Sgr018650 (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.ATGAATGGCGAGGGGAACAGAGGAGAGGAGATCGTGAAAATGGAAGAGGATGTTAAGGAAAAGATTGTGTATATGTGGGGATACCTTCCCGGAGCTTTGCCGCAGAGGTCGCCTCTGCTGTCGCCGGTGGTGGTTCGGCTTCCGGGTAAGGATGGCACTACTGGTCACACCTGGAGGGATGTTTGCGGAGGAGGTTGCGGGTTCGCCATGGCCATTTCTGGTGATTTCTTCGAATCTTTGTCTTCTTCTTTTTTGCTTCTGTTGGGGTTTTGATGTTCCCAATTCGAAGTTTGGGGCTTTGTAAATTCTTGCATTACCGGATTTTGTTGATTTGGTAAATGAAGTTTAATGTGTTGTGGGTTGTGCTTTAAGCGCGTCTTCCTCGGCTTTGAGTGGCTAGAAATTTATTCAATGAAACGAGGAAGTCACTTTCGACTTCTTGATATTTTTTGGTTTCTGTGTTGTGGAAATCTGAAATTACTTGAGCTGAAATGGTGATGCTCAACTCATTTTACTTCAGAGTTTTCTCTGTTCTGCTCGTTTTGGTTGTTTTGTTCAGATGTGGACTTGAATTTGCAGAGAGCGAAGTGAGATTTTTTTCCTGAAATTTCTGAGCAAGGCAAAGACTTAAGGAATCTTACCTATTCGTCCGGCTCAAAATTCTGTTCTTTACTATATGTTTTTCTTTCCCTCCTCTAGACTGAAAGGGCGTTCTTTCTTTTTTTTTTGACGGGCGATTGTCGATTCTTATGCATTGCTCTTTTCAAATTTTTTACAACCTAACTTCTGAATGTCTTTTCAGTGCTTGATCTGTTTTGTTCTATTGATTATATTTTGGATTTTAATGTATATTCAACAGTTCATTTATCTATCCGTCCTCATGTTTATTGTGTTGAGTCATTGTTTATGAATGCTCATGTTAGATTATATAGTTTTTATCTGTTTTCTTCACAATGCAGTTCTTTCTTTTATTTGATATGTAGTCTTATCTTTTCCTCATTTAATCAGCGTCTGGAAAACTCATTACATGGGGCTCAACGGATGATCTTGGTCAAAGCTATGTGACGTCTGGGAAGCATGGGGTACAAGCCACACACAATATTCATTGAATTAAAACGTTATTACTGTTAGCTCTTAATGATCTGACCTGCAGTATCCTTCAATTTTCTTCTCAAGGAAACTCCAGAGCCTTTTCCTCTTCCAACAGAAGCTTCTATAGTAAAAGCAGCAGCAGGTTGGGCCCATTGTGCTGCGATTACAGGTAAACCATTTCTTCTCTTAGGGAAGACAAAACAAGATAGAAATCCTGTTAGGTTATTAATGGATGGCGCACAAACAAGACAATGGTTAAGTCTAGTTGCTTATTCAGTGTTTTTTAAAGCGTGAGATGCACCAAGAGCTTAAGCACAAAGTGAGAGAAAGAACGAGGTCGAGAAAGAACAAGGTCTTTTTTTTATGCACACAATAGAAAGATGTAAATAAACTTTTTATAGATGAAAAAGTTAATGAAATTTTTTAGAAATTAGAGGTTTTGTAAGAGATTATTTAGAGAAAAGAGGATTTGAATGGATTTTTTAAATTTTTTTACCCAAAAAAAAAAAAAAAAAAATCACTGCGATGGGTTTTCTTAAAACATTGTGCTTATTAACTCCAGGAATCCAATACATACTAGTTTTTTTGTCCTTCCATTTCTTTTTCTTTTTCATCTTCAGTATTCCCACACTTTGTACACTTTTCTTGCCTGCAAAGAATGTCACCCTCTTTGGTGATGCTTACCTCAGAAACAAAGCCAATAGTCTCACTCAAGAAGTCAGATACCTCTCTTCTTCTTCTTCTTCCTCTGCTTCAGGCATGGGCAGAGCTTTTTATGTCTACCCTACTCGGTTTCTTGATCCAAGACGAACCCCACCGCATCCGTTTCTCCTTCTCATTTTTTTTTGTTTCCCAAGTTACTTTGCAAAGTTTGTTTCCTATGACATTTGTAAGATGGTTTGAATGCCCATGTATTGCTAAGTGAACTTGTCTAGTATATTTTCTACCGTTTATATACAGATAGAGGAGAAGTTTACACATGGGGATGGAAGGAATGTGTTCCCTCTGGAAAGATCTTTGGTGATCTGTCTATTGGGGCTGGCTTTGAAAAGGATGTGTTAGAGAGGCAGTCTTCTTCCTTGACGGACCAAGGTACTGCACAAACTTAATTATGATAAGAGGCTTTTCAAAGTTTTTCTCACTGGCCGTTCATGTTCTTTGTGGCAGTCAGCCCTCATTTACAAGCCACACGATCTACTGGTGCTGTTGTTTCCAATATTGAAGCTAGAGGTGGTGGAGCAGAAAGTACAAAAAGGAGAAGGATTTCAACAGCAAAGCTTGCAGCAGAGAGTTCGTCATCAAGTGATGACACTCTCTCTGCACTTCCCTGTCTTGTAACTCTTAATCCTGGGGTAAGAATAGCCTCTGTTTCTGCAGGAGGGCGTCATACGCTCGCATTGTCAGGTAATTCTAATGTATTATATATTAATGTTGTCTATTTCTTCCTGTAATGTATTTGGGGATTTATGGCATATTGGCATGGCAAGATTGGCTGGTCAGTTTGGTCTAATTACTTAATTTATATGTATATATATTTTTAGATTGAATCTTTCATACTGGTTTATCAGAAACATAAATTAACTATCACTTCAACTAAATTTTAAAATCAATAATACCAAATATGTCCTAGTTCATTCTATTCGACCCACTTGAAATATTAATGTAAAACATTTTCTTCTTTGTATTTTGGAGCCAAACAAAATTAATTATGGAAGAAGCTTGGAATAACATGAATTACATAATATATAATGCACCCTAATGTCTTCAAAGTTTCAGATATGGGACAGGTCTGGGGTTGGGGCTATGGTGGAGAAGGACAGTTAGGTTTGGGCTCCCGTATACGCATGGTTTCCTCTCCACATCCCATACCTTGCATCGAGTCGTCTTCTCTTGGCAAAGATAGATCTACAGCTCTTGTTAGAGGAAGTGCAAGGTTAGAGGGTCAGGGTAGTAGAATTCCTGGAAGCTATGTGAAGGGAATTGCTTGTGGAGGGCGTCATAGTGCAGCAGTTACAGGTTTGTGATGTTTGTTTTCCCAACATAATAGTGGATGCATAAACTTTCTGTTGCTGATATCAATAGATACTGAATCAATTTTTGGAACAATAATGAAACGATTCATTAGGTGAAGACTAGTGGCAAGACTTTAATACTTTGGTCTGTACATGTAAGTTTACATATATATATACAGTAATCTTGGATCATCTAGTTTTGATAGGTTGATTGATGAAAATTAAGACTGCAAGAAACTACACTTTTAGAGCTTAGAGATTATGTTTTATTCATTAATTTCCGTATTCTTGTGAAATATTGGTGCTTGATTAATCTATACCTCTGAATTCTTCATGTTGTCCACTTGAAGTGATAAGCTTCATATATTTGATATCTCTCTTATCCTTTATGCAACAGATGCTGGGGCACTGCTAATGTTTGGTTGGGGACTGTATGGACAGGTGAATTTATCAAGCAATTTCTTAACACGTGCTTCATTTCATTCTAATACACTTCATTGAAAGATTTTTTTTTCTTTGTCACATGATCATGTTCATTCTCAGTATTCTTTTACAGACAAACATTCTCATCACATTCCATTTCTTCCATGGCATCTTTTTTTGCATGCCTTTTATTGCATTTATCAGTTAATGCACGTTGCTTAATTATTGTAATATGACAAAGTTAATCGTTGTAAAGCACGATCACTTAATTCTATGAACTGATTCTGTACATATCTAAGTGGGTATGGCTCATATCACTTGTATGTCTGTAAGGTTGCTTCCCTTGGTTTCATGGCATGGTCAGAAGTCTTAAGATTTCTCTCCCGCAAAGAGTCTGCAATAAGACTATACGGAGGCATCTTTTTTGTGCTGGTTGTTCACCACCCAATCTTTTTCAAATGATGGTGGCCTCACTGATATATTCTTGGAATATTTACTTTTTCCATCTGAGGCATTTTCTGTTGTCTTATTCTTCCCCCTCCTCTGATCAACACTGTTGAATGACAAAACATGCTATCTGTCACGACTCAGTAATCTCATACTAAATGGCATAGTAACATGACAGCTTTTCCGTCCAACCATTAATCAATTTTCTTACATGCAAAAATACTGAAATTTGTTGACTGCAAATATCTTTATAAGAAGCATATTAGGAGCTCTAGTTCCTTCAATATGGTTTCATTTAAAGCCCAACGTGTAGCATAGGATCTATTAAGCTCTTGTCCTGAGTTAATTTTTCATTTCATGCATTTATGTGATTCTGGAACATTTGATTTTAGTACCAGTTGGTCAAAAGATATCCACTGAACTGGAAGCGACAAGTTCAGAGATCCTTCATATTAATTAAATTTGTTGAAGCAACCATCAGTTCTCTGTAGGATGCATATGACTTCTTTCATGTCTCCATGGTACATATAAAGTTAAACTTATATTGTCTACCAGATTTCTTTTTCTCCATTAACATTCGAGATTGCCCATTTACCTCTTTTCCTAGTATGACCGCTTTAGTAATGAGGTGTCTTTCCTGCCTTACAATACTCCTGATTCAGTAAACCTATTTTGGGACCTCCTCCTAACAAACTGGAAAATCACCTTCATATAGTGAGGATGCTCCATCATATCTGAAAGATCAATCTCTAATTTTATGAGCCCCTGCGAAGTACGCTAACTTAAGTCAGAGTGCTAGGCATATTTCTATTAACGGATTCTTTCAACTTATTGACCTTTTTCTTTTTCACCTTGTATTCATTTGTCATGCCTACTTCATTTGCTAGTTAAATATTTGGATCCTCTGTACAACCCATCATCTGCTGGAGTTTCCTTAATTGACAATTGACCAATCTTCAGAATCAATCTGTAGGTAAAGTAGAAAATGGTGGAGAAAAAGATATGTAGATGTAGATCAAGATCAAGTTCAATCAAAAAGAGATAATTCTTTCTGTTCCTTTATCCATAATTTCACTCTATTTCTTGTGCGGCTGCTATATTTTTGGCTTAATTTATGTCCAACAGTGTGGACAAGGGTGTACAGATGACGAGTTGAGTCCGACATGTGTATCCTCATTACTGGGTATCCGGATAGAGAGTGTTGCTGCTGGACTGTGGCACACGGTCTGTGTATCTGCCGATGGTGATGTATACTCATTTGGTGGAAATCAGTTTGGGCAGCTAGGAACAGGTGCTGATCAAGCTGAGGTATGGTTTATTAACTGATGCTTGGTTCAATTTGTCAGATCATAATTTCCAGCAGGCAGCATTGATCATATTACTATGATAGTATGCGTTCTAAAACAGAAAAAGTAATTTATGCTATGTCTTATTGTCTTTTCAATCATTTATCCAGACACTTCCAAGACTTCTAGACGCACCGAGTGTGGAAAATGTAAATGCAAAGGTTATATCGTGTGGGGCTCGTCATAGTGCTATAGTAACAGGTACTTCATTATTTACTTGCACAGGATTCTATTCTATATACCTTCTGACTCATGAGATCCACCTTCAATTTACTGAGATGAAAAAGTTCAAATGTCTAAACTTTGAAGTATAAATGAGACCATTTATAAAGAACAATGGTACCGACGTTCAAGTATTTTGGAGTTTCCATGGGAATCTCAAAAGTTTAGGCACATGTACTGTATCTTGTCCAAATATACCTGAACTAAAGGTTTGTCAGCAAAAGCTATCTAAATATTTGAGGGTTTCTTTTTCCCTCCTCCTTTTCTTTTTCCTCTTTTAAAGCTCTAGTTTCTGAGGAAACAGTGACGGCTGAGAAGACATCTAGTGAAAAAATGAAGAAAATTTGCCTTTTTATATGGAAAACACTCCAAGACCTCCTCAAGAAATATATAGTAATTGGACTGCTTCAAACTTTCTGCACAATATTTGAAGAATTTAGATTGGTTCATATTCATTTTTGTATAATTTTCGTTCTAACATTCTTGTTTCTCCATTTTTTAGAGGATGGGAAAGTGTTCTGCTGGGGATGGAACAAGTATGGCCAGGTCTGTTGGTTAGATTGTATGTTTGTTTTTTCTTTAAAATTTTCACATCAAGTCTGCAGTTTCTCGTTGCCTTCTGCACAAATGCATGTTTATAAGTTGTTTCCCAAGATCAGATCTGATATTGAGGATCTTAGAAGTCTCCATTTACGCACTGCAGCTAGGTTTGGGTGACGTAATCGACCGTAATATTCCCGTCGAAGTCACGATGGAAAATTGCACTCCTAAAAATGTTGCCTGCGGATGGTGGCACACCCTTCTTTTGGCCGAATCACCCACTTGAATTCCTAGTCTCTTTCCGAGCTTCAACAAAGTTTTGTTAGTTAGCCACCAGTTCTTTCAATGGTAGATTCAATTGTAAATGCATAGACAATAGCTTTCATCCATATGCATGTACATTTATGTATGTACTCATTCTTTAAAGGTCAGAGGCTGTTAGGAAGAAATCCTATAATACTGATGGGGACAGGAGATAGCAGTTCCAGTTCCTGACTGAGGTAGATTATTTTCATACCACATATTGTAAGTTAGAACTAGAAAAAAGACCATCATCTCTCATGTCCACTTTCTCTAGAATTCAAGTGTTTTAGGCTTATAAATGGTGTACTTCAGTTCAAGAGTGATGATATTTAAACAGGTGATTTGAAGAATAACCTTGATGTTATATCATATCATATCACTTAAGCTTTCTTGTAATAATAGTATCTTGACATGTGTATTGGTATTGGAGGAAAATATTTTTCGTCTTCGTATTGATGTCGAGCATAAAGAATATGGATGTTATCAGCAAAATGTTGTATGTGCGTTGGCCTTACTTCAGTCATCTGTCAAGTAAAATGCACATTGAGCTCTCTTTTTTGTGCCTATATTTGGGATGGCTATTTTAATTTATGATTTACCATATATTTTAGTCATCTGGCATCCAACTTTGAAGTGAAACTTTTTAGCTCCAATGAAATGTCAAACCAAGTTTCTCTTCTAAAGGGCTGATATAACTTAGGTTGATCTTTAAATTTGAGAAAAGCAGAAGCTCTTTCATAGGGTTGAGTGGTTTTTCTCAAGTTGGGAACCTTGAGTCGTCAATGTGTGAGAGTGAGGTCTCTATTAGTTTTCAGAATTCAGAAGGAAAGAGTTTGCTTTGACCGTTAAAGAGTAGGTAATCCGCTCTCTGTGTCTTTGTTTTTATTGCATTCTATCCCATCATATTGAGTTCTATCATGCGATATTTCACAATCAATATCTCGGTGTAGATTCGAGATAATCCTTTGTTTCGCACTCTACTATTTCAATTCTCGTTTTGTGGATCATAATACGAGGAGTTCTAGAATGGAATTATGTTTTTATCTAGTCTTTGTCATTAATATTTTTAACATAATGGTGAATAGGATGTGTATAGTTTGTCTAGCCATCTATTGTGTCATGCTAATTTAATCCAAATTTATTTAATAAATATTTCATGCAGCATTTTAGTGATGGTGTTAACCAAAGAAATTAAATAGTAAGCATAGTTTAAAGTTTAATGACATAATTAAACTTTTTATTATTAAAAGGCTAAATAGATGTTATTCAAAGTATAAGGACTAAATTTATAATTAAAAAAGTATAGACTTTCAAGATGTCTAAATGAGAGATTAACAGTTAGTTTGGAATGATGTTTAGAAAGGTGAAAAATGTTTATAGTGAATTAAAACACTCGAAAGTGGTTTTTTTTTTATTTTAAAAACACTAGAAAATACTTTAAATACTTTTATAGAAAGCATTTATTAAAAATGTTTATAGAAGTGTTTTACTTAAAAACCATCCCAAACTTAGTATAAATTGATGACTATGGTTGAAGATAATGGATGTTCACAACGAGAACCTAAAATAATTTATGTTTTGATTTAATGAGCACATTTTGCCTTTAAAATCAAATTTTTTTGATTGCCCACTTTTATTTTATCATGTTTGGTTATATTATTATATCAAGTTATTATTCGTTAATCAAATTAGAGTATCACATTAATGTTTGAATATTATTATTAATAAAATTTAAAGACTAAATAAATACGATTAGTGCATTTTTTTTAGTTTAACAATTAAAGATGTAGAGATTAAATTATAAGCTTAGTGTCTTATCCGTTGGGCAAATTACGTCATTTGTAAATATTGGAAAATAGGAAAAAGATCGAAGGCTGGGGACATGGCTTTGGTGAACACGGTTCGGATGCGGTTCACGTCGATCAGAGTTGCCGTTTCAGTGGGGGGTCTCCACGCTGTCTTCTTCTCGCCATTTTCAATTTCTTCGCAAGCCTGAAAAATTGTGCCGGGTGATTCACAAGACTACTTGTTTGGGCATAACAATATGTGATCTGAGGCCGGAGAAAGACGATCGGAAACTTAGAAGCGTCGGCCGGAGAAGGGAAAAAGCTGAGAGAGAACAGAAATTGTATCCCGGAGAATCTGTAAGTGTAAAATTTGAGAGTACCCACGTCTTCAGCTCGCTGTCTTCCTCTCTCCTTTTCCTTTCCCCATTTCGGGAGAGAGAATACGCTAACAGACATGAAACCTTTCTGGAATTGCGATTCACTGAAGAACCCATCTATCTTCAAGATCTCAGCCTTCATTGTTATCTCTGTCACCTTCTTTTACCTGGGCAAGCATTGGTCTGATGGGTACCCGCAGCTCATCTTCTTCACCGAAACTCGATACACCCCTTCAGTGTCAATGTCACCTAACAATGACAAGTCCTTCAATATTTCTTCTCGGATCTACCAGAATCTAACCCGTGCGGCTCCGGAAAAAGCACTAGTCTCGGCCTCGGCCCCGACCCCAATTCCGATTCTGAGTCCATCTCCTCCTCCTCCTTTTCCGCCTCCGCCACCTGCTTCAGTGCAGAGGTTTGGGATCGTGACCGAGAATGGAACGATGGCTGACGAGTTTGAGGTAGGGGATTTGGATCCTGAGTTTGCGGAGAGCTGGGGGAATGAGAGCGAGACAGGGACAGATGACAGTGGCCCTGTCAAGGTTAGGATCAAGAAGTTTGCTCTTTGCCCGCAGAGCATGAGCGAGTACATACCATGCTTGGATAACGTGGCCGCAATTAAGAAGCTGCAGTCGACGGAAAGAGGGGAAAGGTTCGAGCGGCATTGTCCTGATATTGGTGGGGGATTGAACTGCTTAGTTCCAGCACCGAAGGGATACCGCACGCCCATTCCCTGGCCGAGGAGCCGTGATGAGGTATTGCTTCCGTCTGGTACATTGATTTCATCTCGTGTGTAACTTGAAATTTCTTCTCATATTAAAACGACTTGTTTCATTGATAGTTACTAGTCTATTTGAATTCCTCGGTTGCTCTGCTGTTATATTACGGAAAAAATTCTAGTACTTTGGCAGTAAATGGTTCTTCTATTAATATTCAGCCACATGTTTAGTTGATATACTATTTTATTTTACGAGCTCCAGATTACTCTTAGGTGTAGCTGATGTGGCTGAAAAGTAAATGGAAGTAGTATGGAAAAATTTTCATACTATTATAGTACTAGAAACTTACTCGACGGTTACTTGTTCAGGTGGCAATTTATCGAGTCTTTTTTTGTAGAGCTGTTATGCCTTTTCTACCTATTGAACGCGGACTGATTTGTTTAAAGAGTGTTGAGTTACACTTCAGCATTGTTTCTCTGATATCCTGAGTCTATAATTCACTTCTTTTCCTTTTAAATTTTTTTTTTTTATAGCATCTATCTCTCAAGGTTTAATAGCTGGAGCATGCTACTTTATTGTAGGTGTGGTTCAGCAATGTTCCTCATACCCGTTTGGTTGAAGACAAAGGGGGTCAAAACTGGATTTCTCGGGACAGAGATAAATTTAGGTTTCCTGGAGGTGGTACACAATTCATTCATGGGGCAAATGAGTACTTGGATCATATCTCTAAGGTAAATAAATAGACAATTTCTGTACATTTAGGATTGAAGGTAGCTTTGGGGTTTATTTTCTGTAATGATAAACTTATAATCTGTTGTATAGATTGTTCCCGATGTTGCTTTTGGAAGTCATACACGAGTAGTTTTGGATGTTGGATGCGGTGTTGCAAGTTTTGGTGCCTATTTGCTATCACGGAATGTAGCAACAATGTCCGTTGCTCCCAAAGATGTTCATGAGAACCAGATTCAATTTGCTCTTGAGCGTGGTGTTCCTGCAATGGTCGCAGCATTTTCTACTCGTCGTTTATTGTATCCAAGTCAAGCTTTTGACTTGATACATTGCTCAAGATGTAGAATAAATTGGACTCGTGATGGTATGATTGTCTCACTACTCCACTCCTTTTAATTAATATCTGTATATCTATGTTTTATTTTCTTTGAAGATTTATAGATCCAATGCATTAAAGAGTATTTAATTGTCAAATGTGAGTCATTTGGATAGTTGCACATTTTCAATGAAGAATACTTATCAGCAAGGTCTTCTGATTGTTGAATTTTCTTTAAACCTTCTGAATTTAAGATGGAGTTCTGTTGCTGGAGGTTGACAGAATGCTAAGGGCTGGAGGATATTTTGCATGGGCAGCACAGCCTGTGTACAAGCATGAAGAAATTTTGGAGCAGCAGTGGGAAGGTTTGTCTATGACTGCATAGTATCCGTTGACTGTTTCTTCTGATTTAATGCCTATGGTTGGTTAGGTCTTTTAGTTCTGTAAATGCCTTTGTCAAATCTTTTTAGATTCACATTTATGGCCAATCTTATCTCTTTCTATCGATCTTTATCCTAGTAAATTGGCTAGTTTGTTTAAACCCGGCTCAATTATTGCTTTATGGTTGTTTGTCTACAATGAGAGCATGGTTATCCATTATAAAATAAATGGCTGTTTCTGTCTAATAGAACTCAAGGAAACAGGTTTGGCAATATAAGAAATTTAGATAGATTTTAAGGTGATTTGACATCTCTTTTACCAGGATCTAATGTCTGTGGTTCTTTTGGTCTTTAAATAATATATATTTTATTATTAATTCTTCAAAACTTTCCACATTAAATTTGATTCTCTTTTCTCTCTTTGACCAGAGATGATTAACCTTACCACTCGTCTTTGCTGGAAGTTTGTGAAAAAGGATGGATATATTGCAATATGGCAAAAGCCAATGAATAACAGCTGCTACCTTAGCCGTGATTCAGGAACTAAGCCTTCACTTTGTGATGTAGATGATGATCCGGATAAAGTTTGGTACGTATACATTTATCCTCCTTTGTTTTGATGATATGATAGTTGAATAGGCGAGTATGTTTTTGATACATAATCGACTTTGATTGGTCATTTATACTTGACTTTCATTGTTTTAATTGAAGAATCATAAGGTGCTAGTGCAGCCCAGTTTTTAAAATATTGTATTTGACTGTATTTATATTCTGAGCAAATTTATCTAAACAGAAGGTGAAATCCAGTTCTTCAGCTTTCTTTTCAAACTGTATTATACCTTCTAGATAATGTGACCTTTGATTTGAAATAAGCATATGAAAAAGCCTCAAATGATCAGCTCTCAGTGGACTTATTGGTTTAATTTATATTTTATGACAACTAAAGTTCTACAGTTCTATGAAGTCGCTTTATAGAAGAAATGAAGAGCCTCTTTATAAACTGTCTTGAACAAGAGGGAGAAGAACAGTTCAATAAAGGCTTTTCATCTCTTCCATTGACTCCTTTCTTATAACCATATTTCTAATTTGTTGGACTTATTATATTTTTCCATGATAAGGTATGTTGATCTGAAGCCTTGCATTACTCGGCTTCCAGAAAATGGTTTTGGCAGAAACCTCACGACATGGCCTGCACGCTTGCACGCTCCTCCTGATAGGCTCCAGAGCATTCAATATGATGCCTATATATCTAGAAATGAACTCTTCAGGGCAGAATCTAAATATTGGAATGAAATTATAGGAAGCTATATTCGTGCATTACATTGGAAGAAAATAAGACTAAGGAATGTGATGGACATGAGAGCTGGATTTGGAGGGTTAGTATACTTTATATCATATCTAGTAGGATCCTTCTATTTTCCCATTATTTACTCTTTATTTGTGTCATTTGGCAGGTTTGCTGCAGCATTAATTGATCATAAATTGGATTCGTGGGTGATGAATGTCGTCCCAGTGAGTGGACCCAACACCTTACCCGTTATATACGATCGTGGACTGCTTGGAGTTATTCATGATTGGTAAACTGCATAACTGTTTGATTCTCATACAATATATCTATATATTACTATTGGAGATTCTCAAACAACATTAGTGCTTTGGTATTTTGATAGCCAAGTCAATTTAGATAATTGAATTACATAAATCTTCCTGTTTGTTAATCCAAGGTCTAGATAGGAAAATAAATCCAAGCTATATGACTCCACCGTGATGTATCTTTTTTAGGTGCGAACCTTTTGATACGTACCCAAGAACATATGATCTATTACATGCAGCTGGTCTTTTTTCATCCGAAAGGAAAAGGTACACCCAGTGGGCATTGATGGCGATCACCACGGTCGTGTTTTCTCACTTTAACTTGGCAGGGTTTCATTATTGAGAATCTTGTTGCTTACTTCTTTCTCTCTTTAATAACTGGTATCAGATGCAGTATGTCGACAATCATGCTTGAGATGCATCGGATCTTGAGGCCCGGCGGGCATGTTTACATTCGCGATACTCTTGCTGTCATGGATGAGCTTCAAGCAATCGGAAAGGCAATGGGTTGGCGTGTTTCCTTGCGTGATACATCCGAAGGACCCCATGCAAGCTATAGGATACTGATTGGTGAAAAACGCCTCTTGCGAGCGTGA ATGAATGGCGAGGGGAACAGAGGAGAGGAGATCGTGAAAATGGAAGAGGATGTTAAGGAAAAGATTGTGTATATGTGGGGATACCTTCCCGGAGCTTTGCCGCAGAGGTCGCCTCTGCTGTCGCCGGTGGTGGTTCGGCTTCCGGGTAAGGATGGCACTACTGGTCACACCTGGAGGGATGTTTGCGGAGGAGGTTGCGGGTTCGCCATGGCCATTTCTGCGTCTGGAAAACTCATTACATGGGGCTCAACGGATGATCTTGGTCAAAGCTATGTGACGTCTGGGAAGCATGGGGAAACTCCAGAGCCTTTTCCTCTTCCAACAGAAGCTTCTATAGTAAAAGCAGCAGCAGGTTGGGCCCATTGTGCTGCGATTACAGATAGAGGAGAAGTTTACACATGGGGATGGAAGGAATGTGTTCCCTCTGGAAAGATCTTTGGTGATCTGTCTATTGGGGCTGGCTTTGAAAAGGATGTGTTAGAGAGGCAGTCTTCTTCCTTGACGGACCAAGTCAGCCCTCATTTACAAGCCACACGATCTACTGGTGCTGTTGTTTCCAATATTGAAGCTAGAGGTGGTGGAGCAGAAAGTACAAAAAGGAGAAGGATTTCAACAGCAAAGCTTGCAGCAGAGAGTTCGTCATCAAGTGATGACACTCTCTCTGCACTTCCCTGTCTTGTAACTCTTAATCCTGGGGTAAGAATAGCCTCTGTTTCTGCAGGAGGGCGTCATACGCTCGCATTGTCAGATATGGGACAGGTCTGGGGTTGGGGCTATGGTGGAGAAGGACAGTTAGGTTTGGGCTCCCGTATACGCATGGTTTCCTCTCCACATCCCATACCTTGCATCGAGTCGTCTTCTCTTGGCAAAGATAGATCTACAGCTCTTGTTAGAGGAAGTGCAAGGTTAGAGGGTCAGGGTAGTAGAATTCCTGGAAGCTATGTGAAGGGAATTGCTTGTGGAGGGCGTCATAGTGCAGCAGTTACAGATGCTGGGGCACTGCTAATGTTTGGTTGGGGACTGTATGGACAGTGTGGACAAGGGTGTACAGATGACGAGTTGAGTCCGACATGTGTATCCTCATTACTGGGTATCCGGATAGAGAGTGTTGCTGCTGGACTGTGGCACACGGTCTGTGTATCTGCCGATGGTGATGTATACTCATTTGGTGGAAATCAGTTTGGGCAGCTAGGAACAGGTGCTGATCAAGCTGAGACACTTCCAAGACTTCTAGACGCACCGAGTGTGGAAAATGTAAATGCAAAGGTTATATCGTGTGGGGCTCGTCATAGTGCTATAGTAACAGAGGATGGGAAAGTGTTCTGCTGGGGATGGAACAAGTATGGCCAGGTCTGTTGGTTAGATTGTATGTTTGTTTTTTCTTTAAAATTTTCACATCAAGTCTGCAGTTTCTCGTTGCCTTCTGCACAAATGCATGTTTATAAGTTGTTTCCCAAGATCAGATCTGATATTGAGGATCTTAGAAGTCTCCATTTACGCACTGCAGCTAGGAAAAAGATCGAAGGCTGGGGACATGGCTTTGGTGAACACGGTTCGGATGCGGTTCACGTCGATCAGAGTTGCCGTTTCAGTGGGGGGTCTCCACGCTGTCTTCTTCTCGCCATTTTCAATTTCTTCGCAAGCCTGAAAAATTGTGCCGGGCCGGAGAAAGACGATCGGAAACTTAGAAGCGTCGGCCGGAGAAGGGAAAAAGCTGAGAGAGAACAGAAATTGTATCCCGGAGAATCTAACCCATCTATCTTCAAGATCTCAGCCTTCATTGTTATCTCTGTCACCTTCTTTTACCTGGGCAAGCATTGGTCTGATGGGTACCCGCAGCTCATCTTCTTCACCGAAACTCGATACACCCCTTCAGTGTCAATGTCACCTAACAATGACAAGTCCTTCAATATTTCTTCTCGGATCTACCAGAATCTAACCCGTGCGGCTCCGGAAAAAGCACTAGTCTCGGCCTCGGCCCCGACCCCAATTCCGATTCTGAGTCCATCTCCTCCTCCTCCTTTTCCGCCTCCGCCACCTGCTTCAGTGCAGAGGTTTGGGATCGTGACCGAGAATGGAACGATGGCTGACGAGTTTGAGGTAGGGGATTTGGATCCTGAGTTTGCGGAGAGCTGGGGGAATGAGAGCGAGACAGGGACAGATGACAGTGGCCCTGTCAAGGTTAGGATCAAGAAGTTTGCTCTTTGCCCGCAGAGCATGAGCGAGTACATACCATGCTTGGATAACGTGGCCGCAATTAAGAAGCTGCAGTCGACGGAAAGAGGGGAAAGGTTCGAGCGGCATTGTCCTGATATTGGTGGGGGATTGAACTGCTTAGTTCCAGCACCGAAGGGATACCGCACGCCCATTCCCTGGCCGAGGAGCCGTGATGAGGTGTGGTTCAGCAATGTTCCTCATACCCGTTTGGTTGAAGACAAAGGGGGTCAAAACTGGATTTCTCGGGACAGAGATAAATTTAGGTTTCCTGGAGGTGGTACACAATTCATTCATGGGGCAAATGAGTACTTGGATCATATCTCTAAGATTGTTCCCGATGTTGCTTTTGGAAGTCATACACGAGTAGTTTTGGATGTTGGATGCGGTGTTGCAAGTTTTGGTGCCTATTTGCTATCACGGAATGTAGCAACAATGTCCGTTGCTCCCAAAGATGTTCATGAGAACCAGATTCAATTTGCTCTTGAGCGTGGTGTTCCTGCAATGGTCGCAGCATTTTCTACTCGTCGTTTATTGTATCCAAGTCAAGCTTTTGACTTGATACATTGCTCAAGATGTAGAATAAATTGGACTCGTGATGATGGAGTTCTGTTGCTGGAGGTTGACAGAATGCTAAGGGCTGGAGGATATTTTGCATGGGCAGCACAGCCTGTGTACAAGCATGAAGAAATTTTGGAGCAGCAGTGGGAAGAGATGATTAACCTTACCACTCGTCTTTGCTGGAAGTTTGTGAAAAAGGATGGATATATTGCAATATGGCAAAAGCCAATGAATAACAGCTGCTACCTTAGCCGTGATTCAGGAACTAAGCCTTCACTTTGTGATGTAGATGATGATCCGGATAAAGTTTGGTATGTTGATCTGAAGCCTTGCATTACTCGGCTTCCAGAAAATGGTTTTGGCAGAAACCTCACGACATGGCCTGCACGCTTGCACGCTCCTCCTGATAGGCTCCAGAGCATTCAATATGATGCCTATATATCTAGAAATGAACTCTTCAGGGCAGAATCTAAATATTGGAATGAAATTATAGGAAGCTATATTCGTGCATTACATTGGAAGAAAATAAGACTAAGGAATGTGATGGACATGAGAGCTGGATTTGGAGGGTTTGCTGCAGCATTAATTGATCATAAATTGGATTCGTGGGTGATGAATGTCGTCCCAGTGAGTGGACCCAACACCTTACCCGTTATATACGATCGTGGACTGCTTGGAGTTATTCATGATTGGTGCGAACCTTTTGATACGTACCCAAGAACATATGATCTATTACATGCAGCTGGTCTTTTTTCATCCGAAAGGAAAAGATGCAGTATGTCGACAATCATGCTTGAGATGCATCGGATCTTGAGGCCCGGCGGGCATGTTTACATTCGCGATACTCTTGCTGTCATGGATGAGCTTCAAGCAATCGGAAAGGCAATGGGTTGGCGTGTTTCCTTGCGTGATACATCCGAAGGACCCCATGCAAGCTATAGGATACTGATTGGTGAAAAACGCCTCTTGCGAGCGTGA