Sgr028730 (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.ATGTCGGATGTTTTTGCATCGCGGCGGCTCCCATGGAAGGTGAAGATGATGCTGCTCGCCATTGCCTACGGCACCGACATTTGCCGCCGCTCCGATTGCACCGTCAAACGCTATCTCACTAACCTCTTCGACTTCAAGTCCCCTCCGCTGAAGAAACCAAAGAACGGCCTCAGAAGCTTCGATGTCACCGTCGATGGCTCCCGCAACCTCTGGTTCCGTCTGTACGCTCCTACCTCCGAAGCAACCTCCGCATCGTTGCCATTGATCGTCTATTTCCATGGCGGTGGATTTGTATTCATGTCTCCTGCTTCCAAACTCCTCGATAACCTTTGCCAGAGACTTGCTCGGGAGATCTCCGCCGTCGTCATCTCCGTCAACTACCGCCTCGCTCCAGAGCATCGCTATCCTTGTCAATACGAAGACGGCTTCGATGTTTTGAAATTCATCGACGGTGCTAGGTTTGAAGGATTTCCGGCAAACGTCGATCTGAAACGGTGTTTCGTCGCCGGAGACAGCGCGGGCGGAAACTTAGCTCACCATATGATATTGAAATCTGGAGAACACGAATTCCACGAGTTGGAAATCATCGGTCTTATCGCGATACAACCGTTCTTCGGTGGAGAAGAACGAACGCAATCGGAAAAAGAACTAACCGGAGTTCCACTAGTTACGGTGGATCGCACGGATTGGTACTGGAAGGCTTTCTTACCGGAAGGATCCGACAGAGACCACCCGGCGGTGAACATTTTCGGTCCAAAATCGGCGGATATATCGAGCGTGAGGTTTCCGGCGACGAAAGTGTTTGTTGGAGGGTTGGATCCGTTAATTGATTGGCAAAAAAGATACTACGAAGGATTGAAGAAATCAGGTAAGGAAGCGTATTTGACGGAATATCCAAATGCCTTTCACAGCTTTTATGGTTTTCCAGAGTTGCCGGAGTGGTCTCTGTTCATCAAAGAAGCTGCAGATTTCATACAGACGCAGTCCTCGAAGAAAACCAGGAAGCAGAATCAGAACCACAGCGTAATGGACTGATCGTTTCTCAGTTGTCGTTCTTCGTCGGAGTTCGCCGTCGTCCTCTACCTCGTCGGAAGACAGAATTAGAAACACAATGGAAGAAGAAAATCTCATCATCGGTCAAAAAAGGTAAGATTATCCGTTTTCAGCGTTATTTAATTCTCTCTCTGTTTGCTTATAATTGATGTCGTAATCCCTTATAAACTCTTTAACAAACTCGGAATGTAATCAACGTCTAGAAACTATTGGAATCAATTGAAGGAAACTTTACCACTGCTTTAAACTGATTCATCATGTTGGATTAGTCTTATATTTACGTGCCTTGATCTCGGGCGGTGAAATCCTTTTTTTTTTTAAATCATACAAATTTCGATAAAATTTTCTAATTAGTAAAATGCAACTCGCAAAGAAAAGTGTAGACTCCAAACTTTTGATTTTAAACTATAACATTGTGTGCCTCACTCCACACTAGAAAAAACTTATCACTAAACGTGTATCTAAAATGAGTCATACTGACGTAGAGTTATCTTGATTGCACAATAGAGTATAACTAGTCATATTATATGCAAAGATTCTTGACGAATATAGTAGAGCAAATTAGTCATACTATGCATAAGATAAACTCCAATACATAGAAGAACAAATCTAGTCATACGCATGCACATATTTATCCCAAAAGGCTAAACACCCTAACACATGACTCAAAGTCTGTGTGTGCCAAAGTAGGTTTGAAAGATCTCATACTATAACATATCTATGCACTACAAAAATACATTCACGTAAGTGTACGGAAAATCACCATAGATACCAAGATTTAGTGGTTTGAAAACAAATTCTAAAGTAATATTAGTAATTTCTCCAACCACGATAAAATCTATAATCATTCTAAATCAACGACTCATAAATTTTAAATCATAATTCAGCCAAACAATTGTAATATCTAAATTCACAAATAATCATATTTTAGCTAGAAAAATTTTGGAAATTCTCACATAAGCTAAATTCATATGAAATTTAAAAACTTGACGTAGTACAAACTTATATGATAATGGAGAATCCATTGTGGCTAAAATTATGAATATTTATAACATTTTTGAAATTCTATAATACTAGATAACAAAATAAATTTGGTTAGCACAAATCACCTTTTTAATAATTCAGAAATTCATTAATTGCTATAATAAAATAATTTATAAAATAATCACTCATAGAACTATCGATGCGCAAAATTCGGATCGTATGACATCCCGATTTCCACTTGACTTTGAATATAAATTCAACATAAATCTTTAATTACAAATTAAAACATAATATCTATCAATCATCAAGATGTCTTAATTCCTCTAATAAACTTTGTTAACCATAATTTCCACAGGTAGAAGTTGGAATCCATACATTCTCTCTCCAATAACTCTTATACATCCCAATGTACTTTTTCATAATAAAGTATTTGTTAAATTACAAGTTTGGTAGCAGAACTTTTGTATCTAATAAGTCTATATATTTTGAGAAGTTTCTAATGGATTCTTGAACTTTCAAAATTATATATAATAGATCTTTACATTTTAAAAGTTCATTGACCTATTAAAAATATTTTAAAGCACTGACACCTATTAGATATAACTTTAAAAGTTTAAGAATCAATTAAATTTTTTTTAAAGTATTAACAATTTATTAGACACAATTCTGAAAGTAAGCTAAAATATTCTCTCCAAAACCAAATGCCCATCCTCCACATGAAACTTCTTCTTTTGCTTCCTTATCCCACAATAAATCGTCTCTTCCCTCTTAACGAGCCACTTACTTAATTTTGCACCAAATTTCATTACTTTTTCCTATGCCTTTATGATATTCCTATCAAGAGCAAACCAAGATAGACACTTAGAATCATAAAAATTAAGTGTGTGTTTGACATGTCATTTAAAAAAGTGTTTATGGTTGACTGGAACTGCTTTTGTAAAAATGGGTAATATTTGGTTAAAATTTTAAAGAGTGGTAAAAATGTGTTTTTGACGAATTAAAATCACTTTTTAAAATTTTCAATAATCAAAAGTAGTTTGACAAAATTTAATAAAAAACAGATAAAAATAATTTAAAGTGCTTCTGGAAAAAGTATTTAACTAATTTTCTTTTAAAAGTGCTTAAATAATAAGTGCTTCACTTAAAAATACTTTTTTTAAAGGCATGTCAAACATAGTAAATTAAAACTAAACTCAAATTATAGGTATTAAATTAAAACTTTCAAAGTTACATAGATTAAATTGATATTAAACCTAAACTATAAATATCAAATTGAAACTTTTAAAATGACAATAAAACTTTTATAATAAAAATCTTTTCATGTACTCTTTTTTTCTGCACTTTCAACCTCGTTAAATGTAACGAGTATTTTTTTCAGTTCAATAAGATAATATGCTTATCCAACTGGCAGCCACTTTTGTACTTGAAACCTAATAATATTGGGCAAAATTTAATTCGGGCAGATTGGGAAAAAGAAAGACAAAAGAGGGGAGGGGCATAGAAGTAATTTGGCAAAGAAAGAGGCAGCTGGTTTTGCAGATATGCGCCAAAGGAAGTGGGGAAAGTATAGATACGCATACGTCACTTTGTCTGGAAAAAATATTTTCTTAATTAATAATAATTCGAAATAATTTGGTTCCATAATTTTTTTTTTCGAAACACGTACACACCCCTAGTTCCATTCATATTAATTTTAGTAGAATAATCTATTTAATTTTTCTAATAAAATAAAAAAAATTTAAAAAATTAAGAACCAAATTGAAAATAACTTAAAAGATTATAGACCATTTGATGTATTTATCATTTATTTAATCTCTCAATTAAAAAACAGAACTAAAAAATTTAAAAAAATATCAAAATATTACATTTCTAAACTTTGTGTTATGTTTATTATTGGTTTTCAGCTCAATGAGTTACTTGAATGAGCAAATATAAAAGAGAGACTGAATTAAATTTGGAAGGGGCGTGATAAAATTAAGGCTAAATTTTAATGTGTAGTATGTGAAATTTATCTTCAAATCATGCCACTCCATCTAAATTTTATTTAATAAAATGTTATTTCAAGCTTTTCATCAATTTTTTTGGGGGCACTTGCAAATTTGAAAAAAAAAAACTAAATAAATAACAAATTTAGTAGACACATTAAAAAAATTGCAAATATAGCAAAAAAGTAGCCCAACCCAAACAAAATATGTTAAAAGTCTAAAATAACCTTAGGTATATCAGTGATATACTTTATATTAGATATATTAGTGATATAATTGATCGATGATTCAAAAATGGTATATCAATGATATATTATATATATGTATCAATTATATACTTTATCACATACATGGTATATCAGTGATATATTTTACAGCATAAATGGTATATCAATGATTTCAACCATACGAAATGTCTCCCTTCTCCTTAAACATGTTTACCCTAAATGGTTGCTATTTTTCTCTCAATTTTTACTCTAATTTCTTTGTGTTTTCTTGTGATTTGTCTCTTGTCGTTTATCCTAATTTCTTTTACTTCCTTTAATTTCTTCTTTCGTAACTCTATTGTCTCCTTTCAATTTCTATTTCTTTTGATTTTCTTTTACGCTACCTTACTAATATATTCATTTTCGAATTTCTTGTCTGATATATGCATTGTGAAAGAGATACATTTTTCTTTACATTGTCTTTTACGGATATAGCTTAAGAAATGTGTGTTTGACTGGCCAAAATCTAAAATAAAATTTGGAAAACAAGATTCAATTGCAAGTTGATAATCATATATCAATGAGAAAAGAATAATCGTTGATAGCGATGTATCAATAATAAATAAAAGTAAATAACTAATAACCATGTATCAATAACAGATAAGAGTAAATCAGTAATATACTATAAAAATAGTAGATCGGTGATATATGAGAGTTAAAAAGGAAATTTAGTAAAATTATTTAAATAGGCGCACGCGAAATTCAAAAAAATTGTCATATTTGCAAATTATTTTTTTCTATGACATATTTGCAAACATGACAACTAATTTTATCATATATTACAATTTCCTTTTTTTTTAGTTTAACAAATGTGGGGTGGGGATCAAACCTCTAATCTCAAAAAAGATAACAAGTGTCTTTATCTGCAGAACTATGCTGAAATTAGAAGCTTTCCACCACATTATATAACAAAGAATTGCAAATAAACATATTTTAAAACCGTAGTTAAAATATTTTAAAGTCAAACAATAGGAGGACAAAATTTGTAATTCATCAAACAGAAAAAAAAAAAATCATAGACATAAAATATATTGGGCACTTGCAGATCTGGCAAAAAAAACCAAATATATAGCAAATCTAGCATATACATTACAAAAATCGCAACTATGGTAAAAAAAAGTAACCCAGCCCAAACAGAATATGTAATAAGTTTAAAATAACCTTAGATATATCGATGATATAATTTATATTAGGTATACCAGTGATATACTTAATCGATGATTCAAAAATGGTATATCAATAATATATTATATATAGGTATTAGTGATATACTTTGTCATATAAATGGTATATTAGTGATACACTATATATAGGTATATTAGTGATATATTTTATCACATAAATGATATATCAGTGATTTCAACCGCACGGAACGTTTCTCTTCTCCTTAAACACGTTTATCCTAATTTATTGATATTTCTCTCTCAATTGTTACCCTCATTTCTTGCATTTTCTTGTGATTTGTCTTTTGTCGTTTACCCTAATTTCTTTTCCTTCTTTCAATTTCTCCTTTCATAACTTTATTGTCTCCTTTCACCTTATATTTTCTTTTTTTTCTTTTACGTTACCTTGCTAATATAGTCATCTTCAAATTCATTTGCTTATATACTTATGAAATGTGTGTTTGATTGACCAAAATCTAAAATAAAATTTGAAAAACAAGATTCAATTTCAAATTAATATTCATATATCAATTAGACAATGAGTAATTGTCGATAGTCATGTATCAATAATAAATAAAAGTAAATCACTGATAACCATGTATCAATAACAAAGAAGGGTAAATCGGCGATATACTACAAAACAGTATATCAACAATATACTATAAAAGTGGTATATCAGCAATATATTATAAAAGCTGTATATCAGCAATATACTATAAAAGCGGTAAATCAGTAATATACTATAAAAGTGGTAAATAAGTGATATACTATAAAAACGATATATCAGTATTATACTATAAATGAGATATATCAGTGATATATTATAAAAGCTATATATCAATGATAAACGAAAGTAAAAAAAAAAATTACGTAAAATACAACAACTACTCTTGTCATCCGTTACAATTTCCCAACTATATTCTAACTGTGTATTATCTCAAAGCTAGGGGTCAGCGGAGTTGAGGGAGCGTGGCCGGAAGGACTGGGCGGGGCGGTAGTGGTTGGGGAGGCGTCCTCCACAGCCAGCGGTGGTTCTGCATCGATAATCCGACCCTCCCGACGACCGTCTTTCAAACTGAAAATATGGAAAGTGGCGGCGATTCTACTCCATATGATGGAGTCGGAGTAGTCAATGGAGGGAGAGAGGTAATTGTTTGGTTGCGAAGGAAAAGGAAGAAATAGAGGAGGAGAGCGAAGACAGCTGCAGAAGCAGCGATGAGGAATAAGCTCCAAAAGTAACTCAGGTCGAGGCTGCTGGAAGAAGAGCCCTCCGAGCTGCTGCTGCAAGATTGATGGTCGATTGTCTTCCCAAACCACTTCTTTTGTATTTGGCCCATTTTATCACTCTCAGTCACCTTCAACACTGCCTTCGACATATCTTCTACCAGAGATGAACCCAATGGGAACGCCTGTAAAATTTCCCAATCAACATCATATATATTATTCATAAAAACTCATGAGTTGTAATTGGATTTTTTTTGGTTTTTTGAATGGTTATTCCTATCCTATTAGACTCTTATTATGTTATTAGTTAGCCTGCATAAACATTGGATAGGCCCATGAGAAATGCGAATCATCTTCAAGTTTGATACTTATCTTTAGAATGTCTTACTCACCCTTTGACGTGGTCCTTGCCTGTTAAATATAAAAACATAATATGAAGGGAACATTCACCAATTTATGAAATTAAAATATAAGGCTAAATTATAAAATTATTTTTGAATTTTGATATTGTTGTGTTTATTTAGTTCCTAAACTTTTAAAAAGTTTCAATTTCATTATTAAACTTTAAATTGTGATTCTAAATAGTAGTCCATCTTGTGGTATGTTTATTGGATAAACATTGACTGATTTGACACACCGTAGTGGGCAAATAGAAGAAAGAAGTGAACAACTAACAAAATAGAGTGACATGTTCTCTAAAGGGAATTTGATCATATGTTGTTTCAAAAAGATGGTATGTTGAACATGCCACTATTTTGTCGAGTTATCCATTTCTTTCTTATGCCATTTGTTTATAATAATGTCTTAGCTCAATAGACATGTCCTATCATCATTATTTAGTTAACGAGTGTTAATACAAATCTTATGTAGAATTACAATTCTAATTTTTAACATTCTTTATATGTTAAAAGTTCGAATTTTCGCCAGGCCTTAAAAATATGCTCATGCAGATTTTGAGAGAAAGAAAAAAGACTTACAAATCCAAAACCGTTGCTCTTGAATAGAGAATCAGCCATGGTATAGTCATCATAACGTTTTGAAAGAAAGAGCTTCATGTAAGGGATCTCGTCAATGACAGCATCGATGCCGCCATTGCAGCTTCCTTTAGTGAAGAGCTCGTGCAGTTGTTCTAATGAGGAATAGGGTACCAGATTTTTAATGCCCAAAAACTTCAATGTGTCCAAAACATAAGAGCCCTCTTGATATCCAACTCGCCAATCGTTTTTTATTATCTGATTGACGTCGGTGACTGGTTGGAGCTGTTGCACCGTCAACCACGACGTTAAACTCGCCGTGTAGCTCTGAGTTAGGATGAACACTACGACCAGCCATATCACCACCACGAACCTCGCCAGATTGCTCACCATTGTCTCCCCTGGATATGAATAAAACAAATTAAAGGGTTTGTTTTTTCAGTGGAAAAAGATGGAGAAGTTATGCCGCCATTAATGGAGGTTGAAGAAGCTTACTTTGCGCGAAGACCATGGTGCAGAAGGAGAACCAGAGACTGGTGCCGATCTGGTGGGACGGAGGGCCGCGACGAAAGTCTTGATTGTTTTGCCGTTCAAGAACCCAAACGACGAGCCCATGAAAACGAAGAAGCAGAAGCTTGTGATCCAGAGGCCCAAAGTCAAGGGCTTCAAGAACACCCATGCATGGTTACTCAATTTATGTCTTACGGGAATGACCACAGAAATTCCAGCTTCGGTGAATGGTAAACTGAAGTCTACAAACATAGATCTGTTTGCTAATATTGTTAGGTCTCCAACTGCAGCATCATATTTCTGTCCACAAAACATATCACCAGTAATTTACAAACTTCTAGAGACTAAATATTTAAAATTTACTACTTAAACTTTGAAACGTCGTACACAAACGATTGGTTGATTTGACCTGACATGAACGACAAATGACATGAACACCATATATAGAATTATAATTCTGGCGATGAAATTTTTTAAAACTAATTTACTTAAAGATCTTTGTACCCATACCCCTTCAGACACTTGCATGATCAAGTCATCGTAGGAAGCGGATGTCCGTCCATGCGTATATAGGAAGGGAATATATTGACATGGAAGAGCATAAGGAAGCTCTGCAACAACTGCTTCGAAGATATCTATGCAGATCCAACGATGGAGCCGTTCTTCACTCGAGCAAATTCACTAAAACCAATATTCAATGCAACTCCTATCCTCAGTTTCTTCTCTCCAATTAATGGAGTCTCCCATCCCTTAGGAATTGTAATGGAGTCTCCCGGCCAAATTATGGGTCTTGTTCCTTTCCGCTTAAAATCTCTGGTCAGACCCACGCCATCAGGCGTCCAATATCCCACCGTCCTTTCTCCATCTTCGATTACATTCACTATCTGCAAACTTGGTGACTCTAGTTGGCCTTTAACCAGATTAAACTCCCCACTCAGACCTTTGAATTTCGTCTTCGACAGTGACTCGCTGATTTTCTTACCATTTTGAGACAACCCAGAAGTGAATTTGGTATGGGTTGATCCGATTCTCTCGATCGCCATGGCTAGTGCCCAAGCAGCATCGTAAGCCCACAGTCCATAAACATCTAGTTGTTGGTCATCGATGGCTGGATTGTCTTGTCGGAATTTCCTTCTCCATCGAGTGGTGAAGTTGTCGAGCTCCACTGTCCTCGGGACGTAGCTCTTTACTCCCAAAACTCCCTGCATCGAGCTGAGAATTGAAGAATTCAAAGCATTCAAGACATTGGTTGTGGCGTCAGTCAGAATCCAAACATAGCCTTCACTCATCATCCGAATTTCGTTGGCCATGGCGAAAACTCGAGTTGCCAGAGCGTGCACCATGTGGACGACGAAAACTCTCGTCTGCATCATCCTCAATCTGTAAAGCTCTTCTCTGATCTGATCGCCAGTAGCCCCCGGGTCGATGACACTCCGGTGAACACGTATGCTCTGCAAGGCCTCGAAAAGATCCGCTAAGATCCACGTTCCAAACTCATCGTCTTGGTAAATGGCAACGACTTGCCTCCACCCAAAAAATTTAACGATGTCGCTAATGGCGTAAACTTGGGAGGAGTGGTTCTGGGCTACTCGGAAGAAATAAGGAGATCTGAGATAAGAGAGAGTAGAGGTTGTTGGTGCAAAGGAGATAATGGGGACCTCAGCTTTCTCACCCAGCTGGACAATGAAGTATGCTTGGGACGAACTTTCCGGCCCCAGGATAGCTTCGACTTTATCGTTCTGCATCAGCTCCACGGCTGCGTTTGATCAAACAGAAAACGAGGGTAAAATTGCTAAAGGGCTACATAAGGAAGAATATAGTAATTGTACAGTTACTAGAGATCAGAGAGAGAGAGGACCTTGAGCAGCAGCTCCAACAACATCACCTTTAGAGTCTTTGATGTGAAGGACGATTGTGGTGGTGTGGTGAGGATGAGAAGCATAGAAGTCAGAAAGCGACATGTCGATGCAACTCAAACTCATCTTCCCAACCCAACTACTTAAATCAAGAACGACGCCCACATTCACGACGATCGTCGTTTTGTTCTCTGCAGCATACACCATCGTCGTCGTCGTCGTCCCGATGCCGACGGCGACGGCCACAACAAAACCTGCAAACAAATACCTCAAAAAACCAGTTTTGGGTTTCATTTTCAGAATCTTCTTCCCAAAAGGCTTGGGATGACACAATCAAATACAAATATATATATATATATCTCTCTCTCTCTCTCTCATGA ATGTCGGATGTTTTTGCATCGCGGCGGCTCCCATGGAAGGTGAAGATGATGCTGCTCGCCATTGCCTACGGCACCGACATTTGCCGCCGCTCCGATTGCACCGTCAAACGCTATCTCACTAACCTCTTCGACTTCAAGTCCCCTCCGCTGAAGAAACCAAAGAACGGCCTCAGAAGCTTCGATGTCACCGTCGATGGCTCCCGCAACCTCTGGTTCCGTCTGTACGCTCCTACCTCCGAAGCAACCTCCGCATCGTTGCCATTGATCGTCTATTTCCATGGCGGTGGATTTGTATTCATGTCTCCTGCTTCCAAACTCCTCGATAACCTTTGCCAGAGACTTGCTCGGGAGATCTCCGCCGTCGTCATCTCCGTCAACTACCGCCTCGCTCCAGAGCATCGCTATCCTTGTCAATACGAAGACGGCTTCGATGTTTTGAAATTCATCGACGGTGCTAGGTTTGAAGGATTTCCGGCAAACGTCGATCTGAAACGGTGTTTCGTCGCCGGAGACAGCGCGGGCGGAAACTTAGCTCACCATATGATATTGAAATCTGGAGAACACGAATTCCACGAGTTGGAAATCATCGGTCTTATCGCGATACAACCGTTCTTCGGTGGAGAAGAACGAACGCAATCGGAAAAAGAACTAACCGGAGTTCCACTAGTTACGGTGGATCGCACGGATTGGTACTGGAAGGCTTTCTTACCGGAAGGATCCGACAGAGACCACCCGGCGGTGAACATTTTCGGTCCAAAATCGGCGGATATATCGAGCGTGAGGTTTCCGGCGACGAAAGTGTTTGTTGGAGGGTTGGATCCGTTAATTGATTGGCAAAAAAGATACTACGAAGGATTGAAGAAATCAGGTAAGGAAGCAGTTGCCGGAGTGGTCTCTGTTCATCAAAGAAGCTGCAGATTTCATACAGACGCAGTCCTCGAAGAAAACCAGGAAGCAGAATCAGAACCACAGCGTAATGGACTGATCGTTTCTCAGTTGTCGTTCTTCGTCGGAGTTCGCCGTCGTCCTCTACCTCGTCGGAAGACAGAATTAGAAACACAATGGAAGAAGAAAATCTCATCATCGATTGGGAAAAAGAAAGACAAAAGAGGGGAGGGGCATAGAAGTAATTTGGCAAAGAAAGAGGCAGCTGGTTTTGCAGATATGCGCCAAAGGAAGTGGGGAAAGACTGGGCGGGGCGGTAGTGGTTGGGGAGGCGTCCTCCACAGCCAGCGGTGGTTCTGCATCGATAATCCGACCCTCCCGACGACCGTCTTTCAAACTGAAAATATGGAAAGTGGCGGCGATTCTACTCCATATGATGGAGTCGGAGTAGTCAATGGAGGGAGAGAGGTCGAGGCTGCTGGAAGAAGAGCCCTCCGAGCTGCTGCTGCAAGATTGATGGTCGATTGTCTTCCCAAACCACTTCTTTTGTTGAAGAAGCTTACTTTGCGCGAAGACCATGGTGCAGAAGGAGAACCAGAGACTGGTGCCGATCTGGTGGGACGGAGGGCCGCGACGAAAGTCTTGATTGTTTTGCCGTTCAAGAACCCAAACGACGAGCCCATGAAAACGAAGAAGCAGAAGCTTGTGATCCAGAGGCCCAAAGTCAAGGGCTTCAAGAACACCCATGCATGGTTACTCAATTTATGTCTTACGGGAATGACCACAGAAATTCCAGCTTCGGTGAATGGTAAACTGAAGTCTACAAACATAGATCTGTTTGCTAATATTGAAGGGAATATATTGACATGGAAGAGCATAAGGAAGCTCTGCAACAACTGCTTCGAAGATATCTATGCAGATCCAACGATGGAGCCGTTCTTCACTCGAGCAAATTCACTAAAACCAATATTCAATGCAACTCCTATCCTCAGTTTCTTCTCTCCAATTAATGGAGTCTCCCATCCCTTAGGAATTGTAATGGAGTCTCCCGGCCAAATTATGGGTCTTGTTCCTTTCCGCTTAAAATCTCTGGTCAGACCCACGCCATCAGGCGTCCAATATCCCACCGTCCTTTCTCCATCTTCGATTACATTCACTATCTGCAAACTTGGTGACTCTAACAACCCAGAAGTGAATTTGGTATGGGTTGATCCGATTCTCTCGATCGCCATGGCTAGTGCCCAAGCAGCATCTCAGAATCCAAACATAGCCTTCACTCATCATCCGAATTTCGTTGGCCATGGCGAAAACTCGAGTTGCCAGAGCGTGCACCATGTGGACGACGAAAACTCTCGTCTGCATCATCCTCAATCTGTAAAGCTCTTCTCTGATCTGATCGCCAGTAGCCCCCGGGTCGATGACACTCCGGTGAACACCTGGACAATGAAGTATGCTTGGGACGAACTTTCCGGCCCCAGGATAGCTTCGACTTTATCGTTCTGCATCAGCTCCACGGCTGCGTTTGATCAAACAGAAAACGAGGGACGATTGTGGTGGTGTGGTGAGGATGAGAAGCATAGAAGTCAGAAAGCGACATGTCGATGCAACTCAAACTCATCTTCCCAACCCAACTACTTAAATCAAGAACGACGCCCACATTCACGACGATCGTCGTTTTGTTCTCTGCAGCATACACCATCGTCGTCGTCGTCGTCCCGATGCCGACGGCGACGGCCACAACAAAACCTGCAAACAAATACCTCAAAAAACCAGTTTTGGGTTTCATTTTCAGAATCTTCTTCCCAAAAGGCTTGGGATGACACAATCAAATACAAATATATATATATATATCTCTCTCTCTCTCTCTCATGA ATGTCGGATGTTTTTGCATCGCGGCGGCTCCCATGGAAGGTGAAGATGATGCTGCTCGCCATTGCCTACGGCACCGACATTTGCCGCCGCTCCGATTGCACCGTCAAACGCTATCTCACTAACCTCTTCGACTTCAAGTCCCCTCCGCTGAAGAAACCAAAGAACGGCCTCAGAAGCTTCGATGTCACCGTCGATGGCTCCCGCAACCTCTGGTTCCGTCTGTACGCTCCTACCTCCGAAGCAACCTCCGCATCGTTGCCATTGATCGTCTATTTCCATGGCGGTGGATTTGTATTCATGTCTCCTGCTTCCAAACTCCTCGATAACCTTTGCCAGAGACTTGCTCGGGAGATCTCCGCCGTCGTCATCTCCGTCAACTACCGCCTCGCTCCAGAGCATCGCTATCCTTGTCAATACGAAGACGGCTTCGATGTTTTGAAATTCATCGACGGTGCTAGGTTTGAAGGATTTCCGGCAAACGTCGATCTGAAACGGTGTTTCGTCGCCGGAGACAGCGCGGGCGGAAACTTAGCTCACCATATGATATTGAAATCTGGAGAACACGAATTCCACGAGTTGGAAATCATCGGTCTTATCGCGATACAACCGTTCTTCGGTGGAGAAGAACGAACGCAATCGGAAAAAGAACTAACCGGAGTTCCACTAGTTACGGTGGATCGCACGGATTGGTACTGGAAGGCTTTCTTACCGGAAGGATCCGACAGAGACCACCCGGCGGTGAACATTTTCGGTCCAAAATCGGCGGATATATCGAGCGTGAGGTTTCCGGCGACGAAAGTGTTTGTTGGAGGGTTGGATCCGTTAATTGATTGGCAAAAAAGATACTACGAAGGATTGAAGAAATCAGGTAAGGAAGCAGTTGCCGGAGTGGTCTCTGTTCATCAAAGAAGCTGCAGATTTCATACAGACGCAGTCCTCGAAGAAAACCAGGAAGCAGAATCAGAACCACAGCGTAATGGACTGATCGTTTCTCAGTTGTCGTTCTTCGTCGGAGTTCGCCGTCGTCCTCTACCTCGTCGGAAGACAGAATTAGAAACACAATGGAAGAAGAAAATCTCATCATCGATTGGGAAAAAGAAAGACAAAAGAGGGGAGGGGCATAGAAGTAATTTGGCAAAGAAAGAGGCAGCTGGTTTTGCAGATATGCGCCAAAGGAAGTGGGGAAAGACTGGGCGGGGCGGTAGTGGTTGGGGAGGCGTCCTCCACAGCCAGCGGTGGTTCTGCATCGATAATCCGACCCTCCCGACGACCGTCTTTCAAACTGAAAATATGGAAAGTGGCGGCGATTCTACTCCATATGATGGAGTCGGAGTAGTCAATGGAGGGAGAGAGGTCGAGGCTGCTGGAAGAAGAGCCCTCCGAGCTGCTGCTGCAAGATTGATGGTCGATTGTCTTCCCAAACCACTTCTTTTGTTGAAGAAGCTTACTTTGCGCGAAGACCATGGTGCAGAAGGAGAACCAGAGACTGGTGCCGATCTGGTGGGACGGAGGGCCGCGACGAAAGTCTTGATTGTTTTGCCGTTCAAGAACCCAAACGACGAGCCCATGAAAACGAAGAAGCAGAAGCTTGTGATCCAGAGGCCCAAAGTCAAGGGCTTCAAGAACACCCATGCATGGTTACTCAATTTATGTCTTACGGGAATGACCACAGAAATTCCAGCTTCGGTGAATGGTAAACTGAAGTCTACAAACATAGATCTGTTTGCTAATATTGAAGGGAATATATTGACATGGAAGAGCATAAGGAAGCTCTGCAACAACTGCTTCGAAGATATCTATGCAGATCCAACGATGGAGCCGTTCTTCACTCGAGCAAATTCACTAAAACCAATATTCAATGCAACTCCTATCCTCAGTTTCTTCTCTCCAATTAATGGAGTCTCCCATCCCTTAGGAATTGTAATGGAGTCTCCCGGCCAAATTATGGGTCTTGTTCCTTTCCGCTTAAAATCTCTGGTCAGACCCACGCCATCAGGCGTCCAATATCCCACCGTCCTTTCTCCATCTTCGATTACATTCACTATCTGCAAACTTGGTGACTCTAACAACCCAGAAGTGAATTTGGTATGGGTTGATCCGATTCTCTCGATCGCCATGGCTAGTGCCCAAGCAGCATCTCAGAATCCAAACATAGCCTTCACTCATCATCCGAATTTCGTTGGCCATGGCGAAAACTCGAGTTGCCAGAGCGTGCACCATGTGGACGACGAAAACTCTCGTCTGCATCATCCTCAATCTGTAAAGCTCTTCTCTGATCTGATCGCCAGTAGCCCCCGGGTCGATGACACTCCGGTGAACACCTGGACAATGAAGTATGCTTGGGACGAACTTTCCGGCCCCAGGATAGCTTCGACTTTATCGTTCTGCATCAGCTCCACGGCTGCGTTTGATCAAACAGAAAACGAGGGACGATTGTGGTGGTGTGGTGAGGATGAGAAGCATAGAAGTCAGAAAGCGACATGTCGATGCAACTCAAACTCATCTTCCCAACCCAACTACTTAAATCAAGAACGACGCCCACATTCACGACGATCGTCGTTTTGTTCTCTGCAGCATACACCATCGTCGTCGTCGTCGTCCCGATGCCGACGGCGACGGCCACAACAAAACCTGCAAACAAATACCTCAAAAAACCAGTTTTGGGTTTCATTTTCAGAATCTTCTTCCCAAAAGGCTTGGGATGACACAATCAAATACAAATATATATATATATATCTCTCTCTCTCTCTCTCATGA MSDVFASRRLPWKVKMMLLAIAYGTDICRRSDCTVKRYLTNLFDFKSPPLKKPKNGLRSFDVTVDGSRNLWFRLYAPTSEATSASLPLIVYFHGGGFVFMSPASKLLDNLCQRLAREISAVVISVNYRLAPEHRYPCQYEDGFDVLKFIDGARFEGFPANVDLKRCFVAGDSAGGNLAHHMILKSGEHEFHELEIIGLIAIQPFFGGEERTQSEKELTGVPLVTVDRTDWYWKAFLPEGSDRDHPAVNIFGPKSADISSVRFPATKVFVGGLDPLIDWQKRYYEGLKKSGKEAVAGVVSVHQRSCRFHTDAVLEENQEAESEPQRNGLIVSQLSFFVGVRRRPLPRRKTELETQWKKKISSSIGKKKDKRGEGHRSNLAKKEAAGFADMRQRKWGKTGRGGSGWGGVLHSQRWFCIDNPTLPTTVFQTENMESGGDSTPYDGVGVVNGGREVEAAGRRALRAAAARLMVDCLPKPLLLLKKLTLREDHGAEGEPETGADLVGRRAATKVLIVLPFKNPNDEPMKTKKQKLVIQRPKVKGFKNTHAWLLNLCLTGMTTEIPASVNGKLKSTNIDLFANIEGNILTWKSIRKLCNNCFEDIYADPTMEPFFTRANSLKPIFNATPILSFFSPINGVSHPLGIVMESPGQIMGLVPFRLKSLVRPTPSGVQYPTVLSPSSITFTICKLGDSNNPEVNLVWVDPILSIAMASAQAASQNPNIAFTHHPNFVGHGENSSCQSVHHVDDENSRLHHPQSVKLFSDLIASSPRVDDTPVNTWTMKYAWDELSGPRIASTLSFCISSTAAFDQTENEGRLWWCGEDEKHRSQKATCRCNSNSSSQPNYLNQERRPHSRRSSFCSLQHTPSSSSSSRCRRRRPQQNLQTNTSKNQFWVSFSESSSQKAWDDTIKYKYIYIYLSLSLS Homology
