Transcript — View — Lotus Base

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LotjaGi1g1v0319000.1

Overview

Field	Value
Gene ID	LotjaGi1g1v0319000
Transcript ID	LotjaGi1g1v0319000.1
Related isoforms 5	LotjaGi1g1v0319000.2 LotjaGi1g1v0319000.3 LotjaGi1g1v0319000.4 LotjaGi1g1v0319000.5 LotjaGi1g1v0319000.6
Lotus japonicus genome version	Gifu v1.2
Description	Callose synthase; TAIR: AT2G13680.1 callose synthase 5; Swiss-Prot: sp\|Q3B724\|CALS5_ARATH Callose synthase 5; TrEMBL-Plants: tr\|G7JBJ9\|G7JBJ9_MEDTR Glucan synthase-like protein; Found in the gene: LotjaGi1g1v0319000
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr1:76805485..76821846) extracted from Lotus japonicus Gifu genome v1.2.

CCGCCACCTAATCACCTCTCTCTCTCTCCGCCGCGTGTCTCTCTCATTTCGCGCCTTTCCTTTTTCTTCACAAACTTCCT TCACCTTCTTCCCCAATTCCATTTCCCCTCTTTCCACTTTTCAATTCTCAGAGGTACACACAATTTCGCATTTCATCGCA ATTTCTTCGATCTTGTTCGTGCATTTCAAATTTCCAATTCGATCTTGCTCTTCTTCTTCTTCTTCTTCTTCTTCTTCGTT CGCGCATTGCTAGCTGTTAATTTCTTGATTTGATGATGTACTCTGTTCTTGTTGTTGTTACAGGAAGCGGCGGCGACGAC GACGGAGATCATCAGTTGAAGGTGCGTCGAGGTGATCGACAGCAATGTCGAATCTCGAGGCGGCACCGCACACGCTGACG CGGCGGCCGTCGAGAAGCGCCGCCATGACGACCTTCTCAACGGAGGTTTTCGACAACGACGTCGTCGTTCCTTCCTCACT CGCCTCCATCTCGCCGATTCTCCGAGTCGCCAACGAGCTCGAAAGCGAGCGACCTAGGGTTGCGTATCTCTGTACGTTCC TCGATTGATCCAATTTCGTTCGTTTCCTTCGATTGATCGCGTTTTTCTCATCTGCAAGTAATGATGATTTGATTTGTTTG TTTGGAATGAAGGTCGATTCTACGCGTTCGAGAAGGCGCACCGGTTGGATCAGAGCTCCAGCGGCCGTGGTGTGAGGCAG TTCAAGACGCTGTTGCTGCAGCGATTGGAGAGGGTGCGTAACTAACTCACACACTCACTCTCTTCGTTTTCCCGCGCTCG TAACAACGCAAAGTGTTTTTGTCTTTTTCTTAGCTTTTGATTATAGTTAAAGAAGAAATATGCATTAATTGAATATTAAT TGATTAACTGCTAGTAAAACACCCTGATCATTTTTTAATTCGAATGAAAATTTGTCAATTTGTCATATGAAACTAAGATG ATATTAAAAAAACAACTTCAACTCATATGAATTTTATGAAAGCTCTTTATTGATTATGTTTTTAGATGTTAGTATTTTTT TGCAATTATTAGTGCATGTTTTGTTTTGATAGTTAGAATAAACACAAACATGATTTTACATATCTTAAGATATTAATAAA GAAGGTATAAAATTTTGTAACGACAAATTTAATGTGAATCAAAAAAGTAAAATTTTAGCATGTTAACTTAAACGTGGATA CATGTTGAATTCAACGAAAATCCAAACGCACACTTATTCGCTTGATTTAGGCATGCATTGCTTCGAGTTGCCGATGCCAA GTTGTTTGAATTTCTTGTTACTTAATCGGATGTGAGTTATTTTCCCGCATTCTACCTTAGTTTAGTCTCATTTCTTATCG AGCTAAGGCCTCCCATGTAAAAAAAAGGCGTTTAAAATAAAATGTAAAAATTTAATACCGTTATATTTTTTATTCTTTTT CTACACTGCTGTATGACATGGTTTAAGTGTTTATATAAAAAAATGAAGTAATATTCAAATTTGATATTTATAAGTTCATA TTATTATTTTATTTGAGCTATATACCAAAAGAAAATTAGCTTAATTTTTTTTTGAAAGCAGCTTAGTTAACTATTCACTA TAGAATTGTTCGACTATACAAACATTATTATAACAATGTTATTATTACTTAAAAAAAAACAATGTTATTATTACTTTCAA AAAAAAATGTTATTATTGACTTTCATATTGTTTTTTTTAAACTTATTATTTATCATATTGTTTTAAACACTTTACCTGGT TGTAACAAAAAAAAAAACACTTTACCTGGTACAACACATCGTGTTCTGCCGTATCCCTCCTGCCCTACTAGGCTACTACA CCACCGATAGACCAATTTTCTCGTTTGTTTGTTACATTGACTTACTGTGATGGATTCGGGAGACGTTATAGTTCATGGGT TTGGAGAACTCAATCGGGAAATTCTTTTGGAAAGGAGAAATGGGGTCAGGGATTGATTGGTTCCGTAGAGTTGTAATTGG TGAGCTTGGTCTTCTAACCAGATGATGAACTGAGCATTCAGTTATAGCACAATGCAAACTGAACTAATTATTTGTTTAAA ATGGAGTTAGTGAAGAGTAGCCTTATGGTTTCTAAAATGCAAACTGAACTAATTATTAGTTTCTGCAACTGCAGGACAAT GCCACCAGTCTTGCCGCTCGGGTTAAGAAGACAGATGCAAGGGAAATCCAATCTTATTATCAGCAATACTATGAGAATTA