Sgr022737 (gene) Monk fruit (Qingpiguo) v1
Overview
Sequences
The following sequences are available for this feature:
Legend: polypeptideexonCDS Hold the cursor over a type above to highlight its positions in the sequence below.ATGGACAGCAGCACCGCCGTGATGAGTAGGCCAACGCCGCCGTTCCCTTCGCCGCATCGGACCGTAGACTTCTCTCCGCTCGAGTTCATCCTCGGCCTCGTAGCCGTCATCACCATCCCGGCCCTAGTCTATTCCTTTTTCTTCGCCATCAAGTGCCCGCCAAATCTCCTCCGCCTCTGGAGGCGGAGATCCTCGAGGCTCTCCGGCGGCGCCGTAAGCGTGTGGCCGGAAATAGAAGCTGTTTTAATGACGTGGCGTCGGCTGTTAAGTACAAGAAGGAGGAGCACTGTAAGGAAGTCGGCAGCGAGTGTCCGGTCTGCCTGTCGGCGTTCGCCGACGGCGAGGATGTCCGGCAGCTCACCGCCTGTAAACACTCTTTTCACGTGCCTTGCATCGATATGTGGCTCTATTCTCACCCTAACTGCCCTGTTTGCCGCGCCTCCGTCGCCGTTAAACGGCCGATTAACCACCACGTGCCGCCGGCGACTTCTAGAAACGACGATTTCCAGCAAGGTTTGCCCGATGCCGGGAGCTTGGTTTGACAAGTTTCTCTGCAACTCGTCTTCTTCTGCTTCTCCTTTCCTATTGGTATGTAGCTATTCCGATTGCTGCCATTCGAACCACAGATCGAATTACTTTCAAATCTCGTCTCGATTTCATGGAAATTTTGTCCGATAATCTCGAATTAGATAGGTCTCAATGTCATAGAATTTAAAATTTTGGATTGTTCTCAATTCTGAAAATCAAAGGCGTAAAATTGAAAGGTTTAGGGGGTTTTTTTAATTATATAATAATAATTATTTTTTTTAACCTGCACCCAAAATCATAATTTCTCTTTCGGAAACGCCTTCCTTTTTACTACACGTGTTGTAATTTGATTGCATTTTCCACTTTAGCTTTAATTAATATGTGTCATATCTTAAGAAATGTAAAGATATAATTTCAATCTTATAGTATAACTATTTTTACAAATTGTTGAAAATTTTCAATTTTATAATTTAGAGTCCTATTTCTCATATCTTATAGCATTGTGAATTATTCATTTGAATGAAACAAGTTTAATATTAGATATTAATTACATTGTAGGTTTAGATTAGGATTGTAAGCCAAAATCAACAAAATTTAAAAAAATCACTAAACCCAGTTGGATTTGAATTAAATTGAATTGATCAATTGACCAATAATGAATTTGAGACTTTAATAGATGCATTAGATGTGTTCCTTGACCTATAGATATCTATGTAGACAAATATTTATAACCATGTATGGTATATTAGATATCAGGTTTCACAATAAATTTGAGATTTTGTTAAATGGTTAATTGAAATTTGAGATGATAAAAACTATAAGAATTTATTGTGCAAAATTTAGAGGTTAAAACATAATATTCGAAAGTTTAAGACCAAAACGATATAAGTATGAAAGTTTTGTTCCACCATCAAAATAGAATTTACCGCTAATTTTTTATATAAAACATTTAATGTAACATTTGAGTTATATGACATGACACATCACTGCAATGACCCCAACATGATTTCCACCCACATTTTTCATTTGTCATGGATGTATTGTTACACATTTGACTCTTTTAGGACTAAAGTGCCTAGGCTTGGTCAAAAAAAGTTTGCTTTAATAGTAGAAAATATTGTAGAATTCTATTTTTTTTCTTAGTCTACAAGAAAAATAAAATCAAACCCAGTTCAACTAACATAACTGTATATCCAATGAAAAATGATTTAACAATCCATGACTTTCTTTAGAAGCAAAGAAGAAATTCTTGTTGTTTTGAAGTGGAGTGATACTTTAGTGTTAATGGTTTAATATCTAATTTTTCAAATTAACACAATCTTACGAGGTACTTTTATACTTAGATTAGTACAAACGTTAATGTTAACTTTAAAATATTCGTTCCATTATTATTGTATTTTTTATGTCAATATTTTAATCTAAATTTCTATAAATTGAAGGGTTTGACGTCGATATGATTGCATCATTAAAATATTGACTAAATATAAAAAAATATAACTAATGTGAATAATACTTTGTGGATGTTTCTATTTCTATAAATATTTTCAGAAAATTGAGGAAATTGACATTTTTATCGCATGGGATTTAAATGCTGGAAGTGCAAGTACACTATTGGCTGACTGATTTTAAATTTCTGTCGCAAGTAAATATTTTCCCTCTTGATTTTATTTCAGACCAACCGATTTGCCAGTGACCGTCGCACCGACAGCGCACTCTCACCTTCCGAGCTCTTTCTCAAGCATTAGAATCTAGAAAAGCGCCCATAAATCCATAAAAAACAGCGGCAATTTTCATTTTTCAGCTGCTTGGGGTTCAAGTTCTACGATTCGATTCAGCTACTTCTGGGTTGTAACCTTGGATCAAGGTTTTGGGTTTAAGCTCCTTGAAAGTTGAAACCATTTGCGTCAGTTCGTGTTCAGAAATTGCATTCCGATTTGTCGTCGTTGGGAAGTTAAAATGAAGAAGAATCACAATCCGTATTACCCAGATCGGAAATGGTTGATGCCATTGGCCGTATTTTGCGTAATCTTTCTGATTTTCATTCTAATTGTTACTTCCGGGAACCCTAAATCTTCTCCCGACGCTGATTTTTCCCATGGTGCGACGAGATTCGTAGACTCCAATGGGAATGAAGGGCTAGGGCTAGGGCTTCCGCCATTGCCGAGATTTGCGTATTTGATATCAGGAACGAAAGGAGACGGCGGGTCGATGAGGCGGCTTCTTCAAGCGGCGTATCACCCGAGGAACTACTATCTGTTACATCTCGATCTGGAAGCTCCGGATTCCGAGAGACTCGAGCTGGCAAAGTATGTGAAATCGGCGAGCGCATTGAGGGAGTTCAGGAATGTAATGGTTGTGGGCAAAGCCAATTTGATCACCGACAAAGGCCCAACTATGATTGCTTCTACGCTTCAGGCGATTGCGATATTGCTGAAGCGCGCAAAGGATTGGGATTGGTTCATTAATCTCAGCGCCTCTGATTATCCTCTGCTTTCGCAAGACGGTAGTTCCTTCAGCTCATTTCTACTGCCTTTTCTCAAGTTGAATGCTTAATAATCTCATTAGAATAAGTATTTTGATATTTCGTCAAACTATCAAGTTTAGAATTCAATTAATTCTCTATTTATTTTGTTGATATCAGCAGTTTTCTTGGTAATTTTTGACATTCTATTCTCAATGTATACAGTATTCATAAACAACATTGAAATTCTTATTGGGAGTGGAAATTCCAATGTTCAATTAGCGGTAAATTGGTAAATGTATTAATTGTCTAGAGGTTTAGAGGCTGAGTTCTTGGTGTTTAATTCATAATCTAGCTGAGGTATTGTTGCTTTAGATTGATGTGCCTCTGGATTTTTGAAATACTTGTTATGTTCTTGCTCTCCATTGTAAGTTTGTTAGGTTTAACAGACACTTCTCTGTTCAAGCAGCCATTTGCATTACCTTCCAATGAACAAGAAGAACGTTCAACTGCTATTCTGTTCTGGTTGAAGTTTGTAAAAATCATGTTGCCAGCGCTCATAAATTCTTCTTTTTCTCTCATTGCTGATATTTAGGAACAATAACTGAATCTGCAGTTCTGCGACGTGTGACTTTTCTTTTCTGTTGACTCGTGTATCTGTCTGTTTGTTCGTGTTGCAGATCTTTTGCATGTATTTCCTACTTGCCGAGGGATTTGAACTTCGTTGAGCACACGAGTAATCTTGGTTGGAAAGAGTGAGCTTGCTCCTCATCACATTATGATTCTCTTTGAATATGAACATTGTTTTCTAAATCGTTTTATAATGATCTAGGGACTTGGGAGCAAAGACTATAATCATAGATCCTGGCTTGTATCACACAAAGAAATCTGGAGTGTTTTGGGCAAAAGAGAGAAGGTCGATACCGTCGTCATTCAAGTTGTTTACAGGTAAGGCAGTTCCTATGTAACATTTTTCGCCACCATTTGGATGGTTTTGCATCCTTGAATCATCGATATTGCCATCTTAATAATGTTCACGAGATATAAATCGTGCTACTAGACTCGTGTCAATGAGATGGAAAATTCTATACATTAGCAGATTGCTGCTTTTCGTTGGATGACTTAGAATTTAGAAGTCTGGACATTTATTTGATTCACTTGGGTAGTTCGATATTCTTCGACGTAATTTGCTCTGATGAAGAAAATCTATTGCCAGGATCTTCATGGGTGGTTCTCACAAAGCCATTTCTGGAATTCTGTATATGGGGATGGGACAACTCCCTCGCACTCTCCTCATGTACTACACCAATTTCTTGTCTTCTCCAGAGGGTTACTTTCACACCGTCATCTGCAACCACAAGGACTACCAAAACACTACTGTAAACCAAGACTTGCATTATATGAAGTGGGACAATCCTCCGAACCAACACCCGATTAACCTAACGGCTGAACATTTCATCGACATGGTCCAAAGTGGTCTCCCTTTTGCAAGGAGTTTTGCTGAGAATAGTTTGGTACTCAACAGAATAGATGAGGAACTATTGAAGAGATCGAACGGGCAGTTCACGCCGGGTGCCTGGTGTGTGAGGAACTCGGTCTCAGAGAAGGGTCCTTGTGCGGCCTATGGCAGCCCCCACGCTGTTAAACCAAGCAGCAACTCGAAGAGGCTGGAAAAGCTTCTGGTGAAACTTCTTGATCATGAGAACTTCAGACCCAGACAATGTAGATAGATCTGGCAACGTCCAAATTTTCCCACTGTGTGAATTCTTTTGATCATTTTTATTTTTTCTTTTCCTTCCCTGAGCAGCAGACGGGAAGAGTGAATCCTCTGTACAGAAAATGTGAAACAGCAGTTTTTTTTGGCTGTATGTGAAAATTCTACAATAATGCTAAAGGTTTTATATTATTTTCATACATAAATGATATAGTCCGAAAAGTTTATTGTTTATATCTCGAATTCCCAAAGTCATTTAAAAGAAAACTATAGTTCTAGTATAAAAAGCAAATCCAGAATCAACAAGATATACCCTTCATTAAAAGTGTGATAATTTATATATTAAAAGGTCAAATAAAGAACTGTCCAATAAAATTTGAATACATGCTAATTACGGCGATTAATGGATAAATATTTTTGAAATTCTTTAAAGAAAATTGAAAAATGAAAAATTTAAATAAAGGTAATCCATCTTCAAGAATTTTTCATAATTTTAAGCTGTTTTCTTTCTATTTTGTTGTCAAACTAAATTAAATCGTAATATTATTAATATATATATATATATATATATAGTGTTTTACTGCAACAAAAATATAATTAAAAAAATTGAAATATAGAATAGTGGAATGTAGACTAGTTGACATATCAAAGGGCTAGGCCCAAACCGCTTGAAACTTGGGCCGAAACTGGTCGCAAATGGCAGGCTTTTTGGGCTTCAAACGACGATGTCACTCTCATGGCTTTTAAACTACTTGTCGTTTTGCAAAATCCAAAGCGAACGTTCGCCCATTTGTTGTCGCTGTACGATTCATTGAAGAAAGGCTTATGCTTTTGGTCATGTCGTCTGCCAATTATAATCCAAAAAGAAAGATAAATATTCTTCCTTTTCTTTTTTAAGTGCTACCTCACGCAAGCATCCATATACTCTATCCACAAATTAAAATACCCTTTTTTAAAAAAAAAATGACAAATGATTGGAGCTCCCACTGAGTTGAATCACAAACTAAAACCAAGTGGAAATTGGTAATTTTGATTATTTATTCTAATTTGTTTAATTATAATAACAAGCAACTTGCCAAGTTACCCTTTACCCCATCAACATATATGTTTTTATATTTGGTTAAGTTTAAAATAGTGAGAAACAGAATGTCTAATCTATGGCTTAAACTTTTGAATACAGTGATAACTTAATTTAGTATATTACAACAGAGAGTGTTGTGCTCAAATTCATTGATATTCACTTATTGGGTCTCGTGCTAATTTATTATAAACCCACGTGTGAGACAGAGTGTTAAGAACACATATCAAAGAGATTAAATATATATTAATTCATCGACTTAAATTTTTGGATATAATGGTGATTTTAATAACTCTTCAATGATTTGTTGTATGTTCCCTCTCTCTATATGGATTTGTGTTACAATGACTAGAAGGATTGCTCTACTTTTAAAAATGTTAATCTCGATTCAAAAAGATGGATACAAAAGATTAAGGTTGAATGAATTTTTGGAATTGTTGTCACCAAACGAATCCAAAGAGATGTAGTAGAGAGAAAAATAAAGGTTTGTTTTCATTGGATGCTTGGTCTCCTATTGAGATAGGGTCAAAGTTAACGGACGAAGGAAGGAAGGAACTATTGAAAAGGTGGTGATGCTAATGTGAGTAGGCCCTTTCAACTTGTTAGAAAGATGATTATTTTTTGACAAAGGCATTGAAAATTCCCATCAATTCTTTCGTTCTCTTCTTTTTCATTTCTTTTTATACCAATATACAACTGGAGACGAAGCGTTTTGAATTCTAAATATAAACCTTATTCCCTAAAGTTTGGTTGATAACAATTTTATATGTCATTTAATTCACGTTTCAAAAAACTATATTAGTTTAGAATATAGAAATATTTTTTAAAAGTTTAGATGATTAAACAAAGGTGAGACAACTCAGAAAATATGGGTGCATCCCTAATATAATTTTGATTACCATTTTTTTTTCTAACTACAAAATAAATTAAGTCAATAACGTTAGTACTATATATTATAGGAAGAAGGAAATAGGTCGTAACTTCTAAAAATATATATAGTCTTAAGCAATTACCTCATTTTGCTCGTATCTTAACTTAACATTGTTACTAAACAATCACACAGTAGTTCTTATAACAAATAGACAATTGAAAACAAATTTGTTATCAAATGAATATTAACGAATTACAATCCTCTTCATCCCTTTTAAACAGAGGAAAGTGATGTATGGAATGTAAAGGGGATGAGATGGGGTAGGGTTGTTTTTAGGGTTGATAGAGATTTTAGGTCCACTAATGGGGCTGGGACCAAAATGAAATTTTGGTGTGTGACATGTTTGGGAATCTCTCAAACATGTATGGGGCCATGGTTGCATGATTGAGTTCATGTGGGAGAACGTGTGAACTTGAGCTAACACCCTTCCCCTTCCCCTTCCCTTCCTTCTTTTCCTATCTCTCTCTCTAGGGAAGATCTTCCAGAGAGAGAGAATATGCTCATGTTTCAGCACACAGCTACTCTCTCTCTCTACAAAAAGCGAAAGCTGCTGCATCCCAACTGTACATGAATACCATATACATGTGTGCGTTTGTTTGTGTACATTTAGAGAGAGAATGAGAAGACATGGACGAAATCCAACTAGCTTGAAAGAGAGAGACAGAGAGAGTAGGGAAAAAAGAGAGGAGGAGAGAGAAAGAGCACGAAGATCAATGTGGGTGGTAATGATATATGATGACCAAGAGGAAAACGAGTGATTTTGGCTTGGAAGAAGGATGTAGATTTGGCTTGGAATTCCGAGCCCCCCCAGCTTTGGCAAATAAATTCCCATGCTCTCTCTCTCTCTCTCTTTTTTCTCTTTCATTTGCATGCTCTCGCTGAATCGAGGTATCTTTTTGAAGAGATGATGCTCCTGTTTTTTCCATAACCAAACAGTTTCGGATCTCTCTCCCATATAAATATATTTCTTCATTTTACATCCCCACGACAAACCGACCAGCCACGAGATTTTCTCTCAACACTGTTTGTTGGAAGAGAGAGAAAGCAAGAGAGAAAGAGGGTTTTTTTCTTTCTTTCTTTCTTTCCAGAGTGTTTTGAATGTGTGCTTTATTCGTTCTTAGTAAGCACTCTCGATTCTTGCAAAAGCAAATCCAAACAGCCCCCAAGATTCCTTTCTTTCTAGATGGCCAATCTCCCTCTTTCTCTCTCTAGCTACTGTGTTTTTGTTTAATGTATATACGAGGATTGGGTTTCGATTGGCTGTCTCATGGGATACAAGAGCTCAAAATATGCCAATATATACTTTTATTGATTTTCATTACAAAAATCTGTGTTGAAATCACCAATCAATCAAGCTGTTCGTTTCAGCTTTTTGCATGGCGAATTCTTAAGGTTTCTTGGGAACTAAAGTTAGACATATATGCAATTGCAAAAGGGACACTTAGTACTATATATTACTCTCATTACTTTCATTTAAGATTATATATTATATATTTTAAATTATCCCAAAATCATTTTGTTTTTAATACATATCCTCATGGGTTAGTTTCATGTTAATGACATATTAGTTTCCTTTCGCTAATCCCTCTTTGATAATAATATTTGTGTTTGATCTAGTTTGTAGTCATTTTAACATATATTATTGTGGGTCATGTACTAATTTTTTAATTCCTATGTATGACATGAGATGGAGCTTCGTCTTAAACTATTAAATTCACTCAAATGATTTTTGATATTGGCTTAGAAAACCAATCTTGATGAGTATTGTGGAAAATCATTATATTTACGGGTCAATAAATCATCATGTGACTATTAATCACAAAAAGTAAAATTAACCATTGGACATAGCTTAAATTACAAATTTATTATATACTTTAATTAACATGTTTATTTTAGTCGTTGAACTTTAAAAACTTTTTTATGCTTATCATTAGCCTTTACTATTATACCGCTAATGAGATATTGACATGACACTCCATTAACAAGATTTATAATTATGTCTAAATGACTGTCAAATCTCGCTACCTCATTCAAACTTTTATCTGTTGAAATATCATAGTATTCTATCAATCAATATTATTAACAGTAAAAACGGAATATATATATATAAAAGAGAGTACAGTAAAAACTAAAAAAAAAAAAAAAGTTGAGATTCAGCTTTAAACTCAATGCTAGCTTTTGACTACTGCCCTTTTTAAGTAATGCACAAAAATGAAGAAAAAGAGTTCCATTTCCTCAGACACATTCAGCTGTTTCTTACCAGAAGGAAAAAAAAAAAAAACAGAAATATAATTATTAAAAAAAGAAAAAGATGGTAATGTAGTTGAGTCGGGGCGGGGGTCCGTGTCCGTGCTGGGGAAGTGTACCTTTTGTAATTAATGTGAGTTTAGGGAATTTTATATAATAATTGAGGAAATTGAGGGGTGGAGAAAAATACGGGGGCCATTGGTTTGTATTGTAGTGTAACGAGTAACTGTGCAATGTGATTTCACGCAGTCGAAAAGCGCGTGCAATGCAAACATGGGACCTATACCGGGCCCACCACAATACTGACAAAACAGAGCTTTGTCTCCTTGTGATGCTTGACGAAAGCACAAACCGCACGCGCGTCGTCTACTTCTTAAGCGCGTGGGGAATGGGAATTCAATTTGGGAGTAGTTAGTTTTTGGCTTCTTTTGAGACCTCGTTGCCCTTTGTTGTTCTATATTTGGGGATTAAATCCCTTCCCAATTTCTTTCTCCTTTTTCGTATTTTATAGGTTAAATTATAAGTTTGATCCATAAATTTTAAAATTCTGTTTAATAAATCTATAAATTTTAAAAAATGTCTAACACATCTCTAAATTTTTAATTTTATGTCTAATAGTATTTTTACTTTAAATTATAGTAAGTCTTTGAAATTTCATGATTGTATCTATTAGGTTTATGTATTATTTTAAACGGTTTCTAATAGGTCATTATTAAATTTCAATTTTGTATCTAATAGATTCTTAGGTTCCTATCATTAACTTTGTTAGTTTAACATTATGTGATATGTTGATTGTAATTATTTAAGAATTATGTGGCGGCCCAATTTCGAAAAGTTCAAGTGTTTAATGGCGTAAGTGTTGAACTAACCAAATTAATGATAGAGACCTATAAGATACATAATTAAAACTTCTAGGGACTTGTTAAAAACTTTTTGTAAGCTTAAGGTTAAAGTTAACTTACTAAGCCAAGTATAGGGGCAAAGAAACTGATTTTTAGCCCTAACTATTCTTTTGACAAACGCAATTAAGTTTGGAGTAGAAACTCTAAATCCAAGATGGATATACATAAATACTCAACTCAATACAAGAAACGAAGAGAATTGAAATAGATTTAAAGAAATTAGATGATTTCCATGCTTGGAAATTTTCTTTAACACTCTTCATTCATCATTGCTCCTAATATAGGAAGTGGCACAAAAAATTAACATTATAGCTGATCTTGTGTATAAAGTTAAATCTTTTTTACACTTTATATAAGAGAGGACTACACCAATACTTAATCACTTGAACTACGTTCCAAGTCGTCATAAACTCATAATAGAGAATTTCTTCTTTAAGAAGAAAATGCAGTAAAAAATGTGCTAAATTCGACTTCTTTAATCATTTGGGGTGTACTAAACCAATTGATTTACATCATTTCATTGGAATTGTTGAGGACCAAATTATTGGGACAATGACTATCAAAGTGTGAGATTTTTTTATTATTGTTGTTGCTTATTTGAATCTCTCTCTGACTGAGAAGTGAGAAGCAAGAGTTCCCAAAATGCACCAAACCCCAAAATCAGTTGAATGGTTTTTTTGAAAGAACCGCTGATTTTGCCAAAATCTCTGGCTTTTTGCTATATGTGTTGGAGAGTGTTCTCCCTGCATTTTCACATGCCAGCCCTTTTGTACCCCATCTGATTCAAACATGGGTTTTCTCCCATATCTTACTTCCTCACATAGAGGAAATATCATAATGACAACGGGCGTAAGCGGGTCGGGTTTTTTGTGTGTGTCAATATCGACATTCTCTAAAGACCAAATTGATCGAGGCTTAACATAAGAACAAGCACATTGCACCAAACTTTAAGAAATTTTCCTTTTACAAATAACTCTCAACAAGTACCCTAACTAGCTAATTATTTAATCAGTTGGGTGAAATTTGATGAGTTTTTTTCTCTTACATTCCCATAAGGAGTTGGATTGGATTGATTCGATGAGTTTGATCTATTTCCACTCACACTTGCATAGCTTTACGTTTGATAGGAACACAAGAATCTGATACTAAAATCGTACATTTGATTGTAATTGCGATTAGTTTCATACAACATTTATGATAGTAAAGGCGTGTGCATTGTGGAAAATGTGATATTCATATGGGAGATGTTTGGTTTATGAGTTAAGTTAATTATAATAATAGCCTACGGTTGTTTAGTCGAACCTAAGTTTGATATATAGATTTACTTATTCCTAAACTATGAATTTGTAAATTCTATAGACTTCAAAACCTCGATTCCTAAAAGGCAGTTCTTCAGCTACACACTTATTTTTACAAACAACCAGCTCACAAATTAAACACAAACTACGTTATAAATCCAAGCATATTTCTGTAACTCATTATATTCCATAATATAATCCAAAAACAACGGACTAACAAGCCAAATTTTCAATCTCGACGAGCAACAAAAATCTAGACTTATCAACACCATAAACCAAACATCTTTAGGATTGCCCATGTGATTTATCACAACTGATTCCACTGTACTGATGTAATTTTGTCAAATCCAAGATTCTGTACACCAACTCTTTCAAGTAAAATTTTGCCTAGTTTTCACATCTTCTTGTCTGAAAATTAGTTGAATTGACAATTGGAAGTAATCACCAAAACAAGCAACATACCTATGAACTCATGTCATGCTCTCTAATTTTGGTTGTTGTAATAGAAAGTCCTAACCATGACCAAAACTTTTTACCTTTGTTTTCACTCAAATCCAAGTGAGTTTGGGTAAGAGATTGCTTTAACCAAATGCCTTCATTTTGAGGGATAAACTAATCCCTATCCAGGATAGTAGGATGACCTAAGCCCAGTTTGGAGTTCAACTTATATTTTTCTCTCTTTTAGGAACCCCTTTTCTTTCTATATAATTTCAAAAACATCTTTCCAATTCAATTCTCATTTTTCCCATATCGAAAAAGATTAGGAAAATATGTTGGAATTTTCTTGAAAAATGACACCTTCTTTTAGAGTCAAACTTGCATTAGCATATAGCTTTTTTTTTTTTTTTTTGGACAAAGAAACGAAATAAAAAGTGCAAAAAAAAAAAAAAAAAGACAGCCCTTTGTTTTACTACAAACCCTTTGTCTAGAATGAAGATAAGTTTTATAGAAAACAAAAACTCACTTTGCAGAATATAACTGCATTTCCCACAACCATATAATATATAGCCTTTGTGGGATTGTTGTAAACAAATGAAAGCTTTCGTAGCTTTTTACTTCCAGTTGGCACATTTTAGATGCATGAGGTTATAAAGAAAAACATATATAACTAATACATGAAAATTTAAGAAAATCTCACACATATATAATATGGGTCGTATCATGAAGTGTTGTGTATATTCAATGATCCGCTATTGTCAATTAAAATAGTACAAATTTTATATGGATATGTTATACAACCATGATGTAGGAGAAGGAAAAGAAAAAAGTAATTTTTAATCATGGATTTAACGATTAAGCCGTGGAGTGCTTTACTGTTTTCAACATGTTTTGTTAATGTAATAGCCATTGATTGATTTAGTTAAAGCCAATGTGAAGCAGATTTCAGGTTTTTTTTGAGAGATGTCATTATTATGCAACAATTGGGAAACTTTAAAGTTGCTTGGAACTTTTTAATTAAGAGAAAACCAAGATATAAAATTTGGCTGGGGGCTGCATTGGTTTCTAACACAAATCATTATGCAGATTGAAAGCATGCATTTTGAGAAATTGCATATGAAGGAAGACACATATTCTCTCTGTCTATATGGTAAAATGTTCTCTCACTTCTCATTCCACTGCAATCTAAGTACTAAAACTAAACAAAGAAACCCAAAAAGATGTGATTTTAAAAAAGAACAAAAAAAGAAAGCTACCATATTTCCTAGGGTTTAGCTGATATCATGATATGAAGAAACATGTATTCAGCCTTTTCATCATCCTTGCTGCATTCAAACATATGTTAATGTGATAATTTCTATAAAGGGTTTCTGGTTGAAGAAGAAGAGCTGAAACCAGAAAGATCTGACCATGCCGTCGAGCCACTGTTCCAATATTGCTCGTTGCCCGGAATGGCTGCAGCCATGAATTGTCTCCCCACATTAACTTCTTGGGCGTCTTCCATTTTCACTGAACTTGATGGCTTCTGTCTCGGCTGCCAGCCGCCGCCGCCGCTGCCGTCAAACATCCCGGAGGAAGGGTCTAGGCCGGACAAGAAGGGAAATTGGGGAGGCTGCTGGAGGCGCCATTGGTCGAAACCCAAGAGAGACCCAATACTTCCTCCAGCTAAATTAGCGTTGCCCACTTGGAAATTCAGGTCGCTGGTGCCACCGGTCATCGGAGCTGAGAGACCGCCGTAG ATGGACAGCAGCACCGCCGTGATGAGTAGGCCAACGCCGCCGTTCCCTTCGCCGCATCGGACCGTAGACTTCTCTCCGCTCGAGTTCATCCTCGGCCTCGTAGCCGTCATCACCATCCCGGCCCTAGCGGAGATCCTCGAGGCTCTCCGGCGGCGCCGTAAGCGTGTGGCCGGAAATAGAAGCTGTTTTAATGACGTGGCGTCGGCTGTTAAGTACAAGAAGGAGGAGCACTGTAAGGAAGTCGGCAGCGAGTGTCCGGTCTGCCTGTCGGCGTTCGCCGACGGCGAGGATGTCCGGCAGCTCACCGCCTGTAAACACTCTTTTCACGTGCCTTGCATCGATATGTGGCTCTATTCTCACCCTAACTGCCCTGTTTGCCGCGCCTCCGTCGCCGTTAAACGGCCGATTAACCACCACGTGCCGCCGGCGACTTCTAGAAACGACGATTTCCAGCAAGCTATTCCGATTGCTGCCATTCGAACCACAGATCGAATTACTTTCAAATCTCGTCTCGATTTCATGGAAATTTTGTCCGATAATCTCGAATTAGATAGAAATTGCATTCCGATTTGTCGTCGTTGGGAAGTTAAAATGAAGAAGAATCACAATCCGTATTACCCAGATCGGAAATGGTTGATGCCATTGGCCGTATTTTGCGTAATCTTTCTGATTTTCATTCTAATTGTTACTTCCGGGAACCCTAAATCTTCTCCCGACGCTGATTTTTCCCATGGTGCGACGAGATTCGTAGACTCCAATGGGAATGAAGGGCTAGGGCTAGGGCTTCCGCCATTGCCGAGATTTGCGTATTTGATATCAGGAACGAAAGGAGACGGCGGGTCGATGAGGCGGCTTCTTCAAGCGGCGTATCACCCGAGGAACTACTATCTGTTACATCTCGATCTGGAAGCTCCGGATTCCGAGAGACTCGAGCTGGCAAAGTATGTGAAATCGGCGAGCGCATTGAGGGAGTTCAGGAATGTAATGGTTGTGGGCAAAGCCAATTTGATCACCGACAAAGGCCCAACTATGATTGCTTCTACGCTTCAGGCGATTGCGATATTGCTGAAGCGCGCAAAGGATTGGGATTGGTTCATTAATCTCAGCGCCTCTGATTATCCTCTGCTTTCGCAAGACGGTTTAACAGACACTTCTCTGTTCAAGCAGCCATTTGCATTACCTTCCAATGAACAAGAAGAACGTTCAACTGCTATTCTGTTCTGGTTGAAGTTTGGACTTGGGAGCAAAGACTATAATCATAGATCCTGGCTTGTATCACACAAAGAAATCTGGAGTGTTTTGGGCAAAAGAGAGAAGGTCGATACCGTCGTCATTCAAGTTGTTTACAGGATCTTCATGGGTGGTTCTCACAAAGCCATTTCTGGAATTCTGTATATGGGGATGGGACAACTCCCTCGCACTCTCCTCATGTACTACACCAATTTCTTGTCTTCTCCAGAGGGTTACTTTCACACCGTCATCTGCAACCACAAGGACTACCAAAACACTACTGTAAACCAAGACTTGCATTATATGAAGTGGGACAATCCTCCGAACCAACACCCGATTAACCTAACGGCTGAACATTTCATCGACATGGTCCAAAGTGGTCTCCCTTTTGCAAGGAGTTTTGCTGAGAATAGTTTGGTACTCAACAGAATAGATGAGGAACTATTGAAGAGATCGAACGGGCAGTTCACGCCGGGTGCCTGGTGTGTGAGGAACTCGGTCTCAGAGAAGGGTCCTTGTGCGGCCTATGGCAGCCCCCACGCTGTTAAACCAAGCAGCAACTCGAAGAGGCTGGAAAAGCTTCTGGTGAAACTTCTTGATCATGAGAACTTCAGACCCAGACAATGGTTTCTGGTTGAAGAAGAAGAGCTGAAACCAGAAAGATCTGACCATGCCGTCGAGCCACTGTTCCAATATTGCTCGTTGCCCGGAATGGCTGCAGCCATGAATTGTCTCCCCACATTAACTTCTTGGGCGTCTTCCATTTTCACTGAACTTGATGGCTTCTGTCTCGGCTGCCAGCCGCCGCCGCCGCTGCCGTCAAACATCCCGGAGGAAGGGTCTAGGCCGGACAAGAAGGGAAATTGGGGAGGCTGCTGGAGGCGCCATTGGTCGAAACCCAAGAGAGACCCAATACTTCCTCCAGCTAAATTAGCGTTGCCCACTTGGAAATTCAGGTCGCTGGTGCCACCGGTCATCGGAGCTGAGAGACCGCCGTAG ATGGACAGCAGCACCGCCGTGATGAGTAGGCCAACGCCGCCGTTCCCTTCGCCGCATCGGACCGTAGACTTCTCTCCGCTCGAGTTCATCCTCGGCCTCGTAGCCGTCATCACCATCCCGGCCCTAGCGGAGATCCTCGAGGCTCTCCGGCGGCGCCGTAAGCGTGTGGCCGGAAATAGAAGCTGTTTTAATGACGTGGCGTCGGCTGTTAAGTACAAGAAGGAGGAGCACTGTAAGGAAGTCGGCAGCGAGTGTCCGGTCTGCCTGTCGGCGTTCGCCGACGGCGAGGATGTCCGGCAGCTCACCGCCTGTAAACACTCTTTTCACGTGCCTTGCATCGATATGTGGCTCTATTCTCACCCTAACTGCCCTGTTTGCCGCGCCTCCGTCGCCGTTAAACGGCCGATTAACCACCACGTGCCGCCGGCGACTTCTAGAAACGACGATTTCCAGCAAGCTATTCCGATTGCTGCCATTCGAACCACAGATCGAATTACTTTCAAATCTCGTCTCGATTTCATGGAAATTTTGTCCGATAATCTCGAATTAGATAGAAATTGCATTCCGATTTGTCGTCGTTGGGAAGTTAAAATGAAGAAGAATCACAATCCGTATTACCCAGATCGGAAATGGTTGATGCCATTGGCCGTATTTTGCGTAATCTTTCTGATTTTCATTCTAATTGTTACTTCCGGGAACCCTAAATCTTCTCCCGACGCTGATTTTTCCCATGGTGCGACGAGATTCGTAGACTCCAATGGGAATGAAGGGCTAGGGCTAGGGCTTCCGCCATTGCCGAGATTTGCGTATTTGATATCAGGAACGAAAGGAGACGGCGGGTCGATGAGGCGGCTTCTTCAAGCGGCGTATCACCCGAGGAACTACTATCTGTTACATCTCGATCTGGAAGCTCCGGATTCCGAGAGACTCGAGCTGGCAAAGTATGTGAAATCGGCGAGCGCATTGAGGGAGTTCAGGAATGTAATGGTTGTGGGCAAAGCCAATTTGATCACCGACAAAGGCCCAACTATGATTGCTTCTACGCTTCAGGCGATTGCGATATTGCTGAAGCGCGCAAAGGATTGGGATTGGTTCATTAATCTCAGCGCCTCTGATTATCCTCTGCTTTCGCAAGACGGTTTAACAGACACTTCTCTGTTCAAGCAGCCATTTGCATTACCTTCCAATGAACAAGAAGAACGTTCAACTGCTATTCTGTTCTGGTTGAAGTTTGGACTTGGGAGCAAAGACTATAATCATAGATCCTGGCTTGTATCACACAAAGAAATCTGGAGTGTTTTGGGCAAAAGAGAGAAGGTCGATACCGTCGTCATTCAAGTTGTTTACAGGATCTTCATGGGTGGTTCTCACAAAGCCATTTCTGGAATTCTGTATATGGGGATGGGACAACTCCCTCGCACTCTCCTCATGTACTACACCAATTTCTTGTCTTCTCCAGAGGGTTACTTTCACACCGTCATCTGCAACCACAAGGACTACCAAAACACTACTGTAAACCAAGACTTGCATTATATGAAGTGGGACAATCCTCCGAACCAACACCCGATTAACCTAACGGCTGAACATTTCATCGACATGGTCCAAAGTGGTCTCCCTTTTGCAAGGAGTTTTGCTGAGAATAGTTTGGTACTCAACAGAATAGATGAGGAACTATTGAAGAGATCGAACGGGCAGTTCACGCCGGGTGCCTGGTGTGTGAGGAACTCGGTCTCAGAGAAGGGTCCTTGTGCGGCCTATGGCAGCCCCCACGCTGTTAAACCAAGCAGCAACTCGAAGAGGCTGGAAAAGCTTCTGGTGAAACTTCTTGATCATGAGAACTTCAGACCCAGACAATGGTTTCTGGTTGAAGAAGAAGAGCTGAAACCAGAAAGATCTGACCATGCCGTCGAGCCACTGTTCCAATATTGCTCGTTGCCCGGAATGGCTGCAGCCATGAATTGTCTCCCCACATTAACTTCTTGGGCGTCTTCCATTTTCACTGAACTTGATGGCTTCTGTCTCGGCTGCCAGCCGCCGCCGCCGCTGCCGTCAAACATCCCGGAGGAAGGGTCTAGGCCGGACAAGAAGGGAAATTGGGGAGGCTGCTGGAGGCGCCATTGGTCGAAACCCAAGAGAGACCCAATACTTCCTCCAGCTAAATTAGCGTTGCCCACTTGGAAATTCAGGTCGCTGGTGCCACCGGTCATCGGAGCTGAGAGACCGCCGTAG