Sgr014651 (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.ATGTTTTATATGACATCTTTAGTTGCTTTGGCCACATTGGATTCCTGTGCCCATTACCACCACGTGGACATTCCGACGACTTCTGATCAGATGTGCTCGGGTTCATGTGAGCTCGAAAACACGAAAGGAAAGGAACTTTATCAGTCTTCTGCGAACCAATCCACAGCCGACATGTGGTAGAGTTTTAGTGGTCTTCATCGTACTGGACTACAGCACTCTGGTTCAAAAAATTCCTGCCTCTTTAACGGCCAGATTTCCATGGAAGGACAATTAAGAATTGTGAGACGTTGCGTGCGGGAAATGTCACCTTCTTCTTCGCCTCTGCAAAAGCCAATACTGTGTGTCACTAATAAAGACGAGGCGCAGCCCCATTTCAAAGCTTCTAAATTATATTCCCATGAACTCAACGCAAGGTGTCGCAGTGCCTCACCAGTTCCTTTCTTTGTTTCTTTCTTCCCCCATTTCTTTATTATTTCTCTGTTTGAATATAATGTTTTCTACTACAGAAGGATCAATCACCAGACGATCGATTTGGATGGGCGGGCTGCGCTGGGCAGCAACCAAATTATTTGACTCTTGAGCGTTTTGTTGTGCCAATCAAGCCGACACACGTAGAACCCTCGCCCAGTGCTCACGGACATTGCTCCACCTCGCCACCCACCACCTTGTTCTTGTCCTTTGATTTTCCTTTGGGGCCAAGAATTATGCAATTATTGGAAGGTGGAGCGGCGTAAGGTTGAATATTCAACCATTTGGGATCAGAATCTTATCTGCCTGCTGCATTTCTCAACCATTTTGCAACTTCTGCTGCTATTTTCGGTCGATCAGTTTCAGGAACTTGAATTTTTCCATCTGGGTATGGCGGTCTCTTTGGCTACTTTTTATGTTTGTTCATCATTGCGTTGCTCTGCTGTTGATTCTTCAAAATATGTCCGAGTTGAAAATTTCTTGTGGGTTTCTTTTTGTCGTTTAATTTCATAGTTGTCATATATTTTCGATATTGTTTATTAGCATGCTGCATTCTGGTTATGTTCGTGACTGTTAGAAAATTCGAAAGCATGGGAATTTGTCTTAGCTTTTTTCGTTCTTGATTGTTAACTGACGTGGTTTAGATGGAAAATTGCTAGCTTCTGTCAATCTGTTTAAAACAGAGGTGTTTTGAGAACTGCCTATTAATAGATAAATTTTGTTTTCTTTTAATTTCCGTTATATTCTACTTTTCTGTTTATAGATTTTTATCCCAGCACAGTTTCCAAACTTTAAAAGAAAAAAAAATTGTGCTCCTATTGGGATTTTGTTTTCTTGCTTGTTGTACTTGTACCAATAAAAGATATAACTTTAATTTCTCACTCTTATACCCACTTTTCTGTTGTACAAGCAAACAATTATTCCATCCAATTATGACTGGTATGTTGTTGTAAATTGTAACGCTAACATGAATTTTCAATTCAAAAATACCTTGAAGATTCTTCCTCATAGTTTCCATTTCCAACTTTACTATTATAAGATATACCTTGCTTTCATAATGTGTTTATGAAAGCATTGAATGATCTGAAACTTAATTGTTTTTTCTTCCTGCACATGTAGTGCTTTCAAATTTCAGCTCGCTTCTTATTTCTATTGATTTCTTGATTTGAATTTGCTTTAGGTATGTAATAAATATACGTATTCTTGATTTGTACTTTCCAGAGATTCATAAATTGAATCCCTTTTCTATTATTATGCAATTTTCATTGCACCTTTGAAAATAAGTATCATTGAAAGTTATGTTTGAATAGACTCCACATTGCTGATGTGATCTTCCTACAAAATTAATTGGTCCATGGAACCAGTTTTGATGCTTGCATAACATAAGTTTCAATGGAACCAATTTTAAGTTCTTCAAGCCAGTCCCTCTGGTAATCACACTTCTTTAACTAAATCTCAGAGATGATTGCGTGAGTATTGTAGAACTCAGAGAGAAGGGGATGTACCACCAGCAGAAGTTAAGGGAAGAACATACTTCTTCTGGGGCCAGCTTCTGCAAGGAAGTGACCGAGTTGCGCCTTACACCGATAGATTCTCGAGCAGCAACTTCTCGTCCAGAGTTCAAAGGTGGCGTCTCTTTCAGGAAAGCTTCCACTGGTTTTGGCAGGAATCGTAACGATGTACATGAGTTACTAGATTGCACTGTTTGCATGAATTTGATGCACCCTCCAATTTACCAGGTATCATATTCTAATTGTGATAAGTTTCAGAACTTACAATGCTTCCCCATAAATGATTTTGGAAAAGCCGTTGTCTGAGAAAGATCCATCCAAGAAGGAATGAAGAAACAAAAACAAATAATTTGAGACCCTGAATCAAAGTTTAATGCCAAGAGGCCTCATGCATTATTAAGCAATCCTTTTGTCCCCAAAAATAGTTTTCGATGAGTATAAAAAGTGTTCCAGCTAGCTTCACTCACTTCTGTTCAAATGGAAGACTATTTTGTTTAATCATTGCATTGCATTGTAGCTGAGTTATTTATGTTTAACACATTTGAGGGAACTTTAATGTTATACCAGCTAATATAGTTTTATGCTTTAGTGTGCAAATGGCCACACTCTATGTTCAAGCTGCAAGGCAGGGGTTCAGAACTGTTGCCCTACATGCCGCCATGAGCTTGGGAACATAAGGTGCCTAGCACTGGAAAAGGTGGCCGAATCGCTCGAGCTCCCTTGTGTATACAAAAATCTAGGCTGCATCGACATGTTCCCATACTACAGCAAGCTTAAACATGAGAAGAAGTGTAAGTATCGGCCTTACAACTGCCCTTATGCTGGAGGTGAATGTTCTGTAACTGGTGACATTCCATACCTCGTCATGCATCTCAAGGACGATCACGAGGTTGATATGCACGATGGATGTTCCTTCAGCCATAGATACGTCAAATCCAATCCCCAAGAAGTTGAAAATGCTACATGGATGCTTACGGTGAGATCTCTTTGTCTTTCTGTGTTTGATGGAATGTCTTGAAGTAAAGAAATTTCATTAAATTTCAGATTCTTGGGATAAAACCATAGAAGCATTTCATGTAACATCATCTGTTTTTCATTTGATATAATGCAGGTTTTTAACTGCTTTGGACGACAATTCTGTTTGCACTTTGAAGCATTTCACTTAGGAACAGCGCCTGTTTACATGGCGTTCCTCCGGTTCATGGGCGACGATGACATGCGAAACAATTTTCTTACAGCCTGGAAGTTGGTGGAAATGGCAGAAAACTCATCTGGCAAGGTATGCCGAGAAGTATCCGCGATAGCCATCGGAAGGTTCGGGACAGTCACGATGGATTGATCATTCAGAGGAACTTGGCACTGTTCTGCTCTGGAAATGAGGGGCAGGAACTGAAGCTAAAGGTTGCAGGACGAATATGGAGAGTGAGGTGAGAACAAATATACATTCTCAAAATCAAAAGTTGTACAATATGTGAGAGTTTTCCTCTGTAAATGGCTGCTACAGTTCAGCCTTGTTAGAAGCTGATATTTCATCATCTTAGTTTCTACACTTTTTTTTTTTTTCTATTCAGCCTTATTCTTTAAAAAATACACCACTAAAATTAAAATTTTAATCGTGTCTAATAGAATTTTACCATCCACTATATCTGTTTATTAAACTTCGGACTCAACAAATCTACTAGACATAGACATAGATATAGAATTAGATAGACACAACTTTAATGGTTCAGTTACCTATTAAAAAATTTTCAAAATATATACACAAAATAGAAATAATCGTTTAAAAATCAGATTTATAATTTAACTAAAAGAAGGAAAAAGAAAAATACTACTGGAGAAAATTTACAACGCAGCATTCTGTTTCATCGTTTGAAACCTCTCCAGCGGCTTAAACCCTAAAAACCAAACCCCGTGGAGAGGTGAGGAAAAACCAACACATAACACAAATGCTGATTACTCGAAAGCTGTCTGCTTCGAAGCTCAAACCGCTTCTCTCTCCCCGTTTCGTTTCCCGTTCTTTGAGTTCACAGTTCTATTCTTCTTCACCTTCCTGCTTATACCCTCGAATCCTTCACCGAGTTCCTTCCACTATTCCACTTCCGCTGTCGCGCTGTTTCTTCCAGTTTTCTCTTCAAAACCCGCAGCTCCAGCAACTTCGCTTCTCACCCGTGATGGGAACTACGACGAAGCTACTTCCAGATTCTTCCTCGTCTGCCCTGGCTGTGGAGTTCACATGCAGACACGAATCCCAAGCATCCTGGCTTCTTCGTCAAACCCTCGACAAAAGATTCCAATTATCGACTGCTTACGCATCTCCTGCCCGTTGATCATGAATCTGAATGCTCCGATTCCCTGAAGAGAGGCTTCGTAATCGAGTCTGAAGATCAGAAAAATGAGGACAATGTGATCGAGAAAGCCCAAAAGCCGATCGTATGTTCTCGGTGCCACTCATTGAGGTTTTATGGGAAGGTAAAAGATCCTGCAGTGGAGAATTTGTTACCGGATTTCGATTTTGATCATACCATCGGTAGGAGGCTGGCGTCAATTAGTGGAACCCGGTCTGTTGTGTTGATGGTCGTTGATGCTGCAGATTTTGATGGGTCATTCCCAAAAAAGGTCGCGAATTTGGTCTCGGAGACAATTGATGAGCATTCAGCTGCCTGGAAACGGGGAAAATCTGGTAATGTGCCTAGAGTGGTGCTTGTGGTGACAAAAATAGATCTGCTGCCTAGCTCGTTATCGCCAACGAGGTTTGAGCACTGGGTGAGGCAGAGAGCGAGGGAGGGAGGAGCCAACAAGATAACGAGCTTGCACATGGTAAGCGCGGTTAGAGATTGGGGACTGAAAAATTTGGTGGAGGATGTTATTGACTTGGCTGGGCCAAGAGGAAATGTGTGGGCAATTGGAGCACAAAATGCTGGGAAAAGCACGCTGATCAATTCAATAGGAAAGTACGTTGGTGGGAAGATCACGCAATTGACGGAAGCACCAGTGCCTGGGACAACGTTGGGGATAATCAGGTGGAGGGCATTCTTCCGGCTCAAGCCAAGCTTTTCGATACGCCTGGGCTTCTGAATCCCCACCAGATTACTACCAGATTGACAAGGGAAGAGCAGAAACTTGTTCACATTAGCAAGGAATTAAAGCCAAGGACTTACAGGATAAAGGTAATTCTGATTAGATGCTGATTAACTATATATTCCTTCAAAAGAACTAGAAATGCATTTTTTTTAATTCTATTTTATACGAAATAGAGTTTTCATTAACAGACATGAAATATATTGCCCAAGCTTAGAAGCAATTCAAGAATTTTGTAAATCTGATTCCTTTTTGACGCCTACAAGAGGGATATCATACTCTGCAAAAATAGCATGCCTGTAATTATTGCTTCATTACCATTGAACCCTTGTTCTTTGAGTTTTAGTTCCAGAGAAGGTTTGATTTTGAGACGAGAAGCCTGTGTTTATTGACTAAGAGGATACGTGATGTTACTAACATGAACTACTAGTACAAAGGATCTGATAAAATATTGAAATTTGATTGGCTAAATAGAAAAATAGTATATACCATCTTCTAACTACAAGTATAAATTGAAATTGGGATTATTAAGTTCTATTTTACCTTTATCTTCTATAACTATTTGGAGCAAGTAATGTGGTAGAGAGTTCATAATTTTAGTGTCGGTACTATAGGCTGGTCATACAATTCATGTTGCGGGCCTCATGAGGCTAGATGTGGAAGAAACATCTGTAGATTCAATTTATGTTACAGTGTGGGCATCTCCTTATCTTCCATTACACATGGGGAAAGCGGAAAATGCAAGCAAGATACAAGAGGATCATTTTGGCAATCAGTTACAGGTACTATTTGCACTAGTTGGCTGGATAAATTTGAGCGCTGTCCTAGGATCAGTTTATATATGTGTGTCTTCTAATCTGAGTTTGATTGTCAGTGGCTTCCTAAATGACATACTTTCAGGATGTGCATATGGCTTCTATAATTTATTCCATGTAGATATTGATGGAAACTTGTGATCCTGTTGGATAGTCAACTGGTGATTTAACTGCCCTTTTCCTTTCATTTTGCTACATTTTGGGTGTCAGCGTGTGTTTTCATATTCTTTATTTGAAGCCTTGATCTCATATTTGTGAACAGTTCGCCTTAGGAATTACCCTTGATTTTAGAGGATAATATGAAAAACTCTTACATTTATGTAGCTATTTTACATACACTGGTATATTAGGGTTTCTGTTAATGGTTAATGTAACATCCTCGTTGTTTCGTGCTTCAGCCACCTATAGGCAGAGATCGAGTTGCAGAGCTTGGGAAATGGGTGAGAAGGGAATTTCGTGTTTGTGGTAATAGTTGGGATTCAAGTTGTGTAGATGCTGCTGTTGCTGGCCTGGGTTGGTTTGCTATTGGACTTAAGGGAAAGGCAGTCTTAGGTGTATGGACTTCCGAGGGAGTTGAGGTTGTTCTTCGAAGTTCTGTAATTCCTTACAGATCAAACTTCTTTGAAGATTTTGGATTTACAGTCTCCAAAATTGTCTCCAAGGCTGATCGGGCTGCAAACAAACCACTTGATCAAAATGAAAAGAAGGGGAGAAAGGGTGACCCTAAAAAAGTTCATGTGCTGGCTGAAACTTCAGCATTGAAAGTTGGCCCAGAATATGGTTCTGCTTAAAATTTGTAGCATTGTACAGAAAATGATCGACATAAATTTACAAGTATCGTGTTTGATGGAATTTATACTGAAGAATACAAGGCAAACATCGTTAAGCCTTCTATGTGGAGACAGATTTTGAAGGCTTGCGGTGATAACCTTCTGGGACTTGTGCGACTTTCTCCTCCAGCAACACAAATCAAAGGTTTATATGTTAGCAAGGCTAAGGCTTGAACGAGAGCTACGAGGAGGCATTAACTATAATGCTGTTAGATGATCACTCTCCCTACTCAGAGTAAGTTACTTCATCAGAGGACGATATTTAATCCCCTGCTTCATTTTTAAGGATTCTGGCTTGAGCTTCTATATTCGTTAATGGAGGCAGTACAACCCCTGGAATGGACGGTGATTCTAAACTTGAGGGATTGTTGTTTCCTCTACGACTTTGCTGCGCCAAAAAGTTGATGCGTTTGCAGTTGCTTCTTTTCTGTTGGTGGGTCGTACATGTTTCTGATCAATCCATCAAGATTCTTTCCCTTTTTTTTTTTTTGTGTGTGTTCTTTCTATTCTTTATTCTCTTTCATTTGCAGTAA ATGTTTTATATGACATCTTTAGTTGCTTTGGCCACATTGGATTCCTGTGCCCATTACCACCACGTGGACATTCCGACGACTTCTGATCAGATGTGCTCGGGTTCATGTGAGCTCGAAAACACGAAAGGAAAGGAACTTTATCAGTCTTCTGCGAACCAATCCACAGCCGACATGTGGACAATTAAGAATTGTGAGACGTTGCGTGCGGGAAATGTCACCTTCTTCTTCGCCTCTGCAAAAGCCAATACTAAGGATCAATCACCAGACGATCGATTTGGATGGGCGGGCTGCGCTGGGCAGCAACCAAATTATTTGACTCTTGAGCGTTTTGTTGTGCCAATCAAGCCGACACACGTAGAACCCTCGCCCAGTGCTCACGGACATTGCTCCACCTCGCCACCCACCACCTTGTTCTTGTCCTTTGATTTTCCTTTGGGGCCAAGAATTATGCAATTATTGGAAGGTGGAGCGGCAGATGATTGCGTGAGTATTGTAGAACTCAGAGAGAAGGGGATGTACCACCAGCAGAAGTTAAGGGAAGAACATACTTCTTCTGGGGCCAGCTTCTGCAAGGAAGTGACCGAGTTGCGCCTTACACCGATAGATTCTCGAGCAGCAACTTCTCGTCCAGAGTTCAAAGGTGGCGTCTCTTTCAGGAAAGCTTCCACTGGTTTTGGCAGGAATCGTAACGATGTACATGAGTTACTAGATTGCACTGTTTGCATGAATTTGATGCACCCTCCAATTTACCAGTGTGCAAATGGCCACACTCTATGTTCAAGCTGCAAGGCAGGGGTTCAGAACTGTTGCCCTACATGCCGCCATGAGCTTGGGAACATAAGGTGCCTAGCACTGGAAAAGGTGGCCGAATCGCTCGAGCTCCCTTGTGTATACAAAAATCTAGGCTGCATCGACATGTTCCCATACTACAGCAAGCTTAAACATGAGAAGAAGTGTAAGTATCGGCCTTACAACTGCCCTTATGCTGGAGGTGAATGTTCTGTAACTGGTGACATTCCATACCTCGTCATGCATCTCAAGGACGATCACGAGGTTGATATGCACGATGGATGTTCCTTCAGCCATAGATACGTCAAATCCAATCCCCAAGAAGTTGAAAATGCTACATGGATGCTTACGGTTTTTAACTGCTTTGGACGACAATTCTGTTTGCACTTTGAAGCATTTCACTTAGGAACAGCGCCTGTTTACATGGCGTTCCTCCGGTTCATGGGCGACGATGACATGCGAAACAATTTTCTTACAGCCTGGAAGTTGGTGGAAATGGCAGAAAACTCATCTGGCAAGAGGAACTTGGCACTGTTCTGCTCTGGAAATGAGGGGCAGGAACTGAAGCTAAAGGTTGCAGGACGAATATGGAGAGTGAGCGGCTTAAACCCTAAAAACCAAACCCCGTGGAGAGGTGAGGAAAAACCAACACATAACACAAATGCTGATTACTCGAAAGCTGTCTGCTTCGAAGCTCAAACCGCTTCTCTCTCCCCGTTTCGTTTCCCGTTCTTTGAGTTCACAGTTCTATTCTTCTTCACCTTCCTGCTTATACCCTCGAATCCTTCACCGAGTTCCTTCCACTATTCCACTTCCGCTGTCGCGCTGTTTCTTCCAGTTTTCTCTTCAAAACCCGCAGCTCCAGCAACTTCGCTTCTCACCCGTGATGGGAACTACGACGAAGCTACTTCCAGATTCTTCCTCGTCTGCCCTGGCTATTCCAATTATCGACTGCTTACGCATCTCCTGCCCGTTGATCATGAATCTGAATGCTCCGATTCCCTGAAGAGAGGCTTCGTAATCGAGTCTGAAGATCAGAAAAATGAGGACAATGTGATCGAGAAAGCCCAAAAGCCGATCGTATGTTCTCGGTGCCACTCATTGAGGTTTTATGGGAAGGTAAAAGATCCTGCAGTGGAGAATTTGTTACCGGATTTCGATTTTGATCATACCATCGGTAGGAGGCTGGCGTCAATTAGTGGAACCCGGTCTGTTGTGTTGATGGTCGTTGATGCTGCAGATTTTGATGGGTCATTCCCAAAAAAGGTCGCGAATTTGGTCTCGGAGACAATTGATGAGCATTCAGCTGCCTGGAAACGGGGAAAATCTGGTAATGTGCCTAGAGTGGTGCTTGTGGTGACAAAAATAGATCTGCTGCCTAGCTCGTTATCGCCAACGAGGTTTGAGCACTGGGTGAGGCAGAGAGCGAGGGAGGGAGGAGCCAACAAGATAACGAGCTTGCACATGGTAAGCGCGGTTAGAGATTGGGGACTGAAAAATTTGGTGGAGGATGTTATTGACTTGGCTGGGCCAAGAGGAAATGTGTGGGCAATTGGAGCACAAAATGCTGGGAAAAGCACGCTGATCAATTCAATAGGAAAGTACGTTGGTGGGAAGATCACGCAATTGACGGAAGCACCAGTGCCTGGGACAACGTTGGGGATAATCAGATTGACAAGGGAAGAGCAGAAACTTGTTCACATTAGCAAGGAATTAAAGCCAAGGACTTACAGGATAAAGGCTGGTCATACAATTCATGTTGCGGGCCTCATGAGGCTAGATGTGGAAGAAACATCTGTAGATTCAATTTATGTTACAGTGTGGGCATCTCCTTATCTTCCATTACACATGGGGAAAGCGGAAAATGCAAGCAAGATACAAGAGGATCATTTTGGCAATCAGTTACAGCCACCTATAGGCAGAGATCGAGTTGCAGAGCTTGGGAAATGGGTGAGAAGGGAATTTCGTGTTTGTGGTAATAGTTGGGATTCAAGTTGTGTAGATGCTGCTGTTGCTGGCCTGGGTTGGTTTGCTATTGGACTTAAGGGAAAGGCAGTCTTAGGTGTATGGACTTCCGAGGGAGTTGAGGTTGTTCTTCGAAGTTCTGTAATTCCTTACAGATCAAACTTCTTTGAAGATTTTGGATTTACAGTCTCCAAAATTGTCTCCAAGGCTGATCGGGCTGCAAACAAACCACTTGATCAAAATGAAAAGAAGGGGAGAAAGGGTGACCCTAAAAAAGTTCATGTGCTGGCTGAAACTTCAGCATTGAAAGTTGGCCCAGAATATGAATACAAGGCAAACATCGTTAAGCCTTCTATGTGGAGACAGATTTTGAAGGCTTGCGGTGATAACCTTCTGGGACTTGTGCGACTTTCTCCTCCAGCAACACAAATCAAAGGCAGTACAACCCCTGGAATGGACGGTGATTCTAAACTTGAGGGATTGTTGTTTCCTCTACGACTTTGCTGCGCCAAAAAGTTGATGCGTTTGCAGTTGCTTCTTTTCTGTTGGTGGGTCGTACATGTTTCTGATCAATCCATCAAGATTCTTTCCCTTTTTTTTTTTTTGTGTGTGTTCTTTCTATTCTTTATTCTCTTTCATTTGCAGTAA