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Sgr018405 (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.CTGCAGCCTGCACTGTCTTTTCCTTCACTGGGTCAGCATCATCTTCATGGCTTTGGCAGTACAGGTACCCCGACTCCGATTAGTTCCGACCGATCGATTATACAATCGGCCGGTCGGTTGCATTACACACACACAAAAAAAAAAAAAAAAAAAAATCTCGGTTCGTCTTTTTTTCTCCGACCGATGGTCGGCGTCGGTGGGAGGTCTACTACGACCGTCCCCGACGACCTTTCACCCCGTAATTTTGTCCCAAAATTTTATTTTTGGGCTTTTAATCAAATACCCATCTTTGTAAGGGCATTTTGTCCGATAACCCTTTTCCTCTCTGCGTCTTAATTTTTCTTGGCAAACAATTCTTGGGGCTTTGGTCATTCATGGTTGGAATTTTTTCCAATATGGTTCTATCTTTTTCCTCTGTACTGAAACAATTTCAGAACTGTTTGTCATCTCTCAACATAAGAAGCAATCAAGCTTCCAGGATTCGCGTGGCCATGAAGAGGCAGGAAGACACAGTTGCAGCTACAAGTGCTCTCTCTGAGATGAGAATTCCGCATGTGTTGACTGTTGCTGGTTCTGATTCAGGAGCAGGCGCTGGAATCCAAGCAGATCTTAAGACTTGTGCTGCTCGTGGAGTATACTGCTCCACTGTGATAACTGCTGTTACTGCACAGAACACCGTGGGGGTTCAGGTCATTATCACACACACGCATAATTATCTATAAATGTATATTGATGTCTTTGTTTTGGCTTGAAAGGACATTGGGAAGGACTAATAAATAAATAAACGTTGACTTCTCGGCCTGTTTTGATATTATGGGTTGTAGAAAATGAGTCAACATGCTGCAATCATCAACTTCTTATATTAACGGTGAGTTTGTGATAACTTTTGGAAAGAGTGCTTTTAAATGAAAATACTTCTTCCATAAGTACGTTTGGAAGAAGCACTAATTAAATTGCTTTGAGTGTTTTTAGAATTTTCAAAATCATTTTTAATAATCTAACTAAACACTATGAAAATTTTGAAAAGTGCTTTTAATGAGCTCAAAACACTTTTCACCCTTGCAAAAGTCATTCTAAACTCACTCTAAAAATATCCAGCATCCTTGACATTAGTTTTTGCTTGGAATCAAATTAATTAAAGATGTTTTGTACGAAATTATACTGCTTATAACATGAACTTTATTTAACACTATGGTGTAATAACTTTGTCAGGATGTAAACATTGTGCCGGAGAGTTTTGTTTCAGAACAGCTGAAATCTGTACTCTCTGATATGCAAGTGGATGTGGTGAGTATTAAGTTAGTATTGAGATTAGCCTTTTGTCGCTTCAATTCATTTTTTTTTTTAAAAAAGGAAGTGTGGAGTTGGGATTGCCTATTATAAGTCGTTAGGAGCTCATGTGAACTAGATTGTGGACTGTTCATGTATAGGACATTGCACGGGCTAGCTTCTATTGGTTTTCCAGTGTACTAACTAATATGTACTAGTATGTAAGCTGGAAAGCCCTGCTAGAAGCTTACTAATGATGACATTAATTTAGGTGAAAACGGGAATGCTACCTTCTACTGGCATTGTTCAGGTTCTACATCAGCGCCTGAAGGAGTTTCCAGTTCGAGGTATAAAGTACTTCAGGAAGTTATTGGTGCATTTCTTTGATTTACTAATCGTTCTTTTAATATAATTAAAGGCAGCTTTGGTGGTTGATCCTGTCATGGTATCTACCAGTGGAGATGTTCTGGCTGCTCCTACCATTCTTTCAGTGTTACAGTAAGTCGATTCTCTCTTTAAAGGGAATATCATGAGTCCTTCAAACTAGTTCGATTTGTGTGATTATGATAATTATCTTGCTCTCCAAGTTTGCATTTTCTTAATATCTTCAAATTAGGATAATGTTTCCCAATGTTTTAAAAGACTTTGAGGCTTCTGCATCGAGGCTTGCCTTGGTGTGGGGTTCAAACTTTTAGCATAGAGGCTAACATCTTCTTTGGATCATATGAGGCTTTCACCTTCATTGGAATGCACTGAGGCTTGAAATCTTTACGTCTTGCGTAATGACTAGAAGAATAATACTAATTTGTTTCCTATTCTCTTAAAAATGTAAATGTTCACTTACATATGTAATGCTAATAACACCATGACCTATGGTAATTCAATTCATCACTACTTTTACCACCAAGGATTAATAAAACATTAAAGTAAAAATTTAAAGAATAAGTTGATCTTATTAGTGATAAGAATGATGATTTAAGAATGACCTTTTATAATTATTGATGATTTAAGAACGACCTCTTATAATCTTTATTTAAGAAATTGATAATTGACAGACGTAAACCTTTTTAGTACTTTTAAATATTCATATATTTAGTAATATTTGATTATAGAATTCTATGAATTCATTGATGTTTTTTTTTTTTTTTTCCGTTGAGGCTTATGCCTTGAGGCCATTTTTAGCCTTTTAAATTGGATCCTTGGGCAAGTATGTATGTGGTTTTTTTTCATATACCTTGACAACAATTCCACATGTTTTTTTTTCTTTTTGGGGGGGGGGGGGGGGAGGTTGTATCAAATTTTCATGCTTTTAGATCATGATGTCCATACACCAAAGCAAGGACTATATGCAACTCCCAGCAATTTGATATAGTTTTGTTGTATTGCTACTGCTTTCACTCTTCTACGCACCCATTCACCACTTCCACATTTTTTATGGAGAGGACCATCTTAGTAGTAGCTTACCTTGATAGTTGCTGGTTTTTCTTGTCGAGAGAGGCTTCAGTTTTGACTTAAGAAAACTTGCTAGTCTTTGTTTGACTACAAGATGAAACTTGCCTCTTCTTGGCCTCCGAAGGGTGTCCTTGTTGGTAAGCAATTACAATCTTGGAACCCCTCCCAACTCCTTAATTCAAACCGTGGGTGCTAGGGATCAAGAGAATTAATTCTCCTACCCATTGAAATCTACTAGAGCTGGTGGGGTGGGTGGGTCTCCCTGGGAATCAGAGAGGGTGGGGCCGAGATACCCTTGTTAATGAAAATAAATAAAAAATATAGAAACTTTCCTCTTCTCCCTCCAGGTTTGGAGCCATAATTTACTAACTGGATGAAAATAGTTTACTTAAATTCATATTTGATCTTAATATGTTGGTTTTTTATAAATCTAAGATACTGTTCTTGCTTGCAGGGAAGAGCTCCTACCTATAGCTGACTTGGTAACCCCAAATCTGAAGGAAGCATCTGCCTTACTTGGTGGTATGCCACTTGAAACAATTTCTGACATGCGTCATGCTGCAACATTAATTCATGAGATGGGGTCAAAGTAAGTTTTGAAATTGAAATTTCAGTTTACCTCTAGTTACAGAGACCGACACTTAGAACTTTTTTTTCCTCAAAAATAAATCAAACAATTTGTTGCTGGCCTCTCAAAAATAAATCAAATATCCGAAGAAGAATTTTTTAACAAATACTAATTCTTTGGTTGTTCGGATCACAACAAATTGTTTCAAAGATGCATTAAAAATTGTTAGAATAGTTTCTGTAAGAATTTTGTTAGGAATAGTATCAACGTAGATGTTAGAAATACTATTAGGATACTGAGGGCATATTGTTGGTCATTAGCCAAGGAATTTGTTAGTAAGAAAGAGGGGTTATAAATAAACCACCATGGGTTGGCCTGTGGTTATTGGGCAAGTGAAAAAGTAAATGGACTTTGGGAGGGTGGTTTCAAACCCATGATGACCACGTATCTAAGAAATTAAAATCTTACTAGCTTTCTAACAGCCTAGGAAGCATGGACACTATTTTTTGCAAAGTGTCAGTGTTGGACACGTGTCGGACACCGACACGCTCCGACACACGCCCGACACGTGAAAAAAGAGTGTCCGATTATTTAATTATTTTTTCATTTTCTAACACGTTGAGGACACGTTTTTAAAAAAATTAAAAAAATCAGACCATTCTCTGGAATAAAAGGGCCCACTGCTCACCGTGAAAAATAAAGGTAATGAAAAAACTACTTAACAAAGAAACCTAAATCAAATAGATTAAAAAGAAAAGAGAAAATAGCACTTGCTCGAGTCTATTTTTAGGTTTATTTTGTAAACCTTATTAGATTATGAATATTATTGATTGTCTCTCACCTTTTTAATGAAATGTACTATCTTTTAACGTTTAAATTTAGATATTAAATATGTTTTTTTAGGATTCAATATTTTAAAAATACGTTTAAATTTAGATATTAAATATGTTTTTATAGGATTCAATATTTTAAAAATACGTCGGAGTAGATACACACACATATATATTAAAAAAAATTAACGTGTCCCTAACGTGTCGTGTCTTATTTTTTTAGAAATTGAAGTGTCACCATGTCCGTGTTGTGTCGTTTGTCCGTGTCCGTGCTTTTTAGCCAACAGCTAAATATGGTTAGGCAGTTGTCTCGAGGGATTAGTTGAGGTGCGCATAAGCTAGTCCTGACACTTCGGATATTAGAAAAAAAAAAAAAAGGAAAAAGAATGGCTTATAAATAGAGTGAGGAAGAGAGGCGAATGTAAGCAATTATTTAGCTATTTAGGCTTGGCTTTGTGTTAGCATATTAATAGGGAAATATTTGGACTATTATTAGGATATTAGTAGTGGCATAATTGTAATTACTTGGTAGTTTGTTAGGGTGGGTTGGTTATAAATAGAGCAAATTAGGGAGATGGGGGCAAGCAGAAGTTTGGAAAAATCAGTCCATAATGGATTGTGGGAGAGAGAGCCTTCTCGAAAGGCTATTAGCCTTGTAGTTACTCTTTCATATTGTAATACAAATTTCATTGTTATTCTCTTATAATCTGAATCCTATCAGTTTGCTCAAAACAGAGACGTCCAAGTTTTCTAATTACTTCGATGGTTTTCTGTATTTCCTTATTCTGCAGGTTATTAATATAATTTCTGTTTCAATTCTCTACTTAATTAAAATCAACCATTCACATTTTAGATGCTTCAGACTGCCATTTTCAGGTTGTAGATGGTTTCATTATGACCATTCCAAGACAATATCCATTGTCCAAATTTGATTTAATGGTTTTATACTTGTCAGAATAATCCTGACTGATGCTAAAGAGCATATATTTGTTTTCAGAAATGTACTTGTGAAGGGTGGGGACCTTCCCGATTTGTTGGATGCCGTTGATATATTCTTTGATGGTGAGTATAAATTGCAAAATTCTGACAATTTGATATTTTGTATGAAGGCAACTGATCTATTGAACCCACATTTTAAACAAATATTCACAGGCAAGGACTTACATGAGCTACGTTCATCGCGCATAATGACTCGCAACACTCATGGTACTGGATGCAGCTTAGCATCATGCATAGCAGCTGAACTCGCAAAAGGAGCTTCAATGTTCTCAGCTGTTAAGGTAAGAATCTATGGACTTGTTTTTTTAAGCTCACAGTAATAACTTCTGCCATAAGATGATTAAGAAAGTCGTAAGGGCTCATGATACAACTTGCCAACGGATAATTAAATTTATAATATTATTTATAAACCAGTTTAAATTTGTTGTAGGATAATAATTGTATTCAAATAACATCATATTCATTGGGTATATTCACTTACCCATGGGGTGTTTTGGTGTTGAGAGCTTCGGATGTTTGGAGATACCTTCCATGGTTCTTGGTTTAAGTCCTCGAGTTGAAAATTTGATAACTTAAAATTTGTGTTGTCTCTCGAAGCTAGCTTTAGGGTGGGAGTGGGGTGAACCATAAACATACCTCCGACACCTCAATTATCCCTAAAAAAGAAGAAAAAAATTACTCGGCCTCAAATAACATTCTTGTTTTGTTGTGTTTTTTAATGCGTTAATGAAAGGAAAACAATGGTGAGTACACTATGGTTGTCCCTTCATCCAATTTGGATAATTTTTTTTTTTTGAGAGGAAACATGTATTTCATTGATGTATGAAATAATACAAAAGAGGGAAGAGAATCCCTAGAGCCCAAAAATGGAGTTACAAAAAGATCTTCCATTTGGCAAGAGTAAAGTAAGACTATAGTCATAGAAAGGCTTCTTGCATACAATAAGGCGCCAAAAAGATAACCGAATTTAAACAAGAGTCAAATGGAGATTTTGAGTCATTGAAAATACTTTTCTCTCTAGCCATATCTTCCAAAGGAATGCCCTAATGATGTTGTTCCATAGAGTTTGCACTTCCTTTTTAAATGGGTGCCCAGTAAAAATATAAGCTAGGAAGTCAAACATAGAGGGTGGGAGCGCCGTGGCCCATTTGAAGCTGCTGAGTATGTAGTTCCAGAACCTTTGAGCAAAAGGGCAGAGGATTAAGTGAGTTTGTGACTCCAAATTTTTGTAGCACATGGAGCACCAGCTTGGGGAGAGTGTCTGGTAAGGGGTCCTCCTTTGCACCAAATCTTGAGTATTAATTCCATGAGATAATTCCCATACGAAGAATTTAATCTAGTTAGGATAGCAACCCCCCAATAGTTTTGTAAAGAGGGATGGCGTCCGCTTCAAAGGATGCTCTATAGAAGGAACAAACTGTGAATTTGTTGGAAGAATCCAGTTTCCAAATCCACTTGTCCTTTTCGTTGTTTAGGTGAACCAGAGAAAGAAGGTGCGAAAGAGTGGCCCATTCAGTTATCTCATTTTCTTTGAAGTTTCTCCTAAATCTGAGATTCCAAGAGTTTGTGGATGGGTTCCAAAGATCCGTAGTAATCTTGGAGGCTTGCCGATTGGTTAATCTGTGAAGACTAGGAAAACATAAGCATAAATGCCTGTTTCCAAGTCATGAGTCTGACCAAAATGATATTGTTCTGCCATCACCAATCTTGCAAGATGATTTATCTATGACTTGATCTCTTAACTCGATAATAAAGTGCCAAGGTGCCCTTGTTGAACTGGTGGTTATTTTCTTGGGCCAAATATCAGAATTGGAGGAACCATACTTTGTTGCATTTTAATCCGAGTTGAATTTTTGAATTCATTGATTATTTTTGTTCACTTCTTTTTGCATGAAGGAGGCATGCACTTTTTACTCCATAACGTTTAACTAAGATTGACTCACATAGGCTTGGTTGTCGAGTGACGGACTTGATTGTCCACAACTAAGGTTTTATTTATGGGATCTTTACAGACAAGCAAACAGTTCATTGAGAGAGCCTTGGATTACAGCAAAGACATCAGCATTGGAAATGGACCTCAAGGTCCGTTTGATCACCTATGTCGGCTTAAGAGTCGCAACCGGAGTTCCCATAGGCAGGGGGTTTTCGATCCAGCTGACTTATTCTTGTATGCTGTTACGGATCCGGGTATGAATAAGCGGTGGGACCGTTCTATCACAGATGCTGTTAAAGCTGCAGTGGAAGGAGGTGCTACTATTGTTCAAATAAGGTTTGTCAAATCTATTAATCAATTTGTTTTGCTTGTTCTTTATAAATGTTTTTCACAAGTTGATGATATATATTTTAAGTCATTACCTCAAATGCCTAATATGGGACTCATTGATGCATTTTAAGATGTGAGTTAGCATTCTCTGTTCTCTTATTTCTATGAACAGAGAAAAAGACGCCGAAACTCGCAATTTCTTGGAAGCATCCAAATCATGCCTTGAGATTTGCCGCTCACACGGAGTTCCATTGTTGATTAACGATCGTGTTGATGTTGCTCTTGCTTGTGATGCTGATGGTGTGCATGTTGGTCAATCCGACATTCCTGCGCACACGGTTCGCAGCCTTCTCGGCCCCGATAAGATAATCGGTGTCTCGTGCAAGACACTGGAGCAAGCGGAACAGGCCTGGCTTGATGGTGCGGATTACATTGGGTGTGGTGGAGTCTATCCCACAAATACAAAAGCAAACAATCTGACCGTTGGGCTTGATGGATTGAAAAGAGTTTGCTTAGCTTCCAAGTTGCCTGTGGTTGCAATTGGTGGTATTAATCATACAAATGCAGCAGCTGTGATGGAAATTGGTGTTCCAAATCTTAGAGGTGTTGCAGTTGTGTCAGCTCTTTTTGATAGGCAATGTGTTTTAGAGGAGACCTTAAAGTTACATGCAAGGCTGGTGGAGGCTACAACATCAGCTGTAAAATGA