TGTCAGGTCGCTTGACGAAGGAGAGCAGGCAGACAGGTGCATAACTTTCTTATCTGGTTCATCTTGAAATTTAAGGGAAA TTCAATCTTATTATGAGCAATACTATGAGAATTATACTTAGCTGGTACCATTAAAATTATTTTGTAGAGCACAGCTCGGC AAAGCTTACCAGACCGCCGGGGTGCTTTTTGAAGTGCTTTGTGCTGTTAACAAGACTGAGAAGGTCGAAGAAGTAGCTCC TGAGGTCAGCCTTGATTTGTACAAGTTTCATTTTCATTTTATTTGTGAAATTAGGTACTTGCGGCATTGGTTTTCTCTCA CCATTCATGTTGAAGATTAACAACAAAGAATTTTGTGTGTTCAGATTATTGCTGCCGCTAGAGATGTCCAGGAAAAGACC GAGATTTATGCGCCTTTTAACATTCTTCCATTGGATTCTGCCGGGGCTTCTCAGCCTGTTATGCAACTTGAAGAGGTATC ACTTTTTCCATGGTTGATGTGGAGTCTCATTGTTTTGCTTGGACTTTGCACTGAGTTCATTGGCTTTGTTTTCATGTTTT AGATTAAGGCAGCTGTTTCTGCATTCTGGAATACTCGTGGCTTGAACTGGCCTGGTTCATTTGAGCAACATCGGCAGAGA ACTGGAGATTTGGATCTGCTTGATTGGCTTAGAGCCATGTTTGGTTTCCAGGCATGTCTTTTGGGAGAAGGTTTATGACT AAGTAAAATTTGTGTAGGCAGTATACCGCAACAGACTTGCTAATGTGTTTGCTTTATTTTGGCTCAGAGAGACAACGTCA GAAACCAGAGAGAGCATTTGGTTCTACTTCTTGCTAACAATCACATAAGGCTACACCCCAAACCTGAGCCTCTCAACAAG GTATGTAACTGTCTCTCTCTTCATCCTGTATTTGGCCAAACATTCATATAGAATTCAAATTGATGAAGCTATACCAAAAA TCAGAAATCAAGAGAGCTTTTTGTGAAAATTATATTTTATAGGGGTATACACGACTAGGCTCTGACCTGTAGTTAAATTC TACTATGATTTTTTTTGGACAATTGCAGCTTGATGATCGCGCAGTTAATGCAGTGATGAACGATCTCTTTAGGAATTACA AAAAGTGGTGCAAATTTTTGGGACGAAAACATAGTTTACGGTAAGATATAACAATATCTCTTTCAGAAAATATTATCCTA CTTTTCCTTATCAAACTTTTTATGCTAAAATGCTTTTCTTTTTTATTCAGACTCCCTCAAGGTCAGCAAGAGATACAGCA GAGGAAGTTACTGTATATGGGCTTATATCTGCTTATATGGGGTGAAGCATCCAATCTTCGTTTCATGCCGGAGTGTCTAT GCTACATATTTCACAATGTGAGTGTATATATTTCATATGTTTCACACTATCTTGTGCCAGAATGTCTTTGCAAATGATAT GTAACTCTTTTGCTTTTTTTTTTTTTAAATTCTATAATTTCACATACATTATTAATGTTCTGCATGTATTTAATAATATT TTACTACAACTTCAGATGGCATATGAACTTCATGGTTTATTGGCCGGGAATGTCAGCATTGTTACTGGTGAAAACATCAA ACCTTCTTATGGTGGTGATGATGAGGCATTCTTGCGGAAGGTTATAACTCCCATATACCGTGTAATTGAGAAGGTATGAT TTTTTCTGTTATGGATATTGTCAGCTTACTTCAGGTACCTATCTTCTCGGTGATGAATTATAATCATTCTAATAATATAG GAAGCTGAAAGGAGCAGAAATGGAAAGGCTCCTCACTCAGCCTGGTGCAACTATGATGATCTAAATGAATATTTCTGGTT TGTTTGGCTTTTGATTTTTATTTCTAATTGAAATTTTTGGCTTGTTTCATCTTTCATTAATTGACAACCTATTGTTTTGA TGTTTTCGTTGCAGGTCACCTGATTGCTTTTCTCTTGGATGGCCCATGCGTGATGATGGTGATTTTTTTAAATCAACATT TAATTCGACACCGGTATTTATTCTCTAAGTAGTTACTTGCTTGAATGTATAATACTTGTTAAGCTCAGTACTAATATAAA TTCCATACCAGGGAAGAAAGGGTGCTCAGAGAACAGCTGGAAGAACTGGCAAATCAAATTTTATTGAGACCCGGTCATTC TGGCACATATTCCGGAGTTTTGATCGCCTTTGGACCTTTTATTTTCTTGGTTTGCAGGTATTTGTTTTCGGCAGAAGGAA ATAATTATGTCAATGTTTCCTGTGATTGTTGTTCTGACAAGACCTTACATTCTTATTACAGATAATGCTCATTATTGCTT GGAAAGGAATTTCAGTAATGGAAATCTTTCAGAAAGATGTCTTGTATAGTCTCTCTAGCATATTCATCACAGCAGCCGTT TTCCGCCTTCTTCAGAGTAAGATACAGTCACTTAAGTGGCTTTATATTTGTAAAGTTATCATGCTACTATCAAAATCACT AGTTGATTTTTTTTTCTTCTTCCTGATTGTTGTTTAAACAAATCATGAAGTAATTGACATCTCATTTGTTCCTCTTTATT TTGATCTAGGTATCTTGGATCTGGTTCTGAACTTTCCGGGCTATCATCGTTGGAGATTCACAGATGTGCTAAGAAATATT CTCAAAGTCATTGTTAGTCTTTTTTGGGTTATTGCTCTTCCACTCTTCTATGTGCATTCCTTCGATGGTGCCCCTGAGTT TATCAAGAAGGTGCTTTCCTTTCTTCATCAAATGAAGGGGATTCCACCATTGTACCTCCTAGCAGTGGCAGTGTATCTGC TTCCAAATTTACTAGCAGCTGTTCTCTTTCTTTTCCCAATGCTGAGGCGTTGGATTGAAAACTCAGATTGGCACATAGTT AGACTTCTCTTATGGTGGTCACAGGTAATTTTTCATCTCATTCAACACACTTGCACATTCGATTATTTCTCTTCATAATA