![](http://cucurbitgenomics.org/sites/default/files/styles/slideshow/public/carousel/101322_web.jpg?itok=EG-G51x6)
Sgr027607 (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.ATGAATGCTCGAGTCTGCGGAAGCAATGCTTTCACTATCACTCCGAAGTCCGAACTCGTCTACGAGGCGATTCCATCCATGGCGTAAAGCTTTCTCTCTTCCAATGGAGTTCTTCGCTTGAAGTTGGGCTCTCAAGGTGTATTTTTACAGAGTTGAGTGGCTGATCGGTGCGAGTCTTCTTAGTTTTTAGGGTTTCAATTGTACCGGACCTTGACTCAACTCAACGCGTTCTTATCAGAAGTCCGATCAGGTGCATGGAGCTTCCAGATTCTCTCTCTCTCCTGCTCTGTTAATTTCTCTCGACTTTATGCCTCGATTGTTTGAATTTTAGACCACAAGGGAATCTGCTTGATGGAAATCGTACTGGAGCAGAAAGATGCTGCTGATTGGACTTACAGAGGCGAAGGAGCTGTCAATCTTGTCCTCGCTTACACTGGATCCTCTCCTCTTTTCGTATGTTTACTTTGCATCAATTTTTATGTCCAAGTGGATGATCCTTGACTCCTTTTTTTTTTTTTTTTTTTTTTAATTTCTTTCCCTCTGAAATTTAGTGAAAGAATTTATGAACATTTTTCATCGGGTTTCTGTTTCATAAAGTATGATTAGCACTAATCAATTTCTAGTTCACTTCTTTTTTCTCTTTCGTACGATCGTTTAGTTCTCCCTTAAAATATTTTCTCGTTGGTGAATTTCAAGTAATCGATGAATTGCTTTTGTTTTCGATTAAGAAAATGAATTCTAGTTGAAATTTTCTATTGGTTTGAACTTGCATCAATCTACTGGTGGCCGCCGCGCTTATTCTGTACTAATTCTATTCGTAGTTTGGGAAAGTTATACGGATACAAAAGGCACCAAGAAATGGATCACACTGCGCGAGCGTTCGGAACCTATTGGCTTTGTCCGTGCACGAGCGCCTTCTATGGAGAGATGTAGTGGACCTTGTGTCATGCACGGATCGAGATGTTGCGTGTCAAATCTATGTGCAGCATGTAATAATCCCGTTATTGGATTCCAAACATGTTGATGCTGGGGTATGTTATTGAATTCATTTCATGCTAATGTTGCTTAGCTTGAAGGTCTGCTAATAATTCTGTAGAATGAAGCGAATCATATCTGTGAACATGTACTTGTGATAAGTAACTCGACAACAGCTATACACATGTTGAATTAAGTATTATTTATGTCAAGCTACAAAGTGGCAAATCAAGAATGATTGAATCTTGCGTTGCAGAACAATTGAATCTTCTAAATAAACTAAATCAATAATTCTGACCTTGTATTCTACCAATATTGGTAGGTTCATGTTCTTGTAACAAGAGAATTCCTAGAGACCATTGAGAAGAATATTCTTGGTCAGCGTCCTGCTTGGAGAGTTACTGCCGGACGAGTCAATATATATCATGATTCTATCCTCCTTCAATATGATCATTCTATTTTTCCTCAAGGTAGAGTTTCTTCAAGCTCTCTTTAGCTATTATCCTTCTGCTGATATTTAAACACATTTAAAAGATTAGCACATAATGCATGTATGGACTTCTAACTTTTTTTGTATTGGAGTCAATGTGTTCATATCAAGAAATTCTTTAGCTAACAGCTGAATCAACTAAAAGTTCAGATACCTAATATCTATCAACTATTTACCTGTTTCATGGTTTCTGGAGGTTTGCTCATTTGTTTCTGGACATGGACTATCCCTGCTTTCAATTGTCTCAAGCAAGTGGGATATTCGAGTGAATATATACTTCTATTAGCTGGAAGCTTGTTCTGTTGTCTAACTGATTATTTGGTAACTGATAGACTCTTTAGGAGCAAGGATGAAAGCTTCAAATAGCTCCCATTGTGTTGTTTATTTAGAGATAAGTTATAGCGTAAAACAACGAAGAACATGAGGAAAAAGTTGGAACATAGAAAAGAGAATAGGAAGAGAAGTAGGAGATTTTTCTATTACCTTTGAATATATTGAAGAGATTTACAATTCAAATTGCATAGTTGCGATTGAAATGGTAACCGGTCAACTGTCAAGAACTAACAATCACCTTAATATACAGGAATTATCTTATTCTTCTTCTTCTTTTTATTTATTTTTTATTTTTAAAAGAACCAATTTTATTAAAGAAAAAATTTTCCCCAAAATATTCTTCATGCTCTAACTGTTTCAGCATGTTTTATTGATGAACAATTATCTTGAAGTCTCTACATAAGATCTTAAGGCCTCCATTCTATTATACAGAGTATCATCAGTCTACCTTTCTTTGTTTTTAGGTGGTGAAGGTGAATTTTGCATATCTGTCGAGATAAAGGTGCTTCTGCTTCCCAATGATTTTCACCCCCCCCCCCCCCCCAACCTCTTGGTCTTTTTTTTTTCCCTGAAAGTGATTTTTCTATTTTATCTATGTTTTCATTCTCTTTTCGCTATCAGCCGAAATGGGGATCTCTTCCAACTTCAAGATTCATATCCAAAAGAAATGCCATTAAGCAAAATGTAACTCGTTTTAGGATGCACCAAGCATTGAAGTTGCAGAAAGGCGAGGTAATTTTGCTCCTCTTTTTGTCTCAATGGTATTATCTAGATTGTTCTTGTGATTCCCCATCGATTTTATTTCTGTATTACTTAAAATGTGATTCTCAGTGTCAGATCCCAATTCTTCTATCACTTTCTGTGACTGATCTTCTGCCTACCACAAAGAAAAAGAACCTCTATTTGGCCTTTACTAACTTTGTTTCTATGTTACTAATTGGCTACTCTTCAGAAACGTTTTAAGTTCTAACTTGATTGCATCGAATTTACTCAACAGATATCAGAGTTAAGTGATTACAATCCTCTAGATTTGTTCTCTGGATCCAAGGACCATATATATAAAGCAATCAAAGATCTTTTCTCTACCCCTCAGAATAATTTCCGTGTCTTCTTGAATGGTTCCCTAATATTTGGGGCATTGGGTGGCTATGCCGTTGACACTAATTTGGTAATTGAGGAAGCATTTGAAGATGCTCTTCAATCTGTTATCCAGAAAGAAAATGGATTTCGAACAATGAGTTTTCTCCAACTTGTTGCTGAGGCTGTATATAAATCTGGATGTCTGAATCGGCTTCTTGAGGTTCAGAAGCTTGACAGTTTTGACATAGAAGGGGCTATTCATGCGTACTATGACATTATTTCTGAGCCCTGCTTGGTGTGTAGACATATGGATGATGAATTGTTGAACAGTTGTGCCACTTTACATTCTGCCCATCTTGATCAAAGCTTGGAGATTGTGAGGAACTTTTTAATAGCTGCAACCGCTAAAGACTGTAGTTTGATGATTACGTTTCGACCCTGGCATGTTGAGTGTCCAGGGGCTACATATAACAGCATATTCCTCGAATCATCCAACCAAACTTTTGACTACAAGGTATATGCCCTTTGCATATTCATTTACATTATCTTTATTGATATTAAAAGTTTCAAGTAAACTACAAACTTCTAATTTATTTGTATTATATATATGCATGTATATGTACTTTGTAAGACATTTTTTTTAACTAGTAAAAACAATGAAATCCGTGGAAAATTGCATTAATTCCAACATTTTAATGGTTAAATTTCAAATTGCTGGTGCAGCGTAAATCAACTTTGGTAGTATTTTGTTAATCCATTGTCTACTAGACGTGGTGAAATGTGTCTGAACTATGATGAGTAGCTATAATTTGAATCACGGTGTTAAATACAAAGTGCTAAGGCTTAGTTGTGAGTCTTCCTTTTTGTTGGTCTTGGAAGACAAATGTCCATTTTCCCAGTTCAATTGGGAGGTAGTATTTGGACCAACAAACTTTCTCATCGTTAATCTTTTGACAAATAAGACATGAATATGGTGATTGAGTAGTATACTGCCACTAACAACCGCTTTTAAAAGTTTCAAGTTGGGTTCCTCATGTTTTTCTTATGATTCTCTACACGGTCTAAAATTTTTAGGTGAATTTCATAGACCTGGATCTAAAACCTTTTAAGAAGATGGAAGAATACTATGAACAAGACAAAAAAATAGTTCGCAACTACACTAAGATGTTTGTAGCAGAGCTAGAGGCAGACAATATTTACAGGCCCGAAGGCTTATGAATCTACTACACATTGAGAGTACATGCCGAAGTTTGTGGCAATATTTCTTTCTGGTAAGCTTATGAATTGGACATTTATTTAGTGTACTAGATATTCTGTGTTTTTATTATAATAATTATGCTGTTATGAGCAATATCTTTTTGTGCTATTTTCTTTACTGATCTTCAATTCTACTTTCTGCTCGTTGAGATTTTGTCCAGAAGCTGCTTAATTAGTTATTTGACTTATTTCTTCCTGCATCGCTCGTTATACTTATTTGATGCTCTTATTGCAAAGCTGGATGCTTTCTTTCGCAGATTAAATCTGCTGTTCTACAAAGCCCTCTGCAGAAGCTTGTCTATTTATCAGAATCTTCATGACAAATAAAAGCGTTGATAGAGTGAATGTGGCATACGTCTGCTGACAATAATTGGGACATCACGCTTCTTACATCGGAATTTAGGTTATGTATCATCTGGTTGAAGATTTTTATGATTAATATACGTTAGAATCCACTGTGGCTCCTTCGCCCAAAAAATAAAAATCAAAGAAAATTCCACTATGCCTCCCTGTTTTGAAATTCATAAACATCTAGTATATATATATTTTCCCCCCATTGGGTGCTTCATCTTTTAAGTGCAGGAGAAAGGGACCGAAGAACTGTCATAGGGTTCTATAGAGTGATTTGGCGACCACTTCAAGGAGACTCGTAAGTTTTTAGCCTTCCTATTAATTATTCCTACAGTTGGAATTTGAAATGGCGTTAATACCAGGGATCTGAAATAAGTCGTACATTTGAATTCTGTTTCATTGCGTTTTGAGAAGAATTTCTGAGAAGACTCTTAATTTTGTCTTGAACTGTTTGGCTAGATTTTATTGTTTCCCTGAACTCACGTTTGGAAGTAGTATTTCTAATCACGACACATAATGCTTTTGAATGGACAAAAATACTTTCTACCCGAAATATTTATCTTTAGACACAATTTAGAACTACTTTTCAGAAGAATCAATTGATAGGTACTTTTGCCTTGAATGCTTTTATTCCTAATCTTATAGTATATTATTTCTTTTCTTACCAGCTTCTTTTATGCATTTTTCTTATTAATATGTCTCTTTATACACATTTATCTCCATTCACTCTTCATTACACATCTCTCCCACCAATCTCTCTACACTTCTTTATTAGCTTCTTTGTTCAGGCATATTTTTTCTTCTGTAATATGTTTCTCTTTGCACACAATTTCTTTCATTAGTTTTATTATTACAGTTTTAATTATTTTATTTTGGTGATGTCATTTCTAGAAATATTTGGCAAGCAAATAAAATCATTAAAAAAACACTTCTAGTTGAATAATCTTTTTTTTTTTAAATAATGAAACCAAACGAGAAAGTGATTTATTATTATACTTGTATAAAGTATTTTTTATGCAAGCATCTCTTCTTATTTGTGATTTTGATGAATGTTCTACTCATAATGACAACTTAATGAGTAGTTGAGGCAGCAATACTTTCGTCGGTTAAGAGAACTGCTTTCAGGTTTCAGCTCCAAAACCCTGATTTGAGAAATTTATGTTTGTAAATTGGAACCATATTGTCAATTATGGACCATATTTTGCTGACGAAGCAGAAAAAGATTCTCAGATTGCGTGTTTCTGAAACTGGAAGATGCCGACTCCGCTGCAGTGTGGAACAAGCATTTCGTATACTCTAAACGAAACGAGGAATGGTCATAAGATGAGTCTTCCGGCTGTTTTCTGGTTTGGGCCTGCCGTAGCATGCTCTCGGACACTAAGGCCCGTTCAATAACGTCTTTAATTTTTCCGTTTTTTGTTTCTTATTTTTAAAAAAAAAAAAAAAAAATCAATCATATTTGATAGTACTTTTATTTTTATTTCTTTTTGTGTTTTTGGAAAACAAGAGTAGAAACAAAATTTTATTTGAGTAATTATCTAGTTATAATCTTATTTTAATTATAAAATAAAATATAAATTTTATTAAGCATAATTTAAAATTTTTATTACTATTTATATTAGTAGCAGTATTAGAGAACGATAAAACAAATTTATTAGAGGCAAAAAATTTAGAGAGAGATAAGAGAATAATAAGTTAGGGAAAGGAAAATAAAAGTTATAGAGGGAAATTTTAGAGACACAGGAAAATGTTATAGAGACACTGATAAATTAGAGAGGGGGAGCAAAAGTTATAGAGAAAAATTTTAGAAAGAGATGTGCAAGAGAGAAAAGTTAGAGAGAGAAAATGGTAAAAAGAGAAAAATTAGAGATATAGAGATGTTAGAGAGATAGAAAGTAGAGAGCAAGAGAGAAAGTTGGAGAGTCATAATTTTTTGAGAGAGAAAGGTAAGTTGAGAGAGAAAATATAATGAAGAATGAAAAAGAAAATGCCAATAAGAAAGAGTGAGGTTTAGAAAAATAAGAATTTATTTTGATTTTTAACCTTGACTTACAATTTTAAAAACAATTTTCAAAATTTTAAAATGAAAAGTTGGATGGATTATCAAACCACTATTGTTTTAAAAAATGAAACTCAAATCTTTATCAAATGGCACATCTAGTTATCCAAAAATGATATTTGTGTATAAAAGTGAAATAAATACGTTCCAGCCTTCCAGGAGAGGGACACAATATGAGAAAACAGATCCAATTGCTGTCAAAATTATGTACTGATAATAAGTCATCAGCATTTCTCTGTTTTCTTCAAATCCATCCAAGGTTTCACTACAAACTACAGTTGGGTCTGGCGAACAAATTGTCAACCATGCGAAAGAGGAATTCATACTTTCTATTTTTTATTTAATAAAAAATTATAGTGGAATCCATATATTTATTAAATATAATATAAATGAATGAATAAGAGTGGACTACAATAAGAAACTAACTAGAGCTACTTGGAGCAAAAATAGTAGTAGAATTTATTTACTTTTGAAATATAAATAAAGTTAATAGAAAAGGACTAATTAAGAAAGCAAACAAAAGCTTTTTAGTGATAAGGAGTCAAATTGTTTCCATGAAACGGAGAAGAAAAAGAAAGAACACACTAGTAAAAGTTAGATATTTTTACTTACCAGGCGAAGGGATTTTTCTTGCACAGCTCAAGTGGCTACTTTGTTGGCCCATTGACCAACTCTTTTCACCAAGTCGTTGCAGAAAAAAGAGCACTTTTTCAGGAGGTAATGCTGCAATGCAATAAATGCATGGTGGTGGTGGTGGGTTGTTTACGTTCTCCATGAAAAACACTCGTTGGAATAGAATTTACTAGTCGCCAACAAACTCTGACACCATATTTAGTTTTCGACCAAACTTCACTTCCATCCTGCGCAGAAAAATGAATTGTACTCTAACAATGTTTTTGTTTGTTAGTAGAATTTATATTTAGCAAAATGAGATCCACCCATACCTTCCTTTGCTCTCAGGATCACTTTTTTCCAGAACCATGTCAAAGGTTCCACCGCACTCCAAATTTCTAAAGTTCTCCTTCATTTCTGTGTGATGTTTTTAGCTGCCAATTAATACGAGGCTCAGCCATCTGTGGCGTCAAGACCACACACTGACACACTGCAGTACTTCTGCTCGTTTGTTTTTGTATATATATATATAGATATAAATAATATTGAATACCATTCGGCCCTCTTTTAAGTACTGCAAAATCTGACACTTCTTCGTTGCAGAAAACTGTAGTGTCAGTGGAACTTCCGTGTTGGAAGTGCAGGCAGCGGGTGATAAAGTCGATTGCGACAGTATATGGGATAACTTCCATCGCCCTTGATCCACCGAAAAATACGGTCACTGTCATCGGCGAAGCTGATCCTGTGAAGGTCATCAAGAAGGTGAGAAAAATCAGAAAATCTGCTGCAATTTTGAGCGTAGGGCCTGCAAAAGAGGAGAAGAAGGATGAGAAGGAGAATGAGAAGAAGGGCAAGGGCAAAGATGTCATAAGCCATCTCCCCAAGACATGCCACAAGTGCGATGTCTGGTATGTTATCACTGAAGATGCTTATAGTTACTGTTCCATTATGTGACTGGGAATTTGGGAAATGCGTGTGTTTTATGAACAATTTGTTATCTATCTACATTGGCAATCTTCTTCTTCTTCCAACATTCAAAAGTAGTGTTCTCCACTGTGAATCGAAATATAGTTTAATGAATAAGAAATCTATTACCTTTGAAGGTTTGATTTTCTGCCCAAACATTTGTTGAACTAAAAAAAAAAAAAAATCTATTGTTCTAAAAACAATTTTTGAAGGTGTGATCAATCCCTATTTGAATAAATTAATGCTCATTCCTTCTAGCCTAACTATGTCAAGAAATGAACCATACAAAAGAATAATACTTCCCTACTCATCAATCAGTTAACTGTAACTTTTCTGTTACTGACCACCATTAAAAATTTGACAATTATTTATTACTTTCTTTTAAAAAAATATTTATCTTCTCTCTCTTTTTTGCATACTTGTAAAAAACTTAATGATGATTAGCAAAAAAAGTACATTCCCCCACCCAAAATCAATGAGCACCTGTGCCATGGAGTTTTTTGGAGCGCTATTCAATGTCTCCTGTTGAAGTTTAATTTGAGTTTTTCTTATATTTCTAAAAAGTTTCATTATTACTTCTGTCCTTTATTTAAACTTACTAGATGTCCATTATTAATAAAAAAAAAATAGAAATTCAACCAAACAAATCATTCTTCGTTACAATCTAAAAAGAAGTAAAAAATTCACTCTTACAATGAATCAAAATGAATGTCACATTATAAAACTCATCTGCATTTACAAATAATTTGTCTAAATTTTTTTAATAATTTACAATAAAAATATTTAGTAAGTTTTTAATCACAAGACAAGAACGTTAATGAAAATTTCAAAAGCATAGAAACCAAATAAATTAAAATACAGGAATTAAAGATATAATTTAACCTTTCTATCTATCCTGCAATCTTGACTTCAAATATCGACGCACCGTCCAAATTTTTATTTTCCAAGAACGGTGCGGAACCACTCTGACTCTCGCCACGACGCCACCTCATCCCATGAGTCTAGAGAAATACTGAAATGGGCTTCCCATATAAATGGACTTCAACGGTTCAACGTAGTAACACCCTAGCCAACCCAACCCAACCAAAAGATTTGTCCATTTGCATAGGGCTTTGTTCTTGTACGTCGCGAGGAACTAATGTGTGTTACAAACGGTCTCCCCAATCCAATTCTGAAGACTCTGAACAACTTCAATCAATCGTAGCCGTAGATCTACCAACGACACAGCCCCCACGATTCCTCCTAACGGGAACGCACTCGATCACGTACGAGTAGAACTCCGGACGGAACAGCTGAGACGTTTCTACATGCTGACCTGTGCAATCTTTGCTTTCTTTTTCAGCAAGCAATTCCAACCCACCACCGACCAAAAGTTCTCTAAATCTCGCCGGCTTCATCAGAAAAATTCTCACCCTAGGTAAGGTATAGCTCTATAACCATCAGGTGGGGAAAATGATGGGGTGTCCTCAGGACAGCTTGCCTTCGTCCAGGACCATTCTATCGGTGGTGGCATCACTCACCGCCTCTGTAGTTCTCCTTCGAACCTTCTACAACGAACTGATTCCCGACGCGGTCCGAGATTATTTCTTCGCGCGCCTCCACGACTTCTCAAACCGTTTATCCTCCCAGCTGATTGTCGTCGTCGAAGAACTTGACGGGCTCACCGCCAACCAGATGTTCGACGCTGCGAATGTTTACTTGGGCACGAGACTCTCTTCATCCTCGCGAAGAATTAAGGTCCACAAGCCGGAGAAAGAGCAGCAATTGGCCGTGACCATAGATAGGAATCAAGAACTGGTTGACATATTCGAAGGCGTCAAATTCAAGTGGGTTTTGGTTTCTTCGCGTGTTGAAAAGGCAATTTCAAACAAGAACCGCGATGGTTATGCGCATGCGCGGTCCGATGTTAGACACTTTGAGCTAAGCTTTCACAAGAAACACAGGGATATGGCATTGAGATTTTACCTTCCACATATACTGCGAGAAGCCAATGCCATTAGAGAAGAGAAGAAGGCCGTGAAGCTCCATACAATAGATTATAGTGGCACTGATTATTGGGGTTCAATCGACCTCAATCATCCAGCGACATTTGACACTATAGCCATGAACCCTGAAACTAAGGAGGCATTGATTAATGATCTCAATAAGTTTATTGAGAGGAAACAGTATTATAAAAGAGTAGGAAAGGCTTGGAAACGTGGGTATTTGTTGTATGGACCACCAGGTACAGGGAAATCAAGCTTGGTTGCTGCCATGGCTAACTATCTGAAGTTTGACATTTATGATATGGATCTGAGGGAAGTCCAATGCAATTCAGATTTAAGAAGATTGTTGATTGGCACCGGAAGCCGTTCGATATTAGTAATTGAGGACATTGATTGTTCTATTGAGCTGCAAGATAGGAGTTCAGATTCAGAAAATCAAACTAAATCTGCAGAGGATGAAAAGGTAGGTCCCTAAACCTGCATGAAACTACATATTTTGTCTCTAAAGCTGCATAAAATATAGAGGAAGCTAGTTATCAAATTGTTTGTTGCAATCAGATTACTCTGTCTGGGTTATTAAACTTCATTGATGGCCTATGGTCGAGCTGCGGAGACGAGCGGATAGTGGTGTTAACCACAAACCACGTGGAGCGGCTGGATCCGGCATTGTTGAGACCTGGGCGCATGGATCTGCACCTGCATATGTCTTACTGCGACTTCAGTGGTTTTAAAATACTAGCATACAATTACCTATTAATTCAGGAGCACTCCCTTTTCGAAGAAATTAAAGAGCTATTAAATAAAGTTCAGGCAACACCTGCTGAAGTAGCTGGAGAGCTAATGAAGAGTGACAACATTACAAGTTCACTTCAAGGCCTTATTCGATTCCTCCATGGCAAGCATAAGACAACTCGATCGCCGGACCTCAGAATAGACGCAGGAAAAGCTTAG ATGAATGCTCGAGTCTGCGGAAGCAATGCTTTCACTATCACTCCGAAGTCCGAACTCGTCTACGAGGCGATTCCATCCATGGCAAGTCCGATCAGGTGCATGGAGCTTCCAGATTCTCTCTCTCTCCTGCTCTACCACAAGGGAATCTGCTTGATGGAAATCGTACTGGAGCAGAAAGATGCTGCTGATTGGACTTACAGAGGCGAAGGAGCTGTCAATCTTGTCCTCGCTTACACTGGATCCTCTCCTCTTTTCTTTGGGAAAGTTATACGGATACAAAAGGCACCAAGAAATGGATCACACTGCGCGAGCGTTCGGAACCTATTGGCTTTGTCCGTGCACGAGCGCCTTCTATGGAGAGATGTAGTGGACCTTGTGTCATGCACGGATCGAGATGTTGCGTGTCAAATCTATGTGCAGCATGTAATAATCCCGTTATTGGATTCCAAACATGTTGATGCTGGGGTTCATGTTCTTGTAACAAGAGAATTCCTAGAGACCATTGAGAAGAATATTCTTGGTCAGCGTCCTGCTTGGAGAGTTACTGCCGGACGAGTCAATATATATCATGATTCTATCCTCCTTCAATATGATCATTCTATTTTTCCTCAAGGTGGTGAAGGTGAATTTTGCATATCTGTCGAGATAAAGCCGAAATGGGGATCTCTTCCAACTTCAAGATTCATATCCAAAAGAAATGCCATTAAGCAAAATGTAACTCGTTTTAGGATGCACCAAGCATTGAAGTTGCAGAAAGGCGAGATATCAGAGTTAAGTGATTACAATCCTCTAGATTTGTTCTCTGGATCCAAGGACCATATATATAAAGCAATCAAAGATCTTTTCTCTACCCCTCAGAATAATTTCCGTGTCTTCTTGAATGGTTCCCTAATATTTGGGGCATTGGGTGGCTATGCCGTTGACACTAATTTGGTAATTGAGGAAGCATTTGAAGATGCTCTTCAATCTGTTATCCAGAAAGAAAATGGATTTCGAACAATGAGTTTTCTCCAACTTGTTGCTGAGGCTGTATATAAATCTGGATGTCTGAATCGGCTTCTTGAGGTTCAGAAGCTTGACAGTTTTGACATAGAAGGGGCTATTCATGCGTACTATGACATTATTTCTGAGCCCTGCTTGGTGTGTAGACATATGGATGATGAATTGTTGAACAGTTGTGCCACTTTACATTCTGCCCATCTTGATCAAAGCTTGGAGATTGTGAGGAACTTTTTAATAGCTGCAACCGCTAAAGACTGTAGTTTGATGATTACGTTTCGACCCTGGCATGTTGAGTGTCCAGGGGCTACATATAACAGCATATTCCTCGAATCATCCAACCAAACTTTTGACTACAAGATGCCGACTCCGCTGCAGTGTGGAACAAGCATTTCGTATACTCTAAACGAAACGAGGAATGGTCATAAGATGAGTCTTCCGGCTGTTTTCTGTACTGCAAAATCTGACACTTCTTCGTTGCAGAAAACTGTAGTGTCAGTGGAACTTCCGTGTTGGAAGTGCAGGCAGCGGGTGATAAAGTCGATTGCGACAGTATATGGGATAACTTCCATCGCCCTTGATCCACCGAAAAATACGGTCACTGTCATCGGCGAAGCTGATCCTGTGAAGGTCATCAAGAAGGTGAGAAAAATCAGAAAATCTGCTGCAATTTTGAGCGTAGGGCCTGCAAAAGAGGAGAAGAAGGATGAGAAGGAGAATGAGAAGAAGGGCAAGGGCAAAGATGTCATAAGCCATCTCCCCAAGACATGCCACAAGTGCGATGTCTGCCGTAGATCTACCAACGACACAGCCCCCACGATTCCTCCTAACGGGAACGCACTCGATCACGTACGAGTAGAACTCCGGACGGAACAGCTGAGACGTTTCTACATGCTGACCTGTGCAATCTTTGCTTTCTTTTTCAGCAAGCAATTCCAACCCACCACCGACCAAAAGTTCTCTAAATCTCGCCGGCTTCATCAGAAAAATTCTCACCCTAGGACCATTCTATCGGTGGTGGCATCACTCACCGCCTCTGTAGTTCTCCTTCGAACCTTCTACAACGAACTGATTCCCGACGCGGTCCGAGATTATTTCTTCGCGCGCCTCCACGACTTCTCAAACCGTTTATCCTCCCAGCTGATTGTCGTCGTCGAAGAACTTGACGGGCTCACCGCCAACCAGATGTTCGACGCTGCGAATGTTTACTTGGGCACGAGACTCTCTTCATCCTCGCGAAGAATTAAGGTCCACAAGCCGGAGAAAGAGCAGCAATTGGCCGTGACCATAGATAGGAATCAAGAACTGGTTGACATATTCGAAGGCGTCAAATTCAAGTGGGTTTTGGTTTCTTCGCGTGTTGAAAAGGCAATTTCAAACAAGAACCGCGATGGTTATGCGCATGCGCGGTCCGATGTTAGACACTTTGAGCTAAGCTTTCACAAGAAACACAGGGATATGGCATTGAGATTTTACCTTCCACATATACTGCGAGAAGCCAATGCCATTAGAGAAGAGAAGAAGGCCGTGAAGCTCCATACAATAGATTATAGTGGCACTGATTATTGGGGTTCAATCGACCTCAATCATCCAGCGACATTTGACACTATAGCCATGAACCCTGAAACTAAGGAGGCATTGATTAATGATCTCAATAAGTTTATTGAGAGGAAACAGTATTATAAAAGAGTAGGAAAGGCTTGGAAACGTGGGTATTTGTTGTATGGACCACCAGGTACAGGGAAATCAAGCTTGGTTGCTGCCATGGCTAACTATCTGAAGTTTGACATTTATGATATGGATCTGAGGGAAGTCCAATGCAATTCAGATTTAAGAAGATTGTTGATTGGCACCGGAAGCCGTTCGATATTAGTAATTGAGGACATTGATTGTTCTATTGAGCTGCAAGATAGGAGTTCAGATTCAGAAAATCAAACTAAATCTGCAGAGGATGAAAAGATTACTCTGTCTGGGTTATTAAACTTCATTGATGGCCTATGGTCGAGCTGCGGAGACGAGCGGATAGTGGTGTTAACCACAAACCACGTGGAGCGGCTGGATCCGGCATTGTTGAGACCTGGGCGCATGGATCTGCACCTGCATATGTCTTACTGCGACTTCAGTGGTTTTAAAATACTAGCATACAATTACCTATTAATTCAGGAGCACTCCCTTTTCGAAGAAATTAAAGAGCTATTAAATAAAGTTCAGGCAACACCTGCTGAAGTAGCTGGAGAGCTAATGAAGAGTGACAACATTACAAGTTCACTTCAAGGCCTTATTCGATTCCTCCATGGCAAGCATAAGACAACTCGATCGCCGGACCTCAGAATAGACGCAGGAAAAGCTTAG ATGAATGCTCGAGTCTGCGGAAGCAATGCTTTCACTATCACTCCGAAGTCCGAACTCGTCTACGAGGCGATTCCATCCATGGCAAGTCCGATCAGGTGCATGGAGCTTCCAGATTCTCTCTCTCTCCTGCTCTACCACAAGGGAATCTGCTTGATGGAAATCGTACTGGAGCAGAAAGATGCTGCTGATTGGACTTACAGAGGCGAAGGAGCTGTCAATCTTGTCCTCGCTTACACTGGATCCTCTCCTCTTTTCTTTGGGAAAGTTATACGGATACAAAAGGCACCAAGAAATGGATCACACTGCGCGAGCGTTCGGAACCTATTGGCTTTGTCCGTGCACGAGCGCCTTCTATGGAGAGATGTAGTGGACCTTGTGTCATGCACGGATCGAGATGTTGCGTGTCAAATCTATGTGCAGCATGTAATAATCCCGTTATTGGATTCCAAACATGTTGATGCTGGGGTTCATGTTCTTGTAACAAGAGAATTCCTAGAGACCATTGAGAAGAATATTCTTGGTCAGCGTCCTGCTTGGAGAGTTACTGCCGGACGAGTCAATATATATCATGATTCTATCCTCCTTCAATATGATCATTCTATTTTTCCTCAAGGTGGTGAAGGTGAATTTTGCATATCTGTCGAGATAAAGCCGAAATGGGGATCTCTTCCAACTTCAAGATTCATATCCAAAAGAAATGCCATTAAGCAAAATGTAACTCGTTTTAGGATGCACCAAGCATTGAAGTTGCAGAAAGGCGAGATATCAGAGTTAAGTGATTACAATCCTCTAGATTTGTTCTCTGGATCCAAGGACCATATATATAAAGCAATCAAAGATCTTTTCTCTACCCCTCAGAATAATTTCCGTGTCTTCTTGAATGGTTCCCTAATATTTGGGGCATTGGGTGGCTATGCCGTTGACACTAATTTGGTAATTGAGGAAGCATTTGAAGATGCTCTTCAATCTGTTATCCAGAAAGAAAATGGATTTCGAACAATGAGTTTTCTCCAACTTGTTGCTGAGGCTGTATATAAATCTGGATGTCTGAATCGGCTTCTTGAGGTTCAGAAGCTTGACAGTTTTGACATAGAAGGGGCTATTCATGCGTACTATGACATTATTTCTGAGCCCTGCTTGGTGTGTAGACATATGGATGATGAATTGTTGAACAGTTGTGCCACTTTACATTCTGCCCATCTTGATCAAAGCTTGGAGATTGTGAGGAACTTTTTAATAGCTGCAACCGCTAAAGACTGTAGTTTGATGATTACGTTTCGACCCTGGCATGTTGAGTGTCCAGGGGCTACATATAACAGCATATTCCTCGAATCATCCAACCAAACTTTTGACTACAAGATGCCGACTCCGCTGCAGTGTGGAACAAGCATTTCGTATACTCTAAACGAAACGAGGAATGGTCATAAGATGAGTCTTCCGGCTGTTTTCTGTACTGCAAAATCTGACACTTCTTCGTTGCAGAAAACTGTAGTGTCAGTGGAACTTCCGTGTTGGAAGTGCAGGCAGCGGGTGATAAAGTCGATTGCGACAGTATATGGGATAACTTCCATCGCCCTTGATCCACCGAAAAATACGGTCACTGTCATCGGCGAAGCTGATCCTGTGAAGGTCATCAAGAAGGTGAGAAAAATCAGAAAATCTGCTGCAATTTTGAGCGTAGGGCCTGCAAAAGAGGAGAAGAAGGATGAGAAGGAGAATGAGAAGAAGGGCAAGGGCAAAGATGTCATAAGCCATCTCCCCAAGACATGCCACAAGTGCGATGTCTGCCGTAGATCTACCAACGACACAGCCCCCACGATTCCTCCTAACGGGAACGCACTCGATCACGTACGAGTAGAACTCCGGACGGAACAGCTGAGACGTTTCTACATGCTGACCTGTGCAATCTTTGCTTTCTTTTTCAGCAAGCAATTCCAACCCACCACCGACCAAAAGTTCTCTAAATCTCGCCGGCTTCATCAGAAAAATTCTCACCCTAGGACCATTCTATCGGTGGTGGCATCACTCACCGCCTCTGTAGTTCTCCTTCGAACCTTCTACAACGAACTGATTCCCGACGCGGTCCGAGATTATTTCTTCGCGCGCCTCCACGACTTCTCAAACCGTTTATCCTCCCAGCTGATTGTCGTCGTCGAAGAACTTGACGGGCTCACCGCCAACCAGATGTTCGACGCTGCGAATGTTTACTTGGGCACGAGACTCTCTTCATCCTCGCGAAGAATTAAGGTCCACAAGCCGGAGAAAGAGCAGCAATTGGCCGTGACCATAGATAGGAATCAAGAACTGGTTGACATATTCGAAGGCGTCAAATTCAAGTGGGTTTTGGTTTCTTCGCGTGTTGAAAAGGCAATTTCAAACAAGAACCGCGATGGTTATGCGCATGCGCGGTCCGATGTTAGACACTTTGAGCTAAGCTTTCACAAGAAACACAGGGATATGGCATTGAGATTTTACCTTCCACATATACTGCGAGAAGCCAATGCCATTAGAGAAGAGAAGAAGGCCGTGAAGCTCCATACAATAGATTATAGTGGCACTGATTATTGGGGTTCAATCGACCTCAATCATCCAGCGACATTTGACACTATAGCCATGAACCCTGAAACTAAGGAGGCATTGATTAATGATCTCAATAAGTTTATTGAGAGGAAACAGTATTATAAAAGAGTAGGAAAGGCTTGGAAACGTGGGTATTTGTTGTATGGACCACCAGGTACAGGGAAATCAAGCTTGGTTGCTGCCATGGCTAACTATCTGAAGTTTGACATTTATGATATGGATCTGAGGGAAGTCCAATGCAATTCAGATTTAAGAAGATTGTTGATTGGCACCGGAAGCCGTTCGATATTAGTAATTGAGGACATTGATTGTTCTATTGAGCTGCAAGATAGGAGTTCAGATTCAGAAAATCAAACTAAATCTGCAGAGGATGAAAAGATTACTCTGTCTGGGTTATTAAACTTCATTGATGGCCTATGGTCGAGCTGCGGAGACGAGCGGATAGTGGTGTTAACCACAAACCACGTGGAGCGGCTGGATCCGGCATTGTTGAGACCTGGGCGCATGGATCTGCACCTGCATATGTCTTACTGCGACTTCAGTGGTTTTAAAATACTAGCATACAATTACCTATTAATTCAGGAGCACTCCCTTTTCGAAGAAATTAAAGAGCTATTAAATAAAGTTCAGGCAACACCTGCTGAAGTAGCTGGAGAGCTAATGAAGAGTGACAACATTACAAGTTCACTTCAAGGCCTTATTCGATTCCTCCATGGCAAGCATAAGACAACTCGATCGCCGGACCTCAGAATAGACGCAGGAAAAGCTTAG