Sgr028537 (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.ATGGCGTCTGAGCTCCAGCAATTGAGGCTCGAACCGCCCCAATCCAACTCATCGGATGAGACATCTGCCAAAGACGATCGCCCACTGTTGAATCCCGACTCTGACGCCGTCGCTGAGGAGGATTCCGAGGATCTCGACCAGAAATATGCTCCGTTTGTGCGACGAGATGTTTACGGCAAGATGGGGCGAGGGGAGCTGCCGTGGATGGAGAAGGTGCTACTGGCAGTGGCGCTGGTGACGATCGTTCCGATACGAGTGGTTGTTGGGATGAGTTTGCTGTTTCTTTATTACATGATTTGCAGAATTTGTACGTTATTTCACGATCCAAATAGGGAGACGGATGAGCAGGAAGACTACGCGCACATGGTAGGATGGAGGAGGTCCGTGATTGTGTGGACTGGAAGATTTCTGTCCAGAGCCATGCTATTCGTGTTAGGGTTTTATTGGATTTCGGAAGTTTATCGAATCCCACCCAACGAGGACAAGTCAACTAACGAGGTGCTCTAATTTCTGCCATCTTTTCCACCTTGGGACTCCGTCATTGTTCTGTTATGCTTTCTTGCATGTTTCAGTTAATAGGTATCTTAAATTCTGAATCCTTATGTTTGTTCTTGTGTTCACTGTTCTTTGTTTTTACCTCTTCTTTGATGTTTAGGATGAGAGCCAAGAGAAGTCTCAAGAGTCTGTAAGACCTGGGGCTATTGTCAGCAACCATGTATCATATTTGGATATTTTGTATCACATGTCTTCCTCTTTTCCAAGCTTTGTTGCTAAGGTTTGTTCAAACACAATTTGTCACAATTATTCAGAATGTGTGACAAAATTTGGTCCATGCCAGTATGACTTTACAGTATAGTTCATCATTGGGTCTGCTTTTCTGATCCTCGATTTTTCTTTTCCTTTTTTTGGCTGAAGAGATCAGTGGCTAAACTTCCTCTAGTTGGTATTATCAGGTTAGCTAATTTCTTTTAAACATCTTGAAACCTGTCATGTGCCGCAAAACTTACTTTCGATTTTTAAATATCAATTTCATTGAATCGATGTAATTTTTTTTTTTTTTTCTCAAAGGCTCAATTTTTTTTTCCCAAAGGTTTATCTTTAATATTTATGATACCTGTTTAATGTTTTTTTGGGTCTTACATAAGTTTAGTTGTTGTTGATTGTGACAGCAAGTGCCTTGGCTGTGTCTATGTTCAACGGGAGTCAAAGACATCTGACTCCAAGGGTGTTTCAGGTACTTCATGCTTTCATCTGTGACATTCTCTGTTGATTGTTGCTGCTCTTTGAAACTTATTTAGAAATACACGTACCATTAGCTTTCCGGTCATAGGCTTGGGTTAGTGAAGTTTTTAAAGACAACATAGGATTTTGGAAACAATCATTGTTCACACAAAATCCTCACTTATTATTTGGCTCTTAATTGACCCCAATGCTGCATGATCCTTGCATTAGAGTTCAATTAAGGACATTGTCCCACGAAATGGCTCTTAACTAATATTCATCTGTAATTGTGCATCTGGTCTCCAGATATTAATCACACTGTTGCTTATAGGTGTTGTGAGTGAAAGAATTCGAGAAGCTGTGAAGAATAACTCTGCTCCCATGATGATGCTTTTTCCAGGTTTCTTAGTAATTTTTTTGAATTATTTTGTATTCTACTATACGTAACTTCCAGTGAACAGAAACTATAATATATATCATTCTAAGATCTAATAATTTTTAATGAGTTTAACCTCTGTATACAGCTAATAACTAAATTGATTTTTTTAAAACTAATTTTAATGTAAGACATCAAAAAACAATAATTAGATTTATTTAGTACAGCAATTTACTTTTTTTTTTAAAAAAATAGAGACAATTTAATTGATTAAATGACATGGAACGACAATGGGAGAATCCTCACTAGGGAAGGTGCAAAAAGGTTTTCTAACTAGTGCAAAAAGTATAAATAGAGTAGTTACCAAAGGAACTATATCACTTACACCAAGTGGCCAAATATAAGTTTCTCCCCACCAAGAAAAGGCAAAAGAAATCTCTTAATCTAGAAAATCTCCACTATTTCTTTCAAGCCATAAGGACCATAAAAGGACTCTAATGAAAGTGAGAAAATCTTGACTTGCTTTTTCAACGGATACCCTTCCAAAATAAGAGTGAGTGTGTTTGATGTCATTCTGTAGGGGAGTAGACCAATTGAAGGTTCCAAAGATAGCTTTCCAGTAGTTCCAAGCGTTGGGGAAGTGAAAAGGAGGTGGTGTTGAGATTCTAGACTTGCTTTGCAAAGGCAGCTTTGATTAGGGGAGAGGCAAACGGCAGATATCTTTCTTTGAATCTTGTCCTGAAGATTTATGCTGCCAAGGGAGAGCTCCCAAAGAAAAACCTTCTCTATTTTTGGGCAAAGGCCTTTCCAGATAGCTTTGCAATGATTAGGGCTGAGGATAGAGAGATCATAGTTGAAGTGAGAGAGACAAGTCCTGCCATAAAAGGAGCCTGAAATGTCAATTTGAAGACCAGCTATCTTTCGAGGAGCAGAGGGAGAAATCTGCCAAAAGGTTGTTTAGAGAGATCCACTTTTGTACTTCAAGATCATTAAGATTTCTTCTAAGGCTAAGATCCTAGCCCATGTGGTAGCTCCACATTTTGTTGACGGTGAGATTCTTGCCATTAGAGAGATTATGAAGTCTTGGGAAAGAGGCCACCCAACTATCTTCCTAAAATCTGACTGTGTTGCCGTTGCCCAGGATGAAGGAAATGTTTGGAGAAAGGCATCTTGAAGTTTCCCAAAATAGCTCCATGGGCCCCTATATTTACTGTAGGGGGAGAAAGAAGTTCCCCAACCATTCTGATCAGTGCCATATTTTAGAGCAATAATTTTGTGCCAAAGGGAGCTTTCCTCCAGGGGAATCTCCAAAGTCCTTTAGAGAAGAGAGCCAAATTCTTGTTTTCAATGTTTCCGATTTTGAGGCCCCCTTGAGAGATAGGGAGGCTGACTTTGCGCCAAAAAATAAGATGGAAGCCACCGATATTTGCGACTCCTTCCAAATAGTTCTTTAGGATCCTTCTAATGGTGCTTGGCATTTTGAGGAGGGACATGTTGTAGGGTTAGAAGATTTGGGAGGATATCTTGGATGAGGGTGAGCATAGCTCCCTTATAGAGAGGAGTTTTCTTCCACCTATCAAGCTTGCAAATAATTTTTTCAATGATCAAGTTACAAAAAGCTCTGCAGGGGTTGTCATTTTGAGGTAAGCCAAGATAAGAATAGGGCCACTCCACGCAATGACTAATTCAATTAGTCAAGGGGGCGATGGTTTATTTGGAACAATTTATGCCAGTAAGCTTTGTTTTGGATAGGTTTCTGTTTAGACCCGAAGCCTCCTAAAAAATTTGGATGATATTCGAGAGGTTATACACTTTTTTAATGGGGAGGAAAAGAAGAGGGTATCATGAGCAAATTGGAGGTGGGAAATCTAAACAGCATTGTTTCCCATATTAAGGCCCCCAGTGTAGCCTTTTGAATGCCGCTGGAGAGAGCAACAGCAAGTACCAAGGGGAAGGGGAATATAGGAGTCACCTTGCTAATACCTCTTGAAGCAAGAATGTACACAAGAATCCATTTCCTGAATTTCTTACTAAAACCTTTTGGCCTCCAAAATTGCAAAGAGGAAGTTCAATCTACTTTGTCAAAAGTTTTCCCAAGGTCAAGCTTGAAAACAAGGCCCTTTTGTTTATTCTTAACATGATCATTAATAAGCTCATATGCCACTAAACAAGAATTATGAATTTGTCTCTCTTCCATACAAGCAAATTGGGCAGAAGAAATGGAGGGGAGAACTTTTTTGAGCTTTTCAGCCTTAACTTTTGGCTATAATCTTGTATAGGAGGGGATAAGACTGCTGGAGCAAAAATTTCATTCTTTTAGCATGTGATTTTTTTGGAATGAGTCAAATGTAGGTTTCATTTAGAGATTTGACATGTGAAATTAATGAGAAAGACGTAAATATTTGAGTGAGAGGATATGTTTAGAATATTTTAATTAAGAGTGATAAAGTATAAAATCAATTTCTCCAACACCTCCCTTTTTGATATATTAAAAATTGAAGATAAAGACTAAGTTGAATCATGGTTTTTGAAAATTGTCCTAATTATCACTGCTAGAGAGAGTAAATTTTTAATATGGACAAATTGCTGCTTCCCTCGTCAAAAGGTCAGGAATCAGTTGTAGTAATCAAGCTAATAAAAATTTTCATGTATTATTTCTTTTAGAAGAGTTTTTGTTTTTTGTATTATAATAATTTTCATGTATTGTGTGGCAAGAAAAAATATGAACATCAGTAAAGTTATTAGTGAGAATGGCTATTGTGATGATCTGATGACTGATTAAGGATTTGTGCTTGTGTTTTTGTTTTTTGTCCAAGTTGTTTAATGTATTATTATTTCTTCTACAGAAGGAACAACTACCAATGGGGAGTATCTCCTGCCATTCAAAACGGGAGCATTTTTGCCAAAAGCTCCAGTGCTTCCATTGATTTTAAGATATCCATATCAGAGATTTAGTTTGGCCTGGGAATCAATAACAGGAGTAAGGCCTTTTATTTTATTGTACTTTGCCCTTTCAAGTTTTCTTCTTCAAATATTTTAAAGAGGATTAGCTAAGTGAAAGTAATACGTTATGCATTTGGGTGGTGCAATACTATTAACTTAAATGCTATAATTTGTTTTGATTTTCTGTCAAATATTCTGATTGTGAAGGTTCTCACATGGCCTTGATAGGAATGCTCTTGGGGTAATTAGGAATAGTAATAGAGTAGTAAGGATATATTAGTAATTAGCTAAGAAAGTTGTTAGTAGGGATTTGTTATAAATAGAGTGAGTGGAGAAAGGAAGAGGGTAAGCAATTGTTTAGTGTGTTTAGGCTTGAGTGAGAATTCTCAAGAGAAGAGGGAGGTTCCAAGTGCCTCGAATACTTGGGTTATTGTACTGTTTTACCTTTTATATTTCAATAATACTATTCTAGTTGTTTGGATTCTATTCTGATTATTGTTTCTTATGAGCTAATTACAAGAGTCTGGTATAGTGGTGTAGGAAGTTCGGGGTTTAAACTGTTATGGATTCATAAACTGCAAGAGCCACCTATGAATAATTAAGTACTTCAATGAATTTTTAAGTAGTGAAATATTGCAAGTTCAATTGGTAATTGGAACATTTAGAAGCTTGAGATTTATAAGTACAAGGGTGTTTGGTCTTGATTATGGATAACTACTCAACCTTATAACTTATGATATTGGAAACTTTTAAGATATTTAACATTCTTGGTAGTTAGCCACATGGTTTGAACCCATAGCCTTATCTGAGTTTGTTGCGTGTGTGTTCCATCGCTTAACCAACTTATTAGTGGTTACAACTTTTTATCTTGTAGAGGGTTTGGGACCACATTTTAAGGTATATTTGAATTATTATTGGCAGGTCCGTCATTTTTTATTCCTTCTCTGTCAATTCGTAAATCACATGGAAGTAATAAGATTACCTGTCTACAACCCCTCACAAGAAGAAAAGGATGATCCGAAACTTTATGCTAATAATGTCAGAAGGATGATGGCCAAAGAGGTATGCTTTCTCCTCCATTGTACTATATTCATTTAGGAGAGTGATAAAAGATTATAAGCTACCTCTCAGAAGGCAATAAGAAGGTCGAAAAGGAAAACTGAGACCTTTTAATTGGTCTTTCAATATAGTATCCTATGCAATCACAAGTTATCAAAGCTCGAAATAAACTGAATTCCGTTTAAATATTTGGCCCTATTTGAGTGTGATGTGCTGGAGAAGTTATGGCGACTTTTTATCTGCAGGGAAATTTGCTGCTTTCGGATATTGGGCTCCCGGAGAAGCGTGTTTATCTTGCTGCTCTGAATGGTAATAATAACATGCGTAGTGTTTTGCATCAGAAAGACGACTGAATTAACTAGTTCCAGTTTAGTTTTAGTTTGTCCAGGTTTATGCACTGTTATGATGGGGGGAAGTTACGTACCCACCCGTCTTTGCTAGATACTACTAGAGTGCGTTTCTTGGCCTGTACTTTATAATAAACATAATATTTGAGTAGAGTTTTTATTTAGTGTGGTGGTGAGGTTCTGTTGGTCTGAGCATGATGTAACATGTTGATGATGCCTGGACTAGAATTTTATTTTGGAAATGAAAAAGAAAGAGTTGACAAATTTGAACATGTCAAATTGCCTTGAGAAAGCAAGCGTAAACAGCTATTAATTTGAGGTGTCTCTTTGGTGTTCCTGCAGGTATACCACGCCAATGCTAATTTGGGATGTCATCTTCTGTAAATTCTTGTAGATGATAATTATATGGAAAACACCACCCCACCATCACCATCACCATCACCATCACCAATCACCACGTGCAAGCATTCATTAAACTAATATCGTCTCAAATGAACTTGTGTTGTATGATTTTCTATTTTCGGGGGATTTTTTTAATTTTGCTGAGCTGTGTGGGTGCGTCCCTGTGAATCTCATATTAGGATTTTCAATTTTGCTGAGGATTCAATTCACGTGTGAATCTCACTTCATAATTTGTTCAGAGAGTCATGACACCCTGCAGGCTGAGCTTCTGTCACAAGACAAGGGTGGTTTGTGTTCATGAAAAGCTGCTGCCTGTGCACCGTCGTCGGGTTTTGACCCTTTCCTACGGTAGAGATATAGTATTTGATTCAGTTATTTTTTTTCCATAAACATTCTCTATCATGAATACTATTGTTATTGCTTACCAAAAAGTAGTGATAGTAATAGCAGTCAAGGAAATTATAGGTTGAAAATCCAGCAAATATACCTTATCAAAATCTCTCTAATTGCTCTCTCCTTTCCCTTGATCTCTTGCCAGCTTCATCTTCTTTTTCTCTTATTATCTGCTATTTCATTTCTCAAATTTTCTGGTTTTTGGTCTCATGTCTCCTCCATACAACAATTCCATAGCTCCCATATTCTAAAAAATTTGTCTGTCAAGAGTCTTGCAACTGGACGAGATCAACCAGAGCACACTCACATTTGATTTCAATTTTTTCTCACTTTTGCCTAGGGGTACCATTACTCCCGTCAAGGCCCCCTTTGACTGAGATAGGCAAAACGAGGTTGTAGGTACACAATATTTAATTATTAGGTTAAATGACAAGTTTGGTCCGATTGTTTCTATTAGATCTCTATATTATAAAAAGTTTTTAATAGATTTTTTAATTTTTAAAATTGTAACAAATAGGTTTTTGAAATTCAATTGTCTGATAGGTTTCTGTTATTAATTTTATTCATTTAATACTTACATCATTAAATGTTTGAACATGCTTAAAATTAGTTCATCACATAATTTTTAAATAATATAAATCAATATAAGCATTAAATTAATGAGATTAATGATAGACTTATTATACATAAAATTGAAAGTTTACGTACTTATCATAAACTTTATAAAATACAGGTACTAATGTATTAGAAACTTTTTAACGTATAAGAATCTATTAGACATAACCATGAGAGATTAAACTTATAATTTTTTTTTTTTTTTGTGAGATGTGGATGGAAAACATAATTTCAGTAAATTATTAATAAAAATGTTAAATATTTTATAAAATTAATTATTTAAATTATTTAGTAATATAAATATAATATTGTCATTAAAAAAGTATATAATTTTAATATATTTATTGGTATTTAATTAATTTTTATTCAAATATAAGTATAGAAATCAAGATAAGAAAATATCAATCGAGAATAGAGGTAGAGAGTGCATAGAAATGAAAATAATAAAATATCAATCGAGAATAGAGATAGAGAGTGCATCCATGATCACGATTGTATCTAGTTGTGTTAGCTTTAGTTTTGCCTTACCCTCTCTCCCTCATCACTGATCAGTCATCAGCAATAAAAAAAAAAACAACAGATACCCATCCACCAGAAGCAGCAATCTTCAGATATATGCTTCCCTTTCCCCACACCTCCTTCACGTGCCAATCTTCAATCACAGCGTCCATATCATACTTGCAAACACAATTTTAATTTGAATGTATCTCAAATATCTCCAAAATTTCTATCGTCGTGATTCAAACTTCTAATCTTTAAGGATATTATTGATTTTTTGAAGACCCCTATTCATCTTCCCATAATTTGTTGTCTTAAAACGTATCAAGACTTAGAGATTGCAATTAGAAAACATCCATGTTTCTTTGTTTCATTTCATCACTTGATTTTGTGGCAAAAGCAAATCCTTGCAACTTCAACTTGTGTTCAGAGAATTCATAAACACGATTTGCAGAATCAAGAAAGGAACAGTCGAATGGCTTTCCCAAAAATTCCTTCTTTCTTTCTTCCTTGTGCCACATTTTTTTAAAACTTGAATATTTAATTGTGTTTGTTTAATTTTTAAACTTTACAAATTTGTAATTACATTCCTACACTTTGAATTATGATTTTATGTAATTTATGTCATTAATACCATTGACTAAATGATGACCTGACTAATTTAGCATGATATAATAGACAAATGACAAAAGAAAGTAGGTGGTTGAACAAAATAAAATGACAAGTGTAACACATCAAATCCCTTTTATAGTTTGTGCTACTCTATTTTGTTTAATTGCTCACTTCCTTCTATCATCCATTTATCCTATTATGCTAAATCAACTAATGTTTGTTCAATAAGTATACCATGTCACCATTTAGTTAACTGTAGAAACTACATGAAAGTACAATTCAAAGTTTATGTAATTAAATTTTAAAAAATCTAAGAACTAAATAAATTAAGTTAAATTATGAGTTTGGTTCCTAAATTTATGGAATTATGTCTATTAAATCCTTATACTTTAAAAAGTTTCTAAAAAGGTTTTGAACTTTTAAGATTGTGTCTATTTTGTCCCTATACTTTTAAAAAAATTTTAATAGGTCCGTAAATTTTAATTTTGTGTTTAATAGATGTCTATTATTAACTCCTTCAGTTTAACATTAAATGTCATATCACCTACATTATTTAAAAATTAGATTTCAAACAAGTTCAGACATTTGATGGTACAAACGCTAAACTAACAAAGTTAACGTAAGAACCTATTCGATACAAAATTAAAAATTCAAAAGTTTATTAAAAACATTTTAAAGTACAAAGTTCAAATATACACAACTTTGAAAGTTTATGAACTTATTAGAAATTTTTTAAAATATAGAAACTTAACGGCCACAACCTTGAAAATTTAGATATTAAACTTATAATTTAACCAATAAATTACTATTATTATTATTATTATTATTTTGGGTGTGGTTAAATGACAGAGCAGCATGGAAAGGACCATTCATTGATAGGATCCAGAAACAGACATACATTTACACTGCAAGGCTACTGGTTTGTCATCTAACAGAGATTTGCCAGCATCTACTCCGCAAGCATCTCCCAACAAATTATGTGAACATCGAAACATAAATTTGCCTTCTTCCACAACAAAAGATATTTAAGAACAAACAAATTCTTCTCACCTATCCTTTCAGGCATGAGGGTTCACTGTTAGACTTTTTCAACTCCCACCCTTTCAATGGTGACTGTAGAAACAATGAAGATGAAGACAGCTGCTTCTGCCGCATTGAGATTGAGGACAAGCAACTGAAGGCGCTCCTTAGCTTCGTCTTCTCGGTCTCGTATGGCGGGTACGCGGGATCGTGTCTTACTGCAGATATTCTCAGGGACTCAGGGAGTATGCAATTACAGACTGAGCCTGTAATGTTGATCCTTCAAAGTTAATCTTTTGATGAATATGAAAAGCCACTCTTTACTTTTATTTTTTGAACAAATGAAAAGCCACTCTTTACATTAACCCATATGCCATAACTCCACAATGGTTTGAAAGCAACTGCCAGTATTGCAGAAGGTTAATTTAATCTATCTTTCAAAATAAACTGAACTAAGATGATGGAAGCCAACCAACCAAGCCAATCACAGGTTTTAGAACTTTTGACAATGGAGGTCCAAGCTAGGTTGCGTGTACCTCAACTAATCTCATCAGATAACTACTTTGACCTTACAACATTTGGTTGCTAATATCCTAGGTAAGTAGTCACCATGGGATTTGAACTCGCTCTCTCTAACTCTCTTTATTTTCAATAGACACAATGACGACGAGGCTAATCCACGGTAGTTAATAACAATATATGTTAGATGTTAGGTTCTTACACCTAATGAAAATTGTGTTGTAGCTGGAATTTTTTGGAATTAAATCAAGAGAATGAGCATTCATATGATCAGATTCAGCTGGAAAATCACTTTTCAGAGGGATTGAGGTAGAAAATGTACCTATTTTAGCCAGTCGGTTTACCCATTTTGGAATTGATTTCCCAGTCAGTTGATAACAGACGTCCTTGCAGAAATGATTGCAGTTCTTGACAATCAGGTGATACGTATCGCCATAGTAGCTCGAAGAGCGGTGCTCCATGAACTCCCTGACTTGATGAGGATCAAGGCAGGTTGTCCCAATCAATATTGACCTCCTGAACTTGAAGCCTGGGCATTGTCGAGGTTCGACTTCAAAAACACCACTGGTCGGGTAGTCATGAGCTCCAAATGCATATTCTACACCATGGACTGCGCACAATGCATTCATTTCACTCTCAGAAAGCAAATATGAATCACAAGGTGCATTACTAAGTTTTTATTTTCAGATCACAACTGGTTCTGGAGTTGCAAAAGAAAAGTTTGTGAAATTACCTTCTACACCAGAGTGAAAGATACCAAGGCCTGCCCAATAGACATAACCATTCATAGGGGTTAAATCGTACACATTTAGATAAACTGGCGTTTTGCCCGGACCATAGTTAACTGACTTAGATTTGGGAAATAGACAAAAAGAGGGAGCTGATTTTCCTTTCAAACGTAGAGGGACAATGGATTTCCATCCTTTCTTGGATCCAAGCTTAATTTTCATTTCGTTCACAAAAAAACCAGAATACAGTTGATGCCCGTCCGCAACCTGTCACATGGACATAAGCAGAATAAATAACCAATATGGGGATGAACAAAGACAATGATAGGTGCATGACTGGGGCAGAGCTAAAAAGAAAAGAGGGGATAATTGCCCTCTTCTTAGTTCGTCTTAGATTAAAAAGACTATATTAAAAAGTTAGAGATTTTAAAACTCTCTCTAATTTGCCTCCTAAATTTTTAAAATGAAAATATTATATATATATATAGAAAGTTAGAATGTAAAAATTTACCCCTTCTAATGAAAATTTCTGTCTCCGGCTTTGATGCATGATATTACCATCGGAAGGTTGATGACCTTTTGCCTAATATATGAAAATCTCTTGACCCCTCAACATGCATAAAACCCAAAACTGGGAACACCTAATCAACCAACATCACAACATTTGATTTGTCTTCAAAACTTGCAGGATATTTAATACCTCACACAAAAACGAGGTTCCGATTTCAAAGAGGTTATGAACCTCAGATCCTTGGGCCTATGATGAATGAAAGATAATTTATAATAACAAACCTTACGTTTAGCAATCAAATTTTCACCTGGGACATTCAACTGATAATAGAAAACTACTTATCATTAAGTGAAGAACTCTCCTATCCCATACAAGAATCTTGTAGCTGAATCGTGTCAAATTATAAGTTATATATCAGTGCAACAGACAAATGTGGTTCAGTAATGATAATTGGGTTCAAATTTAAATTTTGGAGAGAGAGTAAGTACAATGTAAGTTTCAACTTTATGAGATTATTCTCTATCTTATTCAACCACTATGCCGTGAATGAAATTAGGACGTTCAATAACTTATAAGTTCATCAAGTCTGCAGACTATTAGGTCTATTTGAATACACAATACAATATAGATGAGCAGCAGTCGGCAACAAAACTTAAACAAGCTAGCAGAATCTGATTGGAACTGTCTTTAGATACAAATCACAGGAAAGTTACGAATTCACTTTTGTAGCAGATTGGTAGAGAATTAAGACTAATGTTTGGGAGTTGAGTTTAAAAACATTTTTTTTTATTCTTTAGAATAACAATTAAGTGATGATATGTTTGGATAATTATTTTTTAAAAATAGGTCCCCCTCATTGTCCTTAATTTGTTTCTATGTTGGGGTAATTTTGGAAAAAAAAAAATCTGAAGTTGTTTTTCAGTTAAAAATCAAACTTATAAATAATGATTTCCATTGCACTTGACCTCAATCTTTACAAGTAATCTTATCACAATTCTTTATTTATAAAATAATATTACATAACAATTATAATTTTAAAAAAATAATTATTTTTTTATAAAAAAAGCAGGTAGCCCTCCCATAATCTTGACTTCCTCTCATTCATTTAATACTTTTAATTCTTGACCATATTAAGAAGATATGATACTTTATTTCTTCCACTATACAGGAAGAGGCTGATAACTTGAACAATGTAGGGTTTTCATTTACACATAAACAGATCATAAAACCAGTATCATCAAGACATGAACAGCTTATATGCATAATGCTTTTAGTTCAAAACACAGGCCAGACAAGTCTACAGATCCGTAAGATGCAGCATTTTGATTAAACCCAGTTAAAGGAAATCCAAACAAGATATAACTAGATATAGAAAATAAAGTTGCAGTGCATGAATATCTGGCCAGCAACAAGTTCTCCAACCGACCATCAATCACCAACCCTTTTATTACCAACACTTCTAAAAGCTAGGATTCTCATATTGTTGACACTATCAAGGCAAACACATTCTGCCCCCAGTCTTCAAAATCAAACTGAAATTAGAATTGTTTTCTTTCAGATCTCGACCAACGTGCAAATTACGTAACCATGAACTCATCCATGCAAATTCCCCACAGGCTATCACTGGAAAGAGACGAGATCCCAGTAAAGTGGCAGAACTAGGTTCTTCAACTTAAAGGAGCAATATCTATGAAAGATTTCTAATCAGCAAGCGTGACTCGGGAAATCAACAATAAAGCAATCAATCATTAGGCAGTTGGTCGAATCTGTAGTACATTCTTCAATTTTGGAATTGAACGGTAACAGTTGGGGATTGAAGGGGAAAAAGATTTGGTAAAATTAAATTCAGATCTGAATGACAATAAGCAAAGCATAAAAGGAAACTCCGAAGTGGCCAGTATTAATAGCCAAATCCATTTTCCTGCCGAGATAAAGATCAACAAAATGGGAAACCATGCTTCTGCTGGGGTGTTACTGACCCAAACATTACGAATCAAGACAAGGAACCAGCGGACGAATTCGCAGATTCAGTAG ATGGCGTCTGAGCTCCAGCAATTGAGGCTCGAACCGCCCCAATCCAACTCATCGGATGAGACATCTGCCAAAGACGATCGCCCACTGTTGAATCCCGACTCTGACGCCGTCGCTGAGGAGGATTCCGAGGATCTCGACCAGAAATATGCTCCGTTTGTGCGACGAGATGTTTACGGCAAGATGGGGCGAGGGGAGCTGCCGTGGATGGAGAAGGTGCTACTGGCAGTGGCGCTGGTGACGATCGTTCCGATACGAGTGGTTGTTGGGATGAGTTTGCTGTTTCTTTATTACATGATTTGCAGAATTTGTACGTTATTTCACGATCCAAATAGGGAGACGGATGAGCAGGAAGACTACGCGCACATGGTAGGATGGAGGAGGTCCGTGATTGTGTGGACTGGAAGATTTCTGTCCAGAGCCATGCTATTCGTGTTAGGGTTTTATTGGATTTCGGAAGTTTATCGAATCCCACCCAACGAGGACAAGTCAACTAACGAGGATGAGAGCCAAGAGAAGTCTCAAGAGTCTGTAAGACCTGGGGCTATTGTCAGCAACCATGTATCATATTTGGATATTTTGTATCACATGTCTTCCTCTTTTCCAAGCTTTGTTGCTAAGAGATCAGTGGCTAAACTTCCTCTAGTTGGTATTATCAGCAAGTGCCTTGGCTGTGTCTATGTTCAACGGGAGTCAAAGACATCTGACTCCAAGGGTGTTTCAGGTGTTGTGAGTGAAAGAATTCGAGAAGCTGTGAAGAATAACTCTGCTCCCATGATGATGCTTTTTCCAGAAGGAACAACTACCAATGGGGAGTATCTCCTGCCATTCAAAACGGGAGCATTTTTGCCAAAAGCTCCAGTGCTTCCATTGATTTTAAGATATCCATATCAGAGATTTAGTTTGGCCTGGGAATCAATAACAGGAGTCCGTCATTTTTTATTCCTTCTCTGTCAATTCGTAAATCACATGGAAGTAATAAGATTACCTGTCTACAACCCCTCACAAGAAGAAAAGGATGATCCGAAACTTTATGCTAATAATGTCAGAAGGATGATGGCCAAAGAGGGAAATTTGCTGCTTTCGGATATTGGGCTCCCGGAGAAGCGTGTTTATCTTGCTGCTCTGAATGAGCAGCATGGAAAGGACCATTCATTGATAGGATCCAGAAACAGACATACATTTACACTGCAAGGCTACTGGCATGAGGGTTCACTGTTAGACTTTTTCAACTCCCACCCTTTCAATGGTGACTGTAGAAACAATGAAGATGAAGACAGCTGCTTCTGCCGCATTGAGATTGAGGACAAGCAACTGAAGGCGCTCCTTAGCTTCGTCTTCTCGGTCTCGTATGGCGGGTACGCGGGATCGTGTCTTACTGCAGATATTCTCAGGGACTCAGGGAGTATGCAATTACAGACTGAGCCTGTAATGTTGATCCTTCAAAACGTCCTTGCAGAAATGATTGCAGTTCTTGACAATCAGGTGATACGTATCGCCATAGTAGCTCGAAGAGCGGTGCTCCATGAACTCCCTGACTTGATGAGGATCAAGGCAGATCTCGACCAACGTGCAAATTACGTAACCATGAACTCATCCATGCAAATTCCCCACAGGCTATCACTGGAAAGAGACGAGATCCCATTGGGGATTGAAGGGGAAAAAGATTTGGTAAAATTAAATTCAGATCTGAATGACAATAAGCAAAGCATAAAAGGAAACTCCGAAGTGGCCAGTATTAATAGCCAAATCCATTTTCCTGCCGAGATAAAGATCAACAAAATGGGAAACCATGCTTCTGCTGGGGTGTTACTGACCCAAACATTACGAATCAAGACAAGGAACCAGCGGACGAATTCGCAGATTCAGTAG ATGGCGTCTGAGCTCCAGCAATTGAGGCTCGAACCGCCCCAATCCAACTCATCGGATGAGACATCTGCCAAAGACGATCGCCCACTGTTGAATCCCGACTCTGACGCCGTCGCTGAGGAGGATTCCGAGGATCTCGACCAGAAATATGCTCCGTTTGTGCGACGAGATGTTTACGGCAAGATGGGGCGAGGGGAGCTGCCGTGGATGGAGAAGGTGCTACTGGCAGTGGCGCTGGTGACGATCGTTCCGATACGAGTGGTTGTTGGGATGAGTTTGCTGTTTCTTTATTACATGATTTGCAGAATTTGTACGTTATTTCACGATCCAAATAGGGAGACGGATGAGCAGGAAGACTACGCGCACATGGTAGGATGGAGGAGGTCCGTGATTGTGTGGACTGGAAGATTTCTGTCCAGAGCCATGCTATTCGTGTTAGGGTTTTATTGGATTTCGGAAGTTTATCGAATCCCACCCAACGAGGACAAGTCAACTAACGAGGATGAGAGCCAAGAGAAGTCTCAAGAGTCTGTAAGACCTGGGGCTATTGTCAGCAACCATGTATCATATTTGGATATTTTGTATCACATGTCTTCCTCTTTTCCAAGCTTTGTTGCTAAGAGATCAGTGGCTAAACTTCCTCTAGTTGGTATTATCAGCAAGTGCCTTGGCTGTGTCTATGTTCAACGGGAGTCAAAGACATCTGACTCCAAGGGTGTTTCAGGTGTTGTGAGTGAAAGAATTCGAGAAGCTGTGAAGAATAACTCTGCTCCCATGATGATGCTTTTTCCAGAAGGAACAACTACCAATGGGGAGTATCTCCTGCCATTCAAAACGGGAGCATTTTTGCCAAAAGCTCCAGTGCTTCCATTGATTTTAAGATATCCATATCAGAGATTTAGTTTGGCCTGGGAATCAATAACAGGAGTCCGTCATTTTTTATTCCTTCTCTGTCAATTCGTAAATCACATGGAAGTAATAAGATTACCTGTCTACAACCCCTCACAAGAAGAAAAGGATGATCCGAAACTTTATGCTAATAATGTCAGAAGGATGATGGCCAAAGAGGGAAATTTGCTGCTTTCGGATATTGGGCTCCCGGAGAAGCGTGTTTATCTTGCTGCTCTGAATGAGCAGCATGGAAAGGACCATTCATTGATAGGATCCAGAAACAGACATACATTTACACTGCAAGGCTACTGGCATGAGGGTTCACTGTTAGACTTTTTCAACTCCCACCCTTTCAATGGTGACTGTAGAAACAATGAAGATGAAGACAGCTGCTTCTGCCGCATTGAGATTGAGGACAAGCAACTGAAGGCGCTCCTTAGCTTCGTCTTCTCGGTCTCGTATGGCGGGTACGCGGGATCGTGTCTTACTGCAGATATTCTCAGGGACTCAGGGAGTATGCAATTACAGACTGAGCCTGTAATGTTGATCCTTCAAAACGTCCTTGCAGAAATGATTGCAGTTCTTGACAATCAGGTGATACGTATCGCCATAGTAGCTCGAAGAGCGGTGCTCCATGAACTCCCTGACTTGATGAGGATCAAGGCAGATCTCGACCAACGTGCAAATTACGTAACCATGAACTCATCCATGCAAATTCCCCACAGGCTATCACTGGAAAGAGACGAGATCCCATTGGGGATTGAAGGGGAAAAAGATTTGGTAAAATTAAATTCAGATCTGAATGACAATAAGCAAAGCATAAAAGGAAACTCCGAAGTGGCCAGTATTAATAGCCAAATCCATTTTCCTGCCGAGATAAAGATCAACAAAATGGGAAACCATGCTTCTGCTGGGGTGTTACTGACCCAAACATTACGAATCAAGACAAGGAACCAGCGGACGAATTCGCAGATTCAGTAG