Sgr025007 (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.ATGCAGGGTGGTGTAGCAGAAAAGAAAACTGCACAAATTGATCAGAAGAGGCAAAAGAAAGGGTCCACCATGGCTGTGCACCTAACAGGCCAAAACCAGAAGCAGTAAATGTAAATTTATATGTAACAAATGTACACCTCTCTCCTTTTCTCTTCTGCCGACACCTTTCTGCACATTTACTAACACTTCATTACATGCTATGCCATATTTTAAGTCTCACTCCCTTGAAGAAAAAAAGTACATAAAATTCGTACTTGTTTAATCCCCAAGGCTCAAAGAGAGAAAGGTAGGAGATATAAACTCTCAGTGCCAGTGGACTAATAAATGACTATTTTTTGAAGGGTAACTTAGTATTTATTTGTTCAGGAGGAGGATTTCAAAGGTGAAGTGGGTGTTGAAATGCAAGAGATAAGAGGAGTAGGAGAGGGGTGGTTGGTTTGGTTGAATGTAAAACTACAGGCAGTGCAGTAGCAGTAGATGTCATAATCCACATGAGCACACGTGAGGGCATATGGGGTTTGTATTATAATAAATGGTATGGTAGACGGTAGTACAGATACGGATGAGATGTTGAGTTATACTAAAACCAGCCATGTCTTGTTTCTACCTGATAGAAATATTTCACTTCTCTGCGAGTGAGTGTGCCATCTTTTTCTTCTTCTCTGTGGGCTCTGGGATTCAGGTTTGGGCCTTTCTCCATAGGCCATGGGAGCTATTAAGACCCAGTTCGATTTATAATGGCCCAAAAGTAGGAGGCAGATCAGAACTCAGCTACTGCTTCAGATATTGCCCAACTTGTAAGTTGTAACCATATCTTATCTGGGGCTGTGTTGTAATTTGGACGGTCGGTTCGAGATGCTTAAGTATTGACTCTAAGCATGGAGACTAAAAATACTTTATTAAAATATCTCGAACGACTACGATTCATAGTCTCGCTGGGCAAGTGCAGCAGTTTATTGTGGCGCGGCAATGGCTATTCATGTTCAGCTCTCGGGGCTCTGCCTGCCCACAACTCGTGCAATCCCGCCACACGTTTTTTACTGTCGAGGCGGACCGTCTCCAGCATCTCTCGCGCCTTCAGCTTCTCTATCTTCGCCGCAGCCCACAATTCAGGTAACGCATTCAAATTCTTATTTTTCCTCATCGGGTCAATTCGCAGAATGGGCTTGTTAGTTTTCATTCCATTTCAATGAAGGTTATTGTTGTTAGCTAATACTTGGGAACACTAAGGTCGAAAATTTTATCTTTACGATTAGCGAGTTGAACTGTAGCATTGTAGTTTCAATCTTCTATACCACTACCTCGAGAATTCGTTCTTGGTTTCATATGAGCCGTAGTATTATTATTCTTTTCTTTAAAAAAAAATAATAATAAATTCTCGTCTTCTGGAACTACTAGATGTTCGCAGTTTTTTCTACTAGCTTTTTATAGAACTTATATTAAGTAGTAATTGAATAAAGTTATGAAATTGTGATCAAATGTTTTAGATCGTTGGTGGTAAAACATCAAATTTGTTTGGAGATTCAAGCTCCAAAGGCACATCTAACAGCGGCCAAGTCGAGAAAGATTGGGTTGATTTTGAAGCTGATCTGTATTACTGGACAAAGGCATTGCGTCCCGTTCAGGTATGGCAAAATTCTGGTATAGAAAATTGGGCAATAATTTTCTTGATGAAGAAATCTTACAAGCTAATGAATACATCCCTTTTTTGCATTTTGTATTGGCAACTCGGCAGTGGTATCCTGGCCATATAGCAAAAACAGAAAAAGAGCTGAACGATCAACTAAAGTTGATGGATGTTGTGATAGAGGTTCGAGATGCTAGAATACCCATGTCTACAAGTCATCCACAGGTTTTGCATCCAAGTTTTGATTTTGTTCATTGTAATCATTTGATTCTTGTCTCACAAATTTTTGTTTTATGTATATACTTTGTTAAAATATGTAGGAGATTGACTTGAATGTTTTCAGTTCTTAATTGGACTATTTGACATCCATAACTATTGATACCCCTAATACAATGTCATAGAAGTGCAAAGATGTTCAGAGGCTATAATTCTTTTGGCTAAAATACAGACTATTAAAGTTGCTTTAACTCACCACATTTTACCGTATGTTACACTGATTGTTTACTAAAGGCTGAAATGCTTTTTCTTTCATCACCAAAAAATTATCTGACTGTGATCTTTTATTTTATTTACAATTTATTTATCATTTCATGAATAGATGGATGCATGGCTTGGTAATAGGAGGAGAATATTGGTATTAAATAGAGAAGATATGATATCTTCGGCAGACCGGAATGCTTGGGCAGCTTATTTTACGAGACAGGGAATAAAAGTGGTATTTTCGAATGGGCAACTCGGAATGGTATCTAAATAAGTGAAATTCTTTCTGATTATCCTGACTTTAACGTTGTAATAGTAGATAATGCTTTCATGTGGCAACTGTAGGGCACAATGAAGCTAGGGCGGTTGGCAAAGACATTAGCAGCAGATGTAAATGTCAAACGTAGAGCAAAAGGACTACTTCCTCGTGCGGTTCGTTACATGAAATGACTGAATTCTAATGCTTAACCTTGTTTTTTAAGGTTTTTATATATCTAAATTTTTATGTACCAAGTGTATATCTTCACATCATAAATGATTTTCGTTCTGTTTCTGATTAAGCAGACAAACAAAAGCAGCACAAAGACATTCAGCCTTGAGCATATTATTATTTGAATAACTGCTTATGTTGCTATTTGATATTTTTCTGTGCAATTTCAATCTGTGAAAATTATGGGGGCTATATTGGGTTTATCCTTTATAGTAAATAGAAATATTTTCAGAACGTACCTTAAAAAACCCAAGTGATTATTGTATAGGTTCGTGCTGGAATAGTTGGATATCCTAATGTTGGAAAATCATCTCTGATCAACCGCTTGCTGAAACGACGAATGTGTCCAGCAGCTCCAAGACCAGGTGTCACCAGAGAACTGAAGTATGATGCTTTTTTTTTTTTTTTTTTTTGTATCTCTATAATGCCGATTAAGTTGTAAAAACTGGGAACAGGGGAGGGGAATGGGTTGTAAAGCCATTTTATTGCATTTTGGGAAGAAGGATTCTCTTTCTAAGTAGAGTTCAATGACGTCTTTCAATAACTGTCTCCTTATTTCCTTTCTCTTGTAAAAGGTGGGTTCGTTTTGGCAAAGATCTTGAGTTGCTTGACTCTCCTGGTATTATTCCAATGCGGATTAGTGACCAGACAGCTGCAATAAAGCTTGCGATATGCGATGACATTGGAGAGAGGTCCTACAATGTTGCTGATGTCGCTGCCATCCTTGTACAGATGCTAACCAAGCTTCCATCAGTAGGTATGTACCATGCAAATATTTTGCCGTCGTGAAATTTCCAAGAATACAAGTTATCTCTCTTGGTGGGACAGAAATATTTCCTGCACTAGTTACGTGATAATCAATTCATTTATATTCACTGACTTCATTGCTTGACGGAAAACTGCAACTCCGAAACTGCAGCATACATTTGCTTGCACGTTTCAGGATGTTCGCTTTCACCTGCTCAAAACGATCTGTTTCCTAATTGTTGATGAGTGATACTAGTTTCTTTTTGCAAATCTCCAGGTATAGAAGCACTTCAAAACCGATATAAAGTTGATGCAGACGGTCAATGTGGTCACATGTACGTTATTAGACGCTAATCAATAGTTTTATCTCAAGTTTAGTATTATTATATGCGTGAAGCATCATCATTTCTTGATGAGAAAAGCTCTACCTCTCTTTACTCTCCTTCCACCTTGTCTCGTTTAGTTCTTTCTTTTACCCTGTGGGACGGAATCTTTGACTCGAGAATCTCTCTGGTGATAAAAAAAGAAAAAGAGTGCATATTTGCAGTCCAGAAATAATTCCTAGTAAATTTTTGGCGACAGATTTGTTCAAAAGTTAGCAGTCCAATTGTTCAATGGGGACAGTCATCAAGCAGCTTTCCGCATCTTGTCAGATTTTCGTAAAGGAAAGTTTGGTTGGATTGCGTTGGAGAGGCCTCCCAGGTAATGCTGTTGGATGATGTTTGCATGGAGGTCAGAATTTCACCTTCTCACTCATACAATTCGTATAAATGCTAAAGGCCACCTGGTTTAGAATTAGAAACTCTTAACAGATGAGAAAGCTTCACAATGTCTATATTGCTTTCAACTTGCGGAGTTATGGAAAACAAAAATTGGAGTCCTTGATCATAAAGTCGGCTAGGAGTCTCATTAATTTGTGAAGCCATTGTTATCATGTAATATATGTTCTTAACCTACGTGTAATTAGAACTATCTATTTGAATAACTTCCATTCGCATCCCAATTGAAATTTATAGTACTTTTGCCATAAGTATCATTGTCAGCTGGCCCTATGTTTTGAATATTCGTAGGCATTTTATGATTCTGGCAAAACTGGTGGAATCATTTCACAGAAATGAAAGAAAACGGTTACATCTTCCAGAATTGTTTGGCAGAGTAAAAGGGAGCCAAGGATACGCAGACGATACTTTACAACTTTCATAAGTCATGTCGGTTTCTTTTGTAAATGCAAAAATAAACAATGAGCAACAGAAGTAAGAGCCCAATTACTTCACTTCTGAATCACGTTATTTGGGTAAGTTGATAGAAGTACAATAAATGAGAATACATGTACAAAAGTATTGAAAGTGGACAGTACAGTTTTGCACAATTATCAGCAGAATGATCAAGCAGCTACTGGAACTTTTAGGGACTCTAGTATCTTATCATCTAACTCAAACTTAATAGGTTTCTTGTCTCTGCCAATTTCACATACTCTTGAAATCGCTCCTTCAAATCTTAGGAAGATTTGTGGTACCTTTCCACCCTAAAATGTCTTGGCTGCTCTTGGCTCCGCATAGAAATGCTGCAGAAAACAATGGGTAACAATGTCTTAAAGTTGATATCACACTTTTTTTAAAATTCAACCTTTATCTTCACTTATCTCGAAATTCTGAATCTTCTATATATACCCACCAAAATACCAACGAAACTATTTCATTTTACCCACCATATTCCTGAAAGGAAAAGCTTTCTTTGCATCAATCCCAACTGCTTTTGGATCATAATGCACAATGTTAACCGGACGGCCTGCTGCTTGAGCACATAGCTTGGCCATTCCATCAAGAGTCACAGCGCGATCACTTACGCAGTTGAATATGTTAGAGTGTGCTTCATCTGGCTTGTCTACTGCCAGTGTCAGCATAGAAGACAAGTCCTTGACATGGGCGATGTTTGTCAGCTGCATCCCGGAGCCTGGAATTGGAACCGGTCTGTCCCGGACGATTCCTGCATTGGGTATATACCAAGGCCATGAACTCATCAATCAAAGTTAGAAATGTGCATGTCATTCTACATAATTGACAGGTTTAGAAAGATGTGTGCTCTTACGATCAAAGAACCACTCTTCACAATCTTTATTGTTTCCTGATCCAATCATGTACTGTGGACGGAAAATGGCCCAATTGCTGAAAACCTCTGCAAGATATTCTTCAACACCAACATGACTAGCATCAGCTTTAACAATATCCTGTCATAGTAATCATGCAGATTTATTAGCATTCTGAAATCTCTGCTTTCTTGGCTGAGAAAATGTATTCATCCTACAATGCAGGGAGGATCACGTTGAAAGTCTAGCATTTACCCCTTCAATATGAGGAGGCTCATCAGTTGGTTTATAAATTCCAGCACTGCTGATGTATAGAAACTGCTTCACACTAGAGCTCTTTGCCCAATCAATAACGGGTCTGCGTCAAACACATGGGCCAAATGGCAACTTAGGTTGAATTTTAGTATTGCTCGAGGGATAAAGTCTAGTCTAGTTGATTTAAGGTTCAAACCTCCTTACCTTACTGAAATCCTTTGTGAAAAAGAGTAATCTACATGATTTAGTATGTCTGGCATATGAATTTCAGCCCTCATAACACAGATATTTTCTTTTTAAAGGCTAAATTGTGTTATTGTTTTTCTTGGCATCTTATAGCCATGTTTAAAAGGTCGATTGATTTCATTTTCAACAATGAAGAATCCTATCAAACTCTTAATGTTCTAAGAAAAAGTAGTAAAACGCTAAGATTTGTTGCAGATGCCAGAAGCTTAGGTCACAAACCTCACAGTATCAATGTCCTTGCCATTGTTATCTAATACCACATCAAATGATGCCCCTGCCACAGCCTTCCCAACTTCGGCTGGATTCCCCCATACTGTCTTGCCTCCGGCACTCACAATTTCCTGAAGAACATTCCAAATCGCACAGATAGTTAAAAGATAATCCAACAAATTCCCACTAATAACCACCACTAATTTCGAGTTCCATGCCAGAGTATATTATAATAAATACTCTTGACAAAGAAACTTTTTAAATACTAACTGAGAATCTGTTAAATGGAGGCTTCTTCATCTTGTCCGAACTCTCGTCACCGACAGTGAGAATTGTGACGTCATGGCCGGAGCTGAGAAGGTCTTTTGCAAAATAGAAACCAATTATTGCATGGCCACCGCTGTTTGTGTTGACAATCAAGACCTTCTTCTTCTCAGCAGAACTAGCCCTGAGGCTGAAGGAGAAAACATTCGAGGGTCTAGAACTGGAGGGGGAAGAGAGAAGAGAATGAGAAATGGAGAAAGAGGATGAGAGAGCAGAAGGGTGAGAGATTGGAGAGAGTGAGAGACGTGGAAGATAAGGAGAAAGAGAAGGTGGAAGATGGATGGAGGGCGTAGAGGAGAAGAGGGAAGATGAGGAAGCAAGAGCAGCCATGGAATGAAAAAAGTTTTGTGCTTGATCGTGTGAGAAGAGAGAAGAGAACCAGCTCTTTTATTACTAGATATAATAAGATAACGGCCAATCATTTGCAATTGGTTGGCCCATATACCACTTGGCAAAAAATGTAAATAGCTGCTATGTTTACCTTGCGCGTTTGCCAAATATAGTAAAAGATCCAACTGAATGGTCAAAATAAAAGGAAGATTCAGTTCGAATATGAAAATTAAATTAATTAATTTAAGTTGAATTGGGTTAATTTGAAAATAATACTCCACGACGAGACGACCGTATTAATTAAAGAGAGATCAGGGTAAGTTTTATGTTATCAAAAACTAGAACAGGAAAGGACAGTAATGATATCTGTACTGTAGAGGTGTGAATAGGATTTAAGAGATGAGAAATTCAATGGCTGCCTCATTAAATTTGTGTAATCCAATTGTTTCTAATTTTTACCAGATGAGCTTTCCGAGCCGTTGAATTTTATCTTCCGGGGTGGGTGGGTTCCACTTCGAAGAGCAGCAGGAGCAGAGTGAAAAAGCATTCTTTCTCTTTCTCTCTCTCTCTTCAGTCTTCGTAAAGCAAATAAAAATAAAAGCCAACTTGTTTTTGAGATATCACATAAAATAATTGAAATTGATAATTATCTCAGATAGATTCAGAACGTTGGCATTGCCTTTCCTCTTATTTAAATCTTCGCAATCAGCTAAAGCCACTTTTTTTTTTAAGACTAGCCGTTGCAATCTTCTCTTTTCATCTTCCTCTTCCTCATGGCAGCCTCAGTGGATTCTCCGTCATCTTCGCATCCCAACCAGGTGCTTCTTCTCTCTTCCAGTTAACTGGGGTTTTGTGGGTGGGGGGGTCTTCTTTTCTGATGCATTTTCATCAATGATTATAGGGATCGACGAGCTTCATGGGTTCGTCGCCATTGTTCAGTCCCGCTTCGGATAAGCGTTTCTGGAGCTCCCTTCGGGGTAGAGTAGAGTCGCTTCTTGAGGAACGAAATGGAAAATCTTCAAATCTGGATCCTACCATGCCCGACCAAACACTGACAGTGAGTGCTTTTCCTCTTCCAGTTTTTCCTTTTTCCGCTAAGTTTTAATATTAATGGGTTTGTGGGGATAGAACTCGAGCAAATCGGAAAGGGCGAAGAGATTGAAGGAAGATTCTTTGCTTCTGCTGAGAGGTTTCGACTCCGTTGGCTATACCCTGTCTCAGCTATCCAACAATTTGGACAATGCGTTGCAGGTACTACCACATTCACTCTTCCACTCTCTAGTCTCTGTGTCCTTTAGTTGCCATAAAGAACTTGCAACTTTCTCTTTTTTATTTTTCAAATGCTCTTGAAATCCACAAACAAATATTCACTTTGTGGTCTGAGTACAGGGCGCTAGAGATCTAGTCAAAGCACCAACCTTGATGGAGATCTTCCAGAACAACTTGAAGAACTCGGAAGATGATTCCAAAAGGAAAGAAAATCAATTGGAGCCCAAGCAAGCAACAAAGAGAAAATTTGATGACAGCCATTGCGAAGAAGAAGCAGGGGATGATTTAGAGAAAGAAAGCCAGCAAAACCCAAAAGACAAGCTTAAAAAGGCCAAAAATGTTGGTTTCCTTATCCTTCATCTAATTTGAATGTCGTTGAACACCCAACAAGTTCTTATGCGATATTAACTTTTTGGCTTGCGTTTCTCCAGCTTGCAGTTACAATGGCAACAAAATCAGCCTCTCTGGCAAGAGAATTAAAATCATTAAAATCCAATTATGTTTTATGCAAGAGCGATGTGCCATACTGGAGGAAGAGAATAGGAGACTTCGCGACGGATTTTCCAGAGGGATTAGACCCGAAGAAGATGATCTGGTCGGTATCGAACTTATAATTCATTTTTCTTCCGTCCTACATCTGTACTGTAAGTTAGGTGATTTATGTGAAGTCTGTTTTTGGTGGTGAATCAGGTCAGACTTCAAATGGAGGCATTACTCGCTGAGAAATCCAGATTAGCAAACGAAAATGCAAACTTAACAAGGGAAAATCAATGCCTTCACCAGCTTGTGGAGTATCATCAGCTCACATCCCAAGATCTCTCTGTATCTTATGAGGAAGTCATCCAAGGCATGTGCTTGGACTTCTCGTCACCACCACCAGCCATTGCTGAAGAAGACGAAGAAGAACAACAAGGTGACAGTGTTGACAAAGAAATCACTCGAACACCAAGACCTGATCTTTCTAGCTTTTCTACCTCCCTTGATGAACTCCACCAAGAAGAATAG ATGCAGGGTGGTGTAGCAGAAAAGAAAACTGCACAAATTGATCAGAAGAGGCAAAAGAAAGGGTCCACCATGGCTGTGCACCTAACAGGCCAAAACCAGAAGCAAGATAAGAGGAGTAGGAGAGGGGTGGTTGGTTTGGTTGAATGTAAAACTACAGGCAGTGCAGTAGCAGTAGATGTCATAATCCACATGAGCACACCCATGTCTTGTTTCTACCTGATAGAAATATTTCACTTCTCTGCGAGTGAGTGTGCCATCTTTTTCTTCTTCTCTGTGGGCTCTGGGATTCAGGAGGCAGATCAGAACTCAGCTACTGCTTCAGATATTGCCCAACTTTCTCGCTGGGCAAGTGCAGCAGTTTATTGTGGCGCGGCAATGGCTATTCATGTTCAGCTCTCGGGGCTCTGCCTGCCCACAACTCGTGCAATCCCGCCACACGTTTTTTACTGTCGAGGCGGACCGTCTCCAGCATCTCTCGCGCCTTCAGCTTCTCTATCTTCGCCGCAGCCCACAATTCAGATCGTTGGTGGTAAAACATCAAATTTGTTTGGAGATTCAAGCTCCAAAGGCACATCTAACAGCGGCCAAGTCGAGAAAGATTGGGTTGATTTTGAAGCTGATCTGTATTACTGGACAAAGGCATTGCGTCCCGTTCAGTGGTATCCTGGCCATATAGCAAAAACAGAAAAAGAGCTGAACGATCAACTAAAGTTGATGGATGTTGTGATAGAGGTTCGAGATGCTAGAATACCCATGTCTACAAGTCATCCACAGATGGATGCATGGCTTGGTAATAGGAGGAGAATATTGGTATTAAATAGAGAAGATATGATATCTTCGGCAGACCGGAATGCTTGGGCAGCTTATTTTACGAGACAGGGAATAAAAGTGGTATTTTCGAATGGGCAACTCGGAATGGGCACAATGAAGCTAGGGCGGTTGGCAAAGACATTAGCAGCAGATGTAAATGTCAAACGTAGAGCAAAAGGACTACTTCCTCGTGCGGTTCGTGCTGGAATAGTTGGATATCCTAATGTTGGAAAATCATCTCTGATCAACCGCTTGCTGAAACGACGAATGTGTCCAGCAGCTCCAAGACCAGGTGTCACCAGAGAACTGAAGTGGGTTCGTTTTGGCAAAGATCTTGAGTTGCTTGACTCTCCTGGTATTATTCCAATGCGGATTAGTGACCAGACAGCTGCAATAAAGCTTGCGATATGCGATGACATTGGAGAGAGGTCCTACAATGTTGCTGATGTCGCTGCCATCCTTGTACAGATGCTAACCAAGCTTCCATCAGTAGGTATAGAAGCACTTCAAAACCGATATAAAGTTGATGCAGACGGTCAATGTGGTCACATATTTGTTCAAAAGTTAGCAGTCCAATTGTTCAATGGGGACAGTCATCAAGCAGCTTTCCGCATCTTGTCAGATTTTCGTAAAGGAAAGTTTGGTTGGATTGCGTTGGAGAGGCCTCCCAGCTTGGCCATTCCATCAAGAGTCACAGCGCGATCACTTACGCAGTTGAATATGTTAGAGTGTGCTTCATCTGGCTTGTCTACTGCCAGTGTCAGCATAGAAGACAAGTCCTTGACATGGGCGATGTTTGTCAGCTGCATCCCGGAGCCTGGAATTGGAACCGGTCTGTCCCGGACGATTCCTGCATTGGAATCTGTTAAATGGAGGCTTCTTCATCTTGTCCGAACTCTCGTCACCGACAGTGAGAATTGTGACGTCATGGCCGGAGCTGAGAAGAACTGGAGGGGGAAGAGAGAAGAGAATGAGAAATGGAGAAAGAGGATGAGAGAGCAGAAGGGTGAGAGATTGGAGAGAGTGAGAGACGTGGAAGATAAGGAGAAAGAGAAGCCGTTGCAATCTTCTCTTTTCATCTTCCTCTTCCTCATGGCAGCCTCAGTGGATTCTCCGTCATCTTCGCATCCCAACCAGGGATCGACGAGCTTCATGGGTTCGTCGCCATTGTTCAGTCCCGCTTCGGATAAGCGTTTCTGGAGCTCCCTTCGGGGTAGAGTAGAGTCGCTTCTTGAGGAACGAAATGGAAAATCTTCAAATCTGGATCCTACCATGCCCGACCAAACACTGACAAACTCGAGCAAATCGGAAAGGGCGAAGAGATTGAAGGAAGATTCTTTGCTTCTGCTGAGAGGTTTCGACTCCGTTGGCTATACCCTGTCTCAGCTATCCAACAATTTGGACAATGCGTTGCAGGGCGCTAGAGATCTAGTCAAAGCACCAACCTTGATGGAGATCTTCCAGAACAACTTGAAGAACTCGGAAGATGATTCCAAAAGGAAAGAAAATCAATTGGAGCCCAAGCAAGCAACAAAGAGAAAATTTGATGACAGCCATTGCGAAGAAGAAGCAGGGGATGATTTAGAGAAAGAAAGCCAGCAAAACCCAAAAGACAAGCTTAAAAAGGCCAAAAATCTTGCAGTTACAATGGCAACAAAATCAGCCTCTCTGGCAAGAGAATTAAAATCATTAAAATCCAATTATGTTTTATGCAAGAGCGATGTGCCATACTGGAGGAAGAGAATAGGAGACTTCGCGACGGATTTTCCAGAGGGATTAGACCCGAAGAAGATGATCTGGTCGGTCAGACTTCAAATGGAGGCATTACTCGCTGAGAAATCCAGATTAGCAAACGAAAATGCAAACTTAACAAGGGAAAATCAATGCCTTCACCAGCTTGTGGAGTATCATCAGCTCACATCCCAAGATCTCTCTGTATCTTATGAGGAAGTCATCCAAGGCATGTGCTTGGACTTCTCGTCACCACCACCAGCCATTGCTGAAGAAGACGAAGAAGAACAACAAGGTGACAGTGTTGACAAAGAAATCACTCGAACACCAAGACCTGATCTTTCTAGCTTTTCTACCTCCCTTGATGAACTCCACCAAGAAGAATAG ATGCAGGGTGGTGTAGCAGAAAAGAAAACTGCACAAATTGATCAGAAGAGGCAAAAGAAAGGGTCCACCATGGCTGTGCACCTAACAGGCCAAAACCAGAAGCAAGATAAGAGGAGTAGGAGAGGGGTGGTTGGTTTGGTTGAATGTAAAACTACAGGCAGTGCAGTAGCAGTAGATGTCATAATCCACATGAGCACACCCATGTCTTGTTTCTACCTGATAGAAATATTTCACTTCTCTGCGAGTGAGTGTGCCATCTTTTTCTTCTTCTCTGTGGGCTCTGGGATTCAGGAGGCAGATCAGAACTCAGCTACTGCTTCAGATATTGCCCAACTTTCTCGCTGGGCAAGTGCAGCAGTTTATTGTGGCGCGGCAATGGCTATTCATGTTCAGCTCTCGGGGCTCTGCCTGCCCACAACTCGTGCAATCCCGCCACACGTTTTTTACTGTCGAGGCGGACCGTCTCCAGCATCTCTCGCGCCTTCAGCTTCTCTATCTTCGCCGCAGCCCACAATTCAGATCGTTGGTGGTAAAACATCAAATTTGTTTGGAGATTCAAGCTCCAAAGGCACATCTAACAGCGGCCAAGTCGAGAAAGATTGGGTTGATTTTGAAGCTGATCTGTATTACTGGACAAAGGCATTGCGTCCCGTTCAGTGGTATCCTGGCCATATAGCAAAAACAGAAAAAGAGCTGAACGATCAACTAAAGTTGATGGATGTTGTGATAGAGGTTCGAGATGCTAGAATACCCATGTCTACAAGTCATCCACAGATGGATGCATGGCTTGGTAATAGGAGGAGAATATTGGTATTAAATAGAGAAGATATGATATCTTCGGCAGACCGGAATGCTTGGGCAGCTTATTTTACGAGACAGGGAATAAAAGTGGTATTTTCGAATGGGCAACTCGGAATGGGCACAATGAAGCTAGGGCGGTTGGCAAAGACATTAGCAGCAGATGTAAATGTCAAACGTAGAGCAAAAGGACTACTTCCTCGTGCGGTTCGTGCTGGAATAGTTGGATATCCTAATGTTGGAAAATCATCTCTGATCAACCGCTTGCTGAAACGACGAATGTGTCCAGCAGCTCCAAGACCAGGTGTCACCAGAGAACTGAAGTGGGTTCGTTTTGGCAAAGATCTTGAGTTGCTTGACTCTCCTGGTATTATTCCAATGCGGATTAGTGACCAGACAGCTGCAATAAAGCTTGCGATATGCGATGACATTGGAGAGAGGTCCTACAATGTTGCTGATGTCGCTGCCATCCTTGTACAGATGCTAACCAAGCTTCCATCAGTAGGTATAGAAGCACTTCAAAACCGATATAAAGTTGATGCAGACGGTCAATGTGGTCACATATTTGTTCAAAAGTTAGCAGTCCAATTGTTCAATGGGGACAGTCATCAAGCAGCTTTCCGCATCTTGTCAGATTTTCGTAAAGGAAAGTTTGGTTGGATTGCGTTGGAGAGGCCTCCCAGCTTGGCCATTCCATCAAGAGTCACAGCGCGATCACTTACGCAGTTGAATATGTTAGAGTGTGCTTCATCTGGCTTGTCTACTGCCAGTGTCAGCATAGAAGACAAGTCCTTGACATGGGCGATGTTTGTCAGCTGCATCCCGGAGCCTGGAATTGGAACCGGTCTGTCCCGGACGATTCCTGCATTGGAATCTGTTAAATGGAGGCTTCTTCATCTTGTCCGAACTCTCGTCACCGACAGTGAGAATTGTGACGTCATGGCCGGAGCTGAGAAGAACTGGAGGGGGAAGAGAGAAGAGAATGAGAAATGGAGAAAGAGGATGAGAGAGCAGAAGGGTGAGAGATTGGAGAGAGTGAGAGACGTGGAAGATAAGGAGAAAGAGAAGCCGTTGCAATCTTCTCTTTTCATCTTCCTCTTCCTCATGGCAGCCTCAGTGGATTCTCCGTCATCTTCGCATCCCAACCAGGGATCGACGAGCTTCATGGGTTCGTCGCCATTGTTCAGTCCCGCTTCGGATAAGCGTTTCTGGAGCTCCCTTCGGGGTAGAGTAGAGTCGCTTCTTGAGGAACGAAATGGAAAATCTTCAAATCTGGATCCTACCATGCCCGACCAAACACTGACAAACTCGAGCAAATCGGAAAGGGCGAAGAGATTGAAGGAAGATTCTTTGCTTCTGCTGAGAGGTTTCGACTCCGTTGGCTATACCCTGTCTCAGCTATCCAACAATTTGGACAATGCGTTGCAGGGCGCTAGAGATCTAGTCAAAGCACCAACCTTGATGGAGATCTTCCAGAACAACTTGAAGAACTCGGAAGATGATTCCAAAAGGAAAGAAAATCAATTGGAGCCCAAGCAAGCAACAAAGAGAAAATTTGATGACAGCCATTGCGAAGAAGAAGCAGGGGATGATTTAGAGAAAGAAAGCCAGCAAAACCCAAAAGACAAGCTTAAAAAGGCCAAAAATCTTGCAGTTACAATGGCAACAAAATCAGCCTCTCTGGCAAGAGAATTAAAATCATTAAAATCCAATTATGTTTTATGCAAGAGCGATGTGCCATACTGGAGGAAGAGAATAGGAGACTTCGCGACGGATTTTCCAGAGGGATTAGACCCGAAGAAGATGATCTGGTCGGTCAGACTTCAAATGGAGGCATTACTCGCTGAGAAATCCAGATTAGCAAACGAAAATGCAAACTTAACAAGGGAAAATCAATGCCTTCACCAGCTTGTGGAGTATCATCAGCTCACATCCCAAGATCTCTCTGTATCTTATGAGGAAGTCATCCAAGGCATGTGCTTGGACTTCTCGTCACCACCACCAGCCATTGCTGAAGAAGACGAAGAAGAACAACAAGGTGACAGTGTTGACAAAGAAATCACTCGAACACCAAGACCTGATCTTTCTAGCTTTTCTACCTCCCTTGATGAACTCCACCAAGAAGAATAG MQGGVAEKKTAQIDQKRQKKGSTMAVHLTGQNQKQDKRSRRGVVGLVECKTTGSAVAVDVIIHMSTPMSCFYLIEIFHFSASECAIFFFFSVGSGIQEADQNSATASDIAQLSRWASAAVYCGAAMAIHVQLSGLCLPTTRAIPPHVFYCRGGPSPASLAPSASLSSPQPTIQIVGGKTSNLFGDSSSKGTSNSGQVEKDWVDFEADLYYWTKALRPVQWYPGHIAKTEKELNDQLKLMDVVIEVRDARIPMSTSHPQMDAWLGNRRRILVLNREDMISSADRNAWAAYFTRQGIKVVFSNGQLGMGTMKLGRLAKTLAADVNVKRRAKGLLPRAVRAGIVGYPNVGKSSLINRLLKRRMCPAAPRPGVTRELKWVRFGKDLELLDSPGIIPMRISDQTAAIKLAICDDIGERSYNVADVAAILVQMLTKLPSVGIEALQNRYKVDADGQCGHIFVQKLAVQLFNGDSHQAAFRILSDFRKGKFGWIALERPPSLAIPSRVTARSLTQLNMLECASSGLSTASVSIEDKSLTWAMFVSCIPEPGIGTGLSRTIPALESVKWRLLHLVRTLVTDSENCDVMAGAEKNWRGKREENEKWRKRMREQKGERLERVRDVEDKEKEKPLQSSLFIFLFLMAASVDSPSSSHPNQGSTSFMGSSPLFSPASDKRFWSSLRGRVESLLEERNGKSSNLDPTMPDQTLTNSSKSERAKRLKEDSLLLLRGFDSVGYTLSQLSNNLDNALQGARDLVKAPTLMEIFQNNLKNSEDDSKRKENQLEPKQATKRKFDDSHCEEEAGDDLEKESQQNPKDKLKKAKNLAVTMATKSASLARELKSLKSNYVLCKSDVPYWRKRIGDFATDFPEGLDPKKMIWSVRLQMEALLAEKSRLANENANLTRENQCLHQLVEYHQLTSQDLSVSYEEVIQGMCLDFSSPPPAIAEEDEEEQQGDSVDKEITRTPRPDLSSFSTSLDELHQEE Homology
BLAST of Sgr025007 vs. NCBI nr
Match: XP_038887632.1 (DAR GTPase 3, chloroplastic isoform X2 [Benincasa hispida]) HSP 1 Score: 679.9 bits (1753), Expect = 3.3e-191 Identity = 334/366 (91.26%), Postives = 345/366 (94.26%), Query Frame = 0
BLAST of Sgr025007 vs. NCBI nr