ATAACATGAAACTATTTTTTTTTGGTCTGATGCTTGTTTCAGTATACTTGTTGTTCACTGTGAAAGTAATGCATATACCT GATCATAAAAATCAGGGGAAAGCAAATTTTTTTCTATTTTATCTTCATATGCAGCTCAAATACCTAAGTGTGTATAATTA ATGGTTGTTAGAAGTATATATAAAATGATTAATGTGTCAACCCAACAAGCTTAAGCTTTTGGGATAGTTGGTTCATAATA ATGGTTTAAAATACATGTACACACTCGTACATGTGTACACATGATCATTCCACAACAGTTAGGAACTGATAGTGACACAC ATACACACTTAGTACCTAGTTATTTTTAACTATACATACCGTCAGCCTGTTTTTGTAATTTATTCTCCTGAGAATGAATA CAACAACGAAAGTCAAAACCTTAAACCTGCAGTTTGATGTAGTTTTTTCTAGCAGTTTTTTTATCATCATAATTTTTGCG AAAATCTTTTAGTTGAAAAAAGCAAAAACAAAGGATCCATAATTGAAATTGTTTGATCAAGGCTTTCTTCCACTTTCCGG GGCACACCCATTACACGAATACTAACTATTTATGACAACAAATTTGTCCAATGAGTTTTAAAAACTTCAGAACACTTTTT TTTTTCTTCTCATCATTCTCTTTAAAATTCAGCAACTTTAGTTGCCCTAAATCTCTCTATATCTCTATATTTTCTGCAAT CTTTTAGGGAGTGCTGATTATGATGTTTAAGTGATCTTTGATATCTTGTAAGCGAACATTTGGCCATAAATTTTTTTATG ACTTTGAATTTGTACATTCACAAGAGAAGCATCTATTACCTACCTGAGCATCCCAGTTTGTAGCCCTTGTTTTATTTTTG GTGTGATTGTGGTTCAAAGTTTGAACTGACAAATTCAAATGAGGGGAGGGAAAACACATACTTTTTTCACCATGTGGGTG ACCGAACAAGAGGCCTGATGACACAATTTTTTTTTAAGCCAGTCTTATGTGGATGTTCAATATGCATGAGTAATATGAGT CAGTGACTTCCAATCTTTCAAAAGCCTATCTGTATTAGAGGATCTTCGACAATTATTTGTTCATTTTCTGAATTATTATT TCTTGCTTGGCAGCCTAGAATCTATGTTGGAAGAGGAATGCATGAGAGTCAATTTGCTCTCATAAAGTGAGTTTCACAGA AAAATATTATTATATATTTAAGATTTGCGCTCCTGTTATTTGTTTGAAATTTGTTTCATCATCTAATTTTTTTTTCAATC TTCAGGTACACTCTTTTCTGGGTGATTCTTTTGGCTGCCAAGTTTGCATTCAGCTTTTTTGTCCAGGTAATTTTTTCAGG TGCAGTAGTTATCTTCCTATAATGTCTTGTGAAATTGTTGGGCCTCTTTTAATTGTTCCCTCTTCAGATCAAACCTCTTG TTCAGCCAACTAAGGACATAATGAGCATTCACCATGTTGATTTTGCTTGGCATGAGTTTTTCCCAAAAGGTAGTTTCTTC TCATTTTTAAGGGTTCCATTTTAACTTTCTGTAAATTCTGTTTCTCTAATATTTCCAGTTTATGCAGCTCAACATAACTA TGGTGCAGTTTTTGCTCTCTGGGCCCCTGTACTTTTGGTATGTGTCTTATATTTCATGGTTACTTTGAGATATCTGTTTG TTTGAGATAATTCTGTTTGGAACGGATTTTATTTTGTTATGATTCTATTGTGATGTATTAGGATAAGATATATTTGTTAG CATAAATATTGTACCTCTAGAAACTTAGTCTATAAATATTGTACTTCTGCATCGCGTAATATCAATCAACTATTCAAGTT TCAAGATGGTATCAGAGCAGTGTCATCCTCATTCCTCAGTGACCTGCCCACCACTATTCGGTTGCTGAGTTCTCCAAAGT TTGGAACCCTGTTATACTCATAATAGTGGCATTCTTTCCCCTGCAAGTAATCTAGTCGATCCTTTGTCCTGATTTTTTCA GGGCTTCAACTGTTATTAGTGTTGACTGACTCTCTAAAGTCGTCAAGGGTTGAAGGTAACATATTAACCTGTCTCAGAAG GCACTTATCGGTCAATCTTTTGTGCGTCATTGCTTCATTCATTTGTTTTCTTGAGCTTCAGCTGCTGTAATCACTGGCCC ACTTTCTGCAATATCAAGTATCGAAGTTGACACCCTTGTTTATCTTAGAAATCATCAACCGATTGATCCCATGCCACTAT TTGTTACGAGACTGAGACTGTGACTCCTATTCTTCTTTGACACCTTGTTCGGCCTTCTGGTTTCTTGTTTCACTTCCTTG TTTAACCCTAGATGGAGTACTTTTAGGGTGTGCTTCAGTGCATATTCTTTCATGTTTTTTATTTTGCACCAAGCTGCTCT ACTATCTCCATTTTGGTGCTTTTGTTTGGTTGCTGCTAGTTTGTTGTTATTTCAGCCTTGTTTTTATTTTTCGGCGTATT GTTCCTAGTTTGTTGTCTACTTCTGTTCGCTGAATCAGCTAACACCGCAACAATCCTGGAGAATCAGATTTGACTTGCCA CAATATAGGCAATGACTTACAAAACTAGTGACCTCCTATGGTTGAAAGTTGAAACATGTAATTCAGAAATTTCAGTTACG TGATGTTAGTCCTATGGAGCTAATGTATGTTAATGAGTCAGCCTTGCATATCTCCTCCAATCCAATCTTCATGAAAGAAC TAAGTATATAGAAGTTGATTATCATTTTATCAAAGAGGGGAGATTCTTTCTAGCATAATCAGAACTTTTTATGTTTGCTC ATAGGATTAGCTTGCTGATATCTTCATTAAATCCTTAAGGGGTTTAAGAATATCATACATAGGCTCCAAACTTGATGCGT ATGATCTATAATTTTATACGCTCTTGCTGGGGGGGGGGAGTGTTGAGATATTTGTTATGGTATAGTTTGTTGATATAATT