Sgr020482 (gene) Monk fruit (Qingpiguo) v1
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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.ATGGGGGAAGTGGTTCCTATCTACTACATTATTGTTGCGTTTTTCTGCACGATTGGGGCAATTGCTCTGGCGATCTTTCACATTTACCGGCATCTTTTGAACTATACGGAACCTACTTACCAGAGATACATCGTGCGAATCATCTTTATGGTTCCGGTAATTGTTCATTCCCCACATTTTATTTTTAGTTCAGAAAAGATCCTTTGGCTTTGTTTGGTTGGGAGTGGTTTCCTTCGGAAGCTTCCTCACTGACCTTTTCGTGTCTGAACATCCTGTATCTCTGATTTATGCATAACCGCATATTATGTTCCTTTACATCGTAGATGCTATGCATGTTTCAGTTCGATGCTTTGTGGCATAGGGTTATAGTTATTGAATATGGTTGTCATCCAGTTCAGTGGGTCTTGATATTTGAGAACTTTTGGAAAGCTATCTCGTCTGGTTTCTCTTTTTTTTTTTTTTTTTAAGTTCTTAAAGTTTACTGTTGAGCATGGCTTGATTGCCTGCTTTTAGGAAGATTGTTGGGTGGGGATAGCCCCCTTCGCCTTCTTTTCCATCTCCTTAATCACCTTTCTTCTTTGAAATTTGATCCTGTGGCTTCTGTCCCCCCTTGAGGGTTCCACTCTGTACAAATTTGATTCTTGGCGCCTGTTGTCTAATAAGGACATTTCTTATGTTTCTTCTTTACTCTATCTGCTGAGTGGGATTTGTTGTTGTCTTGGGGCTAGACTCCCAACCCTTTGTGGGTCCCCTCCCCCCAACCCCACCCCCACACACCCACCCACAGTTGGAGTGCTTTTCATATAGAGTTTTGTAACTTCTCTTGTTTTCCTTACAAATACCAATTGGAGGGTGTTCTTACAAGCCCTTGGTCGTAGGATGGGGTGATTTCTTGTCCCTGCCCCCTCCCTTTGAGATTTACCCCCTTTGTGGGAATGTATTTATTGCTATCGCTTCACCAAGTCTTCCACGTGTACTACATGCTGAATGAGTCTGTGGAGCTCAGAATATCTTCCTGAAACTTGCCAGTTGCCATGGGTGGGAATGTTGTTGCCAACCTTTTCTGGATTCTTAAAGCCATTGTGAGTCTGGAAAGGGTTGGATTGAGGTGCTCTAATAACACTTTGGTTTAGAACAAGTTGGAAAATATAGGAATTTTACTGACGTGCAAGAATAGAGAGTTCGGAACCATTTATAAGTTGTGTTTTTAGATTACAAGTGGTTAACCGTGACAGAAAAAATACGTCTGACTAACTAACCACTGTTGCTTGCATAATATGCTCTTCATTCATCTCTTCTTTTTCAGACCATCTTTTGGCTCCGAAATCCTTGAAATTTACAGTTGGGCATTCTCTATATATGGTGCTTCTTTATATGGAATTTTTGATAAAGACCTTTGTTTGTGTTCCTTCTTTTTTTTTTCCTTCCTTTTCCTTTTTGCAACACATTATTAGTAAATTGTAAAAATGCTTCCTTGCATCACAGGTTTATGCACTGATGTCATTCTTGTCTCTTGTTTTACCTGCGAGTTCAATCTATTTTAATTCCATACGAGAAGTGTAAGTAGTCCTTGCTTAATCAAATTATTTATGAAATTCTAAAGTTTATGTCTATTTCTATTTAGCAGAGCTACTCATTTTCTTTTCTCACATCTTTTACTTGGAGAATGGTTTAACTATCAAACCATTCATAGTAGAGAAGCCATTATCATTTCATTGTGTGAGGTCTATTTGAGGAAGATTACTAATGCCTAGCAAAAAGAGTATAAACTTTTTTAGTTTTTTCTTCACCTTCTGAATCATGTGTTAACAGCTTGGTCTTTCCTTTTTTTAGTTGTGTTTGTTTTCTTTAATTGCTATCTAAAACATGCTTCTTGAACACTCCTTTCTCCAAGAAATTCGTAGAGTGCATAGAAGTCAAATGTAATTGAAAAAATTGAACAAAAATGAATGTGAAGATTTTAACTCTTATGGCTTCATTTAAATAATTAAAGAAATTGAACTTTTTTTGTACTTTTGGTTACAGTTATGGGTCAAATGTCTAACCATTAACTTTGTGGTTTCTTTTAGCTATGAAGCTTGGGTCATTTATAATTTTCTGTCGTTGTGTCTGGCATGGGTTGGTGGTCCTGGAGCTGTTGTTATAAGTTTAAGCGGCCGTGTATTGAAGCCATCATGGGGCTTGATGACATGTTGTTTTCCTCCAATACCATTAGATGGGTAAGTTTCCAAAATTGATTTTTTTATTTTATTTTGAATTGATATAATGTTTGAGTTATTAATGGCAGCATATAATAGTAAAAATCAAATTATGTTATATACTTTGAATATAATAGATATACAACTTTTGGAATGATAAAAGTGCTTGTAGCCAATTAAAAATATTTTTCAAAATTTTTATGGTATTTGGTTGATACTCAAAATTGAGTTTGAAAATCCTAAATATACTTAGAAGCACTTTGTAGAGAAATCGTTTAATTAGTACTTCTTTCATAAGTATTCATACAAGAAGTGCTTCACTTAAAAGCACTACTCTCAAAAGTCATCCCAAACTCACTATTAGTGTGTTCTTCATTTTCTTTCATTGCATTAATATGTTTTAACAAAAGATATCCATGAAAGGAATGCTCCAGAATTGAGGATTGAGATGGTTGTCTTAATGTAATTTGAAACACTATACTCCACCTAACTAGTATTAGGGTTTTGTGTTAAATGTATTTTCACCAAATTCTACTCTTTTGTAATGATTCCCTCTCTACCATTTCCACCAATTGGATCTCTTTTTGTAACTCCTTTGGAATGGGGTTATCAATTAGAATTGCTTTTATGGAACCACTCCTCTCTTTGCTAGAAATTAAACTTGAGAAGGAAGCTTTCGGACGTAGAAATTGAGGATCGGATCTCCTCTCTTTGCTAGAAATTAAACTTGAAGATCCTATTGTTTCTTTCATTCCATAGAGACCGTTAGAAAGCCCTTATGAAGTTGGTCCAAAGAACTTTCTTTCCTTGCTATCCCTTGGAAGTGCCTCTGCCTGACTGAAGCAGGAGAGAATAAGTCCCCATAAATTTTCAGCAATTTCCAGCAAAAGGGCAGGTGATAAAGATGTGATTTTGCAATTCACGTGGGGCACCAATTAGGGGAGACAGACAGCCAAGGAGCTCTTTTCTGGAGTTTTATCGTGGGTATTCAAGCTGGAGTGGCTGAGTGCCCCAAGGGAAAACTTAATCTTTAGGGGGTATTTTCCTTTCCAAAATACTATTGTACAAGGCTGTGCATTCTGTTATTCCCTTAGCGGCTAGATCATAGGGTAAGGATCTAGTTGCGTATGTAACTCCTCTGTCCAATTATGTTAGCAAGTTTCAACAGTATAATGAAATTAATGTTGTCAAAGTCATACTAGTCATTACTTGGAGATCATTTGATTCTTTGCCTCTTAGTCATGGGTTATCAAAAAGACCTTCCGCTCTCTTGTCTAAGGTCATCTCTTCACATATTCCTGTTTATCTATAACATTGATATATACCCTTTCATCCTTAAATTATCTTTCTCAATGTTCGGACTTGAATAAATAATTTCTGGGTTTAAATAATACCCAACTACATGCAAATGTTAGTTCAATTGAAGTTCTCATATTCAATTACTGATTTTGAAAACGTCTTTACATTTTCCTGCATTTTCATCGAACAAATTAGTTATTGTTTTCTTAGCTCTAGATCCATGGTAAATCTCTTAGGAGGCTTTTTCTTGCCATCCACCAATGTAAAAACTCAAACTAGAGGGCTCAAAACCTTAAGAACAAACACAATGTGGTCCTAAAAGTAGGTATCAACACATTTTGAACTATTTTCTTTTCTTTTTACTCCTTTCTTTGCTTGCTATTCTTCCATTCGTCGAAAATAAACTTCTTTCTCAAGTTCTTTTGCAACTTGACAATGTGGAACAATGTTACAAGCAATAGCAAGTGGAGTCTTAGCAAGTCTAATAAATTCCTTTTGATTGATGAAGCATCTCATCATATTTAAATACATTAGGATGGTTATAAATATATCTACTAATCTCCATACCTCTTTTTAGTGTTCTCATGATATTTGAGATTTTGAATATTGCCTCTAACAAGAAGAGTTTTTTTGATCTTCTGTGGTTTGGGGCTTGGCTTTCCTCCCCCTTCCTTTGGTAATTTCTTATCGTCTGTCGAATGATTTATGTTTTCTATATTTTAAAAACAAGACTATATCTTCTAACATCAAGTCTAAGCAACGAGCAACATGTGGTGGCCATACCAAATGGGGTTGTTTTGCTTCTACTAATCTTTTTAATGATAAGGCCAATATGAAGGTATTAAACAATTGAAATTTGTAATGCTAGTTTGAAGTCTTCAATAATTATGTAATGATAGACATTCTTACCCCCCATTTCATTTGTTGAAGCACTATCCATGACAATTTAAATCATTAGCTTCTTTGATACATTCTACAAATTTGTTGAGCAATTCAAACATTTTCTCTTCACTCTTCCAATATGATGAAGCATCAACAAACTCAAGTGAACGTAGTGCCTTCTTGCTTTGGCTTCTTAATGGAAGACTTAACTAATTCTAAACTATCTTTTTGAGAGCTTTGACTTGATGACAATCTCTTACTTGGATTATTTACTACCAAACCATTGTCCTTTTTTCCCTCAAAAGTAAGCTCTATGTCCTCAACTTCGTAGATAGTATTCTTTGATCACTCACTTTTGTCTTGGCCATAAGTTCTTTAATTTCTTCTTTCACATCATTCAAAGATCTTTTGTTAGGAATGGCATTTTTGTTACCACCAACAAAGTGTTGATTTACTTTATATACCCTCCCTTTTATTGATTTCGAACAAAACCTGCCAACAAAGGTAATTATTACTTGGGGATTGCTAAGCGTGCATATTTCTATGTTGCATCTCTTCTTGGACCTTTGTTTGACATCTATGCTAATATATGATAAACCTAATCAATCAAATCAATATTATGTAATTATTAGAGAGAGTGAGATGGAGAGAGTCAATGTGTAAATAACTTCCCAACCCTTGAATTCAAGATGACCAAAGTTCAAGAAATTCTTGAATTATTATAGCATACAGCTAGTGGTGCTCAAACTACAAGAAATTCTTTTGTAATTTCAGCCTCCTCATGATTCTTAACGATTGGAAGGCCATTCTCGTGTATTTTTGTGGCGGAATTTTCTCTATCCTCCACCATTAGGCTGTTTTACCCTCCTTTTGATTAATATATGTCCTTTATGTTTCTTATTAAAAAAAAAAGAAAATTATAGCAAATAGCTACCGCACCTTCTGAGCAGCCTCTCTTTTGGCCAATTGGAGAAGTTTTATGTAACTCCCTTGGCTTGGGTTTCTTTCCCTCTTTTGCAAGTTTTTTTATTTAGATGAGAAACAACATATAGAGCTACTGTCACAATCTTTAAAAAATCTGAATAAGTGTCGGCTGCTGGTTCTTCTCCTTAGGTAAAAGACTTTTAATGGGAAAAGATACGTGCAGATGTTCTTTTAATGGAAAAGCAAGAGTTGGAAAGGAATAATAGAGTGTTCAACAATATAGTTAAAAATTGGGTTGAACATTTTGAATTAAATAAATTCATTCTTCTGTTTGGGCATCTCTATATGAAGATTTCTGTAATTATTCTTCTTTTCTAATCAATAGTAATAGGGGTAGTTTATTGTAACTTTGTTTGGGTAATTGAATTTTTGGTAAGATTGTTGTGGGGTTTGGGATATACGTAGGATTAATACTATGTGTTGTTTGGAACGTTTCACTATATCAATGAAAAGTGAAAAACTCTTTGGCGAACTAGGAGCCTTTTTTATGGGCTGTTTGGTTAAAAATGGAACAAATGGAATTTGAAGATGGAACTAGGGATGCCGTGGAGATAGATAATTAATTAAGTTTATGTTTTGTGCTGGGCTTATTAGTGTTCTTAGTTTTGTGACATTTCCTATTCTTTTTATCCTTCGTTCTTAGGCTATATGTGTAGATGTTTTGTATAGGCTTTTTTGGGGTTGCGTTTTGTTGCCTCTCCCTCGTGCTTTGTGCTGTCTTTGACTGTCATGCTTATTAATGAAAGTCACGTCCCTTAGTTCAGAAAGTGTTGTATATTTTATCAACATTGTTTTCTTTTCATTTGCAGAGCTGTATTATCAAGTGCTTTGTGCTTTCCATTTGCAGAGCGCTTTTAATTTATTTATTTTTTTTAATAATAATCTAGTTTGAATACTGAATAGTATGGAATATCTAAGTAAACTTCCCCATGGTGGTGATGTTTATTAGAAATGTGGTTTAAAACCTTACCGAGATGACCCATTTATCTAATAACACTATTTATTCAGGCAATATATCTTTTTTCTCTCATCAGGAGAGAGAGTATCTATTCTGAAACTTCATCAGATAACCTTACGAGTAGCTTTTGATGCAGACGTTTTATACGAAGGTGCAAGCAAGGTTGTTTGCAGTTTGTGATTCTGAAGCCTATTTTAGTTGCTGTTACACTCATTTTATATGCAAAAGGGAAGTATGAAGATGGAAATTTCAGTCCAAAACAATCGTACCTCTATCTCACCATCATCTATACTATCTCATACACAATGGCTCTTTATGCTTTGGCATTGTTTTACGTGGCATGCAAAGATTTGCTTCAACCATTTAACCCGGTTCCGAAGTTCATCATCATTAAATCTGTTGTCTTCTTGACTTACTGGCAGGTGAATAATCTTTAGGTTCTTTTTTCTTGTACAAATTACTTGCTTCCGCATGGAAATTGTTAGTGTGTATGTGACGTTGTGTTTGTTTTTGGGAGTATTCTGAGGAAGGTTAAATACAGTGACTTTAAAATGTTATTGTAATCTTCTATGGGGAAAAAGTGTTTTGCAATTTAGTTAAAAAAAATCATAGAACAATTGACACGTTAGATAGACTTTAGAACCACAAACCACAATCAAAACGTGATGCTAATTGCTTTGGTGAATGACCTCATTAAATAATGCGAGCGTGTAACAGTTACCAGGTATTAGTATGGGAAATTTTTCTATGAATGAAAATAAGTCTCGACAAGGGAAGTTGTTCTACATGCCTCCTCGGGTGACGATGCACTTGACTATTAGATTATAGCTTGATCTATGGACAAAAACGAGCTAATTATCCCTTTCCCCTGTATGCTATCACCAAAACGCCTTTTTAGTTTAGATGTTGTTGTCAGAATGTAAAGCAATTTTTTTAAAAGAATTTCTTTGCTTTGTACTTTGGCTTAGGGCGTCCTTGTCTTTCTTGCTGCGAAATCTCAATTCATCAAGAATGCAGAGGAAGCTGCTCAATTTCAAGATTTCATTATATGCATTGAGATGCTTATAGCTGCTGTGTGTCATCTTTATGCATTTCCATACAAAGAATATGCAGGAGCAAATATTGGTGGATCGCGTGGTCTCACGGGAAGTCTTGCACATGCCTTAAAATTGAACGACTTTTACCACGACACGGTCCACCAGGTAAGACTTGATAGTTTTCAAGTTAGCTTCTTTTGGAGATGAGTTTGTTTTTCTTTGCTGGACTGTTTATTGAACCACATTTCCTTTGCAGTTTGCACCAACGTATCATGATTACGTTCTTTATAACCATAGTGACGGTGATGAAGGAACGAGGAAGTATAGATCGCGAACCTTTGTGCCTACAGGCCCTGAGATGGACACTGTTAGAAAAAATAAACATATGTTTGGCAACAAGATAGATGACATTCAGCTTTCCACAATCTCGTCTTCAAGTTCAAGTACTCCTAAAAATCCCGAGTCCGTCCTCGAATCTGCAAATTCTGATGCAATGAAGTCTTCTCTTCTCATGGATACCTCAAATTCTTTATCTACACCATATGACATGTCGCTAATCGACTTGGATATGTCGAGTTACCCCTCAAAAGTTGCTGCAGCGGATGAAGCCGGGACTAGGTGACGAGCATAGTGGACAGGTAGGAAAAACGTTATTGTGAGAAGGGAATACGCTAAGAAGAGAGATGCAAGCAGTAGAGATTTTAGGTGTACGTTTCATTTCTCTGAAGGCCTTTATTGGCCTAATTGTGCACTGGTATTGCGGCAAACAGAAATTGTGTACAATGGCGTGTTTCTGCAGTCCTTGCTGTATATACATGGATTCTGATTTGTTATAAATTAGGGTTTGATACATAATCATGCATACAAATTCATTTCCTTAACCATACCACATTTCTAATTTGGACATTTGTGTCAGTTTTTTTCATCAGTTTTTTTTTTTTTTTTCGTGTGGTCTTTTTGGGCGTGAGATGGGAAATGCCAGTTTCTTTTTCCCCTCAGATGAATTCCTGTTTATATGTAACTCATTTGGTGTGTTTGGAAATTGTTAGTTGGTAGCTTTTCTTTGCTTCAGATACAGGCATTTTACTGGCTCTGTTGCTGAGGGTGGTGTGTGTGTGAGTTTCCTTCCAATTAACTGGAAGTCTTGCATATTGGTTTTGGGGATCTATTTTGGTCGTTATTATTATTTTGCGATCTAATATTTGTCCACTAAATGTCTATCTTAAACAATCTATATGGCTTCAATATATGCTTATGTATTTAATATTCATCTTAACTAATTTGTAAGGCTATAATACACGTTCATGTCAAAGTGTTTTAAATTTTCGTTGACATGTCGATAGATCGACATCAATAAGAGGTAAATCGACTTTTCATTATATCGTTAAAAAATCAATGAAATATAAAAAATGTTAACAAAATATCACTAATGTGGACATAATATTAACAATAAGGATTTTTAACTTGTTAAAAAAAAGATCGAAATGTTAATTTATTAACTTAAATATTTTTTTATAAATTTCTTGATTTTTCTGATTTTTCCAGAAATATCTATCGACATCGACATTTTATCGATATTTCTATCGATATTTCTATAAAATTGAGATCTTGATATTTTTGTTGACATTGATATTTAAAACGTTGACACCAACACATTGATACATATTTGAAATCATTTTATCCATTTGTTGAACACATAATGGTAAAATAACATTGAAAAAATTTATAGACTAAAATATACATTTTGAAAATTCAGATATCAAAATAAAATAAATCTAAAAGTTACATATTAAAATAACGAGATTTAAACTAAAATTTAATTGATTTAACTTTGATTTATTGTTGGAATGTTTTCCTTCCACAAGTACGTGATACAAAAAACAAAAAAGGGTCAAAGTTTGACAACCCATATCACAATATTAAACTTGAGGACAAGAATTAAATAAAGAAGCTGGTAGATCTCTTATCTTTCTTTTTTTATTTTTTATTTTTAAAAAATACCTCAGCCGCACAACATTATTCTCTTGCTTGCCGAAATGATTGGCTCTGCTTTTTAGCCTAACATGCACATCTATCATTGCACATGCATCCAATATTCCTTTGGTTTTAATGCTTTGATTTAAATATACAAACTCATGACATAGGGGAGCCTCACCTCACACATGGAGTGGCTCTATAAATTTGAGTGATGTTGGCCATGTGTTGAAAACTTGGAAATTAGTAACAACCAAGTTGGAGAGAGTACTCTTTTTCTCCCCCACTTCATCTTGTTCTATTACTGGTTCCTTTGAATTTGCTACTCTTATCATACTAGTGCGATTCAATTTCATATTTGGAACAACTTCCAAATCAGCGGTAAGAAACTTGCACAATCATTCAGCTTCTTTATAGCTTCACAAGCTACAACATACATACTCAACTTTTATAGTAGATCAGGATACTCAACTTCTTTAAACTCAAACACGTATGTACATTGTTCTCTTTTCTTTTGTTCAGTATGTCCTAATAGTAGAGCAGACAGGTTTTATGGAGATTGTTGGTGTTGGAGGACGTCGGTGGCACCAGTATCAGAAGCTATATAGCAGTGGTGATAGGGTAGTCAGGCGTAGACGCCAATGGATGAAGAAAATGTTAAGGAGAGGAACAAAAGGTTTTCGATTGTATCGTCCTTCGATAACTTTGACTCTCAGTCTAAAGGTATCCTTTTTAATCTTGTTGTCGAGAAGAATTGCAAAGATTGTCAACAAAATGAAGATTGAAGATGTATGTCCTAATATCATCTTCTCCACTCATTGGGGACTTCCTGTTTTATCTTATTCCTCTTCCAAGTGTAGAGATGGGGGAAGTGGTTCCTATCTACTACATTATTGTTGCGTTTTTCTGCACGATTGGGGCAATTGCTCTGGCGATCTTTCACATTTACCGGCATCTTTTGAACTATACGGAACCTACTTACCAGAGATACATCGTGCGAATCATCTTTATGGTTCCGGTTTATGCACTGATGTCATTCTTGTCTCTTGTTTTACCTGCGAGTTCAATCTATTTTAATTCCATACGAGAAGTCTATGAAGCTTGGGTCATTTATAATTTTCTGTCGTTGTGTCTGGCATGGGTTGGTGGTCCTGGAGCTGTTGTTATAAGTTTAAGCGGCCGTGTATTGAAGCCATCATGGGGCTTGATGACATGTTGTTTTCCTCCAATACCATTAGATGGACGTTTTATACGAAGGTGCAAGCAAGGTTGTTTGCAGTTTGTGATTCTGAAGCCTATTTTAGTTGCTGTTACACTCATTTTATATGCAAAAGGGAAGTATGAAGATGGAAATTTCAGTCCAAAACAATCGTACCTCTATCTCACCATCATCTATACTATCTCATACACAATGGCTCTTTATGCTTTGGCATTGTTTTACGTGGCATGCAAAGATTTGCTTCAACCATTTAACCCGGTTCCGAAGTTCATCATCATTAAATCTGTTGTCTTCTTGACTTACTGGCAGGGCGTCCTTGTCTTTCTTGCTGCGAAATCTCAATTCATCAAGAATGCAGAGGAAGCTGCTCAATTTCAAGATTTCATTATATGCATTGAGATGCTTATAGCTGCTGTGTGTCATCTTTATGCATTTCCATACAAAGAATATGCAGGAGCAAATATTGGTGGATCGCGTGGTCTCACGGGAAGTCTTGCACATGCCTTAAAATTGAACGACTTTTACCACGACACGGTCCACCAGTTTGCACCAACGTATCATGATTACGTTCTTTATAACCATAGTGACGGTGATGAAGGAACGAGGAAGTATAGATCGCGAACCTTTGTGCCTACAGGCCCTGAGATGGACACTGTTAGAAAAAATAAACATATGTTTGGCAACAAGATAGATGACATTCAGCTTTCCACAATCTCGTCTTCAAGTTCAAGTACTCCTAAAAATCCCGAGTCCGTCCTCGAATCTGCAAATTCTGATGCAATGAAGTCTTCTCTTCTCATGGATACCTCAAATTCTTTATCTACACCATATGACATGTCGCTAATCGACTTGGATATGTCGAGTTACCCCTCAAAAGTTGCTGCAGCGGATGAAGCCGGGACTAGATACAGGCATTTTACTGGCTCTGTTGCTGAGGGTGGTGTGTGTTATGTCCTAATAGTAGAGCAGACAGGTTTTATGGAGATTGTTGGTGTTGGAGGACGTCGGTGGCACCAGTATCAGAAGCTATATAGCAGTGGTGATAGGGTAGTCAGGCGTAGACGCCAATGGATGAAGAAAATGTTAAGGAGAGGAACAAAAGGTTTTCGATTGTATCGTCCTTCGATAACTTTGACTCTCAGTCTAAAGGTATCCTTTTTAATCTTGTTGTCGAGAAGAATTGCAAAGATTGTCAACAAAATGAAGATTGAAGATGTATGTCCTAATATCATCTTCTCCACTCATTGGGGACTTCCTGTTTTATCTTATTCCTCTTCCAAGTGTAGAG ATGGGGGAAGTGGTTCCTATCTACTACATTATTGTTGCGTTTTTCTGCACGATTGGGGCAATTGCTCTGGCGATCTTTCACATTTACCGGCATCTTTTGAACTATACGGAACCTACTTACCAGAGATACATCGTGCGAATCATCTTTATGGTTCCGGTTTATGCACTGATGTCATTCTTGTCTCTTGTTTTACCTGCGAGTTCAATCTATTTTAATTCCATACGAGAAGTCTATGAAGCTTGGGTCATTTATAATTTTCTGTCGTTGTGTCTGGCATGGGTTGGTGGTCCTGGAGCTGTTGTTATAAGTTTAAGCGGCCGTGTATTGAAGCCATCATGGGGCTTGATGACATGTTGTTTTCCTCCAATACCATTAGATGGACGTTTTATACGAAGGTGCAAGCAAGGTTGTTTGCAGTTTGTGATTCTGAAGCCTATTTTAGTTGCTGTTACACTCATTTTATATGCAAAAGGGAAGTATGAAGATGGAAATTTCAGTCCAAAACAATCGTACCTCTATCTCACCATCATCTATACTATCTCATACACAATGGCTCTTTATGCTTTGGCATTGTTTTACGTGGCATGCAAAGATTTGCTTCAACCATTTAACCCGGTTCCGAAGTTCATCATCATTAAATCTGTTGTCTTCTTGACTTACTGGCAGGGCGTCCTTGTCTTTCTTGCTGCGAAATCTCAATTCATCAAGAATGCAGAGGAAGCTGCTCAATTTCAAGATTTCATTATATGCATTGAGATGCTTATAGCTGCTGTGTGTCATCTTTATGCATTTCCATACAAAGAATATGCAGGAGCAAATATTGGTGGATCGCGTGGTCTCACGGGAAGTCTTGCACATGCCTTAAAATTGAACGACTTTTACCACGACACGGTCCACCAGTTTGCACCAACGTATCATGATTACGTTCTTTATAACCATAGTGACGGTGATGAAGGAACGAGGAAGTATAGATCGCGAACCTTTGTGCCTACAGGCCCTGAGATGGACACTGTTAGAAAAAATAAACATATGTTTGGCAACAAGATAGATGACATTCAGCTTTCCACAATCTCGTCTTCAAGTTCAAGTACTCCTAAAAATCCCGAGTCCGTCCTCGAATCTGCAAATTCTGATGCAATGAAGTCTTCTCTTCTCATGGATACCTCAAATTCTTTATCTACACCATATGACATGTCGCTAATCGACTTGGATATGTCGAGTTACCCCTCAAAAGTTGCTGCAGCGGATGAAGCCGGGACTAGATACAGGCATTTTACTGGCTCTGTTGCTGAGGGTGGTGTGTGTTATGTCCTAATAGTAGAGCAGACAGGTTTTATGGAGATTGTTGGTGTTGGAGGACGTCGGTGGCACCAGTATCAGAAGCTATATAGCAGTGGTGATAGGGTAGTCAGGCGTAGACGCCAATGGATGAAGAAAATGTTAAGGAGAGGAACAAAAGGTTTTCGATTGTATCGTCCTTCGATAACTTTGACTCTCAGTCTAAAGGTATCCTTTTTAATCTTGTTGTCGAGAAGAATTGCAAAGATTGTCAACAAAATGAAGATTGAAGATGTATGTCCTAATATCATCTTCTCCACTCATTGGGGACTTCCTGTTTTATCTTATTCCTCTTCCAAGTGTAGAG MGEVVPIYYIIVAFFCTIGAIALAIFHIYRHLLNYTEPTYQRYIVRIIFMVPVYALMSFLSLVLPASSIYFNSIREVYEAWVIYNFLSLCLAWVGGPGAVVISLSGRVLKPSWGLMTCCFPPIPLDGRFIRRCKQGCLQFVILKPILVAVTLILYAKGKYEDGNFSPKQSYLYLTIIYTISYTMALYALALFYVACKDLLQPFNPVPKFIIIKSVVFLTYWQGVLVFLAAKSQFIKNAEEAAQFQDFIICIEMLIAAVCHLYAFPYKEYAGANIGGSRGLTGSLAHALKLNDFYHDTVHQFAPTYHDYVLYNHSDGDEGTRKYRSRTFVPTGPEMDTVRKNKHMFGNKIDDIQLSTISSSSSSTPKNPESVLESANSDAMKSSLLMDTSNSLSTPYDMSLIDLDMSSYPSKVAAADEAGTRYRHFTGSVAEGGVCYVLIVEQTGFMEIVGVGGRRWHQYQKLYSSGDRVVRRRRQWMKKMLRRGTKGFRLYRPSITLTLSLKVSFLILLSRRIAKIVNKMKIEDVCPNIIFSTHWGLPVLSYSSSKCRX Homology
BLAST of Sgr020482 vs. NCBI nr
Match: KAG6599155.1 (Transmembrane protein 184A, partial [Cucurbita argyrosperma subsp. sororia]) HSP 1 Score: 885.6 bits (2287), Expect = 2.2e-253 Identity = 452/558 (81.00%), Postives = 492/558 (88.17%), Query Frame = 0
BLAST of Sgr020482 vs. NCBI nr
Match: XP_038890300.1 (transmembrane protein 184B-like [Benincasa hispida] >XP_038890301.1 transmembrane protein 184B-like [Benincasa hispida]) HSP 1 Score: 776.2 bits (2003), Expect = 1.9e-220 Identity = 395/421 (93.82%), Postives = 408/421 (96.91%), Query Frame = 0