BLAST of Sgr028730 vs. NCBI nr
Match: XP_023522626.1 (probable carboxylesterase 18 isoform X1 [Cucurbita pepo subsp. pepo] >XP_023547293.1 probable carboxylesterase 18 isoform X1 [Cucurbita pepo subsp. pepo]) HSP 1 Score: 518.5 bits (1334), Expect = 1.2e-142 Identity = 245/295 (83.05%), Postives = 262/295 (88.81%), Query Frame = 0
BLAST of Sgr028730 vs. NCBI nr
Match: XP_023522627.1 (probable carboxylesterase 18 isoform X2 [Cucurbita pepo subsp. pepo] >XP_023547295.1 probable carboxylesterase 18 isoform X2 [Cucurbita pepo subsp. pepo]) HSP 1 Score: 510.8 bits (1314), Expect = 2.5e-140 Identity = 241/291 (82.82%), Postives = 258/291 (88.66%), Query Frame = 0
BLAST of Sgr028730 vs. NCBI nr
Match: XP_038885745.1 (probable carboxylesterase 18 [Benincasa hispida]) HSP 1 Score: 509.2 bits (1310), Expect = 7.3e-140 Identity = 238/295 (80.68%), Postives = 263/295 (89.15%), Query Frame = 0
BLAST of Sgr028730 vs. NCBI nr
Match: XP_022999791.1 (probable carboxylesterase 18 [Cucurbita maxima]) HSP 1 Score: 506.5 bits (1303), Expect = 4.7e-139 Identity = 241/295 (81.69%), Postives = 256/295 (86.78%), Query Frame = 0
BLAST of Sgr028730 vs. NCBI nr
Match: KAG6599120.1 (putative carboxylesterase 18, partial [Cucurbita argyrosperma subsp. sororia]) HSP 1 Score: 505.0 bits (1299), Expect = 1.4e-138 Identity = 237/295 (80.34%), Postives = 259/295 (87.80%), Query Frame = 0
BLAST of Sgr028730 vs. ExPASy Swiss-Prot
Match: Q9LT10 (Probable carboxylesterase 18 OS=Arabidopsis thaliana OX=3702 GN=CXE18 PE=1 SV=1) HSP 1 Score: 325.5 bits (833), Expect = 2.0e-87 Identity = 164/334 (49.10%), Postives = 215/334 (64.37%), Query Frame = 0
BLAST of Sgr028730 vs. ExPASy Swiss-Prot
Match: Q940G6 (Gibberellin receptor GID1C OS=Arabidopsis thaliana OX=3702 GN=GID1C PE=1 SV=1) HSP 1 Score: 257.3 bits (656), Expect = 6.6e-67 Identity = 128/280 (45.71%), Postives = 174/280 (62.14%), Query Frame = 0
BLAST of Sgr028730 vs. ExPASy Swiss-Prot
Match: Q9MAA7 (Gibberellin receptor GID1A OS=Arabidopsis thaliana OX=3702 GN=GID1A PE=1 SV=1) HSP 1 Score: 237.7 bits (605), Expect = 5.4e-61 Identity = 124/287 (43.21%), Postives = 166/287 (57.84%), Query Frame = 0
BLAST of Sgr028730 vs. ExPASy Swiss-Prot
Match: Q9LYC1 (Gibberellin receptor GID1B OS=Arabidopsis thaliana OX=3702 GN=GID1B PE=1 SV=1) HSP 1 Score: 232.6 bits (592), Expect = 1.7e-59 Identity = 119/302 (39.40%), Postives = 173/302 (57.28%), Query Frame = 0