MASELQQLRLEPPQSNSSDETSAKDDRPLLNPDSDAVAEEDSEDLDQKYAPFVRRDVYGKMGRGELPWMEKVLLAVALVTIVPIRVVVGMSLLFLYYMICRICTLFHDPNRETDEQEDYAHMVGWRRSVIVWTGRFLSRAMLFVLGFYWISEVYRIPPNEDKSTNEDESQEKSQESVRPGAIVSNHVSYLDILYHMSSSFPSFVAKRSVAKLPLVGIISKCLGCVYVQRESKTSDSKGVSGVVSERIREAVKNNSAPMMMLFPEGTTTNGEYLLPFKTGAFLPKAPVLPLILRYPYQRFSLAWESITGVRHFLFLLCQFVNHMEVIRLPVYNPSQEEKDDPKLYANNVRRMMAKEGNLLLSDIGLPEKRVYLAALNEQHGKDHSLIGSRNRHTFTLQGYWHEGSLLDFFNSHPFNGDCRNNEDEDSCFCRIEIEDKQLKALLSFVFSVSYGGYAGSCLTADILRDSGSMQLQTEPVMLILQNVLAEMIAVLDNQVIRIAIVARRAVLHELPDLMRIKADLDQRANYVTMNSSMQIPHRLSLERDEIPLGIEGEKDLVKLNSDLNDNKQSIKGNSEVASINSQIHFPAEIKINKMGNHASAGVLLTQTLRIKTRNQRTNSQIQ Homology
BLAST of Sgr028537 vs. NCBI nr
Match: KAG7029373.1 (Lysophospholipid acyltransferase LPEAT1, partial [Cucurbita argyrosperma subsp. argyrosperma]) HSP 1 Score: 686.0 bits (1769), Expect = 3.0e-193 Identity = 344/390 (88.21%), Postives = 368/390 (94.36%), Query Frame = 0
BLAST of Sgr028537 vs. NCBI nr
Match: XP_038885327.1 (lysophospholipid acyltransferase LPEAT1 isoform X1 [Benincasa hispida]) HSP 1 Score: 684.9 bits (1766), Expect = 6.6e-193 Identity = 341/376 (90.69%), Postives = 362/376 (96.28%), Query Frame = 0
BLAST of Sgr028537 vs. NCBI nr
Match: XP_038885328.1 (lysophospholipid acyltransferase LPEAT1 isoform X2 [Benincasa hispida]) HSP 1 Score: 684.9 bits (1766), Expect = 6.6e-193 Identity = 341/376 (90.69%), Postives = 362/376 (96.28%), Query Frame = 0
BLAST of Sgr028537 vs. NCBI nr
Match: XP_022962027.1 (lysophospholipid acyltransferase LPEAT1-like isoform X2 [Cucurbita moschata]) HSP 1 Score: 683.3 bits (1762), Expect = 1.9e-192 Identity = 343/390 (87.95%), Postives = 367/390 (94.10%), Query Frame = 0
BLAST of Sgr028537 vs. NCBI nr
Match: XP_022962026.1 (lysophospholipid acyltransferase LPEAT1-like isoform X1 [Cucurbita moschata]) HSP 1 Score: 682.6 bits (1760), Expect = 3.3e-192 Identity = 341/376 (90.69%), Postives = 361/376 (96.01%), Query Frame = 0
BLAST of Sgr028537 vs. ExPASy Swiss-Prot
Match: Q8L7R3 (Lysophospholipid acyltransferase LPEAT1 OS=Arabidopsis thaliana OX=3702 GN=LPEAT1 PE=1 SV=1) HSP 1 Score: 465.7 bits (1197), Expect = 8.2e-130 Identity = 247/395 (62.53%), Postives = 304/395 (76.96%), Query Frame = 0
BLAST of Sgr028537 vs. ExPASy Swiss-Prot
Match: Q1LWG4 (Lysophosphatidylcholine acyltransferase 1 OS=Danio rerio OX=7955 GN=lpcat1 PE=2 SV=1) HSP 1 Score: 136.7 bits (343), Expect = 8.8e-31 Identity = 94/307 (30.62%), Postives = 148/307 (48.21%), Query Frame = 0
BLAST of Sgr028537 vs. ExPASy Swiss-Prot
Match: Q8NF37 (Lysophosphatidylcholine acyltransferase 1 OS=Homo sapiens OX=9606 GN=LPCAT1 PE=1 SV=2) HSP 1 Score: 130.2 bits (326), Expect = 8.2e-29 Identity = 95/310 (30.65%), Postives = 162/310 (52.26%), Query Frame = 0