MNARVCGSNAFTITPKSELVYEAIPSMASPIRCMELPDSLSLLLYHKGICLMEIVLEQKDAADWTYRGEGAVNLVLAYTGSSPLFFGKVIRIQKAPRNGSHCASVRNLLALSVHERLLWRDVVDLVSCTDRDVACQIYVQHVIIPLLDSKHVDAGVHVLVTREFLETIEKNILGQRPAWRVTAGRVNIYHDSILLQYDHSIFPQGGEGEFCISVEIKPKWGSLPTSRFISKRNAIKQNVTRFRMHQALKLQKGEISELSDYNPLDLFSGSKDHIYKAIKDLFSTPQNNFRVFLNGSLIFGALGGYAVDTNLVIEEAFEDALQSVIQKENGFRTMSFLQLVAEAVYKSGCLNRLLEVQKLDSFDIEGAIHAYYDIISEPCLVCRHMDDELLNSCATLHSAHLDQSLEIVRNFLIAATAKDCSLMITFRPWHVECPGATYNSIFLESSNQTFDYKMPTPLQCGTSISYTLNETRNGHKMSLPAVFCTAKSDTSSLQKTVVSVELPCWKCRQRVIKSIATVYGITSIALDPPKNTVTVIGEADPVKVIKKVRKIRKSAAILSVGPAKEEKKDEKENEKKGKGKDVISHLPKTCHKCDVCRRSTNDTAPTIPPNGNALDHVRVELRTEQLRRFYMLTCAIFAFFFSKQFQPTTDQKFSKSRRLHQKNSHPRTILSVVASLTASVVLLRTFYNELIPDAVRDYFFARLHDFSNRLSSQLIVVVEELDGLTANQMFDAANVYLGTRLSSSSRRIKVHKPEKEQQLAVTIDRNQELVDIFEGVKFKWVLVSSRVEKAISNKNRDGYAHARSDVRHFELSFHKKHRDMALRFYLPHILREANAIREEKKAVKLHTIDYSGTDYWGSIDLNHPATFDTIAMNPETKEALINDLNKFIERKQYYKRVGKAWKRGYLLYGPPGTGKSSLVAAMANYLKFDIYDMDLREVQCNSDLRRLLIGTGSRSILVIEDIDCSIELQDRSSDSENQTKSAEDEKITLSGLLNFIDGLWSSCGDERIVVLTTNHVERLDPALLRPGRMDLHLHMSYCDFSGFKILAYNYLLIQEHSLFEEIKELLNKVQATPAEVAGELMKSDNITSSLQGLIRFLHGKHKTTRSPDLRIDAGKA Homology
BLAST of Sgr027607 vs. NCBI nr
Match: VFQ62415.1 (unnamed protein product [Cuscuta campestris]) HSP 1 Score: 840.9 bits (2171), Expect = 1.3e-239 Identity = 475/1055 (45.02%), Postives = 631/1055 (59.81%), Query Frame = 0
BLAST of Sgr027607 vs. NCBI nr
Match: XP_022142231.1 (AAA-ATPase At3g50940-like [Momordica charantia]) HSP 1 Score: 815.8 bits (2106), Expect = 4.4e-232 Identity = 411/450 (91.33%), Postives = 425/450 (94.44%), Query Frame = 0
BLAST of Sgr027607 vs. NCBI nr
Match: XP_038899291.1 (AAA-ATPase At3g50940-like [Benincasa hispida]) HSP 1 Score: 811.6 bits (2095), Expect = 8.4e-231 Identity = 405/450 (90.00%), Postives = 428/450 (95.11%), Query Frame = 0
BLAST of Sgr027607 vs. NCBI nr
Match: XP_008466531.1 (PREDICTED: AAA-ATPase At3g50940-like [Cucumis melo] >KAA0041552.1 AAA-ATPase [Cucumis melo var. makuwa] >TYK19702.1 AAA-ATPase [Cucumis melo var. makuwa]) HSP 1 Score: 797.7 bits (2059), Expect = 1.3e-226 Identity = 390/451 (86.47%), Postives = 428/451 (94.90%), Query Frame = 0
BLAST of Sgr027607 vs. NCBI nr
Match: XP_004147876.2 (AAA-ATPase At3g50940 [Cucumis sativus] >KAE8651331.1 hypothetical protein Csa_002411 [Cucumis sativus]) HSP 1 Score: 770.0 bits (1987), Expect = 2.8e-218 Identity = 375/451 (83.15%), Postives = 418/451 (92.68%), Query Frame = 0
BLAST of Sgr027607 vs. ExPASy Swiss-Prot
Match: Q147F9 (AAA-ATPase At3g50940 OS=Arabidopsis thaliana OX=3702 GN=At3g50940 PE=2 SV=1) HSP 1 Score: 476.9 bits (1226), Expect = 6.4e-133 Identity = 230/440 (52.27%), Postives = 326/440 (74.09%), Query Frame = 0
BLAST of Sgr027607 vs. ExPASy Swiss-Prot
Match: Q8VZG2 (Protein HYPER-SENSITIVITY-RELATED 4 OS=Arabidopsis thaliana OX=3702 GN=HSR4 PE=2 SV=1) HSP 1 Score: 467.6 bits (1202), Expect = 3.9e-130 Identity = 231/456 (50.66%), Postives = 324/456 (71.05%), Query Frame = 0
BLAST of Sgr027607 vs. ExPASy Swiss-Prot
Match: Q93YN9 (Inositol-pentakisphosphate 2-kinase OS=Arabidopsis thaliana OX=3702 GN=IPK1 PE=1 SV=1) HSP 1 Score: 447.6 bits (1150), Expect = 4.2e-124 Identity = 234/408 (57.35%), Postives = 300/408 (73.53%), Query Frame = 0
BLAST of Sgr027607 vs. ExPASy Swiss-Prot