CTAATTGGATATGATTTGTTAGGATTTCATTTTATACTGTTATGATATAATAGGATAAAATTTATTATTCTGTTATTGTT TAGATTTTATTCTTTAAACTTTGTAGTTGACTGGGAAGCCTCTGAAAACCTAGTCTATAGATATTTTACTTCTGAATCAG GTTGATATCAATCAACTATTCAATATATTCAAGTTTCAAGAGTTATGCTCATGTGCAACCTTTTAATTTGTTCGGGATAT GTTTTTTCAGCGTAACATCTCATTTTACATTTGGAGTGCAGGTTTATTTCATGGACACTCAAATTTGGTATTCTGTCTTC TCAACTGTGTATGGTGGTGTTATTGGAGCCTTTGATCGTCTAGGAGAGGTATTGTTAATTTTATCTTATTTCTAGCTTGC TATATCCGAAGAAGATTTGAGAATTGGCTGTTTTCTTGGTTTTCTTCATTTTTGTACAATGTGTGCATACAAAAGAGTGG AATCTATATGATCTATATTTTAGGCCCCTTTTGGACACATAAAATACTGGTCATTGTTAACATATGTCTGTATATGTTTT TATGAGTTTTTGAAGTCTCTTGTGAATAAAGTCAAATTTCTCTTTTGATTTTATGGGAGAAGTTGAGATTGAGTTACTCT TGTTGAACAAGAAAGATAAGATACTTCAAGCCCCCAGCTAGTTAATGTTGTTCTCTATTTGCCTACACAGATACGGACTC TAAGCATGCTTAGATCACGGTTTCAGTCATTGCCTGGTGCATTCAACACATACTTGGTTCCTACTGACAAGAAACATAAA AAGAAATTCTCTCTCTCAAAGCGATTTGCTGAGGTTTCTATCTCATTTTCATTTCATTGCTAACTAGTTTAAGCTACATG TAATATCTTCACTTATGTTTTCATGTTTGTGTAGATTTCTGCTAGCAGGAGGAGTGAAGCTGCTAAATTTTCCCAGTTAT GGAATGAAGTTATTTGCAGTTTTCGTGAAGAAGATATCATAAGTGACAGGAAAGGCCTCAGAACCAAGCTCTTCAGTTGC TTTTCTTTGTCCTCAATCCTAGCTTCTACTCTTTTTCCTTCAACTTTTGATTTGTCATTCATCGCCTATTAAGGACTAAA CTGTGTTTGCATCACTACAGGGAGATGGATCTTTTGTTGGTTCCTTACTCATCAGATCCAAGCCTGAAAATAATTCAATG GCCACCATTTCTGCTTGCAAGCAAGGTCTGTGTAGTTAAACTTTAAAAATTCTCGTGTTTGTTACCAGTTCTTATAATTG ACTCCCTCCCTGTCAACCTATACAGATTCCTGTTGCACTAGATATGGCAGCTCAATTTCGAGGGAAGGACTCCGATCTTT GGAAGCGCATATGTGCAGATGAATATATGAAATGTGCTGTGATTGAATGCTACGAATCTTTTAAGCATATCCTGAATGCT TTGGTGGTTGGAGAAGCTGAACAAAGGTGGCTTTTAGTATATTTCCTGTTGATGTTTATATATTTAAGTTCACACGTCAC TCTACAAACCTTATCAGTAAGGGATATTTTCTTAGGTAGCTCAATTATGATCTAGTTCTAATAGCATTGTATCCTGCTTT GCTTTCCCTTTTTTTTTGCGCAAATACTCCAAATTTTGCTCTTTCTGTTTCTATTGAATTCCATTAACAGCAATTAGCCT TGTATGATCTTCTTTTACTTGTCATTTACAAGTCTCTTTCTGGACCACTTAACAAAAGAAAAAAAAGAAAGAAAGAAATG GTTAACATACCCTATCACTTGTTTTGGTTGAACCACGTTAATCTAAAATTTTCTGTTGCATTAGAGGTCATTCAAAATTT CATGTCAGCTGATTTTTTTGTTCTTCTTGATTAGCTGGTAGAACTGAGGCTATAAAAATTTCATTAAAATGAAATCATCA TCAGTTGTTCTAACTTCATTGTGATTGAACAGGACAATCTCTGTCATCATAAGGGAAATTGAAAGCAGCATCTCTAAGAA TACACTTCTTTCAAATTTCCGTATGGGGTATTTGCCTTCCCTTTGTAAGAAATTTGTGGAGCTTGTGGAAATCTTGGTGA GTCATTTAAAGGATAACTAATCATATCTTCCCTTTGTAGTAGTCTTAAATGGTTTCTTGTTCTAACTATCCTATTTGGAA GCTAACATATTCTTTTTTTATTATAGAAAGATGCAGATTCTTCCAAGCGAGATACGGTGGTGGTCTTATTACAGGACATG TTAGAAGTGTTTACTCGGGATATGATGGTGAACGAAATCAGGTTAATTGTCTTAATTGCACGGGATTTCAAGTATAATAT TTTTGTGTCTCTTTCACTAAAAATGATAATCCTTTCTTTTTATACTGTGATGTTCATCAGTGAATTAGCAGAACTAAATC ATAGTAGTAAGGATAGTGGAAGGCAACTTTTTGCTGGTACTGATGCAAAACCAGCTGTTCTCTTCCCTCCAGTGGTTACA GCACAATGGGAGGAACAGGTAATCAGTAATCTAATTTTAAATTATAATGTTTACTCTTTTATAGTTTGTATTATTATTAA CTTTCCATATGCTTCTTTTCTTCCATAATAAAATTTAGTTTCCAACATGAAAGAAAAACTAAACAAATGCTTCAATAACT TATGATTTTTTGGGTGTTTCAGATTAGACGGCTTTATTTACTCTTGACGGTGAAGGAATCTGCCATTGAGGTTCCAACAA ACCTTGAAGCACGCAGAAGAATTGCATTTTTTACCAACTCATTGTTCATGGATATGCCACGTGCTCCACGAGTTCGTAAA ATGCTTTCATTTAGGTATGGTGTTTCCTTAAATTGCATTGAACAGTGGTATCCTTGCTTGCACATCTTAATGTCTGATAC ATTAGACATAAATTATCATTTTTTCTGGGCTGTTTAATATTTTATTTTTTAAAGCAATTTATGATGCATGTATGTTTAAA TCTGATATATTCTGAAGTTATCGTGTGCTTATAAGTAGCATTTTGCTTATTGTTTGCAGTGTCTTAACTCCATACTACAG TGAAGAGACTGTTTATTCGAAGAATGACCTCGAGGTTGAAAATGAAGATGGTGTGTCCATCATATATTACCTGCAGAAGA TCTACCCTGGTTTGTAATAACTAACCCTATATAACTTGATTATATTTTTCTAGTAGAGAAAGGACTTGGCTAAGTTATAG TAAATATCAGATGAGTGGAATAACTTCATGGAGAGACTTGATTGTAAGAAAGATAGTGAAATATGGGAGAAAGACGAGAA TGTATTGCAGCTACGTCACTGGGCTTCATTACGAGGACAAACGCTTTGCAGGACAGGTAATGTTGACTTCTCCCTCTCCA TTCCTGCAAGCAGTTTTTGGTTGACTAATAATTTTTTTGTACTAATAAACCCATGCAGTTAGGGGAATGATGTACTACCG CCGAGCTCTAAAGCTCCAGGCTTTTCTTGATATGGCTAATGAACAAGGTAACAATAGTTCCTTTTCATTCTGTGCAATTT AGCTAAATCTAGTATTTACTGTGGCAGTGGCAAGCATATATTTACAGCTTTTTCAAATCCTAGGCCTTTACCTTTACTGT AACAGTGACTTGATGCAATCACGACACATTCATATTTGTCATATTGGTTGACAGAAAAGTAGTTATCATTCAAGAATAGA TGACTTTATGGTTTTTGCTATCTTGTGGGCAGAGATACTTGATGGCTATAAAGCTGTAACTGTTCCATCTGAGGAAGACA AAAAGAGTCATAGATCACTATATGCTAGTCTAGAGGCTGTCGCGGACATGAAATTCACATATGTCGCTACCTGTCAGAAC TATGGGAATCAGAAGCGTAGTGGAGATCGCCATGCAACAGACATCCTGAATTTGATGGTTAAGTATGTTCTCCAATTGAT AAATTATATCCGTTCATGTACAGTTTATATTTGGCTTTTAGTTTCTTGAACCCACGTGATTTAAGAATATAATTGCTGGT TCTTTGTTTGTAGCAATCCCTCGCTTCGGGTGGCATATATCGATGAAGTTGAAGAAAGAGAAGGAGGAAAAGTACAGAAA GTTTATTACTCCGTACTGGTCAAAGCTGTGGACAATCATGACCAAGTAAATGCATATTCATTTTAGAAAATAAGTTAATT TACTCTTGAATACTTTGAACTTATGACTTTATTATTTTCTCTGAAGGAAATATATCGAATAAAACTGCCGGGTCCAGCAA AGTTAGGAGAAGGGAAGCCTGAAAATCAAAATCACGCAATCATTTTTACCAGAGGGGAAACCCTTCAGACTATTGACATG AACCAGGTAAAAACATTCTGTGATCTCTTTCATTTTTTTTTTTGAGAAAATTATGTACTTCTAAACTATACAAGGTGAAA CTGGGTGTCGGTGCCTATTAAACTGGTATGTTGCAAATTTCATCTAGGATAATTACTTGGAAGAAGCTCTGAAAATGCGT AACCTTCTGGAAGAATTTAATGAGGATCATGGGGTGCGCCGACCTACTATATTAGGTGTTCGTGAGCATATTTTCACTGG CAGGTTTGATGAATTAAATTCCACAAGAGTGAACAGTTTGTCATGTTAAGCTCCATATTACTGATTTCTATCAATTGCTA CAGTGTTTCTTCCTTGGCTTGGTTTATGTCAAATCAAGAAACAAGCTTTGTCACAATTGGTCAAAGAGTTCTTGCAAGAC CCCTGAAGTAAGTCAAGTGATTCTATGACATGGTTGACTTATAGTATTTGTTTAACTTCTAGGGTAAATCAGGAAACCTC CTGGTAACAATTGGCTAATACAAGACCTCATCAACAGTCAAAGTAGTGATTTTATTTTAATGAGAATGCATGCAATTTCA TAGGTTAATGTATTATTCCAATGATACTTTGCTTACTGATGAAATTTATGCCTTCTCTGGCCCTCTTATTCATGTTAATT GCTGGATTGTCATACCCCATGGTATTCGAATTTTCGGAAACAAGTTGTGAACTATTGATTTTTCTTTTCTTTTCCATCTA TGGTACCACTGTTGCAAGAAATAAATCCTTAGAATGGATTTAATACAGAGTACATTTTCTGGCTTATGATGAATCTGTTG AATTCTAGGGTCCGATTCCACTATGGTCATCCAGATGTTTTTGATAGAATTTTCCACATTACCCGTGGAGGAATTAGCAA GGCTTCTCGTGGCATCAATCTGAGCGAGGATATTTTTGCCGGTAACATTCATGAAACATCTTTCTTAGATTTGATATTTA TGTTTATTCCTTTACATCATATGCCTTTTCCTGTACAGGATTCAACTCAACACTACGTCGTGGGAATATTACCCATCATG AATACATCCAAGTTGGAAAGGGCAGAGATGTTGGGCTCAATCAAATCTCACTTTTTGAAGCAAAGGTGGCTTGCGGAAAC GGAGAGCAGACGATAAGCAGAGATATCTACCGACTGGGGCATCGTTTTGACTTTTTTCGCATGCTATCATTTTATTTTAC GACCATTGGATTTTATATCAGCTCAATGGTAATGGTTAATGCATTTAGGATTGCACTTTTTTTTTTGCTGCTCAAAACTG TTATTAAAATTAAACTAACAGTTTAGTCTTAAAAAAATAATCCCAATGAGTAATGGATCTGAAAATAATCTCTTATTAAT CGGTAACTAAGCTTGAGTATTGTTACACCTAGAGCTGACAAATCCTTTTATGGAGTTCTAAAATTTGTCTAGGCTACACA CTTACATATCTATTTGAATTTGGGCTTTTGTTTTTTTGATTTGTTAATTATGCATAGGGCAATAAATCTTTCTTTTGTTA ATGTACAGATTGTGGTCCTTACGTCTTATGCATTCCTATACGGCAGACTATACTTGTCATTGAGTGGTATTGAGGCTGCA