Sgr004973 (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.ATGCCTCCACCACTAAATTCTATGAAGCTTAATATCGATGGTGCATGTAAACAGAAGAAGGAGCCAATTGGTGTAGGACTTCAGGTCTGTTTGGGTGAAGTCTAGTTAAGATGCTACATGAGAATAAAGAGAACTCCTCCTTGATAGGAAGATTGATAGGACGACGAGAGTTTTAGATTGAGGAAGTTTAATTTTCACACAAGAAAGGGAGGCTAATTAGGAAGCCCATAGTATTTCACCAGCTTGGTTGAAGCCTATGTTAAAGTCTAGGTCTTTTACTACAAAACTTAATTTCCTTTGATCGAGTTATCTTTATACGTGTATAACTGTGACAATGAATATTGACATCATTGACGTATTTCGATCTTTTCATTTTTGTCAAAATAAAAAATAAACAAAGAGAAAGAAAGAAAGAAAGAAAGGAAATTCCCGTGGACATTTCCTCTCCATTTAATAGTAATTCCCTTCCCACCATCTTAACAACTATTGGCATGTTTTCATTTAAATACAAGAGCACTCTTCCTTTTTCAAATTTTTTTTTTCTTTCCTTTTAGAATAGGTCTACCAACCTAATCCATGATCCAAAGAACAAAGAAATTTTCTAAAATTGTGTACTAAAAATTACCTCAACTTTTGTTTGGTATATGACATAGAGGGAAAGAAAAGTTATGTCAATATTTTTTTGGCTATATGATCATGTTACTTAAATCACTAAGTACATTTAACCGTTTAATATATTTTCAGTATTCTCTTACGTGTGGAATAGATATTAATCAAGGTTTAAATTTCATTTTTATTCTTGAACTTTTAGATTTGTGGTATATTGGATTTTTTAAGGCTAAATTATGAATTTAATTTATAAACTTTCAAAATTGTGTCGGATAGATCCTAAACTTTTAATTTTATATCTAATAGATTCTTAAACTTTTAATCTTGTGTTAAACAGATCCCTGACTTATTAGACGTTTTTTTAAATTTACGAACCTTTTAAATACAATATTAAAATGTCATGAATTTATTTGATACAAAATTAAATTTTGTGTATAATAGGTCTGTTAATTTTAAAAAATGTCTAATAAGTCAGAGATCTATTAGACATAAAATTAAAAGTTTAAAAACCTATTAAATATTTTTAAAATTCAAATATTAGACACAAAATTAAAAGTTTAGGACACGTTTTAAAATTTCATGATCTATTTGACACAAACTAAAAAGTTTAAGGACCTGTAATTCTGGTTTTTTTTTTTCCGACGCACGAAGATTCTGATCTGAACGAAGGAAATTCAGACAAAATTTCAGTCAGATTGCAGTCTTCCGGGTACACCCACCATTCGTCGAAGGAAGAACTCCACAAAGAGAAAAAAAAGATCGTCGAAGGAAAAAGCGGATCAACGCGGCCGTCTCTTCCGAGTTCTGACTAGTCTTCATCACCTGCCATTTCAATTTTAATGCAATCAAATGAACCAGCCATTCAGATGGAAGCTTCAAAGTCCCTAAACCCACCCTCAAGGCAATGACTAGTACTTTTCTTTCTTATAAATCTGATCTTCAGCATCGGTTTTTTTACCAATTCTCTACGGCCTCTGGTGTTTGGTTTGATTTGGAACCAAGCGTAGGAGAATAGATTTTTGATTGATTATTATTCATGCAGCGGTTGAAATTTAATAAATTTTATCCTTGTCTTCTTTATCTTTCCATATTTAAAGGCCCTCCGTTGGCCTCCTCTGCACTTCATCCATTACCGTATCGAGCTTGCTTGCACTCTTCATCGTCTTGCTTTCTGGGCTCCACGACAACACGTATGACTTCTTCTGTGTGTTTGCTTCTTGTTATTCTGCCTTTTTATGCTGATTCTATCTGGGATCTTTCATGGGGTTTCTGATATATCGCCATAATTTAATGGGCTCTTTCTCGATTCCTGTACCCACGTCCCAATTCCGTTTCCCACCGGAGAAGACAACTGATTTTTGTTTAATCAGGGTTGGGATTTGAAGACATGGATTTATTTGGGTTGAACTTCTTGCAAAATCAGGCGGACTTATTATGGGCTCCTTTTTGGGGCTTTTTCTTGTTTGTCGTTCTTGCAGTTACTGCTTCATACCTGACAAACAAAAGTCTATCCCTCAGCCAAGGCATGTCTTCTTCATCAACTTCATTGGCAACTGCAGAGCAAGAGATTCCTCAGGATAAGATTGAACAGCTTGAATTACTTAGTGGAGTTCATGATCAATATGGAGGAGTTATTGTAGAAATGAAGGACCCTATGGATCCAAAGGAGTTTGGTTCTTTGCTTAGTGCTTCAATAGCGCAATGGAGACAACTGGTATTTGATTTCTGTCCTATTATAAGTTGAATATTGTTCTTTTGCACTGGTCTTCTGCTCCCATTTATGGGTTCTGTATGAAATTTGATTTTGCAGGGTAAGAGGGGTATTTGGATCAAATTGCCTATTGAACTTGCAAATCTTGTTGAAGTTGTTGTTAAGGTACTTTTCGCTCAAACAAACACACAACAGACAGTTGTTCTGAGAGCATATGATATTTATAATGTGTTTATATTATGAAAACTTGTGATTAAAAATTTTCCGTTCCACTAAGTGGCATCTCATCATAAAGTTAAAAGGCTAAATTGTATGTTTTGCTCCTAGAATATGTATGAAATTTTAACTACCATGGGTTGGCTTAGTGGTCATTGGACCGATAAGAAAAATAAAGGGTTTAAGGGAGTGAGTTTAAATCATGATGGCCACTTACCTAAGATTTAATATCCTACGAGTTTCTTTGACAACCTAATGTAGTAGGATGAAACATTTGTCCTGTGAGATTAGTTGAGGTGCATGCAAGCTGGCTCGGATACTCACAGACATAAAAAATATATATCTATGTGTGTGTGTGTATGAATTTTCAGTTCTACCCTTAAACTTCCAAAAGTTTCAAATATATTCTACAACTTTTTGATTGGTTCGAGATTGCCCTCCAGCTAACTTCATTCAACAAAAATATATAGTTGAAAGACCAACTTGAAAACTCATTTTTAAAATTTTTTAGAATATTACATCACAAATATGGGGTAACTTCATTAAACAAAAATATATAGTCCAAGGACCAACTTGAAAACTCATTTTTTTTAATTTTTTAGAATATTACATCACAAATATGAGATATGAGACTCGAACCTATATGTCTTTAGGGGAAGTATAGATGTTGGCAAAACCTCATATATAATTTAAGAGTAAACTTGAAATATACATATAGATGATACTTTATGTTCTCATTAAATTTTTTTAATGGCATTGATCCAAAATGGTGATTTTGAAACAATCAAAAAGTAGAAAGGTATATTTGAAACTTGGGGAAGTTTAGGGATAAAGTTGAAAATTCATATATAGTTTAGAGGCAAAGCTATAATTAAGCCTAAAGTTAAACCGCACTCATCTTCTGTATCTGCTTGAGAAAAAGAAGAGTGGTCCAAGCCACTTCCCCAAATTAATGCTGCTTGCTGCGTTTAACTTTCAGGAAGGATTTGTGTTCCACCATGCCGAACCCAATTACCTAATGCTTGTGCGATGGATCTCTGAAACTACCAATTCTCTCCCTGCTAATGCCTCTCATCGTGTGGGCATCGGTGCATTTGTGATGAATAGTAATCGAGAGGTACTTTTGAAACTCGTGCTGTTAGTTTCTGATCTGAAAAACAATACTATGTTCTTAGAAATGATGAATACCAGAAACACAAGGCGCTCTAAGGAGCCAAACTGTGTATCATAATTTACTGTTGATTTGAAAGGGTTGACTTCGAAGAGATCGTTGTTTTTAGAGTAGCTAACATTAAGATCAACCGAGGATTAGCCTAATGGTCATTGGGGCCAATGAAAAAAATAAAGGGTTTAAAAGGGAATGAGTTCAAACCATGATGACCACCTAGTTAGGATTTAATATCCTACGAGTTTTCTCGGGAACCAAATGTAGTATGGTCAAGCGGTTGTCCCATGAGATTATAGTCGAGGTGCATGTAAGCTGGACCAGACACTCATAGATATATATATATATAAAAAAAAAAAAAAAAAAAAAAAAGTAGCTAACATTAAGACTCATTCTCTAGGTGCTTGTGGTTCAAGAGATCAGTGGCAAATTCAAAGGTACAGGAGTTTGGAAGTTACCAACTGGAGTGGTTAATGAGGTGAGATGCTGCACTTGTTCTCAATTAAAATAAGCCTTCTTATGCTATAATCTAGCTATCCTTTCTGTAGGGAGAGGATATTTGTGAAGCTGCAATAAGAGAAGTAAAAGAAGAGACTGGTGTAAGTAACAACATGCAACCAATTGCCACAGTTTTTCTTCTTTTTAAAATTTTTTTTTAACAGCTTCATTTAATGCTTTTCAGATTGATGCAGAATTTGTAGAAGTGTTGGCATTCAGGTTTGAATTCTCCGCCTCATTTTTTGATATTTCCTCCACAGTCTATACATTAAACAAAAATTTAGTTTTACTGGATGTGTGCTGTGTGAAGGAGGATTCTCGTCCTTACCATCTTTTTCTTTAATCTGGACTTACCATCTCCTCCTTTCTTGGGTGATGCAGGCAAAGCCACGACTCATTTTTCACGAAATCGGATTTGTTTTTCGTATGCATGTTACGACCAATGTCTTACGATATCCAAAAGCAAATTTCAGAGATTGAGGCAGCCAAGGTATATAATGGTAGACCATGATTGATAATCGATGAGTTGTCATTTTTCATTTTGAAGCAAGTAAAAATGCCTCCTTGATCTACAAATCAAAGCCCCAAAACTGGAATCCTATGTTTCCATATCATTGATTGATAATCTAAACTTTAGGACAGGTCACTTCTGCTGTCTTGATTAGTTGTCTTATAAAACTGAACAAAAGCGCTTATCTAGGAATGCACATAGAATATTCAAATGCAATGACGAAACACCCCTTTTACATTCTAAGAAGATCGAAAAGGTTATTTTTCGACTTAAAAAAAGAAACCTTCAAATTTTGTTAGCAAACCAGGTTAGTTGTCTTATAAAACCGTTGATAAACAACAGTTATTCAGTAATATGAAACTAGTTCGGCCTCACCTTGTGAATATTGAACATTTATATGCCTCGGAACATCCCTTTTACATTCTAAGAAAGAGCGTAAAGGCTATGATGAAGTTGAGTGAGGAGACAACTATTAAGAAATCTGCAAATTTTGCTTGCAGCCTTCTTCCCAATTCAGGCTGAGCATTTCCAGATATGGAAATGAGATAAAAATGAAGACTGTAAACTGTTGTGATAATTTACCTTTTTTTCCTTGTCTGACTTTTTCCACCACCACACCCCCCCCCCCCCAAACAGTGGATGCCTATTGATGAATATGCAGATCAACCCTTCGTTAAAACAAATTTGGGTTTCGACTATGTGGCAAAAATATGTGTAGCGAAGGCGAATGACGACTATACTGGCCTCTCGGCGAATCCTACGTTTTCTGCCTCTGGTAAACTGACTTACCTCTACTCAAAACTGAAAATCTGAATTCCAATGCAGCTTCTGGAGAAAGGTTCATCATCATTCTCCAACAGCAAAAAATGATAACTCTAACCTCTGCATTCCAAGAAGCTGAAAAGAATCTGTGAAGTCATGTGTTTTGTACCTAAAAGTCTTGCCCTTAGATGTCTTTTCCTGTTTGGTTTTCATGGTTTGAGAAAATTTCTAGTACTAGCATGTTATTGAAGAGTATTTACTCACATGATTAATTGATTTAATGAATCTTATATTATTTTTTAGATGTTGGTGTAGTCTTAATAAGATATTGTGGAATGGTTAATATTGTATTGTAGAATATTTCAAGTATTTTTTTAATTGTAATGCCAACTATTTGTTAAGTTTAAATATGATGTAGTCCCTTAAGTTTTATCTATTTTCTTCTTTACACTCTAAACTTTTACGGTTTTCGTTTTTTAATATTACGTTGAAGATTTGAACTTAAAATATTTAAGAGAAGTTATTAATGGCGTAATCCATTTGAGCATACTCAATTGGCTTCAGAGTTTGATTTAGTTTTGAACTTTTATTTGCTTTTTATTTTGGTTTTTTAATATCTATAATCTCAATTTCAGTCTTCAATCTTTTAATTAAATTTCATGTTTATTCCTCATAGTTAAGGTGATCGTATGAATATGATATTTAAATAGTGAATTAAGTTACATCCTAATAAATTAGACATAACATTTTTTGCCCGTCACTAAATATGGGATTCAATAAAATTTGGGGATTAGAATTGAAATTTCTAAAGATGGAGGATCAAAATGAAGAAGGTGTAAAAGTTCCAAGTACTAATATCAAATTTTAATTACATTTAAGTTGTTTTTGTTAAAATTCATTTGTAATAACTATATAAAAAAAATGCTAGGATTTCTATAGGATTGCTTCCACCGACACAAGAATAAGATTCTAGATTATTTTCCAATATGCATTGTCAAAAAAAACAACTAAACAATTATTCCAATTTAAATAATTTATTGTTTTTTTTCAAGAAAAAAATTTAAGCCAAATCACATGCTACAACCCAATTTCATATTTAAAGTGACTGTACACCCATCCACAAAAACATCACCGACAAATCCCAAAAAAGAGAAAACCAAAATAAAAAATAGAAAATAAAAATCGCCAAATACAAGTGGACTTTTATTTTGCTCTATGAATGACCTCTAGTATCGCGCCACGTGCGTTTCCATCAGGAAAATCATATGAGCAAAACTCCGAAGCACAAACTCAACATCATCATCACGATCGATCTCCGGCCGTCCGATCCAAATGCTCCATCTTTTTCCGATTTCTGATCTTCCGGCTCGCCGTCCGACTCGTCGGAGCCGATGGGCGCGTCGGCCTCCTCCCCCGCCGACGCCTTGGGAGACGGAGCCTTCGACTTCGACTTCTTCGCCGCCGCCTTCGGAGCCGGCGCCTCCGTCTCCGGCACCGCCTTGAACAGCTCTCTGGGCTGCAACACCTTGTCGATCTCGTACACCACCAGCGGCTCGGTGTCGATCAACGTCCCCGTTATCGTCGCCGTCACGACCCTGGTCTTGATCGTCACGTCCTCGCCGTCGGTCTGGATATTGAAATCGTACTTGTTGGCGCCGTCCGTCGCGAGCGTGTTGGAGGCGCCGTTGTTGGACTTGAGCATCTGCAGCGACAGGTAAATGGGCATGCCGTGGTATAACACCAGCGACAGTTTATGGGCCGCCGTCAGATTCTTGTACTTGGGAAGAAAGTCATTGAGTACTGTGTCCGTCGGGCAAAACACCGTCAGCCCGCCGTCGATGTTCGTCTGATACGTCGCGGCGGCGCCGGTTGCTATCAGCAGATCGGAGAATGCTTTGCAGCCTTGCTTCGGCAGGATTTCCGTCAGATTTAGACTCGGCGGCGCCGCCGTCGGTGCCTCCGCGTCGGCGGAAGTTATAACCTGAGAACATTCCCGTTTGTAAACTGTTAGTTAACGAACATAACTCTTGTCGCTTAGAGTGAAAAAAATCTCCCCATCTATAACAATAGAATATGGTGGCTCGTAATTTTACACTATTAAATATACCAGTGAGAAACTACAAAATGTATTTCACATTCATATCCAAAAATTATTAGAAAACATATAAATTTTAAATTTGCATCCAAGTAAAGCAATCACGTCGTTGCGGCTACATTCAATTGATCTCATTTTTTTTATTCCTTGTTTCTTCTTTTATTAAAAAAAAATTATATTTGATTACTATTCATTATTTCTTGTTCATTGAAAAAATTAATAATGTATTTGATAACTATTTATTATCGATTGTTTTCCCAATTTTTAAATAAAAAAATCAAGTTTTTATTTATATTTAAAAAAAACTGGCAACGAAAAGAAGGAACAAAAAAAAAAAAAAATCAATTGTTTCTAAAATTTATATACAATTTTGGAGAATATTTCTTAAAATTGAAAACAAAAAATAAAAACCACTTATCAAAAAAATTAAACTTCTCTAAAATTGAAAAAAAAAAAAATTTGTTGTTTTCAAAATGTTGGTAAAATTTTGTAAATGCTTCTAAAGAATGAGAAAGTAGAAATAAAGAAGAGTTATAATGCTTAAATTTCTCAAAAAAATAAAGAAAAAAAAAACAGAAACTTTATCAAACGCACGGTTAAATTGTCGTCGGAGAAAGATCCGGCGAAGTTCATTTTTTTCTCAGTTCATATTAAAAATGACTTTCAACTTTCTAGACAACCAAACAAGTTTCTGATCAGTACCTTAGTGATCTGCAAGATCGAGATGTTGTAGGGCAACTCGATGACGGTTTTGACATAAAACGAGTTGAGATCGCCGGCGTTATCTTCAGCGCCGAACCCGACTTTCCCCCCTTTGAGATTGGTGATATTGACGTACCCAGAAGTTCCGGTGGCGGAGCCGGAGGCCTGAAACAAGGTAGAAGACAGGGTGGTTCCTTTAGAGAGCTGGTGGAGCTTCTTGGGGCCGTAGTAATCGACGAGAACGTGAAGCGAGAGAATGTTTTTGATGGTCCCGACGGTGAAATGCTTGTCCAGAAGCGACGACATGGCGGAGTTGTCGAGGGCGAGGACGGTGATGGTGAGGCGCCGGTTGATCTCGCCGGCGAGGTGGGTGACCGTGAGGTAGTGGTTGAAGGTGCTGAACTCGGGGTGTTTGGCCAAGATTCTGGTGATGTTGTGGGCTTCAGCGGCGGAGGACAGCAGGAGGAGGACGAAAACAGAGATGGCCACAGCGGCGGCGGAGAAGGGGAGAGGTCGCCGCATGGCGGAGGCTGA ATGCCTCCACCACTAAATTCTATGAAGCTTAATATCGATGGTGCATGTAAACAGAAGAAGGAGCCAATTGGTGTAGGACTTCAGCATCGGTTTTTTTACCAATTCTCTACGGCCTCTGGTGTTTGGTTTGATTTGGAACCAAGCGCCCTCCGTTGGCCTCCTCTGCACTTCATCCATTACCGTATCGAGCTTGCTTGCACTCTTCATCGTCTTGCTTTCTGGGCTCCACGACAACACGCGGACTTATTATGGGCTCCTTTTTGGGGCTTTTTCTTGTTTGTCGTTCTTGCAGTTACTGCTTCATACCTGACAAACAAAAGTCTATCCCTCAGCCAAGGCATGTCTTCTTCATCAACTTCATTGGCAACTGCAGAGCAAGAGATTCCTCAGGATAAGATTGAACAGCTTGAATTACTTAGTGGAGTTCATGATCAATATGGAGGAGTTATTGTAGAAATGAAGGACCCTATGGATCCAAAGGAGTTTGGTTCTTTGCTTAGTGCTTCAATAGCGCAATGGAGACAACTGGGTAAGAGGGGTATTTGGATCAAATTGCCTATTGAACTTGCAAATCTTGTTGAAGTTGTTGTTAAGGAAGGATTTGTGTTCCACCATGCCGAACCCAATTACCTAATGCTTGTGCGATGGATCTCTGAAACTACCAATTCTCTCCCTGCTAATGCCTCTCATCGTGTGGGCATCGGTGCATTTGTGATGAATAGTAATCGAGAGGTGCTTGTGGTTCAAGAGATCAGTGGCAAATTCAAAGGTACAGGAGTTTGGAAGTTACCAACTGGAGTGGTTAATGAGGGAGAGGATATTTGTGAAGCTGCAATAAGAGAAGTAAAAGAAGAGACTGGTATTGATGCAGAATTTGTAGAAGTGTTGGCATTCAGGCAAAGCCACGACTCATTTTTCACGAAATCGGATTTGTTTTTCGTATGCATGTTACGACCAATGTCTTACGATATCCAAAAGCAAATTTCAGAGATTGAGGCAGCCAAGGTATATAATGATCAACCCTTCGTTAAAACAAATTTGGGTTTCGACTATGTGGCAAAAATATGTGTAGCGAAGGCGAATGACGACTATACTGGCCTCTCGGCGAATCCTACGTTTTCTGCCTCTGGAAAATCATATGAGCAAAACTCCGAAGCACAAACTCAACATCATCATCACGATCGATCTCCGGCCGTCCGATCCAAATGCTCCATCTTTTTCCGATTTCTGATCTTCCGGCTCGCCGTCCGACTCGTCGGAGCCGATGGGCGCGTCGGCCTCCTCCCCCGCCGACGCCTTGGGAGACGGAGCCTTCGACTTCGACTTCTTCGCCGCCGCCTTCGGAGCCGGCGCCTCCGTCTCCGGCACCGCCTTGAACAGCTCTCTGGGCTGCAACACCTTGTCGATCTCGTACACCACCAGCGGCTCGGTGTCGATCAACGTCCCCGTTATCGTCGCCGTCACGACCCTGGTCTTGATCGTCACGTCCTCGCCGTCGGTCTGGATATTGAAATCGTACTTGTTGGCGCCGTCCGTCGCGAGCGTGTTGGAGGCGCCGTTGTTGGACTTGAGCATCTGCAGCGACAGATTCTTGTACTTGGGAAGAAAGTCATTGAGTACTGTGTCCGTCGGGCAAAACACCGTCAGCCCGCCGTCGATGTTCGTCTGATACGTCGCGGCGGCGCCGGTTGCTATCAGCAGATCGGAGAATGCTTTGCAGCCTTGCTTCGGCAGGATTTCCATCGAGATGTTGTAGGGCAACTCGATGACGGTTTTGACATAAAACGAGTTGAGATCGCCGGCGTTATCTTCAGCGCCGAACCCGACTTTCCCCCCTTTGAGATTGGTGATATTGACGTACCCAGAAGTTCCGGTGGCGGAGCCGGAGGCCTGAAACAAGGTAGAAGACAGGGTGGTTCCTTTAGAGAGCTGGTGGAGCTTCTTGGGGCCGTAGTAATCGACGAGAACGTGAAGCGAGAGAATGTTTTTGATGGTCCCGACGGTGAAATGCTTGTCCAGAAGCGACGACATGGCGGAGTTGTCGAGGGCGAGGACGGTGATGGTGAGGCGCCGGTTGATCTCGCCGGCGAGGTGGGTGACCGTGAGGTAGTGGTTGAAGGTGCTGAACTCGGGGTGTTTGGCCAAGATTCTGGTGATGTTGTGGGCTTCAGCGGCGGAGGACAGCAGGAGGAGGACGAAAACAGAGATGGCCACAGCGGCGGCGGAGAAGGGGAGAGGTCGCCGCATGGCGGAGGCTGA ATGCCTCCACCACTAAATTCTATGAAGCTTAATATCGATGGTGCATGTAAACAGAAGAAGGAGCCAATTGGTGTAGGACTTCAGCATCGGTTTTTTTACCAATTCTCTACGGCCTCTGGTGTTTGGTTTGATTTGGAACCAAGCGCCCTCCGTTGGCCTCCTCTGCACTTCATCCATTACCGTATCGAGCTTGCTTGCACTCTTCATCGTCTTGCTTTCTGGGCTCCACGACAACACGCGGACTTATTATGGGCTCCTTTTTGGGGCTTTTTCTTGTTTGTCGTTCTTGCAGTTACTGCTTCATACCTGACAAACAAAAGTCTATCCCTCAGCCAAGGCATGTCTTCTTCATCAACTTCATTGGCAACTGCAGAGCAAGAGATTCCTCAGGATAAGATTGAACAGCTTGAATTACTTAGTGGAGTTCATGATCAATATGGAGGAGTTATTGTAGAAATGAAGGACCCTATGGATCCAAAGGAGTTTGGTTCTTTGCTTAGTGCTTCAATAGCGCAATGGAGACAACTGGGTAAGAGGGGTATTTGGATCAAATTGCCTATTGAACTTGCAAATCTTGTTGAAGTTGTTGTTAAGGAAGGATTTGTGTTCCACCATGCCGAACCCAATTACCTAATGCTTGTGCGATGGATCTCTGAAACTACCAATTCTCTCCCTGCTAATGCCTCTCATCGTGTGGGCATCGGTGCATTTGTGATGAATAGTAATCGAGAGGTGCTTGTGGTTCAAGAGATCAGTGGCAAATTCAAAGGTACAGGAGTTTGGAAGTTACCAACTGGAGTGGTTAATGAGGGAGAGGATATTTGTGAAGCTGCAATAAGAGAAGTAAAAGAAGAGACTGGTATTGATGCAGAATTTGTAGAAGTGTTGGCATTCAGGCAAAGCCACGACTCATTTTTCACGAAATCGGATTTGTTTTTCGTATGCATGTTACGACCAATGTCTTACGATATCCAAAAGCAAATTTCAGAGATTGAGGCAGCCAAGGTATATAATGATCAACCCTTCGTTAAAACAAATTTGGGTTTCGACTATGTGGCAAAAATATGTGTAGCGAAGGCGAATGACGACTATACTGGCCTCTCGGCGAATCCTACGTTTTCTGCCTCTGGAAAATCATATGAGCAAAACTCCGAAGCACAAACTCAACATCATCATCACGATCGATCTCCGGCCGTCCGATCCAAATGCTCCATCTTTTTCCGATTTCTGATCTTCCGGCTCGCCGTCCGACTCGTCGGAGCCGATGGGCGCGTCGGCCTCCTCCCCCGCCGACGCCTTGGGAGACGGAGCCTTCGACTTCGACTTCTTCGCCGCCGCCTTCGGAGCCGGCGCCTCCGTCTCCGGCACCGCCTTGAACAGCTCTCTGGGCTGCAACACCTTGTCGATCTCGTACACCACCAGCGGCTCGGTGTCGATCAACGTCCCCGTTATCGTCGCCGTCACGACCCTGGTCTTGATCGTCACGTCCTCGCCGTCGGTCTGGATATTGAAATCGTACTTGTTGGCGCCGTCCGTCGCGAGCGTGTTGGAGGCGCCGTTGTTGGACTTGAGCATCTGCAGCGACAGATTCTTGTACTTGGGAAGAAAGTCATTGAGTACTGTGTCCGTCGGGCAAAACACCGTCAGCCCGCCGTCGATGTTCGTCTGATACGTCGCGGCGGCGCCGGTTGCTATCAGCAGATCGGAGAATGCTTTGCAGCCTTGCTTCGGCAGGATTTCCATCGAGATGTTGTAGGGCAACTCGATGACGGTTTTGACATAAAACGAGTTGAGATCGCCGGCGTTATCTTCAGCGCCGAACCCGACTTTCCCCCCTTTGAGATTGGTGATATTGACGTACCCAGAAGTTCCGGTGGCGGAGCCGGAGGCCTGAAACAAGGTAGAAGACAGGGTGGTTCCTTTAGAGAGCTGGTGGAGCTTCTTGGGGCCGTAGTAATCGACGAGAACGTGAAGCGAGAGAATGTTTTTGATGGTCCCGACGGTGAAATGCTTGTCCAGAAGCGACGACATGGCGGAGTTGTCGAGGGCGAGGACGGTGATGGTGAGGCGCCGGTTGATCTCGCCGGCGAGGTGGGTGACCGTGAGGTAGTGGTTGAAGGTGCTGAACTCGGGGTGTTTGGCCAAGATTCTGGTGATGTTGTGGGCTTCAGCGGCGGAGGACAGCAGGAGGAGGACGAAAACAGAGATGGCCACAGCGGCGGCGGAGAAGGGGAGAGGTCGCCGCATGGCGGAGGCTGA MPPPLNSMKLNIDGACKQKKEPIGVGLQHRFFYQFSTASGVWFDLEPSALRWPPLHFIHYRIELACTLHRLAFWAPRQHADLLWAPFWGFFLFVVLAVTASYLTNKSLSLSQGMSSSSTSLATAEQEIPQDKIEQLELLSGVHDQYGGVIVEMKDPMDPKEFGSLLSASIAQWRQLGKRGIWIKLPIELANLVEVVVKEGFVFHHAEPNYLMLVRWISETTNSLPANASHRVGIGAFVMNSNREVLVVQEISGKFKGTGVWKLPTGVVNEGEDICEAAIREVKEETGIDAEFVEVLAFRQSHDSFFTKSDLFFVCMLRPMSYDIQKQISEIEAAKVYNDQPFVKTNLGFDYVAKICVAKANDDYTGLSANPTFSASGKSYEQNSEAQTQHHHHDRSPAVRSKCSIFFRFLIFRLAVRLVGADGRVGLLPRRRLGRRSLRLRLLRRRLRSRRLRLRHRLEQLSGLQHLVDLVHHQRLGVDQRPRYRRRHDPGLDRHVLAVGLDIEIVLVGAVRRERVGGAVVGLEHLQRQILVLGKKVIEYCVRRAKHRQPAVDVRLIRRGGAGCYQQIGECFAALLRQDFHRDVVGQLDDGFDIKRVEIAGVIFSAEPDFPPFEIGDIDVPRSSGGGAGGLKQGRRQGGSFRELVELLGAVVIDENVKRENVFDGPDGEMLVQKRRHGGVVEGEDGDGEAPVDLAGEVGDREVVVEGAELGVFGQDSGDVVGFSGGGQQEEDENRDGHSGGGEGERSPHGGG Homology
BLAST of Sgr004973 vs. NCBI nr
Match: XP_022136267.1 (nudix hydrolase 2-like isoform X1 [Momordica charantia]) HSP 1 Score: 497.7 bits (1280), Expect = 1.8e-136 Identity = 253/291 (86.94%), Postives = 267/291 (91.75%), Query Frame = 0