BLAST of Sgr028537 vs. ExPASy Swiss-Prot
Match: Q7L5N7 (Lysophosphatidylcholine acyltransferase 2 OS=Homo sapiens OX=9606 GN=LPCAT2 PE=1 SV=1) HSP 1 Score: 130.2 bits (326), Expect = 8.2e-29 Identity = 95/326 (29.14%), Postives = 156/326 (47.85%), Query Frame = 0
BLAST of Sgr028537 vs. ExPASy Swiss-Prot
Match: Q0KHU5 (Lysophosphatidylcholine acyltransferase OS=Drosophila melanogaster OX=7227 GN=LPCAT PE=2 SV=1) HSP 1 Score: 128.3 bits (321), Expect = 3.1e-28 Identity = 74/186 (39.78%), Postives = 102/186 (54.84%), Query Frame = 0
BLAST of Sgr028537 vs. ExPASy TrEMBL
Match: A0A6J1HBM7 (lysophospholipid acyltransferase LPEAT1-like isoform X2 OS=Cucurbita moschata OX=3662 GN=LOC111462616 PE=4 SV=1) HSP 1 Score: 683.3 bits (1762), Expect = 9.3e-193 Identity = 343/390 (87.95%), Postives = 367/390 (94.10%), Query Frame = 0
BLAST of Sgr028537 vs. ExPASy TrEMBL
Match: A0A6J1HDI9 (lysophospholipid acyltransferase LPEAT1-like isoform X3 OS=Cucurbita moschata OX=3662 GN=LOC111462616 PE=4 SV=1) HSP 1 Score: 682.6 bits (1760), Expect = 1.6e-192 Identity = 341/376 (90.69%), Postives = 361/376 (96.01%), Query Frame = 0
BLAST of Sgr028537 vs. ExPASy TrEMBL
Match: A0A6J1HBY3 (lysophospholipid acyltransferase LPEAT1-like isoform X1 OS=Cucurbita moschata OX=3662 GN=LOC111462616 PE=4 SV=1) HSP 1 Score: 682.6 bits (1760), Expect = 1.6e-192 Identity = 341/376 (90.69%), Postives = 361/376 (96.01%), Query Frame = 0
BLAST of Sgr028537 vs. ExPASy TrEMBL
Match: A0A6J1CSP2 (lysophospholipid acyltransferase LPEAT1 isoform X2 OS=Momordica charantia OX=3673 GN=LOC111013964 PE=4 SV=1) HSP 1 Score: 679.9 bits (1753), Expect = 1.0e-191 Identity = 339/376 (90.16%), Postives = 354/376 (94.15%), Query Frame = 0
BLAST of Sgr028537 vs. ExPASy TrEMBL
Match: A0A6J1CR18 (lysophospholipid acyltransferase LPEAT1 isoform X1 OS=Momordica charantia OX=3673 GN=LOC111013964 PE=4 SV=1) HSP 1 Score: 679.9 bits (1753), Expect = 1.0e-191 Identity = 339/376 (90.16%), Postives = 354/376 (94.15%), Query Frame = 0
BLAST of Sgr028537 vs. TAIR 10
Match: AT1G80950.1 (Phospholipid/glycerol acyltransferase family protein ) HSP 1 Score: 465.7 bits (1197), Expect = 5.9e-131 Identity = 247/395 (62.53%), Postives = 304/395 (76.96%), Query Frame = 0
BLAST of Sgr028537 vs. TAIR 10
Match: AT2G45670.1 (calcineurin B subunit-related ) HSP 1 Score: 124.8 bits (312), Expect = 2.4e-28 Identity = 87/309 (28.16%), Postives = 145/309 (46.93%), Query Frame = 0
BLAST of Sgr028537 vs. TAIR 10
Match: AT2G45670.2 (calcineurin B subunit-related ) HSP 1 Score: 57.0 bits (136), Expect = 6.3e-08 Identity = 53/225 (23.56%), Postives = 92/225 (40.89%), 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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