CTGCAGCCTGCACTGTCTTTTCCTTCACTGGGTCAGCATCATCTTCATGGCTTTGGCAGTACAGAACTGTTTGTCATCTCTCAACATAAGAAGCAATCAAGCTTCCAGGATTCGCGTGGCCATGAAGAGGCAGGAAGACACAGTTGCAGCTACAAGTGCTCTCTCTGAGATGAGAATTCCGCATGTGTTGACTGTTGCTGGTTCTGATTCAGGAGCAGGCGCTGGAATCCAAGCAGATCTTAAGACTTGTGCTGCTCGTGGAGTATACTGCTCCACTGTGATAACTGCTGTTACTGCACAGAACACCGTGGGGGTTCAGGATGTAAACATTGTGCCGGAGAGTTTTGTTTCAGAACAGCTGAAATCTGTACTCTCTGATATGCAAGTGGATGTGGTGAAAACGGGAATGCTACCTTCTACTGGCATTGTTCAGGTTCTACATCAGCGCCTGAAGGAGTTTCCAGTTCGAGCTTTGGTGGTTGATCCTGTCATGGTATCTACCAGTGGAGATGTTCTGGCTGCTCCTACCATTCTTTCAGTGTTACAGGAAGAGCTCCTACCTATAGCTGACTTGGTAACCCCAAATCTGAAGGAAGCATCTGCCTTACTTGGTGGTATGCCACTTGAAACAATTTCTGACATGCGTCATGCTGCAACATTAATTCATGAGATGGGGTCAAAAAATGTACTTGTGAAGGGTGGGGACCTTCCCGATTTGTTGGATGCCGTTGATATATTCTTTGATGGCAAGGACTTACATGAGCTACGTTCATCGCGCATAATGACTCGCAACACTCATGGTACTGGATGCAGCTTAGCATCATGCATAGCAGCTGAACTCGCAAAAGGAGCTTCAATGTTCTCAGCTGTTAAGACAAGCAAACAGTTCATTGAGAGAGCCTTGGATTACAGCAAAGACATCAGCATTGGAAATGGACCTCAAGGTCCGTTTGATCACCTATGTCGGCTTAAGAGTCGCAACCGGAGTTCCCATAGGCAGGGGGTTTTCGATCCAGCTGACTTATTCTTGTATGCTGTTACGGATCCGGGTATGAATAAGCGGTGGGACCGTTCTATCACAGATGCTGTTAAAGCTGCAGTGGAAGGAGGTGCTACTATTGTTCAAATAAGAGAAAAAGACGCCGAAACTCGCAATTTCTTGGAAGCATCCAAATCATGCCTTGAGATTTGCCGCTCACACGGAGTTCCATTGTTGATTAACGATCGTGTTGATGTTGCTCTTGCTTGTGATGCTGATGGTGTGCATGTTGGTCAATCCGACATTCCTGCGCACACGGTTCGCAGCCTTCTCGGCCCCGATAAGATAATCGGTGTCTCGTGCAAGACACTGGAGCAAGCGGAACAGGCCTGGCTTGATGGTGCGGATTACATTGGGTGTGGTGGAGTCTATCCCACAAATACAAAAGCAAACAATCTGACCGTTGGGCTTGATGGATTGAAAAGAGTTTGCTTAGCTTCCAAGTTGCCTGTGGTTGCAATTGGTGGTATTAATCATACAAATGCAGCAGCTGTGATGGAAATTGGTGTTCCAAATCTTAGAGGTGTTGCAGTTGTGTCAGCTCTTTTTGATAGGCAATGTGTTTTAGAGGAGACCTTAAAGTTACATGCAAGGCTGGTGGAGGCTACAACATCAGCTGTAAAATGA CTGCAGCCTGCACTGTCTTTTCCTTCACTGGGTCAGCATCATCTTCATGGCTTTGGCAGTACAGAACTGTTTGTCATCTCTCAACATAAGAAGCAATCAAGCTTCCAGGATTCGCGTGGCCATGAAGAGGCAGGAAGACACAGTTGCAGCTACAAGTGCTCTCTCTGAGATGAGAATTCCGCATGTGTTGACTGTTGCTGGTTCTGATTCAGGAGCAGGCGCTGGAATCCAAGCAGATCTTAAGACTTGTGCTGCTCGTGGAGTATACTGCTCCACTGTGATAACTGCTGTTACTGCACAGAACACCGTGGGGGTTCAGGATGTAAACATTGTGCCGGAGAGTTTTGTTTCAGAACAGCTGAAATCTGTACTCTCTGATATGCAAGTGGATGTGGTGAAAACGGGAATGCTACCTTCTACTGGCATTGTTCAGGTTCTACATCAGCGCCTGAAGGAGTTTCCAGTTCGAGCTTTGGTGGTTGATCCTGTCATGGTATCTACCAGTGGAGATGTTCTGGCTGCTCCTACCATTCTTTCAGTGTTACAGGAAGAGCTCCTACCTATAGCTGACTTGGTAACCCCAAATCTGAAGGAAGCATCTGCCTTACTTGGTGGTATGCCACTTGAAACAATTTCTGACATGCGTCATGCTGCAACATTAATTCATGAGATGGGGTCAAAAAATGTACTTGTGAAGGGTGGGGACCTTCCCGATTTGTTGGATGCCGTTGATATATTCTTTGATGGCAAGGACTTACATGAGCTACGTTCATCGCGCATAATGACTCGCAACACTCATGGTACTGGATGCAGCTTAGCATCATGCATAGCAGCTGAACTCGCAAAAGGAGCTTCAATGTTCTCAGCTGTTAAGACAAGCAAACAGTTCATTGAGAGAGCCTTGGATTACAGCAAAGACATCAGCATTGGAAATGGACCTCAAGGTCCGTTTGATCACCTATGTCGGCTTAAGAGTCGCAACCGGAGTTCCCATAGGCAGGGGGTTTTCGATCCAGCTGACTTATTCTTGTATGCTGTTACGGATCCGGGTATGAATAAGCGGTGGGACCGTTCTATCACAGATGCTGTTAAAGCTGCAGTGGAAGGAGGTGCTACTATTGTTCAAATAAGAGAAAAAGACGCCGAAACTCGCAATTTCTTGGAAGCATCCAAATCATGCCTTGAGATTTGCCGCTCACACGGAGTTCCATTGTTGATTAACGATCGTGTTGATGTTGCTCTTGCTTGTGATGCTGATGGTGTGCATGTTGGTCAATCCGACATTCCTGCGCACACGGTTCGCAGCCTTCTCGGCCCCGATAAGATAATCGGTGTCTCGTGCAAGACACTGGAGCAAGCGGAACAGGCCTGGCTTGATGGTGCGGATTACATTGGGTGTGGTGGAGTCTATCCCACAAATACAAAAGCAAACAATCTGACCGTTGGGCTTGATGGATTGAAAAGAGTTTGCTTAGCTTCCAAGTTGCCTGTGGTTGCAATTGGTGGTATTAATCATACAAATGCAGCAGCTGTGATGGAAATTGGTGTTCCAAATCTTAGAGGTGTTGCAGTTGTGTCAGCTCTTTTTGATAGGCAATGTGTTTTAGAGGAGACCTTAAAGTTACATGCAAGGCTGGTGGAGGCTACAACATCAGCTGTAAAATGA CSLHCLFLHWVSIIFMALAVQNCLSSLNIRSNQASRIRVAMKRQEDTVAATSALSEMRIPHVLTVAGSDSGAGAGIQADLKTCAARGVYCSTVITAVTAQNTVGVQDVNIVPESFVSEQLKSVLSDMQVDVVKTGMLPSTGIVQVLHQRLKEFPVRALVVDPVMVSTSGDVLAAPTILSVLQEELLPIADLVTPNLKEASALLGGMPLETISDMRHAATLIHEMGSKNVLVKGGDLPDLLDAVDIFFDGKDLHELRSSRIMTRNTHGTGCSLASCIAAELAKGASMFSAVKTSKQFIERALDYSKDISIGNGPQGPFDHLCRLKSRNRSSHRQGVFDPADLFLYAVTDPGMNKRWDRSITDAVKAAVEGGATIVQIREKDAETRNFLEASKSCLEICRSHGVPLLINDRVDVALACDADGVHVGQSDIPAHTVRSLLGPDKIIGVSCKTLEQAEQAWLDGADYIGCGGVYPTNTKANNLTVGLDGLKRVCLASKLPVVAIGGINHTNAAAVMEIGVPNLRGVAVVSALFDRQCVLEETLKLHARLVEATTSAVK Homology
BLAST of Sgr018405 vs. NCBI nr
Match: XP_022157082.1 (thiamine biosynthetic bifunctional enzyme TH1, chloroplastic isoform X1 [Momordica charantia]) HSP 1 Score: 938.3 bits (2424), Expect = 2.9e-269 Identity = 486/531 (91.53%), Postives = 505/531 (95.10%), Query Frame = 0
BLAST of Sgr018405 vs. NCBI nr