ATAGTGAAGTTAGCTAGGAGAAAGGGAGATGATAGTCTAAAGGCAGCAATGGCTTCACAATCCCTTGTCCAAATAGGACT TCTAACTACTTTGCCCATGGTCATGGAAATTGGACTAGAAAGAGGGTTCAGAACTGCTCTAGGTGACCTCATAATAATGC AGTTGCAGCTAGCACCTGTATTTTTCACTTTCTCACTAGGTACAAAAGTGCACTATTTTGGGCGCACTCTTCTGCATGGA GGGGCAAAGTACAGAGCAACTGGGCGTGGTTTTGTAGTTCGCCATGAGAAGTTTGCCGAAAATTACAGGCTGTACTCTAG GAGTCACTTCGTAAAAGGGATTGAGCTCCTAATTTTGCTCATATGTTATAAGATCTATGGATCAGCAACACCTGAATCAA CTGCATATGCTCTACTTTCTTGGTCGATGTGGTTTTTGGTTTGTTCTTGGTTGTTTTCTCCATTCCTTTTTAACCCATCA GGGTTTGAGTGGCAGAAGATAGTTGAGGACTTTGATGATTGGACAAAATGGATAAGTAGTCGCGGTGGTATTGGTGTTCC TTCAAATAAGAGCTGGGAGTCCTGGTGGGATGAGGAACAAGAGCATCTACAGCACACTGGGTTTTTGGGGCGGATTTGTG AGATAATTCTTACCTTCCGTTTCTTTGTCTATCAGTACGGGATTGTGTATCATCTCCATGTAGCCAGAGGTGACAAGAGT ATCATGGTAATTATGCTTTCTAATTTAATTTTATTCAATGCTATCATTCAAACTGTGGAACCTGCATGAAAGGGTTCAAC TTCTTTTAACACCTATGCTCTGTTCATACTATACTGCAATATAACATTCATGTTAACAGGGACTAGAAAAAGTAGTTCGT TGGATATAAAGTTCATTCCCATTCCAAATACCATGCTCTCATTTGCCACAACCCCAAACCAAGAAACAAATGACAGAAAA TAAATTGATAATATATAGAGGAGTTTTCTGACATGCATTTTCCCTTCAGGTTTATGCTTTGTCCTGGCTTGTGATAGTAG CTGTCATGGTTATCTTGAAGGTTGGTATTCAGTGATAAAAAAATTATTTCTGAATGAAAGCATCTATTCTGCTTGTGCAG ATATGATTTTACTAACTGGTTCTGGTTGCATCTGAAACTGCAGATTGTGTCTTTGGGTAGAAAGCAGTTCAGCGCAGATT TCCAGTTGATGTTTCGTCTTCTCAAGTTGTTTATGTTTATTGGAGCCATTGTTGCCATGGGCTTAATGTTTACTCTGCTA AGTCTCACAATGGGAGATATCTTTGTGAGCCTCTTAGCTTTTTTGCCTACAGCATGGGCACTTATTCAGGTATTGTTTCA GAGTCATTCATTAACTCTTGTTTGGTGGACATTTGTATCATTTCATCGTGCCGAACAAACAAGTTTGTATGCTGGACATA TTTGTCTCTGTAATTGTTTAGTAGTTGCCACTAAACCATCTTCAGGCTTAATCGTCATTTTTTGTTTATTCTGTGTTTAC TAATCATAGGAAAATATGTTATGCTTCATAACATATTACAAGCCTTAATCATTTCTCTATACAAGATCTCAAAATCAAGT AGCTTAAATATCTTTCTCTGTTCATGTAATTAATAAGTTTCCCTCATGATTCCTGATGCTACAGTGAATATAAAATCACT TGTTTCTTACAACGGTGGTGTTTTGTTGTGCAGATAGCACAAGCATGCAGACCATTGGTGAAGGGTGTTGGAATGTGGGG TTCAGTGAAAGCTTTAGCAAGGGGCTATGAATACCTGATGGGAGTGGTTATTTTTACACCAGTGGCCATATTGGCATGGT TCCCATTTGTTTCAGAATTCCAAACGAGGCTGCTATTCAACCAAGCATTCAGCCGAGGGCTTCAAATCCAGCGCATTTTG TCTGGTGGCAAGAAGAATAAGTAAGACTGAATCAAACCCTCTGCACCATTCAAATCCAGTGCATACAAAGTCCAAAAGTT ATAAAATTGTATCATGCACTATGTCTGGTGGTATATCAGTATATCCTCTTATTAGACAACTCTAGCACTGCAGCTTACAG GACTGGTTTGTGTTTGATAGTGGAACAATTCTTTGAGCCAGTGTTAATAAATGAGAACTTGAATCCTAGTGAGAGGACTT TATACAAACCTTGGCGCACTTCCTCTATCCCTCATTTTCCATGAAACATGAGATTAGGATCCTTATATTCCAATAATTTT GACCTTAATTAAACAATCAGTGGCTCAGGTAGTTTCATATCG

Download Genomic Sequence

CDS sequence (LotjaGi1g1v0319000.1) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGTCGAATCTCGAGGCGGCACCGCACACGCTGACGCGGCGGCCGTCGAGAAGCGCCGCCATGACGACCTTCTCAACGGA GGTTTTCGACAACGACGTCGTCGTTCCTTCCTCACTCGCCTCCATCTCGCCGATTCTCCGAGTCGCCAACGAGCTCGAAA GCGAGCGACCTAGGGTTGCGTATCTCTGTCGATTCTACGCGTTCGAGAAGGCGCACCGGTTGGATCAGAGCTCCAGCGGC CGTGGTGTGAGGCAGTTCAAGACGCTGTTGCTGCAGCGATTGGAGAGGGACAATGCCACCAGTCTTGCCGCTCGGGTTAA GAAGACAGATGCAAGGGAAATCCAATCTTATTATCAGCAATACTATGAGAATTATGTCAGGTCGCTTGACGAAGGAGAGC AGGCAGACAGAGCACAGCTCGGCAAAGCTTACCAGACCGCCGGGGTGCTTTTTGAAGTGCTTTGTGCTGTTAACAAGACT GAGAAGGTCGAAGAAGTAGCTCCTGAGATTATTGCTGCCGCTAGAGATGTCCAGGAAAAGACCGAGATTTATGCGCCTTT