BLAST of Sgr020482 vs. NCBI nr
Match: XP_004144735.1 (transmembrane protein 184A [Cucumis sativus] >XP_011648889.1 transmembrane protein 184A [Cucumis sativus] >KAE8651636.1 hypothetical protein Csa_021361 [Cucumis sativus]) HSP 1 Score: 772.3 bits (1993), Expect = 2.8e-219 Identity = 395/421 (93.82%), Postives = 407/421 (96.67%), Query Frame = 0
BLAST of Sgr020482 vs. NCBI nr
Match: XP_008452971.1 (PREDICTED: transmembrane protein 184A-like [Cucumis melo] >XP_016902321.1 PREDICTED: transmembrane protein 184A-like [Cucumis melo]) HSP 1 Score: 770.8 bits (1989), Expect = 8.1e-219 Identity = 394/423 (93.14%), Postives = 407/423 (96.22%), Query Frame = 0
BLAST of Sgr020482 vs. NCBI nr
Match: XP_022946050.1 (transmembrane protein 184A-like [Cucurbita moschata] >XP_022946051.1 transmembrane protein 184A-like [Cucurbita moschata]) HSP 1 Score: 770.4 bits (1988), Expect = 1.1e-218 Identity = 388/421 (92.16%), Postives = 405/421 (96.20%), Query Frame = 0
BLAST of Sgr020482 vs. ExPASy Swiss-Prot
Match: Q6ZMB5 (Transmembrane protein 184A OS=Homo sapiens OX=9606 GN=TMEM184A PE=1 SV=1) HSP 1 Score: 241.5 bits (615), Expect = 2.2e-62 Identity = 137/345 (39.71%), Postives = 201/345 (58.26%), Query Frame = 0
BLAST of Sgr020482 vs. ExPASy Swiss-Prot
Match: Q8BG09 (Transmembrane protein 184B OS=Mus musculus OX=10090 GN=Tmem184b PE=2 SV=1) HSP 1 Score: 238.0 bits (606), Expect = 2.5e-61 Identity = 128/308 (41.56%), Postives = 185/308 (60.06%), Query Frame = 0
BLAST of Sgr020482 vs. ExPASy Swiss-Prot
Match: Q1RMW2 (Transmembrane protein 184A OS=Bos taurus OX=9913 GN=TMEM184A PE=1 SV=1) HSP 1 Score: 236.9 bits (603), Expect = 5.5e-61 Identity = 130/309 (42.07%), Postives = 189/309 (61.17%), Query Frame = 0
BLAST of Sgr020482 vs. ExPASy Swiss-Prot
Match: A2VDL9 (Transmembrane protein 184B OS=Bos taurus OX=9913 GN=TMEM184B PE=2 SV=1) HSP 1 Score: 235.3 bits (599), Expect = 1.6e-60 Identity = 127/308 (41.23%), Postives = 184/308 (59.74%), Query Frame = 0
BLAST of Sgr020482 vs. ExPASy Swiss-Prot
Match: Q9Y519 (Transmembrane protein 184B OS=Homo sapiens OX=9606 GN=TMEM184B PE=1 SV=2) HSP 1 Score: 235.0 bits (598), Expect = 2.1e-60 Identity = 127/308 (41.23%), Postives = 184/308 (59.74%), Query Frame = 0
BLAST of Sgr020482 vs. ExPASy TrEMBL