Match: XP_022157083.1 (thiamine biosynthetic bifunctional enzyme TH1, chloroplastic isoform X2 [Momordica charantia]) HSP 1 Score: 917.5 bits (2370), Expect = 5.4e-263 Identity = 472/514 (91.83%), Postives = 491/514 (95.53%), Query Frame = 0
BLAST of Sgr018405 vs. NCBI nr
Match: XP_022957337.1 (thiamine biosynthetic bifunctional enzyme TH1, chloroplastic isoform X1 [Cucurbita moschata]) HSP 1 Score: 916.8 bits (2368), Expect = 9.2e-263 Identity = 464/518 (89.58%), Postives = 492/518 (94.98%), Query Frame = 0
BLAST of Sgr018405 vs. NCBI nr
Match: XP_038876926.1 (thiamine biosynthetic bifunctional enzyme TH1, chloroplastic [Benincasa hispida]) HSP 1 Score: 916.4 bits (2367), Expect = 1.2e-262 Identity = 465/522 (89.08%), Postives = 497/522 (95.21%), Query Frame = 0
BLAST of Sgr018405 vs. NCBI nr
Match: XP_022957338.1 (thiamine biosynthetic bifunctional enzyme TH1, chloroplastic isoform X2 [Cucurbita moschata]) HSP 1 Score: 911.0 bits (2353), Expect = 5.0e-261 Identity = 460/511 (90.02%), Postives = 488/511 (95.50%), Query Frame = 0
BLAST of Sgr018405 vs. ExPASy Swiss-Prot
Match: Q5M731 (Thiamine biosynthetic bifunctional enzyme TH1, chloroplastic OS=Arabidopsis thaliana OX=3702 GN=TH1 PE=1 SV=1) HSP 1 Score: 715.3 bits (1845), Expect = 5.3e-205 Identity = 361/502 (71.91%), Postives = 423/502 (84.26%), Query Frame = 0
BLAST of Sgr018405 vs. ExPASy Swiss-Prot
Match: O48881 (Thiamine biosynthetic bifunctional enzyme BTH1, chloroplastic OS=Brassica napus OX=3708 GN=BTH1 PE=1 SV=1) HSP 1 Score: 686.8 bits (1771), Expect = 2.0e-196 Identity = 347/502 (69.12%), Postives = 416/502 (82.87%), Query Frame = 0
BLAST of Sgr018405 vs. ExPASy Swiss-Prot
Match: Q2QWK9 (Probable thiamine biosynthetic bifunctional enzyme, chloroplastic OS=Oryza sativa subsp. japonica OX=39947 GN=Os12g0192500 PE=2 SV=2) HSP 1 Score: 682.9 bits (1761), Expect = 2.9e-195 Identity = 344/508 (67.72%), Postives = 413/508 (81.30%), Query Frame = 0
BLAST of Sgr018405 vs. ExPASy Swiss-Prot
Match: P61422 (Thiamine biosynthesis bifunctional protein ThiED OS=Geobacter sulfurreducens (strain ATCC 51573 / DSM 12127 / PCA) OX=243231 GN=thiDE PE=3 SV=1) HSP 1 Score: 213.4 bits (542), Expect = 6.6e-54 Identity = 137/301 (45.51%), Postives = 187/301 (62.13%), Query Frame = 0