BLAST of Sgr028730 vs. ExPASy Swiss-Prot
Match: Q6L545 (Gibberellin receptor GID1 OS=Oryza sativa subsp. japonica OX=39947 GN=GID1 PE=1 SV=1) HSP 1 Score: 216.9 bits (551), Expect = 9.8e-55 Identity = 109/286 (38.11%), Postives = 158/286 (55.24%), Query Frame = 0
BLAST of Sgr028730 vs. ExPASy TrEMBL
Match: A0A6J1KE39 (probable carboxylesterase 18 OS=Cucurbita maxima OX=3661 GN=LOC111494035 PE=4 SV=1) HSP 1 Score: 506.5 bits (1303), Expect = 2.3e-139 Identity = 241/295 (81.69%), Postives = 256/295 (86.78%), Query Frame = 0
BLAST of Sgr028730 vs. ExPASy TrEMBL
Match: A0A6J1G4S5 (probable carboxylesterase 18 isoform X1 OS=Cucurbita moschata OX=3662 GN=LOC111450746 PE=4 SV=1) HSP 1 Score: 503.4 bits (1295), Expect = 1.9e-138 Identity = 237/295 (80.34%), Postives = 259/295 (87.80%), Query Frame = 0
BLAST of Sgr028730 vs. ExPASy TrEMBL
Match: A0A6J1BRA6 (probable carboxylesterase 18 OS=Momordica charantia OX=3673 GN=LOC111004992 PE=4 SV=1) HSP 1 Score: 500.4 bits (1287), Expect = 1.6e-137 Identity = 231/292 (79.11%), Postives = 260/292 (89.04%), Query Frame = 0
BLAST of Sgr028730 vs. ExPASy TrEMBL
Match: A0A5A7T6B5 (Putative carboxylesterase 18 OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold119G00400 PE=4 SV=1) HSP 1 Score: 499.6 bits (1285), Expect = 2.8e-137 Identity = 231/295 (78.31%), Postives = 257/295 (87.12%), Query Frame = 0
BLAST of Sgr028730 vs. ExPASy TrEMBL
Match: A0A1S3CP40 (probable carboxylesterase 18 OS=Cucumis melo OX=3656 GN=LOC103502644 PE=4 SV=1) HSP 1 Score: 499.6 bits (1285), Expect = 2.8e-137 Identity = 231/295 (78.31%), Postives = 257/295 (87.12%), Query Frame = 0
BLAST of Sgr028730 vs. TAIR 10
Match: AT5G23530.1 (carboxyesterase 18 ) HSP 1 Score: 325.5 bits (833), Expect = 1.4e-88 Identity = 164/334 (49.10%), Postives = 215/334 (64.37%), Query Frame = 0
BLAST of Sgr028730 vs. TAIR 10
Match: AT5G27320.1 (alpha/beta-Hydrolases superfamily protein ) HSP 1 Score: 257.3 bits (656), Expect = 4.7e-68 Identity = 128/280 (45.71%), Postives = 174/280 (62.14%), Query Frame = 0
BLAST of Sgr028730 vs. TAIR 10
Match: AT3G05120.1 (alpha/beta-Hydrolases superfamily protein ) HSP 1 Score: 237.7 bits (605), Expect = 3.8e-62 Identity = 124/287 (43.21%), Postives = 166/287 (57.84%), Query Frame = 0
BLAST of Sgr028730 vs. TAIR 10
Match: AT3G63010.1 (alpha/beta-Hydrolases superfamily protein ) HSP 1 Score: 232.6 bits (592), Expect = 1.2e-60 Identity = 119/302 (39.40%), Postives = 173/302 (57.28%), Query Frame = 0
BLAST of Sgr028730 vs. TAIR 10
Match: AT5G62180.1 (carboxyesterase 20 ) HSP 1 Score: 184.5 bits (467), Expect = 3.8e-46 Identity = 107/288 (37.15%), Postives = 155/288 (53.82%), 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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