BLAST of Sgr004973 vs. NCBI nr
Match: XP_022136268.1 (nudix hydrolase 2-like isoform X2 [Momordica charantia]) HSP 1 Score: 497.7 bits (1280), Expect = 1.8e-136 Identity = 253/291 (86.94%), Postives = 267/291 (91.75%), Query Frame = 0
BLAST of Sgr004973 vs. NCBI nr
Match: XP_022136269.1 (nudix hydrolase 2-like isoform X3 [Momordica charantia]) HSP 1 Score: 479.6 bits (1233), Expect = 5.1e-131 Identity = 242/273 (88.64%), Postives = 254/273 (93.04%), Query Frame = 0
BLAST of Sgr004973 vs. NCBI nr
Match: XP_022136270.1 (nudix hydrolase 2-like isoform X4 [Momordica charantia] >XP_022136272.1 nudix hydrolase 2-like isoform X4 [Momordica charantia]) HSP 1 Score: 474.2 bits (1219), Expect = 2.1e-129 Identity = 239/270 (88.52%), Postives = 251/270 (92.96%), Query Frame = 0
BLAST of Sgr004973 vs. NCBI nr
Match: KAG7022790.1 (Nudix hydrolase 2 [Cucurbita argyrosperma subsp. argyrosperma]) HSP 1 Score: 473.0 bits (1216), Expect = 4.8e-129 Identity = 245/324 (75.62%), Postives = 273/324 (84.26%), Query Frame = 0
BLAST of Sgr004973 vs. ExPASy Swiss-Prot
Match: Q94B74 (Nudix hydrolase 2 OS=Arabidopsis thaliana OX=3702 GN=NUDT2 PE=1 SV=1) HSP 1 Score: 290.8 bits (743), Expect = 4.4e-77 Identity = 147/260 (56.54%), Postives = 186/260 (71.54%), Query Frame = 0
BLAST of Sgr004973 vs. ExPASy Swiss-Prot
Match: Q9SU14 (Nudix hydrolase 7 OS=Arabidopsis thaliana OX=3702 GN=NUDT7 PE=1 SV=1) HSP 1 Score: 278.1 bits (710), Expect = 2.9e-73 Identity = 146/254 (57.48%), Postives = 179/254 (70.47%), Query Frame = 0
BLAST of Sgr004973 vs. ExPASy Swiss-Prot
Match: Q6NPD7 (Nudix hydrolase 10 OS=Arabidopsis thaliana OX=3702 GN=NUDT10 PE=1 SV=1) HSP 1 Score: 265.0 bits (676), Expect = 2.6e-69 Identity = 140/256 (54.69%), Postives = 172/256 (67.19%), Query Frame = 0
BLAST of Sgr004973 vs. ExPASy Swiss-Prot
Match: Q9SJC4 (Nudix hydrolase 6 OS=Arabidopsis thaliana OX=3702 GN=NUDT6 PE=1 SV=1) HSP 1 Score: 246.9 bits (629), Expect = 7.3e-64 Identity = 131/249 (52.61%), Postives = 171/249 (68.67%), Query Frame = 0
BLAST of Sgr004973 vs. ExPASy Swiss-Prot
Match: Q8L7W2 (Nudix hydrolase 8 OS=Arabidopsis thaliana OX=3702 GN=NUDT8 PE=2 SV=2) HSP 1 Score: 241.5 bits (615), Expect = 3.1e-62 Identity = 135/285 (47.37%), Postives = 179/285 (62.81%), Query Frame = 0
BLAST of Sgr004973 vs. ExPASy TrEMBL