TAACATTCTTCCATTGGATTCTGCCGGGGCTTCTCAGCCTGTTATGCAACTTGAAGAGATTAAGGCAGCTGTTTCTGCAT TCTGGAATACTCGTGGCTTGAACTGGCCTGGTTCATTTGAGCAACATCGGCAGAGAACTGGAGATTTGGATCTGCTTGAT TGGCTTAGAGCCATGTTTGGTTTCCAGAGAGACAACGTCAGAAACCAGAGAGAGCATTTGGTTCTACTTCTTGCTAACAA TCACATAAGGCTACACCCCAAACCTGAGCCTCTCAACAAGCTTGATGATCGCGCAGTTAATGCAGTGATGAACGATCTCT TTAGGAATTACAAAAAGTGGTGCAAATTTTTGGGACGAAAACATAGTTTACGACTCCCTCAAGGTCAGCAAGAGATACAG CAGAGGAAGTTACTGTATATGGGCTTATATCTGCTTATATGGGGTGAAGCATCCAATCTTCGTTTCATGCCGGAGTGTCT ATGCTACATATTTCACAATATGGCATATGAACTTCATGGTTTATTGGCCGGGAATGTCAGCATTGTTACTGGTGAAAACA TCAAACCTTCTTATGGTGGTGATGATGAGGCATTCTTGCGGAAGGTTATAACTCCCATATACCGTGTAATTGAGAAGGAA GCTGAAAGGAGCAGAAATGGAAAGGCTCCTCACTCAGCCTGGTGCAACTATGATGATCTAAATGAATATTTCTGGTCACC TGATTGCTTTTCTCTTGGATGGCCCATGCGTGATGATGGTGATTTTTTTAAATCAACATTTAATTCGACACCGGGAAGAA AGGGTGCTCAGAGAACAGCTGGAAGAACTGGCAAATCAAATTTTATTGAGACCCGGTCATTCTGGCACATATTCCGGAGT TTTGATCGCCTTTGGACCTTTTATTTTCTTGGTTTGCAGATAATGCTCATTATTGCTTGGAAAGGAATTTCAGTAATGGA AATCTTTCAGAAAGATGTCTTGTATAGTCTCTCTAGCATATTCATCACAGCAGCCGTTTTCCGCCTTCTTCAGAGTATCT TGGATCTGGTTCTGAACTTTCCGGGCTATCATCGTTGGAGATTCACAGATGTGCTAAGAAATATTCTCAAAGTCATTGTT AGTCTTTTTTGGGTTATTGCTCTTCCACTCTTCTATGTGCATTCCTTCGATGGTGCCCCTGAGTTTATCAAGAAGGTGCT TTCCTTTCTTCATCAAATGAAGGGGATTCCACCATTGTACCTCCTAGCAGTGGCAGTGTATCTGCTTCCAAATTTACTAG CAGCTGTTCTCTTTCTTTTCCCAATGCTGAGGCGTTGGATTGAAAACTCAGATTGGCACATAGTTAGACTTCTCTTATGG TGGTCACAGCCTAGAATCTATGTTGGAAGAGGAATGCATGAGAGTCAATTTGCTCTCATAAAGTACACTCTTTTCTGGGT GATTCTTTTGGCTGCCAAGTTTGCATTCAGCTTTTTTGTCCAGATCAAACCTCTTGTTCAGCCAACTAAGGACATAATGA GCATTCACCATGTTGATTTTGCTTGGCATGAGTTTTTCCCAAAAGCTCAACATAACTATGGTGCAGTTTTTGCTCTCTGG GCCCCTGTACTTTTGGTTTATTTCATGGACACTCAAATTTGGTATTCTGTCTTCTCAACTGTGTATGGTGGTGTTATTGG AGCCTTTGATCGTCTAGGAGAGATACGGACTCTAAGCATGCTTAGATCACGGTTTCAGTCATTGCCTGGTGCATTCAACA CATACTTGGTTCCTACTGACAAGAAACATAAAAAGAAATTCTCTCTCTCAAAGCGATTTGCTGAGATTTCTGCTAGCAGG AGGAGTGAAGCTGCTAAATTTTCCCAGTTATGGAATGAAGTTATTTGCAGTTTTCGTGAAGAAGATATCATAAGTGACAG GGAGATGGATCTTTTGTTGGTTCCTTACTCATCAGATCCAAGCCTGAAAATAATTCAATGGCCACCATTTCTGCTTGCAA GCAAGATTCCTGTTGCACTAGATATGGCAGCTCAATTTCGAGGGAAGGACTCCGATCTTTGGAAGCGCATATGTGCAGAT GAATATATGAAATGTGCTGTGATTGAATGCTACGAATCTTTTAAGCATATCCTGAATGCTTTGGTGGTTGGAGAAGCTGA ACAAAGGACAATCTCTGTCATCATAAGGGAAATTGAAAGCAGCATCTCTAAGAATACACTTCTTTCAAATTTCCGTATGG GGTATTTGCCTTCCCTTTGTAAGAAATTTGTGGAGCTTGTGGAAATCTTGAAAGATGCAGATTCTTCCAAGCGAGATACG GTGGTGGTCTTATTACAGGACATGTTAGAAGTGTTTACTCGGGATATGATGGTGAACGAAATCAGTGAATTAGCAGAACT AAATCATAGTAGTAAGGATAGTGGAAGGCAACTTTTTGCTGGTACTGATGCAAAACCAGCTGTTCTCTTCCCTCCAGTGG TTACAGCACAATGGGAGGAACAGATTAGACGGCTTTATTTACTCTTGACGGTGAAGGAATCTGCCATTGAGGTTCCAACA AACCTTGAAGCACGCAGAAGAATTGCATTTTTTACCAACTCATTGTTCATGGATATGCCACGTGCTCCACGAGTTCGTAA AATGCTTTCATTTAGTGTCTTAACTCCATACTACAGTGAAGAGACTGTTTATTCGAAGAATGACCTCGAGGTTGAAAATG AAGATGGTGTGTCCATCATATATTACCTGCAGAAGATCTACCCTGATGAGTGGAATAACTTCATGGAGAGACTTGATTGT AAGAAAGATAGTGAAATATGGGAGAAAGACGAGAATGTATTGCAGCTACGTCACTGGGCTTCATTACGAGGACAAACGCT TTGCAGGACAGTTAGGGGAATGATGTACTACCGCCGAGCTCTAAAGCTCCAGGCTTTTCTTGATATGGCTAATGAACAAG