAAAACTTAAAGAATGGAGCACATTGACTGAAAAATCAACTATGAATAAACAGTCCAAGAAGCAAAAGAATGTTGTGAATGATGGAACTCATGATTTAAAAATTAATGGTAAATCTTTGCAAATAGTAAAGGAGGGCATGACAGGAAGCCTGAGTCAGGTTCTTTAGCTGATAATAATACAGGAAGTGAGAACGAACCTATGTCAATTAATGTTCCAGATTCTGATTTTCACAATTTTGATTTGGACCGAGCTGAAAGTTCATTGGGGATGATCAAGTGTGGGCTTGTTATGATGATGATGATGGAATGCCTCGTTTCTATGCTCGAATTCACAAGGTGATTTCCCTAAGACCATTCAAAATGCGTATCAGTTGGCTCAACTCAAGAAGCAACACTGAGATTGGCCCTATGGACTGGATAGGTTCAGGGTTCACAAAAACCTGTGGTGATTTCAGAATTGGAAGACATGAAGTCGCAGGATCATTGAACTCCTTCTCACATAAGGTTTTCTGGGTGAAAGGTTTACGAGGGGTGATTCGGATATTTCCTCAGAAGGGTGAAGTCTGGGCTCTTTACAGAAACTGGTCTGCGGATTGGAATAAAGATACACCAGAAGAAATGATACACAAGTACGATATGGTAGAAGTGCTTGGTGATTTTAATGAAGAACAAGGCGTGTCTGTTGCTCCTCTTGTTAAGGTTGTTGGTTTCAGGACAGTGTTCTGTAGGTGCATGGATCCAAAAGAAGTGAGGAAGATCCCTAAAGAAGAGATGTTTCGCTTCTCCCATCAGGTCCCCAATTACTTGCTTACGGGAGAAGAAGCTCAAAATGCTCCAAAGGGTTGTCGGGAATTGGATCCAGCAGCAACACCTTTGGAGCTCCTCCAGATTGATACAGAATCTAATCAAGCAACAACAGGGGAGACTGAGGTAAAAACTGAAGAACAGATATCCCATATTAACCAGGAAATTGTAGCTAATGAGGTGGAGAACACTTTGGATGCTAGGAAGGTAGATATAGTAACCCAGGAAAATGAACAAACTAAGATGTTTGGTGATGTTGCCTTCCAAGGTAGCTAAGGAAGCTGATGGGCAGATCATGCCAGCAAAAGTAAATCAACTAAATGTGGAGATTGCTCGAGGTATACCCAATAGGTGCATTTTTTGAATTCTGTCTGACCAAAATTGTAGAGAATTTCTTGCTTTTGTTTGGACTGGATCCATAGTTGCTCCAATTGTTTATTGGTTTTGTGGCTTTGTACTTGGGACAGTGGAATCTCTTAAGTCTTATCGAGAAATTCATCGATGATGACCACCATACTTGGGACAAAAATGAGATCCAACTTTTCTCTAATTACTTGAAATTTTTGAGGGTCTAGTTATATGTGGCTCCTTAGCACTTAGTTGACTCAAGACCCAGTTCTTAAATGCTTCATTTAAGGCTCACGTTTATACTTTTGGTTCATATTCCTTTCTCTTGTAAGGATCCTTTAAGAAGTGTTTGTTCTCTCTTCCTTATTAAAGTATCTTTTAGACAACATGCAGAATGAGAGCTCCATCAGTATATTTCTGTTTTTGTTAGTAAATTGCTTTTTCCCCTTCTTCCTCGCTGGAACTTACAGAAAATGGGTGATTAATAGATGTAAAAATTTAAAAGTACAGACCGAACCAGAATTAGGTTCAGAAAACCTTCTTGTTGATGCAGCCATATGTATCTGCCATTCCTTCAGGATTGTAGCTATTGGCATTGCTACCAGAAAGAGCAATTCATATGGGCATGTTTAATTGGTTTTTAATCATATACATATGTACATAATGGTTGCATACGCATGTAAAACTCATTTCATATACAAATTTTTCATACATGAGATATGTACAATATACATACATACACAGGCCTCCTGTCTGCGTACATCCAGACGTGGTGGCAAATTTATGACTTTGCAGGTATGTTTCAATTCAATTGGCTTCTTGGGGACGTACGGAGGGGAAGAGAGACATCTTAAAGGATAGCCAACAGGCAACCTTCAGAATGAACTATTTATCTTCAGCTAATAGGAGCGGAGGATTTACATGATGGCTCTGTGGCAAAATATCTTAATATTTGTGACTGCATGTTTTGTACTGCCAATCTTTCTTTATATTAGTTAAATACCAAAATCTTCCTTTAGTACAAATTATGACACGTAATTAGTCTTTGTTGGGCACTTTACACCAGTAATCACATGGATGGGGATTTGCAGAGCTTATAAAAATTGATACTGATTCACTAGTTTGTATCTGATTGGTTCTGTGAACTGGAGAATTGATGCTTAATCTTTGTGCGTTATAGTGATTGTCCAATTAGTCACAGGCATGGGAATCATAGAATGCATAGATTGTTGCCTGACATTTTCTATTAGATTGCAGAGACAGATAGCCAATTCAAATCCAGTGTTGTAGATTTCTTTTGAGCGAATCAGCACTCTCTTTAGCTTGTATAACCAAGTATTGGCCACTGTGTTGATAGCATTTTCTTTGCTTTTTTCATTAGTGGCTTGTTCCCATCTGTGCTCTTAATTTAATATGTTATTCAGGTTAGATTTTTATACATTTGTATGTGGTGGTGCTGTGGGGAGCTCTCTCTTAGCTTCTAAACAATTACACCATATGATATGAATTATTCATTCAGGATGCTCTATTTCCCCATTTTGTTCATCAAACCATTCAAATCAGGTGTAATATTGTGAGATTTTTTCCTTTTCTGCATCTTCTTTGAAGAGAATATAGCCAAATCATTTACATTTATATCTTAGGAATGTTGATCCTCTCCAATTTATTTGATCATTTGCACTGGTTATACTATTTTGCATTCTTGCATATATTAATGCTTCTCTCTCTCTCTCTCCTCTCTTGCATATTCTTTTTTGATACTTGTCAGATGGGAGTTGCTGCACTAAGCCCTTCAGGAAATTAGAGATTGACAGGTGTCTGACATGAGGAATTTCAAGTGCCATAATGAAGGGTTGCCTTTTTTTGTTTCTTTTAATAATGAAAAATGCTTCATCTTTATAACTGGAGAATGATGCTTTTGGTTGGAGAAGCAGAGTGAGGATATATGCAACCTCCCTTTCTGTCTGGAGAACCATGCCACCTCCAATTTCTTGGTAACATTGATATGACCATCCCTCTATACATTAAAAAAAAAAAAAAAAAAGTAGGTTTTGGTTGTTTTTTCTAAGCTTTTCTTTTTAAATTTTTTATTCATTTCTCCAAAGTCAGTTTGATATTTTTGGCAATTTCCATTTTCATTGGTTGTTACGCTTACAATGGGTGGGCCCATATCAAAGTTGAAAAGACATCTTGTTTGTGGGAATTTATAGTTGTTAAATATATATATTTTTTCATCTACTTAAAATTTTTGTAATGATTAAAGGATTTGACATTGACGTAGAAGAGTAACTAGAAATGTTAATAAAATATCAGCTCGGGTAATATTAAAGTATTGACAAAATATCTGTCATGTGAATATAGATAACAGTAGCAAATATTCATAGTTTGTTTAAGAAGTATGAAGTTTTTGGTTTAAATCTATTTTTAGCTTTTGTCAATTTTGGTTTTGTCTTTTAAAAATGTCTATTTTGTTTATGTGTTTTTAAAAAATGGCTGGTTTGATCCTTATTGCAAAAGCTCTTTAATACAAATTATGACAATATTTCAAAAAATATATTAAGTATAGTATTGTGTTGAAATTGTGATTAAAAAAAAAACGATAAAAAAGAAGGAATCAAAATGACACTTTTTAAAAGTACAGGACAAAATCAAAATAGATAAAAGTTGAAATTATATAGACCAAAATGAAATTGACAAAAATTAAAATTGCAGGACCAAATAGACTATATCGATAAACTTTGAAAGAATTTCTTTCGTCAATTTCTTTTTCTTTGGATCACTTGGACCATTATTTTGACATACGAATCTCTTTCTATTGTCCCACTTTAATTTCCTACGAATGTGATCCATTAAAGATACAAGTTATTGGTTCAAATATATTATATAAGAAATAATATAGTATTCAAATATAAGAAAAAATATGCACTTGAATTTGAATAGGGACGAAGTGAATAGAGCAAAAAAGTATCAAGTGTTTGCATACACGTGACCAATGTTGTATATCAAATTGTTGATAGAGATAATTATTTACGGAATATATTGTCAAGATGATTGCGAGGTTTCTTAAGATTCTTGATCTAATTAATAATTTATGTTGTAGAGGAATTGTGATATCAATACAATTTTTAAGGAAAATTTTAGGCGACTTGGGACTTCTAAAGGTAGAGTCTCGAGTTTGTTTAGAGCCTTCTAATGGAATGATACGTGTTATTGTGTGATTTTGGACCAACAACTAGCTAGTTGATCGTGTGCACGTCAGTCTAGTCAGAGGTGAGGTGGCAACATATCACAAGTCATGATGGGGAGCACAATGGAGGATTATCTGCAAACAAGAAGCGGTAAACACTTTGTTGTGTTTGCTAAATACACTTCGATGCTTAAGCCAATCTAAGTGTTGAATTTGGTAGAGTTTTGATATAGCCGAGACTCGAGAGGGCTTACCTCTTTCTATTTTTCATCTTCGTATATATAGAGAAGAGACATAGTTGTAGGTTGTAGCTTGACATGTGGTCATCCATCATATTGACTTGCTAAGATGTCAGTGTTGCACAAGTGGCTTCAGTGAGTTGCTAGCTTGCAGTAACAATGGCAACAAACTTTGATGTGACCTTATTAAGCCTTGTACCTTATCAAGTCTATTTTGAGTGTTAGGATATTAACCATCTCGTCATGTTGGGCTATGCACTTAATTAGTGGTAGACCACTAGGTTGGGCTATACGCATTGGCTTCTAGTTCTTGTCTCACCTGGTCAAGCCATGACCCACCTGTAGCTTATAGTATCACTTGGTTGAGCTATGACTCTCCCGATCTCATCTAATTGGGTTGCGACCCGGGTGGTTTCTGGTTCACCTAATCGAAAGATCCACATGATAACTTATGGTCTACCTAGTGAGTGATGACTCACTTAGTAGCTTCTAGCCTCACCTTGGGCTATGGCTTGGACTTCCTAATTTCACCTGGTAACTTAATTACCAAGTATCTTGAAGACTAGCATACATGTTGGACCTTGTGGTAACTTATGGTCTCACCCATGATGACCACTTGGTAGCTTCAAGCCTCACCCCGAACTATTACCTCAGCTTCTTGATCTCACCTAGTAACTTAATTAATAAGTATCTTGAACACTAGCGTATACGTTCGATCATGCTAGCAGGTCCACATGACACATACGTTTTGCTGAATCGTGAGGTTGGCTAAATAAGTGAGATGAAGTGTGATGGCATGTCCATATGTACTCATCTCAGGCACATAAAGAGAGTCATGAATGCTTTATCCTAGCAACATTTACAAACTATGTAAAGATAAAAACTAATTTTGAGTGACTTATCTATTTGAATAGTGAATACCTTATCAAATTATTACACGGCAGTGTAGTACAAAAATGTATCAACCTAAATATATGTTGGAATTTGGAAATTAAATCATCTTTAGAAAAAAAAAAAAAACCTATTTAGCTATTTATAATTAATTAACCGGTTTATAATCCTATAACTAATTTTTTCTTGATTTATCATTTATTAATTTTATAAATCTATTCATCATAACCATTCTTGAAGAAGAAGGTAAAATATTTAAATAATCTAGAATAAATAGATACAATGCGCGATATAGAAGGATTAAATTTATAATTTAGCTTAATAGTTTCTTGTTTCTAATTTTTAAATTAAAAGTTAAATTTTAAAAAAATATTTTATTCAAAATTTTAAAATCTCTTGGATTTTGTTTGACATGATATGTGCAATTTATGAGCGAAAAAGGGCAGTAATAACAATTTAATTAATATTTGAAAAATTAGAAATAGGAAACAACAAACTATGCTTAGTTCACTACTCATAACATTGACTTTGTTTCTATACACAAAGTTATCCTATAAAAACTTTTCGAATATTTATTCGATTGAGTCTCATTCTCTACTCGTTAATCTATATAAATTATCTTGAGCTTTTTCTATTTTGGCACCCCACTTCGAATCCTAATCATTTACTTCACTTTTGTATGAAAGTAACTTTAAACCCCCTTGTATGAGTGAGAGGGACTTTGTCATCTCACTTGACTTACCGTAGCATTGGTTGTTACCTTTTTCTCAAGCAACTTGGCATATTAAGATTAAGGCAACCACTCAATAGATAGGGTCACATTACTAGATTAGTGTTGTCATCGTTTAGCTTCTTATTTTATATACTTCACTTGCATAACTCAACTTGACTTCCTTATAGATGTAAATGCTCCTCATAATTTTGAATTTTTCTACCAACGTAGAATCCTAAACTCTTTGTAACACAAACTTAGTTCTTGATTTCTTGACTCAAGTAAATGTTAACCACTAACGTTAATTAGTAGATCCATGGAGATATGTACAAACCGATATATTGTCATCAATGTAACCATCATAATTTTTTTATTACATTGACACTCTAATGCATTGTGGTGTCTCAATTCAAATTGTGTTGCTTTTTCTCTTTTTTGTTCGACAAATACACAAAGGGTAGCTTTGATACCAATCCCAGTCAAAATTTGAAAAACTAAATAGTCCATTTAATAACAATTTGTTTTTTTTAAAAAAAAGGCTTATTTACTAAAAATTTCTATAATTTCTAATCTATTTAAAAGCATTAAAAAAATCCTAGCCATATTTTTAAAACTACAAATTGTTATCAAAAGAAGTCTAATAAATAGTTTTTAAAAAGGTTATAGTTTCAAAGCTTGACTAAAATCTCAAAATTATTTTTAAAAATTGAAAATAAAAGTAAAAATTATCAATAAATAGAAATTAGTTTCAGAAACTTATTTTGATTTATAAAATATAGTTAGATTTAAAAATAGAATAAAACTTGACCAAACCAAATTACTTTCACAAAAGTAGAAAAAAAGGTTATTTAATTAAAGAAGTGTTCAGAATAAAGAATTATGCAGAAAATTAATTTTTCTAATAGGAAAATGGACAGATAAATATCTCCTCAAAAAATCCGCAATGTATTAAAACGGCGCCGTTTGGTTGACGGTTTCAAATTCAATTAACCGCCGACAAGAAAATATTGTTTTTTCAGTTAAAAATAAAATTCAAACTTTTCTATTTTTACCCAACGGTTAAAGATAACGACGAAGAAGTCAAGGGCAAAAGCAATGGCATCAGACGTAATTATAAGAAAAAAGCAGGGGCATTTTTGGAGCCAAAATTTAATTGTCATAGCAAGAGATTATTAATATATAAAAATAGGAAAAATAGTTAATTAAACTAATTAATTAATTCAGAGAGAGAAATTATATGTAGCGAACGACGAGGGGAGGACGGAAGAGAAGAAAAAGCTTTGAGGCAGTTCGATCGGTCGTCTATGGCGGTGAGTCTCCGGTGGCCGTGTCTCGGTGAAACCAAATCTCGTTTCTGTATCTGACGAGGATTTCTGTTTACGAGCCTTTTATGACGGCTATTGGATCTTCCAGTTGCCGGCGATTGAGGGGACACCGGATAGATTGGTTGATGTGATGATTTGACCTTAGTTTTATTTTTTTCATGGTTCTACAGAGAGAGAGCTGAATTTTGCCTTATTTTTATTTAATTAACGAGAAGGGAGGAGAAGAGTGAGAAGAAAAACTGGTTAGCTTAGCGGTGGTCTTTGATTTTTGTGTGTGTGCGTGTCTGTGTGGGGAAATCAGTAGGGAAAATGAATGGGCATAGCATTGCGAATGGAAATGGGAATGGAGGAGGATTCAGTAACGCGGAATGGGAGCTCATTCGGAGATACCACAGGCACGAGCCTGCCGTGAATCAGTGCACCTCTCGGCTCGTCAAGCGTATTAAAGCTCCTGTTCATCTTGTACATCATTCTCTCTCTCTCCCTCTCTTCTCTCTCTATTCATCTTTGGTTTTATGTGCGTAATTGTGTCTTTTTAATCCTATTTTACTTCTCAACACTAGTGGCCTACAAAGTTTTCGATTATGGAGGATCTAACCGATCAGTTTGGCATCAATAAGTGCTGTGTTGATCATGATAATAGATAGTTTATTAGCATGGCTTAATTGTTTCTGATGGTTTGGCATTCTCGAATGTTTATATTGAAAGCTGAATGTCCATGCATTATATCTTAATCATCATAATGATTTCTCTCGCACCTCTTGTGGGTGAGTTCAGTTCCTTGGAATTTTCCGGAAAGGAACAGTATTTTCTTGGGGAGTCGTTAAAAAACAACATTTTGGGAATACAGAAGCAGAGGTTGATAGTAATTCTAAATGAGTCAGCTGCTAACAAGAGGTTCTATTCATAAATTTTCTAAATCTCTCTTTAAGGTCAGGTGAATGGATGCATTTAATTTGAGTTGGAGTTTGGTTCCTCCAGGTAGTTTTTGCAAAGAGAGTGAAAGGTTTACTTTTACAGTATCAACTTCAAGAAAGAATTGTAAAGAGTTTGTATCACTAAAACTAGCGAACTATAGTTGTTTTATGTTTACATTTGTTCTATCTCTGATTATATGGAGGTTTTAGGAATTATTCAAACTTGGAAAGTGAACCACTATAGAAGATCGTTTGATCCTATTTGAATAATAAAGATATAAATTTGCAATAAGGATTATGGGGATATTGGTATAAAATCGTATTTTGGGTTATTGCATTTCTTGCCTTTGTTTTCTGAATTGGAATATCTCCTCTTCAGGTATGGTCTCTAGTAAGGAGATTTGATCAACCACAAAGATACAAGCCCTTTGTTAGCAGATGTGTTGTGAAGGGAAACCTTGAGATAGGGAGTCTCAGAGAAGTTGATGTGAAGTCGGGGCTTCCTGCCACAACAAGTACAGAGAGATTGGAACTTCTTGATGATGATAGGCACATCCTTAGCATCAGGATTGTTGGCGGAGATCACAGACTCAAGGTACAGGTCTCAATGTATTTTTAGTCTACTATTTTATTTGAAAATTCCATGGTCCTAACATTGGCTGAACATTTGCGATTTTTATCTATCTTTCAAGGTGAAAACAATTGTCCTAGGTGCTCTCAAACCGAAGTAGGTGTTCATTTTATGAGAATATTATGTAATATTCATTATTTTCTGAGCGAAACATATTTATACTGATATTTATCCTTGAAAGTTTGAAGCCTAAATTGATCCTAAGATTAGTCTAACATATTATGAGTAGTTTAGAGAACTATGATTCAATATATAATCAAAGGGAAGAACTGTTGAGAACATTTCATATTGAAAACTTTTAGACAATCACCTGATAACAATGACCATTCGTGGATTTTGAGCAATGATTTTGTTCAAATGTGCTTTTGGTAGTCATTTATGCCGACAGATAATGCACGGGATTTCTAAGCTCAAGCCAAGTTTGGCTTGAATTTTTTCTCATCCATATATTTTCAACTATTTGCTCTTGTGACATGTGCTTTGGGTATAAGAATGATGAACTTCACATGATTAGTATCATGTGACTATCTGATTAAGTGTTTAACATGAATCAAAGCTCTATCATGGCACTAGCTTTGTGATTGACGAATTAAACTGGAAATTTGCTCAGCATTTTTGTTTCTATGATCACCCGTTATTGGGTAATGTGCTAACTATCAAAGACTTACAGTTCTCACTTTCATGCTTGGGGTAACCTAGTCAGAGGCTTCATTTTTCTTTCTCGTAATTTTTTGGTGATTGATCTTTTCTGTGTGCTAAATCAGTAACGATCTAAATTACCCATATCTTTTATTTCAGAATTACTCTTCAATCATTTCCCTGCATCCAGAAATCATTGATGGAAGACCAGGGACTCTGGTAATTGAATCATTTGTGGTGGATGTGCCTGAAGGAAACACAAAGGATGAGACTTGCTACTTTGTGGAAGCCTTGATCAAGTGCAATCTCAAGTCACTTGCTGATGTTTCAGAGCGGCTTGCAGTGCAAGATCGCACAGAGCCTCTTGATAGGATCTAA ATGGAGTGCAACAAAGATGAGGCAGTTAGAGCAAAGGAAATTGCTGAGAGAAAATTTACAGAGAGAAATTATTCTGCGGCAAAGAAGTTTGTTTTGAAGGCTCAAAATTTGTACCCTGGGCTTGATGGTCTCTCTCAAATGATGACAACTCTCGAAGTGTATATCTCTGCAGAGAATAAGATAAATGGGGAAATGGATTGGTATGGAATACTTGGTGTGAACCACTTGGCTGATGATGAGACTATTAGGAGACAATATAGAAAGCTAGCTCTTGTCCTCCATCCTGATAAAAACAAATCACTTGGTGCAGAGGGTGCATTTAAATTGGTTTCAGAGGCCTGGAGTTTGTTATCTGACAAGGGAAAGAGATTGGCTTATAATCAGAAGAGGGATTTGAAAGGGGGTCGACAGAAAACTCCTACCCACACTCATAGTACTTCAGTGCCGCCTAGTGCAAATGGCTTTCAAAATTTTAATAATGTTGCTTCAAATGCAAGGAATGTGCAGAGTAAGGTTCGGGTAGGGGCCACCGCATTTCAGTCTTCCCATAGAAAGCCAGATACTTTTTGGACTCTTTGCAACCGATGCAAGACACATTATGAGTACCTTAGAGTCTATCTAAATCACACTCTCCTATGCCCTAATTGTCATGAAGCTTTTTTGGCTGTAGAGAAGGCTCCACCCCCAAATGTATTCAAGTCACCTAGTTGGTCTTCTCAGCAGCAGCATCAAAATTCTAGACAGCATACTGTTAGTGGTAATGCTTATGGTACTGGAAGAAACGCTAAAAATCCTGATAATTCAGTTGATAATACAAACTTTCAGTGGGGTCCTTCCTCCAGGACAGCTGGTGATGGTAGCACTTTTTCATCAGCTTCCACTCAAGCTGCAAACTTGGTTCAACAAGCAAGTGAGAAAGTGAAGAGAGATCGTGATGAAACACAGCCATCGACTGAAGTGGAGAGGAGTCACCTGCCTTCTTTGAAAAAGAAAAGAACTGATGACAGAAATAACAGCCATGGGGTCCACATGGCAAATCAAATGGCCAGAGGAGATGGATCAGCTGGTGTTGGTTTACCTGAATTAAGGAAGAGTTATCCTGAAACTCAAAAGTTTCATGGTCTTTATGGTGCATTTAACCGGGCCAATAGCCAGAAAGAGTTGTCAATCTTTGAAATTCGAAACATGCTAATGGAGAAGGCTCGTGCTGAAATTCGTAAAAAACTTAAAGAATGGAGCACATTGACTGAAAAATCAACTATGAATAAACAGTCCAAGAAGCAAAAGAATGTTGTGAATGATGGAACTCATGATTTAAAAATTAATGGTAAATCTTTGCAAATAGTAAAGGAGGGCATGACAGGAAGCCTGAGTCAGTTCATTGGGGATGATCAAGTGTGGGCTTGTTATGATGATGATGATGGAATGCCTCGTTTCTATGCTCGAATTCACAAGGTGATTTCCCTAAGACCATTCAAAATGCGTATCAGTTGGCTCAACTCAAGAAGCAACACTGAGATTGGCCCTATGGACTGGATAGGTTCAGGGTTCACAAAAACCTGTGGTGATTTCAGAATTGGAAGACATGAAGTCGCAGGATCATTGAACTCCTTCTCACATAAGGTTTTCTGGGTGAAAGGTTTACGAGGGGTGATTCGGATATTTCCTCAGAAGGGTGAAGTCTGGGCTCTTTACAGAAACTGGTCTGCGGATTGGAATAAAGATACACCAGAAGAAATGATACACAAGTACGATATGGTAGAAGTGCTTGGTGATTTTAATGAAGAACAAGGCGTGTCTGTTGCTCCTCTTGTTAAGGTTGTTGGTTTCAGGACAGTGTTCTGTAGGTGCATGGATCCAAAAGAAGTGAGGAAGATCCCTAAAGAAGAGATGTTTCGCTTCTCCCATCAGGTCCCCAATTACTTGCTTACGGGAGAAGAAGCTCAAAATGCTCCAAAGGGTTGTCGGGAATTGGATCCAGCAGCAACACCTTTGGAGCTCCTCCAGATTGATACAGAATCTAATCAAGCAACAACAGGGGAGACTGAGGTAAAAACTGAAGAACAGATATCCCATATTAACCAGGAAATTGTAGCTAATGAGGTGGAGAACACTTTGGATGCTAGGAAGGTAGCTAAGGAAGCTGATGGGCAGATCATGCCAGCAAAAGTAAATCAACTAAATGTGGAGATTGCTCGAGTAGGGAAAATGAATGGGCATAGCATTGCGAATGGAAATGGGAATGGAGGAGGATTCAGTAACGCGGAATGGGAGCTCATTCGGAGATACCACAGGCACGAGCCTGCCGTGAATCAGTGCACCTCTCGGCTCGTCAAGCGTATTAAAGCTCCTGTTCATCTTGTATGGTCTCTAGTAAGGAGATTTGATCAACCACAAAGATACAAGCCCTTTGTTAGCAGATGTGTTGTGAAGGGAAACCTTGAGATAGGGAGTCTCAGAGAAGTTGATGTGAAGTCGGGGCTTCCTGCCACAACAAGTACAGAGAGATTGGAACTTCTTGATGATGATAGGCACATCCTTAGCATCAGGATTGTTGGCGGAGATCACAGACTCAAGAATTACTCTTCAATCATTTCCCTGCATCCAGAAATCATTGATGGAAGACCAGGGACTCTGGTAATTGAATCATTTGTGGTGGATGTGCCTGAAGGAAACACAAAGGATGAGACTTGCTACTTTGTGGAAGCCTTGATCAAGTGCAATCTCAAGTCACTTGCTGATGTTTCAGAGCGGCTTGCAGTGCAAGATCGCACAGAGCCTCTTGATAGGATCTAA ATGGAGTGCAACAAAGATGAGGCAGTTAGAGCAAAGGAAATTGCTGAGAGAAAATTTACAGAGAGAAATTATTCTGCGGCAAAGAAGTTTGTTTTGAAGGCTCAAAATTTGTACCCTGGGCTTGATGGTCTCTCTCAAATGATGACAACTCTCGAAGTGTATATCTCTGCAGAGAATAAGATAAATGGGGAAATGGATTGGTATGGAATACTTGGTGTGAACCACTTGGCTGATGATGAGACTATTAGGAGACAATATAGAAAGCTAGCTCTTGTCCTCCATCCTGATAAAAACAAATCACTTGGTGCAGAGGGTGCATTTAAATTGGTTTCAGAGGCCTGGAGTTTGTTATCTGACAAGGGAAAGAGATTGGCTTATAATCAGAAGAGGGATTTGAAAGGGGGTCGACAGAAAACTCCTACCCACACTCATAGTACTTCAGTGCCGCCTAGTGCAAATGGCTTTCAAAATTTTAATAATGTTGCTTCAAATGCAAGGAATGTGCAGAGTAAGGTTCGGGTAGGGGCCACCGCATTTCAGTCTTCCCATAGAAAGCCAGATACTTTTTGGACTCTTTGCAACCGATGCAAGACACATTATGAGTACCTTAGAGTCTATCTAAATCACACTCTCCTATGCCCTAATTGTCATGAAGCTTTTTTGGCTGTAGAGAAGGCTCCACCCCCAAATGTATTCAAGTCACCTAGTTGGTCTTCTCAGCAGCAGCATCAAAATTCTAGACAGCATACTGTTAGTGGTAATGCTTATGGTACTGGAAGAAACGCTAAAAATCCTGATAATTCAGTTGATAATACAAACTTTCAGTGGGGTCCTTCCTCCAGGACAGCTGGTGATGGTAGCACTTTTTCATCAGCTTCCACTCAAGCTGCAAACTTGGTTCAACAAGCAAGTGAGAAAGTGAAGAGAGATCGTGATGAAACACAGCCATCGACTGAAGTGGAGAGGAGTCACCTGCCTTCTTTGAAAAAGAAAAGAACTGATGACAGAAATAACAGCCATGGGGTCCACATGGCAAATCAAATGGCCAGAGGAGATGGATCAGCTGGTGTTGGTTTACCTGAATTAAGGAAGAGTTATCCTGAAACTCAAAAGTTTCATGGTCTTTATGGTGCATTTAACCGGGCCAATAGCCAGAAAGAGTTGTCAATCTTTGAAATTCGAAACATGCTAATGGAGAAGGCTCGTGCTGAAATTCGTAAAAAACTTAAAGAATGGAGCACATTGACTGAAAAATCAACTATGAATAAACAGTCCAAGAAGCAAAAGAATGTTGTGAATGATGGAACTCATGATTTAAAAATTAATGGTAAATCTTTGCAAATAGTAAAGGAGGGCATGACAGGAAGCCTGAGTCAGTTCATTGGGGATGATCAAGTGTGGGCTTGTTATGATGATGATGATGGAATGCCTCGTTTCTATGCTCGAATTCACAAGGTGATTTCCCTAAGACCATTCAAAATGCGTATCAGTTGGCTCAACTCAAGAAGCAACACTGAGATTGGCCCTATGGACTGGATAGGTTCAGGGTTCACAAAAACCTGTGGTGATTTCAGAATTGGAAGACATGAAGTCGCAGGATCATTGAACTCCTTCTCACATAAGGTTTTCTGGGTGAAAGGTTTACGAGGGGTGATTCGGATATTTCCTCAGAAGGGTGAAGTCTGGGCTCTTTACAGAAACTGGTCTGCGGATTGGAATAAAGATACACCAGAAGAAATGATACACAAGTACGATATGGTAGAAGTGCTTGGTGATTTTAATGAAGAACAAGGCGTGTCTGTTGCTCCTCTTGTTAAGGTTGTTGGTTTCAGGACAGTGTTCTGTAGGTGCATGGATCCAAAAGAAGTGAGGAAGATCCCTAAAGAAGAGATGTTTCGCTTCTCCCATCAGGTCCCCAATTACTTGCTTACGGGAGAAGAAGCTCAAAATGCTCCAAAGGGTTGTCGGGAATTGGATCCAGCAGCAACACCTTTGGAGCTCCTCCAGATTGATACAGAATCTAATCAAGCAACAACAGGGGAGACTGAGGTAAAAACTGAAGAACAGATATCCCATATTAACCAGGAAATTGTAGCTAATGAGGTGGAGAACACTTTGGATGCTAGGAAGGTAGCTAAGGAAGCTGATGGGCAGATCATGCCAGCAAAAGTAAATCAACTAAATGTGGAGATTGCTCGAGTAGGGAAAATGAATGGGCATAGCATTGCGAATGGAAATGGGAATGGAGGAGGATTCAGTAACGCGGAATGGGAGCTCATTCGGAGATACCACAGGCACGAGCCTGCCGTGAATCAGTGCACCTCTCGGCTCGTCAAGCGTATTAAAGCTCCTGTTCATCTTGTATGGTCTCTAGTAAGGAGATTTGATCAACCACAAAGATACAAGCCCTTTGTTAGCAGATGTGTTGTGAAGGGAAACCTTGAGATAGGGAGTCTCAGAGAAGTTGATGTGAAGTCGGGGCTTCCTGCCACAACAAGTACAGAGAGATTGGAACTTCTTGATGATGATAGGCACATCCTTAGCATCAGGATTGTTGGCGGAGATCACAGACTCAAGAATTACTCTTCAATCATTTCCCTGCATCCAGAAATCATTGATGGAAGACCAGGGACTCTGGTAATTGAATCATTTGTGGTGGATGTGCCTGAAGGAAACACAAAGGATGAGACTTGCTACTTTGTGGAAGCCTTGATCAAGTGCAATCTCAAGTCACTTGCTGATGTTTCAGAGCGGCTTGCAGTGCAAGATCGCACAGAGCCTCTTGATAGGATCTAA MECNKDEAVRAKEIAERKFTERNYSAAKKFVLKAQNLYPGLDGLSQMMTTLEVYISAENKINGEMDWYGILGVNHLADDETIRRQYRKLALVLHPDKNKSLGAEGAFKLVSEAWSLLSDKGKRLAYNQKRDLKGGRQKTPTHTHSTSVPPSANGFQNFNNVASNARNVQSKVRVGATAFQSSHRKPDTFWTLCNRCKTHYEYLRVYLNHTLLCPNCHEAFLAVEKAPPPNVFKSPSWSSQQQHQNSRQHTVSGNAYGTGRNAKNPDNSVDNTNFQWGPSSRTAGDGSTFSSASTQAANLVQQASEKVKRDRDETQPSTEVERSHLPSLKKKRTDDRNNSHGVHMANQMARGDGSAGVGLPELRKSYPETQKFHGLYGAFNRANSQKELSIFEIRNMLMEKARAEIRKKLKEWSTLTEKSTMNKQSKKQKNVVNDGTHDLKINGKSLQIVKEGMTGSLSQFIGDDQVWACYDDDDGMPRFYARIHKVISLRPFKMRISWLNSRSNTEIGPMDWIGSGFTKTCGDFRIGRHEVAGSLNSFSHKVFWVKGLRGVIRIFPQKGEVWALYRNWSADWNKDTPEEMIHKYDMVEVLGDFNEEQGVSVAPLVKVVGFRTVFCRCMDPKEVRKIPKEEMFRFSHQVPNYLLTGEEAQNAPKGCRELDPAATPLELLQIDTESNQATTGETEVKTEEQISHINQEIVANEVENTLDARKVAKEADGQIMPAKVNQLNVEIARVGKMNGHSIANGNGNGGGFSNAEWELIRRYHRHEPAVNQCTSRLVKRIKAPVHLVWSLVRRFDQPQRYKPFVSRCVVKGNLEIGSLREVDVKSGLPATTSTERLELLDDDRHILSIRIVGGDHRLKNYSSIISLHPEIIDGRPGTLVIESFVVDVPEGNTKDETCYFVEALIKCNLKSLADVSERLAVQDRTEPLDRI Homology
BLAST of Sgr021611 vs. NCBI nr