Match: A0A6J1C541 (nudix hydrolase 2-like isoform X1 OS=Momordica charantia OX=3673 GN=LOC111008005 PE=3 SV=1) HSP 1 Score: 497.7 bits (1280), Expect = 8.7e-137 Identity = 253/291 (86.94%), Postives = 267/291 (91.75%), Query Frame = 0
BLAST of Sgr004973 vs. ExPASy TrEMBL
Match: A0A6J1C770 (nudix hydrolase 2-like isoform X2 OS=Momordica charantia OX=3673 GN=LOC111008005 PE=3 SV=1) HSP 1 Score: 497.7 bits (1280), Expect = 8.7e-137 Identity = 253/291 (86.94%), Postives = 267/291 (91.75%), Query Frame = 0
BLAST of Sgr004973 vs. ExPASy TrEMBL
Match: A0A6J1C3U8 (nudix hydrolase 2-like isoform X3 OS=Momordica charantia OX=3673 GN=LOC111008005 PE=3 SV=1) HSP 1 Score: 479.6 bits (1233), Expect = 2.5e-131 Identity = 242/273 (88.64%), Postives = 254/273 (93.04%), Query Frame = 0
BLAST of Sgr004973 vs. ExPASy TrEMBL
Match: A0A6J1C3F8 (nudix hydrolase 2-like isoform X4 OS=Momordica charantia OX=3673 GN=LOC111008005 PE=3 SV=1) HSP 1 Score: 474.2 bits (1219), Expect = 1.0e-129 Identity = 239/270 (88.52%), Postives = 251/270 (92.96%), Query Frame = 0
BLAST of Sgr004973 vs. ExPASy TrEMBL
Match: A0A6J1EL41 (nudix hydrolase 7-like isoform X1 OS=Cucurbita moschata OX=3662 GN=LOC111435315 PE=3 SV=1) HSP 1 Score: 469.9 bits (1208), Expect = 1.9e-128 Identity = 244/324 (75.31%), Postives = 272/324 (83.95%), Query Frame = 0
BLAST of Sgr004973 vs. TAIR 10
Match: AT5G47650.1 (nudix hydrolase homolog 2 ) HSP 1 Score: 290.8 bits (743), Expect = 3.1e-78 Identity = 147/260 (56.54%), Postives = 186/260 (71.54%), Query Frame = 0
BLAST of Sgr004973 vs. TAIR 10
Match: AT4G12720.1 (MutT/nudix family protein ) HSP 1 Score: 278.1 bits (710), Expect = 2.1e-74 Identity = 146/254 (57.48%), Postives = 179/254 (70.47%), Query Frame = 0
BLAST of Sgr004973 vs. TAIR 10
Match: AT4G12720.2 (MutT/nudix family protein ) HSP 1 Score: 278.1 bits (710), Expect = 2.1e-74 Identity = 146/254 (57.48%), Postives = 179/254 (70.47%), Query Frame = 0
BLAST of Sgr004973 vs. TAIR 10
Match: AT4G12720.3 (MutT/nudix family protein ) HSP 1 Score: 278.1 bits (710), Expect = 2.1e-74 Identity = 146/254 (57.48%), Postives = 179/254 (70.47%), Query Frame = 0
BLAST of Sgr004973 vs. TAIR 10
Match: AT4G25434.1 (nudix hydrolase homolog 10 ) HSP 1 Score: 265.0 bits (676), Expect = 1.8e-70 Identity = 140/256 (54.69%), Postives = 172/256 (67.19%), 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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