Match: A0A1S4E266 (transmembrane protein 184A-like OS=Cucumis melo OX=3656 GN=LOC103493816 PE=4 SV=1) HSP 1 Score: 770.8 bits (1989), Expect = 3.9e-219 Identity = 394/423 (93.14%), Postives = 407/423 (96.22%), Query Frame = 0
BLAST of Sgr020482 vs. ExPASy TrEMBL
Match: A0A6J1G2Q4 (transmembrane protein 184A-like OS=Cucurbita moschata OX=3662 GN=LOC111450258 PE=4 SV=1) HSP 1 Score: 770.4 bits (1988), Expect = 5.1e-219 Identity = 388/421 (92.16%), Postives = 405/421 (96.20%), Query Frame = 0
BLAST of Sgr020482 vs. ExPASy TrEMBL
Match: A0A6J1DUV4 (transmembrane protein 184B OS=Momordica charantia OX=3673 GN=LOC111023302 PE=4 SV=1) HSP 1 Score: 767.3 bits (1980), Expect = 4.3e-218 Identity = 389/421 (92.40%), Postives = 403/421 (95.72%), Query Frame = 0
BLAST of Sgr020482 vs. ExPASy TrEMBL
Match: A0A6J1KHU5 (transmembrane protein 184A-like OS=Cucurbita maxima OX=3661 GN=LOC111493971 PE=4 SV=1) HSP 1 Score: 766.9 bits (1979), Expect = 5.6e-218 Identity = 387/421 (91.92%), Postives = 405/421 (96.20%), Query Frame = 0
BLAST of Sgr020482 vs. ExPASy TrEMBL
Match: A0A2N9FQL0 (Uncharacterized protein OS=Fagus sylvatica OX=28930 GN=FSB_LOCUS17093 PE=4 SV=1) HSP 1 Score: 746.1 bits (1925), Expect = 1.0e-211 Identity = 377/421 (89.55%), Postives = 400/421 (95.01%), Query Frame = 0
BLAST of Sgr020482 vs. TAIR 10
Match: AT5G26740.1 (Protein of unknown function (DUF300) ) HSP 1 Score: 674.9 bits (1740), Expect = 5.6e-194 Identity = 335/422 (79.38%), Postives = 377/422 (89.34%), Query Frame = 0
BLAST of Sgr020482 vs. TAIR 10
Match: AT5G26740.2 (Protein of unknown function (DUF300) ) HSP 1 Score: 674.9 bits (1740), Expect = 5.6e-194 Identity = 335/422 (79.38%), Postives = 377/422 (89.34%), Query Frame = 0
BLAST of Sgr020482 vs. TAIR 10
Match: AT5G26740.3 (Protein of unknown function (DUF300) ) HSP 1 Score: 674.9 bits (1740), Expect = 5.6e-194 Identity = 335/422 (79.38%), Postives = 377/422 (89.34%), Query Frame = 0
BLAST of Sgr020482 vs. TAIR 10
Match: AT3G05940.1 (Protein of unknown function (DUF300) ) HSP 1 Score: 672.5 bits (1734), Expect = 2.8e-193 Identity = 337/420 (80.24%), Postives = 378/420 (90.00%), Query Frame = 0
BLAST of Sgr020482 vs. TAIR 10
Match: AT1G77220.1 (Protein of unknown function (DUF300) ) HSP 1 Score: 158.3 bits (399), Expect = 1.8e-38 Identity = 105/279 (37.63%), Postives = 150/279 (53.76%), 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 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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