Match: Q8GW96 (AAA-ATPase At2g18193 OS=Arabidopsis thaliana OX=3702 GN=At2g18193 PE=2 SV=1) HSP 1 Score: 420.2 bits (1079), Expect = 7.1e-116 Identity = 216/451 (47.89%), Postives = 304/451 (67.41%), Query Frame = 0
BLAST of Sgr027607 vs. ExPASy Swiss-Prot
Match: B8AVX5 (Inositol-pentakisphosphate 2-kinase IPK1 OS=Oryza sativa subsp. indica OX=39946 GN=IPK1 PE=3 SV=1) HSP 1 Score: 401.0 bits (1029), Expect = 4.5e-110 Identity = 205/404 (50.74%), Postives = 271/404 (67.08%), Query Frame = 0
BLAST of Sgr027607 vs. ExPASy TrEMBL
Match: A0A484KD08 (Ins(1,3,4,5,6)P5 2-kinase OS=Cuscuta campestris OX=132261 GN=CCAM_LOCUS4191 PE=3 SV=1) HSP 1 Score: 840.9 bits (2171), Expect = 6.2e-240 Identity = 475/1055 (45.02%), Postives = 631/1055 (59.81%), Query Frame = 0
BLAST of Sgr027607 vs. ExPASy TrEMBL
Match: A0A6J1CLL4 (AAA-ATPase At3g50940-like OS=Momordica charantia OX=3673 GN=LOC111012395 PE=3 SV=1) HSP 1 Score: 815.8 bits (2106), Expect = 2.1e-232 Identity = 411/450 (91.33%), Postives = 425/450 (94.44%), Query Frame = 0
BLAST of Sgr027607 vs. ExPASy TrEMBL
Match: A0A5D3D837 (AAA-ATPase OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold242G001030 PE=3 SV=1) HSP 1 Score: 797.7 bits (2059), Expect = 6.1e-227 Identity = 390/451 (86.47%), Postives = 428/451 (94.90%), Query Frame = 0
BLAST of Sgr027607 vs. ExPASy TrEMBL
Match: A0A1S3CSS5 (AAA-ATPase At3g50940-like OS=Cucumis melo OX=3656 GN=LOC103503918 PE=3 SV=1) HSP 1 Score: 797.7 bits (2059), Expect = 6.1e-227 Identity = 390/451 (86.47%), Postives = 428/451 (94.90%), Query Frame = 0
BLAST of Sgr027607 vs. ExPASy TrEMBL
Match: A0A0A0LG59 (AAA domain-containing protein OS=Cucumis sativus OX=3659 GN=Csa_3G860250 PE=3 SV=1) HSP 1 Score: 770.0 bits (1987), Expect = 1.4e-218 Identity = 375/451 (83.15%), Postives = 418/451 (92.68%), Query Frame = 0
BLAST of Sgr027607 vs. TAIR 10
Match: AT3G50940.1 (P-loop containing nucleoside triphosphate hydrolases superfamily protein ) HSP 1 Score: 476.9 bits (1226), Expect = 4.6e-134 Identity = 230/440 (52.27%), Postives = 326/440 (74.09%), Query Frame = 0
BLAST of Sgr027607 vs. TAIR 10
Match: AT3G50930.1 (cytochrome BC1 synthesis ) HSP 1 Score: 467.6 bits (1202), Expect = 2.8e-131 Identity = 231/456 (50.66%), Postives = 324/456 (71.05%), Query Frame = 0
BLAST of Sgr027607 vs. TAIR 10
Match: AT5G42810.1 (inositol-pentakisphosphate 2-kinase 1 ) HSP 1 Score: 447.6 bits (1150), Expect = 3.0e-125 Identity = 234/408 (57.35%), Postives = 300/408 (73.53%), Query Frame = 0
BLAST of Sgr027607 vs. TAIR 10
Match: AT1G22100.1 (Inositol-pentakisphosphate 2-kinase family protein ) HSP 1 Score: 433.3 bits (1113), Expect = 5.8e-121 Identity = 213/404 (52.72%), Postives = 296/404 (73.27%), Query Frame = 0
BLAST of Sgr027607 vs. TAIR 10
Match: AT2G18193.1 (P-loop containing nucleoside triphosphate hydrolases superfamily protein ) HSP 1 Score: 420.2 bits (1079), Expect = 5.1e-117 Identity = 216/451 (47.89%), Postives = 304/451 (67.41%), 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.
|