Match: KAG7011232.1 (DAR GTPase 3, chloroplastic, partial [Cucurbita argyrosperma subsp. argyrosperma]) HSP 1 Score: 679.1 bits (1751), Expect = 5.7e-191 Identity = 335/368 (91.03%), Postives = 345/368 (93.75%), Query Frame = 0
BLAST of Sgr025007 vs. NCBI nr
Match: XP_023554315.1 (DAR GTPase 3, chloroplastic [Cucurbita pepo subsp. pepo]) HSP 1 Score: 677.2 bits (1746), Expect = 2.2e-190 Identity = 334/368 (90.76%), Postives = 344/368 (93.48%), Query Frame = 0
BLAST of Sgr025007 vs. NCBI nr
Match: KAG6571470.1 (DAR GTPase 3, chloroplastic, partial [Cucurbita argyrosperma subsp. sororia]) HSP 1 Score: 675.2 bits (1741), Expect = 8.2e-190 Identity = 333/368 (90.49%), Postives = 345/368 (93.75%), Query Frame = 0
BLAST of Sgr025007 vs. NCBI nr
Match: XP_038887631.1 (DAR GTPase 3, chloroplastic isoform X1 [Benincasa hispida]) HSP 1 Score: 674.5 bits (1739), Expect = 1.4e-189 Identity = 332/364 (91.21%), Postives = 343/364 (94.23%), Query Frame = 0
BLAST of Sgr025007 vs. ExPASy Swiss-Prot
Match: Q8H1F6 (DAR GTPase 3, chloroplastic OS=Arabidopsis thaliana OX=3702 GN=DGP3 PE=2 SV=1) HSP 1 Score: 491.1 bits (1263), Expect = 2.9e-137 Identity = 240/338 (71.01%), Postives = 284/338 (84.02%), Query Frame = 0
BLAST of Sgr025007 vs. ExPASy Swiss-Prot
Match: C5D8U8 (Ribosome biogenesis GTPase A OS=Geobacillus sp. (strain WCH70) OX=471223 GN=rbgA PE=3 SV=1) HSP 1 Score: 190.3 bits (482), Expect = 1.0e-46 Identity = 109/282 (38.65%), Postives = 163/282 (57.80%), Query Frame = 0
BLAST of Sgr025007 vs. ExPASy Swiss-Prot
Match: Q819W8 (Ribosome biogenesis GTPase A OS=Bacillus cereus (strain ATCC 14579 / DSM 31 / JCM 2152 / NBRC 15305 / NCIMB 9373 / NRRL B-3711) OX=226900 GN=rbgA PE=3 SV=1) HSP 1 Score: 189.1 bits (479), Expect = 2.3e-46 Identity = 102/289 (35.29%), Postives = 161/289 (55.71%), Query Frame = 0
BLAST of Sgr025007 vs. ExPASy Swiss-Prot
Match: E0TTS5 (Ribosome biogenesis GTPase A OS=Bacillus subtilis subsp. spizizenii (strain ATCC 23059 / NRRL B-14472 / W23) OX=655816 GN=rbgA PE=3 SV=1) HSP 1 Score: 188.0 bits (476), Expect = 5.2e-46 Identity = 102/281 (36.30%), Postives = 163/281 (58.01%), Query Frame = 0
BLAST of Sgr025007 vs. ExPASy Swiss-Prot
Match: O31743 (Ribosome biogenesis GTPase A OS=Bacillus subtilis (strain 168) OX=224308 GN=rbgA PE=1 SV=1) HSP 1 Score: 187.6 bits (475), Expect = 6.8e-46 Identity = 102/281 (36.30%), Postives = 163/281 (58.01%), Query Frame = 0
BLAST of Sgr025007 vs. ExPASy TrEMBL
Match: A0A6J1HS12 (DAR GTPase 3, chloroplastic OS=Cucurbita maxima OX=3661 GN=LOC111466972 PE=4 SV=1) HSP 1 Score: 673.3 bits (1736), Expect = 1.5e-189 Identity = 331/368 (89.95%), Postives = 344/368 (93.48%), Query Frame = 0
BLAST of Sgr025007 vs. ExPASy TrEMBL
Match: A0A6J1HIQ5 (DAR GTPase 3, chloroplastic OS=Cucurbita moschata OX=3662 GN=LOC111463946 PE=4 SV=1) HSP 1 Score: 673.3 bits (1736), Expect = 1.5e-189 Identity = 332/368 (90.22%), Postives = 343/368 (93.21%), Query Frame = 0