MDSSTAVMSRPTPPFPSPHRTVDFSPLEFILGLVAVITIPALAEILEALRRRRKRVAGNRSCFNDVASAVKYKKEEHCKEVGSECPVCLSAFADGEDVRQLTACKHSFHVPCIDMWLYSHPNCPVCRASVAVKRPINHHVPPATSRNDDFQQAIPIAAIRTTDRITFKSRLDFMEILSDNLELDRNCIPICRRWEVKMKKNHNPYYPDRKWLMPLAVFCVIFLIFILIVTSGNPKSSPDADFSHGATRFVDSNGNEGLGLGLPPLPRFAYLISGTKGDGGSMRRLLQAAYHPRNYYLLHLDLEAPDSERLELAKYVKSASALREFRNVMVVGKANLITDKGPTMIASTLQAIAILLKRAKDWDWFINLSASDYPLLSQDGLTDTSLFKQPFALPSNEQEERSTAILFWLKFGLGSKDYNHRSWLVSHKEIWSVLGKREKVDTVVIQVVYRIFMGGSHKAISGILYMGMGQLPRTLLMYYTNFLSSPEGYFHTVICNHKDYQNTTVNQDLHYMKWDNPPNQHPINLTAEHFIDMVQSGLPFARSFAENSLVLNRIDEELLKRSNGQFTPGAWCVRNSVSEKGPCAAYGSPHAVKPSSNSKRLEKLLVKLLDHENFRPRQWFLVEEEELKPERSDHAVEPLFQYCSLPGMAAAMNCLPTLTSWASSIFTELDGFCLGCQPPPPLPSNIPEEGSRPDKKGNWGGCWRRHWSKPKRDPILPPAKLALPTWKFRSLVPPVIGAERPP Homology
BLAST of Sgr022737 vs. NCBI nr
Match: XP_022145783.1 (beta-glucuronosyltransferase GlcAT14C [Momordica charantia]) HSP 1 Score: 633.3 bits (1632), Expect = 2.7e-177 Identity = 324/425 (76.24%), Postives = 348/425 (81.88%), Query Frame = 0
BLAST of Sgr022737 vs. NCBI nr
Match: XP_004137771.1 (beta-glucuronosyltransferase GlcAT14C [Cucumis sativus] >KGN58879.1 hypothetical protein Csa_002088 [Cucumis sativus]) HSP 1 Score: 611.3 bits (1575), Expect = 1.1e-170 Identity = 316/430 (73.49%), Postives = 342/430 (79.53%), Query Frame = 0
BLAST of Sgr022737 vs. NCBI nr
Match: XP_038902982.1 (beta-glucuronosyltransferase GlcAT14C [Benincasa hispida]) HSP 1 Score: 610.5 bits (1573), Expect = 1.9e-170 Identity = 316/426 (74.18%), Postives = 339/426 (79.58%), Query Frame = 0
BLAST of Sgr022737 vs. NCBI nr
Match: XP_023528680.1 (beta-glucuronosyltransferase GlcAT14C [Cucurbita pepo subsp. pepo] >XP_023528681.1 beta-glucuronosyltransferase GlcAT14C [Cucurbita pepo subsp. pepo] >XP_023528682.1 beta-glucuronosyltransferase GlcAT14C [Cucurbita pepo subsp. pepo]) HSP 1 Score: 605.9 bits (1561), Expect = 4.6e-169 Identity = 317/426 (74.41%), Postives = 335/426 (78.64%), Query Frame = 0
BLAST of Sgr022737 vs. NCBI nr
Match: XP_022934543.1 (beta-glucuronosyltransferase GlcAT14C [Cucurbita moschata] >XP_022934544.1 beta-glucuronosyltransferase GlcAT14C [Cucurbita moschata] >XP_022934545.1 beta-glucuronosyltransferase GlcAT14C [Cucurbita moschata]) HSP 1 Score: 605.9 bits (1561), Expect = 4.6e-169 Identity = 314/430 (73.02%), Postives = 337/430 (78.37%), Query Frame = 0
BLAST of Sgr022737 vs. ExPASy Swiss-Prot
Match: Q9LFQ0 (Beta-glucuronosyltransferase GlcAT14B OS=Arabidopsis thaliana OX=3702 GN=GLCAT14B PE=2 SV=1) HSP 1 Score: 340.5 bits (872), Expect = 4.8e-92 Identity = 184/425 (43.29%), Postives = 254/425 (59.76%), Query Frame = 0
BLAST of Sgr022737 vs. ExPASy Swiss-Prot
Match: Q8S8P3 (Beta-glucuronosyltransferase GlcAT14C OS=Arabidopsis thaliana OX=3702 GN=GLCAT14C PE=2 SV=1) HSP 1 Score: 329.3 bits (843), Expect = 1.1e-88 Identity = 199/429 (46.39%), Postives = 259/429 (60.37%), Query Frame = 0
BLAST of Sgr022737 vs. ExPASy Swiss-Prot
Match: Q9FLD7 (Beta-glucuronosyltransferase GlcAT14A OS=Arabidopsis thaliana OX=3702 GN=GLCAT14A PE=2 SV=1) HSP 1 Score: 328.6 bits (841), Expect = 1.9e-88 Identity = 185/447 (41.39%), Postives = 257/447 (57.49%), Query Frame = 0
BLAST of Sgr022737 vs. ExPASy Swiss-Prot
Match: O80927 (RING-H2 finger protein ATL33 OS=Arabidopsis thaliana OX=3702 GN=ATL33 PE=2 SV=2) HSP 1 Score: 128.6 bits (322), Expect = 2.8e-28 Identity = 70/195 (35.90%), Postives = 105/195 (53.85%), Query Frame = 0
BLAST of Sgr022737 vs. ExPASy Swiss-Prot
Match: Q9LRB7 (E3 ubiquitin-protein ligase EL5 OS=Oryza sativa subsp. japonica OX=39947 GN=EL5.1 PE=1 SV=1) HSP 1 Score: 79.3 bits (194), Expect = 2.0e-13 Identity = 36/75 (48.00%), Postives = 44/75 (58.67%), Query Frame = 0
BLAST of Sgr022737 vs. ExPASy TrEMBL
Match: A0A6J1CWW7 (beta-glucuronosyltransferase GlcAT14C OS=Momordica charantia OX=3673 GN=LOC111015155 PE=4 SV=1) HSP 1 Score: 633.3 bits (1632), Expect = 1.3e-177 Identity = 324/425 (76.24%), Postives = 348/425 (81.88%), Query Frame = 0
BLAST of Sgr022737 vs. ExPASy TrEMBL
Match: A0A0A0LD72 (Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_3G734320 PE=4 SV=1) HSP 1 Score: 611.3 bits (1575), Expect = 5.3e-171 Identity = 316/430 (73.49%), Postives = 342/430 (79.53%), Query Frame = 0
BLAST of Sgr022737 vs. ExPASy TrEMBL
Match: A0A6J1F2X0 (beta-glucuronosyltransferase GlcAT14C OS=Cucurbita moschata OX=3662 GN=LOC111441688 PE=4 SV=1) HSP 1 Score: 605.9 bits (1561), Expect = 2.2e-169 Identity = 314/430 (73.02%), Postives = 337/430 (78.37%), Query Frame = 0
BLAST of Sgr022737 vs. ExPASy TrEMBL
Match: A0A6J1J2G5 (beta-glucuronosyltransferase GlcAT14C OS=Cucurbita maxima OX=3661 GN=LOC111482086 PE=4 SV=1) HSP 1 Score: 604.7 bits (1558), Expect = 5.0e-169 Identity = 316/426 (74.18%), Postives = 336/426 (78.87%), Query Frame = 0
BLAST of Sgr022737 vs. ExPASy TrEMBL
Match: A0A5D3DN84 (Beta-glucuronosyltransferase GlcAT14C OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold352G001750 PE=4 SV=1) HSP 1 Score: 604.4 bits (1557), Expect = 6.5e-169 Identity = 315/426 (73.94%), Postives = 339/426 (79.58%), Query Frame = 0
BLAST of Sgr022737 vs. TAIR 10
Match: AT5G15050.1 (Core-2/I-branching beta-1,6-N-acetylglucosaminyltransferase family protein ) HSP 1 Score: 340.5 bits (872), Expect = 3.4e-93 Identity = 184/425 (43.29%), Postives = 254/425 (59.76%), Query Frame = 0
BLAST of Sgr022737 vs. TAIR 10
Match: AT2G37585.1 (Core-2/I-branching beta-1,6-N-acetylglucosaminyltransferase family protein ) HSP 1 Score: 329.3 bits (843), Expect = 7.8e-90 Identity = 199/429 (46.39%), Postives = 259/429 (60.37%), Query Frame = 0
BLAST of Sgr022737 vs. TAIR 10
Match: AT5G39990.1 (Core-2/I-branching beta-1,6-N-acetylglucosaminyltransferase family protein ) HSP 1 Score: 328.6 bits (841), Expect = 1.3e-89 Identity = 185/447 (41.39%), Postives = 257/447 (57.49%), Query Frame = 0
BLAST of Sgr022737 vs. TAIR 10
Match: AT4G03340.1 (Core-2/I-branching beta-1,6-N-acetylglucosaminyltransferase family protein ) HSP 1 Score: 316.6 bits (810), Expect = 5.2e-86 Identity = 184/436 (42.20%), Postives = 257/436 (58.94%), Query Frame = 0
BLAST of Sgr022737 vs. TAIR 10
Match: AT1G03520.1 (Core-2/I-branching beta-1,6-N-acetylglucosaminyltransferase family protein ) HSP 1 Score: 313.2 bits (801), Expect = 5.8e-85 Identity = 177/434 (40.78%), Postives = 248/434 (57.14%), 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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