Match: XP_022158022.1 (uncharacterized protein LOC111024612 [Momordica charantia] >XP_022158023.1 uncharacterized protein LOC111024612 [Momordica charantia] >XP_022158024.1 uncharacterized protein LOC111024612 [Momordica charantia] >XP_022158025.1 uncharacterized protein LOC111024612 [Momordica charantia] >XP_022158026.1 uncharacterized protein LOC111024612 [Momordica charantia]) HSP 1 Score: 1238.4 bits (3203), Expect = 0.0e+00 Identity = 634/753 (84.20%), Postives = 662/753 (87.92%), Query Frame = 0
BLAST of Sgr021611 vs. NCBI nr
Match: XP_038874482.1 (uncharacterized protein LOC120067126 [Benincasa hispida]) HSP 1 Score: 1224.2 bits (3166), Expect = 0.0e+00 Identity = 633/753 (84.06%), Postives = 655/753 (86.99%), Query Frame = 0
BLAST of Sgr021611 vs. NCBI nr
Match: KAA0042558.1 (Curved DNA-binding protein [Cucumis melo var. makuwa] >TYK05962.1 Curved DNA-binding protein [Cucumis melo var. makuwa]) HSP 1 Score: 1206.8 bits (3121), Expect = 0.0e+00 Identity = 624/759 (82.21%), Postives = 654/759 (86.17%), Query Frame = 0
BLAST of Sgr021611 vs. NCBI nr
Match: XP_008437584.1 (PREDICTED: uncharacterized protein LOC103482955 [Cucumis melo]) HSP 1 Score: 1199.9 bits (3103), Expect = 0.0e+00 Identity = 620/753 (82.34%), Postives = 649/753 (86.19%), Query Frame = 0
BLAST of Sgr021611 vs. NCBI nr
Match: XP_022973026.1 (uncharacterized protein LOC111471541 [Cucurbita maxima] >XP_022973027.1 uncharacterized protein LOC111471541 [Cucurbita maxima] >XP_022973028.1 uncharacterized protein LOC111471541 [Cucurbita maxima]) HSP 1 Score: 1198.3 bits (3099), Expect = 0.0e+00 Identity = 624/753 (82.87%), Postives = 653/753 (86.72%), Query Frame = 0
BLAST of Sgr021611 vs. ExPASy Swiss-Prot
Match: Q6EN42 (Abscisic acid receptor PYL3 OS=Oryza sativa subsp. japonica OX=39947 GN=PYL3 PE=1 SV=1) HSP 1 Score: 305.4 bits (781), Expect = 2.1e-81 Identity = 143/176 (81.25%), Postives = 163/176 (92.61%), Query Frame = 0
BLAST of Sgr021611 vs. ExPASy Swiss-Prot
Match: Q9FGM1 (Abscisic acid receptor PYL8 OS=Arabidopsis thaliana OX=3702 GN=PYL8 PE=1 SV=1) HSP 1 Score: 303.5 bits (776), Expect = 8.1e-81 Identity = 147/173 (84.97%), Postives = 159/173 (91.91%), Query Frame = 0
BLAST of Sgr021611 vs. ExPASy Swiss-Prot
Match: Q6I5C3 (Abscisic acid receptor PYL5 OS=Oryza sativa subsp. japonica OX=39947 GN=PYL5 PE=1 SV=1) HSP 1 Score: 292.0 bits (746), Expect = 2.4e-77 Identity = 146/197 (74.11%), Postives = 166/197 (84.26%), Query Frame = 0
BLAST of Sgr021611 vs. ExPASy Swiss-Prot
Match: Q84MC7 (Abscisic acid receptor PYL9 OS=Arabidopsis thaliana OX=3702 GN=PYL9 PE=1 SV=1) HSP 1 Score: 280.4 bits (716), Expect = 7.3e-74 Identity = 137/185 (74.05%), Postives = 158/185 (85.41%), Query Frame = 0
BLAST of Sgr021611 vs. ExPASy Swiss-Prot
Match: Q1ECF1 (Abscisic acid receptor PYL7 OS=Arabidopsis thaliana OX=3702 GN=PYL7 PE=1 SV=1) HSP 1 Score: 266.9 bits (681), Expect = 8.4e-70 Identity = 128/169 (75.74%), Postives = 146/169 (86.39%), Query Frame = 0