BLAST of Sgr018405 vs. ExPASy Swiss-Prot
Match: P56904 (Hydroxymethylpyrimidine/phosphomethylpyrimidine kinase OS=Rhizobium meliloti (strain 1021) OX=266834 GN=thiD PE=3 SV=2) HSP 1 Score: 204.1 bits (518), Expect = 4.0e-51 Identity = 125/260 (48.08%), Postives = 162/260 (62.31%), Query Frame = 0
BLAST of Sgr018405 vs. ExPASy TrEMBL
Match: A0A6J1DTL9 (Thiamine-phosphate pyrophosphorylase OS=Momordica charantia OX=3673 GN=LOC111023892 PE=3 SV=1) HSP 1 Score: 938.3 bits (2424), Expect = 1.4e-269 Identity = 486/531 (91.53%), Postives = 505/531 (95.10%), Query Frame = 0
BLAST of Sgr018405 vs. ExPASy TrEMBL
Match: A0A6J1DSG4 (Thiamine-phosphate pyrophosphorylase OS=Momordica charantia OX=3673 GN=LOC111023892 PE=3 SV=1) HSP 1 Score: 917.5 bits (2370), Expect = 2.6e-263 Identity = 472/514 (91.83%), Postives = 491/514 (95.53%), Query Frame = 0
BLAST of Sgr018405 vs. ExPASy TrEMBL
Match: A0A6J1GYV1 (Thiamine-phosphate pyrophosphorylase OS=Cucurbita moschata OX=3662 GN=LOC111458768 PE=3 SV=1) HSP 1 Score: 916.8 bits (2368), Expect = 4.4e-263 Identity = 464/518 (89.58%), Postives = 492/518 (94.98%), Query Frame = 0
BLAST of Sgr018405 vs. ExPASy TrEMBL
Match: A0A6J1GZX4 (Thiamine-phosphate pyrophosphorylase OS=Cucurbita moschata OX=3662 GN=LOC111458768 PE=3 SV=1) HSP 1 Score: 911.0 bits (2353), Expect = 2.4e-261 Identity = 460/511 (90.02%), Postives = 488/511 (95.50%), Query Frame = 0
BLAST of Sgr018405 vs. ExPASy TrEMBL
Match: A0A6J1KCE1 (Thiamine-phosphate pyrophosphorylase OS=Cucurbita maxima OX=3661 GN=LOC111492599 PE=3 SV=1) HSP 1 Score: 909.1 bits (2348), Expect = 9.3e-261 Identity = 461/518 (89.00%), Postives = 491/518 (94.79%), Query Frame = 0
BLAST of Sgr018405 vs. TAIR 10
Match: AT1G22940.1 (thiamin biosynthesis protein, putative ) HSP 1 Score: 715.3 bits (1845), Expect = 3.8e-206 Identity = 361/502 (71.91%), Postives = 423/502 (84.26%), 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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