ATGAATGGCGAGGGGAACAGAGGAGAGGAGATCGTGAAAATGGAAGAGGATGTTAAGGAAAAGATTGTGTATATGTGGGGATACCTTCCCGGAGCTTTGCCGCAGAGGTCGCCTCTGCTGTCGCCGGTGGTGGTTCGGCTTCCGGGTAAGGATGGCACTACTGGTCACACCTGGAGGGATGTTTGCGGAGGAGGTTGCGGGTTCGCCATGGCCATTTCTGCGTCTGGAAAACTCATTACATGGGGCTCAACGGATGATCTTGGTCAAAGCTATGTGACGTCTGGGAAGCATGGGGAAACTCCAGAGCCTTTTCCTCTTCCAACAGAAGCTTCTATAGTAAAAGCAGCAGCAGGTTGGGCCCATTGTGCTGCGATTACAGATAGAGGAGAAGTTTACACATGGGGATGGAAGGAATGTGTTCCCTCTGGAAAGATCTTTGGTGATCTGTCTATTGGGGCTGGCTTTGAAAAGGATGTGTTAGAGAGGCAGTCTTCTTCCTTGACGGACCAAGTCAGCCCTCATTTACAAGCCACACGATCTACTGGTGCTGTTGTTTCCAATATTGAAGCTAGAGGTGGTGGAGCAGAAAGTACAAAAAGGAGAAGGATTTCAACAGCAAAGCTTGCAGCAGAGAGTTCGTCATCAAGTGATGACACTCTCTCTGCACTTCCCTGTCTTGTAACTCTTAATCCTGGGGTAAGAATAGCCTCTGTTTCTGCAGGAGGGCGTCATACGCTCGCATTGTCAGATATGGGACAGGTCTGGGGTTGGGGCTATGGTGGAGAAGGACAGTTAGGTTTGGGCTCCCGTATACGCATGGTTTCCTCTCCACATCCCATACCTTGCATCGAGTCGTCTTCTCTTGGCAAAGATAGATCTACAGCTCTTGTTAGAGGAAGTGCAAGGTTAGAGGGTCAGGGTAGTAGAATTCCTGGAAGCTATGTGAAGGGAATTGCTTGTGGAGGGCGTCATAGTGCAGCAGTTACAGATGCTGGGGCACTGCTAATGTTTGGTTGGGGACTGTATGGACAGTGTGGACAAGGGTGTACAGATGACGAGTTGAGTCCGACATGTGTATCCTCATTACTGGGTATCCGGATAGAGAGTGTTGCTGCTGGACTGTGGCACACGGTCTGTGTATCTGCCGATGGTGATGTATACTCATTTGGTGGAAATCAGTTTGGGCAGCTAGGAACAGGTGCTGATCAAGCTGAGACACTTCCAAGACTTCTAGACGCACCGAGTGTGGAAAATGTAAATGCAAAGGTTATATCGTGTGGGGCTCGTCATAGTGCTATAGTAACAGAGGATGGGAAAGTGTTCTGCTGGGGATGGAACAAGTATGGCCAGGTCTGTTGGTTAGATTGTATGTTTGTTTTTTCTTTAAAATTTTCACATCAAGTCTGCAGTTTCTCGTTGCCTTCTGCACAAATGCATGTTTATAAGTTGTTTCCCAAGATCAGATCTGATATTGAGGATCTTAGAAGTCTCCATTTACGCACTGCAGCTAGGAAAAAGATCGAAGGCTGGGGACATGGCTTTGGTGAACACGGTTCGGATGCGGTTCACGTCGATCAGAGTTGCCGTTTCAGTGGGGGGTCTCCACGCTGTCTTCTTCTCGCCATTTTCAATTTCTTCGCAAGCCTGAAAAATTGTGCCGGGCCGGAGAAAGACGATCGGAAACTTAGAAGCGTCGGCCGGAGAAGGGAAAAAGCTGAGAGAGAACAGAAATTGTATCCCGGAGAATCTAACCCATCTATCTTCAAGATCTCAGCCTTCATTGTTATCTCTGTCACCTTCTTTTACCTGGGCAAGCATTGGTCTGATGGGTACCCGCAGCTCATCTTCTTCACCGAAACTCGATACACCCCTTCAGTGTCAATGTCACCTAACAATGACAAGTCCTTCAATATTTCTTCTCGGATCTACCAGAATCTAACCCGTGCGGCTCCGGAAAAAGCACTAGTCTCGGCCTCGGCCCCGACCCCAATTCCGATTCTGAGTCCATCTCCTCCTCCTCCTTTTCCGCCTCCGCCACCTGCTTCAGTGCAGAGGTTTGGGATCGTGACCGAGAATGGAACGATGGCTGACGAGTTTGAGGTAGGGGATTTGGATCCTGAGTTTGCGGAGAGCTGGGGGAATGAGAGCGAGACAGGGACAGATGACAGTGGCCCTGTCAAGGTTAGGATCAAGAAGTTTGCTCTTTGCCCGCAGAGCATGAGCGAGTACATACCATGCTTGGATAACGTGGCCGCAATTAAGAAGCTGCAGTCGACGGAAAGAGGGGAAAGGTTCGAGCGGCATTGTCCTGATATTGGTGGGGGATTGAACTGCTTAGTTCCAGCACCGAAGGGATACCGCACGCCCATTCCCTGGCCGAGGAGCCGTGATGAGGTGTGGTTCAGCAATGTTCCTCATACCCGTTTGGTTGAAGACAAAGGGGGTCAAAACTGGATTTCTCGGGACAGAGATAAATTTAGGTTTCCTGGAGGTGGTACACAATTCATTCATGGGGCAAATGAGTACTTGGATCATATCTCTAAGATTGTTCCCGATGTTGCTTTTGGAAGTCATACACGAGTAGTTTTGGATGTTGGATGCGGTGTTGCAAGTTTTGGTGCCTATTTGCTATCACGGAATGTAGCAACAATGTCCGTTGCTCCCAAAGATGTTCATGAGAACCAGATTCAATTTGCTCTTGAGCGTGGTGTTCCTGCAATGGTCGCAGCATTTTCTACTCGTCGTTTATTGTATCCAAGTCAAGCTTTTGACTTGATACATTGCTCAAGATGTAGAATAAATTGGACTCGTGATGATGGAGTTCTGTTGCTGGAGGTTGACAGAATGCTAAGGGCTGGAGGATATTTTGCATGGGCAGCACAGCCTGTGTACAAGCATGAAGAAATTTTGGAGCAGCAGTGGGAAGAGATGATTAACCTTACCACTCGTCTTTGCTGGAAGTTTGTGAAAAAGGATGGATATATTGCAATATGGCAAAAGCCAATGAATAACAGCTGCTACCTTAGCCGTGATTCAGGAACTAAGCCTTCACTTTGTGATGTAGATGATGATCCGGATAAAGTTTGGTATGTTGATCTGAAGCCTTGCATTACTCGGCTTCCAGAAAATGGTTTTGGCAGAAACCTCACGACATGGCCTGCACGCTTGCACGCTCCTCCTGATAGGCTCCAGAGCATTCAATATGATGCCTATATATCTAGAAATGAACTCTTCAGGGCAGAATCTAAATATTGGAATGAAATTATAGGAAGCTATATTCGTGCATTACATTGGAAGAAAATAAGACTAAGGAATGTGATGGACATGAGAGCTGGATTTGGAGGGTTTGCTGCAGCATTAATTGATCATAAATTGGATTCGTGGGTGATGAATGTCGTCCCAGTGAGTGGACCCAACACCTTACCCGTTATATACGATCGTGGACTGCTTGGAGTTATTCATGATTGGTGCGAACCTTTTGATACGTACCCAAGAACATATGATCTATTACATGCAGCTGGTCTTTTTTCATCCGAAAGGAAAAGATGCAGTATGTCGACAATCATGCTTGAGATGCATCGGATCTTGAGGCCCGGCGGGCATGTTTACATTCGCGATACTCTTGCTGTCATGGATGAGCTTCAAGCAATCGGAAAGGCAATGGGTTGGCGTGTTTCCTTGCGTGATACATCCGAAGGACCCCATGCAAGCTATAGGATACTGATTGGTGAAAAACGCCTCTTGCGAGCGTGA MNGEGNRGEEIVKMEEDVKEKIVYMWGYLPGALPQRSPLLSPVVVRLPGKDGTTGHTWRDVCGGGCGFAMAISASGKLITWGSTDDLGQSYVTSGKHGETPEPFPLPTEASIVKAAAGWAHCAAITDRGEVYTWGWKECVPSGKIFGDLSIGAGFEKDVLERQSSSLTDQVSPHLQATRSTGAVVSNIEARGGGAESTKRRRISTAKLAAESSSSSDDTLSALPCLVTLNPGVRIASVSAGGRHTLALSDMGQVWGWGYGGEGQLGLGSRIRMVSSPHPIPCIESSSLGKDRSTALVRGSARLEGQGSRIPGSYVKGIACGGRHSAAVTDAGALLMFGWGLYGQCGQGCTDDELSPTCVSSLLGIRIESVAAGLWHTVCVSADGDVYSFGGNQFGQLGTGADQAETLPRLLDAPSVENVNAKVISCGARHSAIVTEDGKVFCWGWNKYGQVCWLDCMFVFSLKFSHQVCSFSLPSAQMHVYKLFPKIRSDIEDLRSLHLRTAARKKIEGWGHGFGEHGSDAVHVDQSCRFSGGSPRCLLLAIFNFFASLKNCAGPEKDDRKLRSVGRRREKAEREQKLYPGESNPSIFKISAFIVISVTFFYLGKHWSDGYPQLIFFTETRYTPSVSMSPNNDKSFNISSRIYQNLTRAAPEKALVSASAPTPIPILSPSPPPPFPPPPPASVQRFGIVTENGTMADEFEVGDLDPEFAESWGNESETGTDDSGPVKVRIKKFALCPQSMSEYIPCLDNVAAIKKLQSTERGERFERHCPDIGGGLNCLVPAPKGYRTPIPWPRSRDEVWFSNVPHTRLVEDKGGQNWISRDRDKFRFPGGGTQFIHGANEYLDHISKIVPDVAFGSHTRVVLDVGCGVASFGAYLLSRNVATMSVAPKDVHENQIQFALERGVPAMVAAFSTRRLLYPSQAFDLIHCSRCRINWTRDDGVLLLEVDRMLRAGGYFAWAAQPVYKHEEILEQQWEEMINLTTRLCWKFVKKDGYIAIWQKPMNNSCYLSRDSGTKPSLCDVDDDPDKVWYVDLKPCITRLPENGFGRNLTTWPARLHAPPDRLQSIQYDAYISRNELFRAESKYWNEIIGSYIRALHWKKIRLRNVMDMRAGFGGFAAALIDHKLDSWVMNVVPVSGPNTLPVIYDRGLLGVIHDWCEPFDTYPRTYDLLHAAGLFSSERKRCSMSTIMLEMHRILRPGGHVYIRDTLAVMDELQAIGKAMGWRVSLRDTSEGPHASYRILIGEKRLLRA Homology
BLAST of Sgr018650 vs. NCBI nr
Match: KAG7031591.1 (putative methyltransferase PMT11 [Cucurbita argyrosperma subsp. argyrosperma]) HSP 1 Score: 2051.9 bits (5315), Expect = 0.0e+00 Identity = 1020/1268 (80.44%), Postives = 1091/1268 (86.04%), Query Frame = 0
BLAST of Sgr018650 vs. NCBI nr
Match: XP_022138986.1 (probable methyltransferase PMT11 [Momordica charantia]) HSP 1 Score: 1285.4 bits (3325), Expect = 0.0e+00 Identity = 612/678 (90.27%), Postives = 631/678 (93.07%), Query Frame = 0
BLAST of Sgr018650 vs. NCBI nr
Match: XP_038890561.1 (probable methyltransferase PMT11 [Benincasa hispida]) HSP 1 Score: 1277.7 bits (3305), Expect = 0.0e+00 Identity = 601/674 (89.17%), Postives = 633/674 (93.92%), Query Frame = 0
BLAST of Sgr018650 vs. NCBI nr
Match: XP_022976655.1 (probable methyltransferase PMT11 [Cucurbita maxima]) HSP 1 Score: 1258.4 bits (3255), Expect = 0.0e+00 Identity = 596/669 (89.09%), Postives = 629/669 (94.02%), Query Frame = 0
BLAST of Sgr018650 vs. NCBI nr
Match: KAG6600979.1 (putative methyltransferase PMT11, partial [Cucurbita argyrosperma subsp. sororia]) HSP 1 Score: 1258.4 bits (3255), Expect = 0.0e+00 Identity = 597/676 (88.31%), Postives = 632/676 (93.49%), Query Frame = 0
BLAST of Sgr018650 vs. ExPASy Swiss-Prot
Match: O22285 (Probable methyltransferase PMT11 OS=Arabidopsis thaliana OX=3702 GN=At2g39750 PE=2 SV=1) HSP 1 Score: 1052.7 bits (2721), Expect = 3.2e-306 Identity = 491/689 (71.26%), Postives = 565/689 (82.00%), Query Frame = 0
BLAST of Sgr018650 vs. ExPASy Swiss-Prot
Match: Q9FG39 (Probable methyltransferase PMT12 OS=Arabidopsis thaliana OX=3702 GN=At5g06050 PE=2 SV=1) HSP 1 Score: 1008.4 bits (2606), Expect = 6.9e-293 Identity = 470/670 (70.15%), Postives = 557/670 (83.13%), Query Frame = 0
BLAST of Sgr018650 vs. ExPASy Swiss-Prot