ATGTTTTATATGACATCTTTAGTTGCTTTGGCCACATTGGATTCCTGTGCCCATTACCACCACGTGGACATTCCGACGACTTCTGATCAGATGTGCTCGGGTTCATGTGAGCTCGAAAACACGAAAGGAAAGGAACTTTATCAGTCTTCTGCGAACCAATCCACAGCCGACATGTGGACAATTAAGAATTGTGAGACGTTGCGTGCGGGAAATGTCACCTTCTTCTTCGCCTCTGCAAAAGCCAATACTAAGGATCAATCACCAGACGATCGATTTGGATGGGCGGGCTGCGCTGGGCAGCAACCAAATTATTTGACTCTTGAGCGTTTTGTTGTGCCAATCAAGCCGACACACGTAGAACCCTCGCCCAGTGCTCACGGACATTGCTCCACCTCGCCACCCACCACCTTGTTCTTGTCCTTTGATTTTCCTTTGGGGCCAAGAATTATGCAATTATTGGAAGGTGGAGCGGCAGATGATTGCGTGAGTATTGTAGAACTCAGAGAGAAGGGGATGTACCACCAGCAGAAGTTAAGGGAAGAACATACTTCTTCTGGGGCCAGCTTCTGCAAGGAAGTGACCGAGTTGCGCCTTACACCGATAGATTCTCGAGCAGCAACTTCTCGTCCAGAGTTCAAAGGTGGCGTCTCTTTCAGGAAAGCTTCCACTGGTTTTGGCAGGAATCGTAACGATGTACATGAGTTACTAGATTGCACTGTTTGCATGAATTTGATGCACCCTCCAATTTACCAGTGTGCAAATGGCCACACTCTATGTTCAAGCTGCAAGGCAGGGGTTCAGAACTGTTGCCCTACATGCCGCCATGAGCTTGGGAACATAAGGTGCCTAGCACTGGAAAAGGTGGCCGAATCGCTCGAGCTCCCTTGTGTATACAAAAATCTAGGCTGCATCGACATGTTCCCATACTACAGCAAGCTTAAACATGAGAAGAAGTGTAAGTATCGGCCTTACAACTGCCCTTATGCTGGAGGTGAATGTTCTGTAACTGGTGACATTCCATACCTCGTCATGCATCTCAAGGACGATCACGAGGTTGATATGCACGATGGATGTTCCTTCAGCCATAGATACGTCAAATCCAATCCCCAAGAAGTTGAAAATGCTACATGGATGCTTACGGTTTTTAACTGCTTTGGACGACAATTCTGTTTGCACTTTGAAGCATTTCACTTAGGAACAGCGCCTGTTTACATGGCGTTCCTCCGGTTCATGGGCGACGATGACATGCGAAACAATTTTCTTACAGCCTGGAAGTTGGTGGAAATGGCAGAAAACTCATCTGGCAAGAGGAACTTGGCACTGTTCTGCTCTGGAAATGAGGGGCAGGAACTGAAGCTAAAGGTTGCAGGACGAATATGGAGAGTGAGCGGCTTAAACCCTAAAAACCAAACCCCGTGGAGAGGTGAGGAAAAACCAACACATAACACAAATGCTGATTACTCGAAAGCTGTCTGCTTCGAAGCTCAAACCGCTTCTCTCTCCCCGTTTCGTTTCCCGTTCTTTGAGTTCACAGTTCTATTCTTCTTCACCTTCCTGCTTATACCCTCGAATCCTTCACCGAGTTCCTTCCACTATTCCACTTCCGCTGTCGCGCTGTTTCTTCCAGTTTTCTCTTCAAAACCCGCAGCTCCAGCAACTTCGCTTCTCACCCGTGATGGGAACTACGACGAAGCTACTTCCAGATTCTTCCTCGTCTGCCCTGGCTATTCCAATTATCGACTGCTTACGCATCTCCTGCCCGTTGATCATGAATCTGAATGCTCCGATTCCCTGAAGAGAGGCTTCGTAATCGAGTCTGAAGATCAGAAAAATGAGGACAATGTGATCGAGAAAGCCCAAAAGCCGATCGTATGTTCTCGGTGCCACTCATTGAGGTTTTATGGGAAGGTAAAAGATCCTGCAGTGGAGAATTTGTTACCGGATTTCGATTTTGATCATACCATCGGTAGGAGGCTGGCGTCAATTAGTGGAACCCGGTCTGTTGTGTTGATGGTCGTTGATGCTGCAGATTTTGATGGGTCATTCCCAAAAAAGGTCGCGAATTTGGTCTCGGAGACAATTGATGAGCATTCAGCTGCCTGGAAACGGGGAAAATCTGGTAATGTGCCTAGAGTGGTGCTTGTGGTGACAAAAATAGATCTGCTGCCTAGCTCGTTATCGCCAACGAGGTTTGAGCACTGGGTGAGGCAGAGAGCGAGGGAGGGAGGAGCCAACAAGATAACGAGCTTGCACATGGTAAGCGCGGTTAGAGATTGGGGACTGAAAAATTTGGTGGAGGATGTTATTGACTTGGCTGGGCCAAGAGGAAATGTGTGGGCAATTGGAGCACAAAATGCTGGGAAAAGCACGCTGATCAATTCAATAGGAAAGTACGTTGGTGGGAAGATCACGCAATTGACGGAAGCACCAGTGCCTGGGACAACGTTGGGGATAATCAGATTGACAAGGGAAGAGCAGAAACTTGTTCACATTAGCAAGGAATTAAAGCCAAGGACTTACAGGATAAAGGCTGGTCATACAATTCATGTTGCGGGCCTCATGAGGCTAGATGTGGAAGAAACATCTGTAGATTCAATTTATGTTACAGTGTGGGCATCTCCTTATCTTCCATTACACATGGGGAAAGCGGAAAATGCAAGCAAGATACAAGAGGATCATTTTGGCAATCAGTTACAGCCACCTATAGGCAGAGATCGAGTTGCAGAGCTTGGGAAATGGGTGAGAAGGGAATTTCGTGTTTGTGGTAATAGTTGGGATTCAAGTTGTGTAGATGCTGCTGTTGCTGGCCTGGGTTGGTTTGCTATTGGACTTAAGGGAAAGGCAGTCTTAGGTGTATGGACTTCCGAGGGAGTTGAGGTTGTTCTTCGAAGTTCTGTAATTCCTTACAGATCAAACTTCTTTGAAGATTTTGGATTTACAGTCTCCAAAATTGTCTCCAAGGCTGATCGGGCTGCAAACAAACCACTTGATCAAAATGAAAAGAAGGGGAGAAAGGGTGACCCTAAAAAAGTTCATGTGCTGGCTGAAACTTCAGCATTGAAAGTTGGCCCAGAATATGAATACAAGGCAAACATCGTTAAGCCTTCTATGTGGAGACAGATTTTGAAGGCTTGCGGTGATAACCTTCTGGGACTTGTGCGACTTTCTCCTCCAGCAACACAAATCAAAGGCAGTACAACCCCTGGAATGGACGGTGATTCTAAACTTGAGGGATTGTTGTTTCCTCTACGACTTTGCTGCGCCAAAAAGTTGATGCGTTTGCAGTTGCTTCTTTTCTGTTGGTGGGTCGTACATGTTTCTGATCAATCCATCAAGATTCTTTCCCTTTTTTTTTTTTTGTGTGTGTTCTTTCTATTCTTTATTCTCTTTCATTTGCAGTAA MFYMTSLVALATLDSCAHYHHVDIPTTSDQMCSGSCELENTKGKELYQSSANQSTADMWTIKNCETLRAGNVTFFFASAKANTKDQSPDDRFGWAGCAGQQPNYLTLERFVVPIKPTHVEPSPSAHGHCSTSPPTTLFLSFDFPLGPRIMQLLEGGAADDCVSIVELREKGMYHQQKLREEHTSSGASFCKEVTELRLTPIDSRAATSRPEFKGGVSFRKASTGFGRNRNDVHELLDCTVCMNLMHPPIYQCANGHTLCSSCKAGVQNCCPTCRHELGNIRCLALEKVAESLELPCVYKNLGCIDMFPYYSKLKHEKKCKYRPYNCPYAGGECSVTGDIPYLVMHLKDDHEVDMHDGCSFSHRYVKSNPQEVENATWMLTVFNCFGRQFCLHFEAFHLGTAPVYMAFLRFMGDDDMRNNFLTAWKLVEMAENSSGKRNLALFCSGNEGQELKLKVAGRIWRVSGLNPKNQTPWRGEEKPTHNTNADYSKAVCFEAQTASLSPFRFPFFEFTVLFFFTFLLIPSNPSPSSFHYSTSAVALFLPVFSSKPAAPATSLLTRDGNYDEATSRFFLVCPGYSNYRLLTHLLPVDHESECSDSLKRGFVIESEDQKNEDNVIEKAQKPIVCSRCHSLRFYGKVKDPAVENLLPDFDFDHTIGRRLASISGTRSVVLMVVDAADFDGSFPKKVANLVSETIDEHSAAWKRGKSGNVPRVVLVVTKIDLLPSSLSPTRFEHWVRQRAREGGANKITSLHMVSAVRDWGLKNLVEDVIDLAGPRGNVWAIGAQNAGKSTLINSIGKYVGGKITQLTEAPVPGTTLGIIRLTREEQKLVHISKELKPRTYRIKAGHTIHVAGLMRLDVEETSVDSIYVTVWASPYLPLHMGKAENASKIQEDHFGNQLQPPIGRDRVAELGKWVRREFRVCGNSWDSSCVDAAVAGLGWFAIGLKGKAVLGVWTSEGVEVVLRSSVIPYRSNFFEDFGFTVSKIVSKADRAANKPLDQNEKKGRKGDPKKVHVLAETSALKVGPEYEYKANIVKPSMWRQILKACGDNLLGLVRLSPPATQIKGSTTPGMDGDSKLEGLLFPLRLCCAKKLMRLQLLLFCWWVVHVSDQSIKILSLFFFLCVFFLFFILFHLQ Homology
BLAST of Sgr014651 vs. NCBI nr
Match: KAF3444436.1 (hypothetical protein FNV43_RR14128 [Rhamnella rubrinervis]) HSP 1 Score: 1044.6 bits (2700), Expect = 6.0e-301 Identity = 560/933 (60.02%), Postives = 644/933 (69.02%), Query Frame = 0
BLAST of Sgr014651 vs. NCBI nr
Match: KAB5572884.1 (hypothetical protein DKX38_000078 [Salix brachista]) HSP 1 Score: 882.5 bits (2279), Expect = 3.9e-252 Identity = 489/904 (54.09%), Postives = 598/904 (66.15%), Query Frame = 0
BLAST of Sgr014651 vs. NCBI nr