BLAST of Sgr025007 vs. ExPASy TrEMBL
Match: A0A5D3CV40 (DAR GTPase 3 OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold790G001140 PE=4 SV=1) HSP 1 Score: 672.5 bits (1734), Expect = 2.6e-189 Identity = 331/376 (88.03%), Postives = 346/376 (92.02%), Query Frame = 0
BLAST of Sgr025007 vs. ExPASy TrEMBL
Match: A0A1S3CIW2 (DAR GTPase 3, chloroplastic OS=Cucumis melo OX=3656 GN=LOC103501342 PE=4 SV=1) HSP 1 Score: 670.2 bits (1728), Expect = 1.3e-188 Identity = 330/368 (89.67%), Postives = 342/368 (92.93%), Query Frame = 0
BLAST of Sgr025007 vs. ExPASy TrEMBL
Match: A0A6J1DPX2 (DAR GTPase 3, chloroplastic isoform X1 OS=Momordica charantia OX=3673 GN=LOC111022728 PE=4 SV=1) HSP 1 Score: 667.2 bits (1720), Expect = 1.1e-187 Identity = 336/372 (90.32%), Postives = 347/372 (93.28%), Query Frame = 0
BLAST of Sgr025007 vs. TAIR 10
Match: AT4G02790.1 (GTP-binding family protein ) HSP 1 Score: 491.1 bits (1263), Expect = 2.0e-138 Identity = 240/338 (71.01%), Postives = 284/338 (84.02%), Query Frame = 0
BLAST of Sgr025007 vs. TAIR 10
Match: AT4G02800.1 (unknown protein; FUNCTIONS IN: molecular_function unknown; INVOLVED IN: biological_process unknown; LOCATED IN: chloroplast; EXPRESSED IN: 16 plant structures; EXPRESSED DURING: 9 growth stages; BEST Arabidopsis thaliana protein match is: unknown protein (TAIR:AT5G01970.1); Has 3209 Blast hits to 2720 proteins in 308 species: Archae - 13; Bacteria - 213; Metazoa - 1207; Fungi - 247; Plants - 183; Viruses - 21; Other Eukaryotes - 1325 (source: NCBI BLink). ) HSP 1 Score: 255.8 bits (652), Expect = 1.4e-67 Identity = 159/320 (49.69%), Postives = 212/320 (66.25%), Query Frame = 0
BLAST of Sgr025007 vs. TAIR 10
Match: AT2G41670.1 (P-loop containing nucleoside triphosphate hydrolases superfamily protein ) HSP 1 Score: 107.8 bits (268), Expect = 4.9e-23 Identity = 66/226 (29.20%), Postives = 112/226 (49.56%), Query Frame = 0
BLAST of Sgr025007 vs. TAIR 10
Match: AT3G07050.1 (GTP-binding family protein ) HSP 1 Score: 99.4 bits (246), Expect = 1.7e-20 Identity = 89/313 (28.43%), Postives = 141/313 (45.05%), Query Frame = 0
BLAST of Sgr025007 vs. TAIR 10
Match: AT5G01970.1 (unknown protein; BEST Arabidopsis thaliana protein match is: unknown protein (TAIR:AT1G30050.1); Has 240 Blast hits to 236 proteins in 72 species: Archae - 0; Bacteria - 15; Metazoa - 51; Fungi - 19; Plants - 119; Viruses - 0; Other Eukaryotes - 36 (source: NCBI BLink). ) HSP 1 Score: 76.3 bits (186), Expect = 1.6e-13 Identity = 83/288 (28.82%), Postives = 137/288 (47.57%), 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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