Match: Q94KE1 (Probable methyltransferase PMT10 OS=Arabidopsis thaliana OX=3702 GN=At1g77260 PE=2 SV=1) HSP 1 Score: 899.8 bits (2324), Expect = 3.4e-260 Identity = 419/669 (62.63%), Postives = 519/669 (77.58%), Query Frame = 0
BLAST of Sgr018650 vs. ExPASy Swiss-Prot
Match: Q93YV7 (Probable methyltransferase PMT3 OS=Arabidopsis thaliana OX=3702 GN=At4g14360 PE=2 SV=1) HSP 1 Score: 510.8 bits (1314), Expect = 4.5e-143 Identity = 248/531 (46.70%), Postives = 333/531 (62.71%), Query Frame = 0
BLAST of Sgr018650 vs. ExPASy Swiss-Prot
Match: Q8H118 (Probable methyltransferase PMT1 OS=Arabidopsis thaliana OX=3702 GN=At3g23300 PE=2 SV=2) HSP 1 Score: 510.4 bits (1313), Expect = 5.9e-143 Identity = 250/531 (47.08%), Postives = 333/531 (62.71%), Query Frame = 0
BLAST of Sgr018650 vs. ExPASy TrEMBL
Match: A0A6J1CBA6 (Methyltransferase OS=Momordica charantia OX=3673 GN=LOC111010032 PE=3 SV=1) HSP 1 Score: 1285.4 bits (3325), Expect = 0.0e+00 Identity = 612/678 (90.27%), Postives = 631/678 (93.07%), Query Frame = 0
BLAST of Sgr018650 vs. ExPASy TrEMBL
Match: A0A6J1IK26 (Methyltransferase OS=Cucurbita maxima OX=3661 GN=LOC111476991 PE=3 SV=1) HSP 1 Score: 1258.4 bits (3255), Expect = 0.0e+00 Identity = 596/669 (89.09%), Postives = 629/669 (94.02%), Query Frame = 0
BLAST of Sgr018650 vs. ExPASy TrEMBL
Match: A0A0A0KNY6 (Methyltransferase OS=Cucumis sativus OX=3659 GN=Csa_5G184300 PE=3 SV=1) HSP 1 Score: 1251.9 bits (3238), Expect = 0.0e+00 Identity = 591/666 (88.74%), Postives = 624/666 (93.69%), Query Frame = 0
BLAST of Sgr018650 vs. ExPASy TrEMBL
Match: A0A6J1GWY9 (Methyltransferase OS=Cucurbita moschata OX=3662 GN=LOC111458317 PE=3 SV=1) HSP 1 Score: 1249.2 bits (3231), Expect = 0.0e+00 Identity = 591/679 (87.04%), Postives = 626/679 (92.19%), Query Frame = 0
BLAST of Sgr018650 vs. ExPASy TrEMBL
Match: A0A5A7U7L6 (Methyltransferase OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold293G00800 PE=3 SV=1) HSP 1 Score: 1248.8 bits (3230), Expect = 0.0e+00 Identity = 591/666 (88.74%), Postives = 621/666 (93.24%), Query Frame = 0
BLAST of Sgr018650 vs. TAIR 10
Match: AT2G39750.1 (S-adenosyl-L-methionine-dependent methyltransferases superfamily protein ) HSP 1 Score: 1052.7 bits (2721), Expect = 2.3e-307 Identity = 491/689 (71.26%), Postives = 565/689 (82.00%), Query Frame = 0
BLAST of Sgr018650 vs. TAIR 10
Match: AT5G06050.1 (Putative methyltransferase family protein ) HSP 1 Score: 1008.4 bits (2606), Expect = 4.9e-294 Identity = 470/670 (70.15%), Postives = 557/670 (83.13%), Query Frame = 0
BLAST of Sgr018650 vs. TAIR 10
Match: AT1G77260.1 (S-adenosyl-L-methionine-dependent methyltransferases superfamily protein ) HSP 1 Score: 899.8 bits (2324), Expect = 2.4e-261 Identity = 419/669 (62.63%), Postives = 519/669 (77.58%), Query Frame = 0
BLAST of Sgr018650 vs. TAIR 10
Match: AT3G55580.1 (Regulator of chromosome condensation (RCC1) family protein ) HSP 1 Score: 632.5 bits (1630), Expect = 7.3e-181 Identity = 311/462 (67.32%), Postives = 363/462 (78.57%), Query Frame = 0
BLAST of Sgr018650 vs. TAIR 10
Match: AT3G53830.1 (Regulator of chromosome condensation (RCC1) family protein ) HSP 1 Score: 547.4 bits (1409), Expect = 3.1e-155 Identity = 263/436 (60.32%), Postives = 320/436 (73.39%), 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 Position : 0 Zoom : x 1
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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