Match: XP_022150846.1 (GTP-binding protein BRASSINAZOLE INSENSITIVE PALE GREEN 2, chloroplastic isoform X1 [Momordica charantia] >XP_022150847.1 GTP-binding protein BRASSINAZOLE INSENSITIVE PALE GREEN 2, chloroplastic isoform X1 [Momordica charantia]) HSP 1 Score: 827.4 bits (2136), Expect = 1.5e-235 Identity = 423/544 (77.76%), Postives = 450/544 (82.72%), Query Frame = 0
BLAST of Sgr014651 vs. NCBI nr
Match: XP_023513264.1 (GTP-binding protein BRASSINAZOLE INSENSITIVE PALE GREEN 2, chloroplastic [Cucurbita pepo subsp. pepo]) HSP 1 Score: 825.5 bits (2131), Expect = 5.7e-235 Identity = 426/549 (77.60%), Postives = 453/549 (82.51%), Query Frame = 0
BLAST of Sgr014651 vs. NCBI nr
Match: KAG6570359.1 (GTP-binding protein BRASSINAZOLE INSENSITIVE PALE GREEN 2, chloroplastic, partial [Cucurbita argyrosperma subsp. sororia] >KAG7010240.1 GTP-binding protein BRASSINAZOLE INSENSITIVE PALE GREEN 2, chloroplastic, partial [Cucurbita argyrosperma subsp. argyrosperma]) HSP 1 Score: 819.3 bits (2115), Expect = 4.1e-233 Identity = 421/549 (76.68%), Postives = 452/549 (82.33%), Query Frame = 0
BLAST of Sgr014651 vs. ExPASy Swiss-Prot
Match: Q8W4I6 (GTP-binding protein BRASSINAZOLE INSENSITIVE PALE GREEN 2, chloroplastic OS=Arabidopsis thaliana OX=3702 GN=BPG2 PE=1 SV=1) HSP 1 Score: 402.9 bits (1034), Expect = 1.2e-110 Identity = 199/408 (48.77%), Postives = 277/408 (67.89%), Query Frame = 0
BLAST of Sgr014651 vs. ExPASy Swiss-Prot
Match: Q9M2P4 (E3 ubiquitin-protein ligase SINAT2 OS=Arabidopsis thaliana OX=3702 GN=SINAT2 PE=1 SV=1) HSP 1 Score: 386.3 bits (991), Expect = 1.2e-105 Identity = 185/303 (61.06%), Postives = 217/303 (71.62%), Query Frame = 0
BLAST of Sgr014651 vs. ExPASy Swiss-Prot
Match: P93748 (Putative E3 ubiquitin-protein ligase SINAT1 OS=Arabidopsis thaliana OX=3702 GN=SINAT1 PE=1 SV=1) HSP 1 Score: 374.0 bits (959), Expect = 5.9e-102 Identity = 184/305 (60.33%), Postives = 214/305 (70.16%), Query Frame = 0
BLAST of Sgr014651 vs. ExPASy Swiss-Prot
Match: Q10L91 (E3 ubiquitin-protein ligase DIS1 OS=Oryza sativa subsp. japonica OX=39947 GN=DIS1 PE=1 SV=1) HSP 1 Score: 354.4 bits (908), Expect = 4.9e-96 Identity = 162/255 (63.53%), Postives = 193/255 (75.69%), Query Frame = 0
BLAST of Sgr014651 vs. ExPASy Swiss-Prot
Match: Q84JL3 (E3 ubiquitin-protein ligase SINAT3 OS=Arabidopsis thaliana OX=3702 GN=SINAT3 PE=1 SV=1) HSP 1 Score: 352.1 bits (902), Expect = 2.4e-95 Identity = 165/264 (62.50%), Postives = 200/264 (75.76%), Query Frame = 0
BLAST of Sgr014651 vs. ExPASy TrEMBL