BLAST of Sgr021611 vs. ExPASy TrEMBL
Match: A0A6J1DUY6 (uncharacterized protein LOC111024612 OS=Momordica charantia OX=3673 GN=LOC111024612 PE=4 SV=1) HSP 1 Score: 1238.4 bits (3203), Expect = 0.0e+00 Identity = 634/753 (84.20%), Postives = 662/753 (87.92%), Query Frame = 0
BLAST of Sgr021611 vs. ExPASy TrEMBL
Match: A0A5D3C403 (Curved DNA-binding protein OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold376G00560 PE=4 SV=1) HSP 1 Score: 1206.8 bits (3121), Expect = 0.0e+00 Identity = 624/759 (82.21%), Postives = 654/759 (86.17%), Query Frame = 0
BLAST of Sgr021611 vs. ExPASy TrEMBL
Match: A0A1S3AV00 (uncharacterized protein LOC103482955 OS=Cucumis melo OX=3656 GN=LOC103482955 PE=4 SV=1) HSP 1 Score: 1199.9 bits (3103), Expect = 0.0e+00 Identity = 620/753 (82.34%), Postives = 649/753 (86.19%), Query Frame = 0
BLAST of Sgr021611 vs. ExPASy TrEMBL
Match: A0A6J1I7J9 (uncharacterized protein LOC111471541 OS=Cucurbita maxima OX=3661 GN=LOC111471541 PE=4 SV=1) HSP 1 Score: 1198.3 bits (3099), Expect = 0.0e+00 Identity = 624/753 (82.87%), Postives = 653/753 (86.72%), Query Frame = 0
BLAST of Sgr021611 vs. ExPASy TrEMBL
Match: A0A6J1E363 (uncharacterized protein LOC111430376 OS=Cucurbita moschata OX=3662 GN=LOC111430376 PE=4 SV=1) HSP 1 Score: 1194.9 bits (3090), Expect = 0.0e+00 Identity = 621/752 (82.58%), Postives = 652/752 (86.70%), Query Frame = 0
BLAST of Sgr021611 vs. TAIR 10
Match: AT5G53150.1 (DNAJ heat shock N-terminal domain-containing protein ) HSP 1 Score: 553.9 bits (1426), Expect = 2.4e-157 Identity = 335/753 (44.49%), Postives = 454/753 (60.29%), Query Frame = 0
BLAST of Sgr021611 vs. TAIR 10
Match: AT2G25560.1 (DNAJ heat shock N-terminal domain-containing protein ) HSP 1 Score: 434.9 bits (1117), Expect = 1.7e-121 Identity = 274/709 (38.65%), Postives = 394/709 (55.57%), Query Frame = 0
BLAST of Sgr021611 vs. TAIR 10
Match: AT2G05250.1 (DNAJ heat shock N-terminal domain-containing protein ) HSP 1 Score: 363.2 bits (931), Expect = 6.1e-100 Identity = 245/735 (33.33%), Postives = 383/735 (52.11%), Query Frame = 0
BLAST of Sgr021611 vs. TAIR 10
Match: AT2G05230.1 (DNAJ heat shock N-terminal domain-containing protein ) HSP 1 Score: 363.2 bits (931), Expect = 6.1e-100 Identity = 245/735 (33.33%), Postives = 383/735 (52.11%), Query Frame = 0
BLAST of Sgr021611 vs. TAIR 10
Match: AT5G53160.2 (regulatory components of ABA receptor 3 ) HSP 1 Score: 303.5 bits (776), Expect = 5.8e-82 Identity = 147/173 (84.97%), Postives = 159/173 (91.91%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Monk fruit (Qingpiguo) v1
Date Performed: 2022-08-01
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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