Match: A0A5N5NZU1 (RING-type E3 ubiquitin transferase OS=Salix brachista OX=2182728 GN=DKX38_000078 PE=3 SV=1) HSP 1 Score: 882.5 bits (2279), Expect = 1.9e-252 Identity = 489/904 (54.09%), Postives = 598/904 (66.15%), Query Frame = 0
BLAST of Sgr014651 vs. ExPASy TrEMBL
Match: A0A6J1DBW1 (GTP-binding protein BRASSINAZOLE INSENSITIVE PALE GREEN 2, chloroplastic isoform X1 OS=Momordica charantia OX=3673 GN=LOC111018893 PE=4 SV=1) HSP 1 Score: 827.4 bits (2136), Expect = 7.2e-236 Identity = 423/544 (77.76%), Postives = 450/544 (82.72%), Query Frame = 0
BLAST of Sgr014651 vs. ExPASy TrEMBL
Match: A0A6J1FW06 (GTP-binding protein BRASSINAZOLE INSENSITIVE PALE GREEN 2, chloroplastic OS=Cucurbita moschata OX=3662 GN=LOC111448990 PE=4 SV=1) HSP 1 Score: 814.7 bits (2103), Expect = 4.9e-232 Identity = 418/542 (77.12%), Postives = 448/542 (82.66%), Query Frame = 0
BLAST of Sgr014651 vs. ExPASy TrEMBL
Match: A0A6J1JD02 (GTP-binding protein BRASSINAZOLE INSENSITIVE PALE GREEN 2, chloroplastic OS=Cucurbita maxima OX=3661 GN=LOC111483924 PE=4 SV=1) HSP 1 Score: 812.4 bits (2097), Expect = 2.4e-231 Identity = 418/549 (76.14%), Postives = 450/549 (81.97%), Query Frame = 0
BLAST of Sgr014651 vs. ExPASy TrEMBL
Match: A0A6J1DAJ3 (GTP-binding protein BRASSINAZOLE INSENSITIVE PALE GREEN 2, chloroplastic isoform X2 OS=Momordica charantia OX=3673 GN=LOC111018893 PE=4 SV=1) HSP 1 Score: 788.5 bits (2035), Expect = 3.7e-224 Identity = 391/459 (85.19%), Postives = 414/459 (90.20%), Query Frame = 0
BLAST of Sgr014651 vs. TAIR 10
Match: AT4G10620.1 (P-loop containing nucleoside triphosphate hydrolases superfamily protein ) HSP 1 Score: 625.5 bits (1612), Expect = 8.0e-179 Identity = 326/555 (58.74%), Postives = 389/555 (70.09%), Query Frame = 0
BLAST of Sgr014651 vs. TAIR 10
Match: AT3G57180.1 (P-loop containing nucleoside triphosphate hydrolases superfamily protein ) HSP 1 Score: 402.9 bits (1034), Expect = 8.5e-112 Identity = 199/408 (48.77%), Postives = 277/408 (67.89%), Query Frame = 0
BLAST of Sgr014651 vs. TAIR 10
Match: AT3G58040.1 (seven in absentia of Arabidopsis 2 ) HSP 1 Score: 386.3 bits (991), Expect = 8.2e-107 Identity = 185/303 (61.06%), Postives = 217/303 (71.62%), Query Frame = 0
BLAST of Sgr014651 vs. TAIR 10
Match: AT2G41980.1 (Protein with RING/U-box and TRAF-like domains ) HSP 1 Score: 374.0 bits (959), Expect = 4.2e-103 Identity = 184/305 (60.33%), Postives = 214/305 (70.16%), Query Frame = 0
BLAST of Sgr014651 vs. TAIR 10
Match: AT3G61790.1 (Protein with RING/U-box and TRAF-like domains ) HSP 1 Score: 352.1 bits (902), Expect = 1.7e-96 Identity = 165/264 (62.50%), Postives = 200/264 (75.76%), 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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