AGATACTTGATGGCTATAAAGCTGTAACTGTTCCATCTGAGGAAGACAAAAAGAGTCATAGATCACTATATGCTAGTCTA GAGGCTGTCGCGGACATGAAATTCACATATGTCGCTACCTGTCAGAACTATGGGAATCAGAAGCGTAGTGGAGATCGCCA TGCAACAGACATCCTGAATTTGATGGTTAACAATCCCTCGCTTCGGGTGGCATATATCGATGAAGTTGAAGAAAGAGAAG GAGGAAAAGTACAGAAAGTTTATTACTCCGTACTGGTCAAAGCTGTGGACAATCATGACCAAGAAATATATCGAATAAAA CTGCCGGGTCCAGCAAAGTTAGGAGAAGGGAAGCCTGAAAATCAAAATCACGCAATCATTTTTACCAGAGGGGAAACCCT TCAGACTATTGACATGAACCAGGATAATTACTTGGAAGAAGCTCTGAAAATGCGTAACCTTCTGGAAGAATTTAATGAGG ATCATGGGGTGCGCCGACCTACTATATTAGGTGTTCGTGAGCATATTTTCACTGGCAGTGTTTCTTCCTTGGCTTGGTTT ATGTCAAATCAAGAAACAAGCTTTGTCACAATTGGTCAAAGAGTTCTTGCAAGACCCCTGAAGGTCCGATTCCACTATGG TCATCCAGATGTTTTTGATAGAATTTTCCACATTACCCGTGGAGGAATTAGCAAGGCTTCTCGTGGCATCAATCTGAGCG AGGATATTTTTGCCGGATTCAACTCAACACTACGTCGTGGGAATATTACCCATCATGAATACATCCAAGTTGGAAAGGGC AGAGATGTTGGGCTCAATCAAATCTCACTTTTTGAAGCAAAGGTGGCTTGCGGAAACGGAGAGCAGACGATAAGCAGAGA TATCTACCGACTGGGGCATCGTTTTGACTTTTTTCGCATGCTATCATTTTATTTTACGACCATTGGATTTTATATCAGCT CAATGATTGTGGTCCTTACGTCTTATGCATTCCTATACGGCAGACTATACTTGTCATTGAGTGGTATTGAGGCTGCAATA GTGAAGTTAGCTAGGAGAAAGGGAGATGATAGTCTAAAGGCAGCAATGGCTTCACAATCCCTTGTCCAAATAGGACTTCT AACTACTTTGCCCATGGTCATGGAAATTGGACTAGAAAGAGGGTTCAGAACTGCTCTAGGTGACCTCATAATAATGCAGT TGCAGCTAGCACCTGTATTTTTCACTTTCTCACTAGGTACAAAAGTGCACTATTTTGGGCGCACTCTTCTGCATGGAGGG GCAAAGTACAGAGCAACTGGGCGTGGTTTTGTAGTTCGCCATGAGAAGTTTGCCGAAAATTACAGGCTGTACTCTAGGAG TCACTTCGTAAAAGGGATTGAGCTCCTAATTTTGCTCATATGTTATAAGATCTATGGATCAGCAACACCTGAATCAACTG CATATGCTCTACTTTCTTGGTCGATGTGGTTTTTGGTTTGTTCTTGGTTGTTTTCTCCATTCCTTTTTAACCCATCAGGG TTTGAGTGGCAGAAGATAGTTGAGGACTTTGATGATTGGACAAAATGGATAAGTAGTCGCGGTGGTATTGGTGTTCCTTC AAATAAGAGCTGGGAGTCCTGGTGGGATGAGGAACAAGAGCATCTACAGCACACTGGGTTTTTGGGGCGGATTTGTGAGA TAATTCTTACCTTCCGTTTCTTTGTCTATCAGTACGGGATTGTGTATCATCTCCATGTAGCCAGAGGTGACAAGAGTATC ATGGTTTATGCTTTGTCCTGGCTTGTGATAGTAGCTGTCATGGTTATCTTGAAGATTGTGTCTTTGGGTAGAAAGCAGTT CAGCGCAGATTTCCAGTTGATGTTTCGTCTTCTCAAGTTGTTTATGTTTATTGGAGCCATTGTTGCCATGGGCTTAATGT TTACTCTGCTAAGTCTCACAATGGGAGATATCTTTGTGAGCCTCTTAGCTTTTTTGCCTACAGCATGGGCACTTATTCAG ATAGCACAAGCATGCAGACCATTGGTGAAGGGTGTTGGAATGTGGGGTTCAGTGAAAGCTTTAGCAAGGGGCTATGAATA CCTGATGGGAGTGGTTATTTTTACACCAGTGGCCATATTGGCATGGTTCCCATTTGTTTCAGAATTCCAAACGAGGCTGC TATTCAACCAAGCATTCAGCCGAGGGCTTCAAATCCAGCGCATTTTGTCTGGTGGCAAGAAGAATAAGTAA

Download CDS Sequence

Protein sequence (LotjaGi1g1v0319000.1) extracted from Lotus japonicus Gifu v1.2 Proteins.

MSNLEAAPHTLTRRPSRSAAMTTFSTEVFDNDVVVPSSLASISPILRVANELESERPRVAYLCRFYAFEKAHRLDQSSSG RGVRQFKTLLLQRLERDNATSLAARVKKTDAREIQSYYQQYYENYVRSLDEGEQADRAQLGKAYQTAGVLFEVLCAVNKT EKVEEVAPEIIAAARDVQEKTEIYAPFNILPLDSAGASQPVMQLEEIKAAVSAFWNTRGLNWPGSFEQHRQRTGDLDLLD WLRAMFGFQRDNVRNQREHLVLLLANNHIRLHPKPEPLNKLDDRAVNAVMNDLFRNYKKWCKFLGRKHSLRLPQGQQEIQ QRKLLYMGLYLLIWGEASNLRFMPECLCYIFHNMAYELHGLLAGNVSIVTGENIKPSYGGDDEAFLRKVITPIYRVIEKE AERSRNGKAPHSAWCNYDDLNEYFWSPDCFSLGWPMRDDGDFFKSTFNSTPGRKGAQRTAGRTGKSNFIETRSFWHIFRS FDRLWTFYFLGLQIMLIIAWKGISVMEIFQKDVLYSLSSIFITAAVFRLLQSILDLVLNFPGYHRWRFTDVLRNILKVIV SLFWVIALPLFYVHSFDGAPEFIKKVLSFLHQMKGIPPLYLLAVAVYLLPNLLAAVLFLFPMLRRWIENSDWHIVRLLLW WSQPRIYVGRGMHESQFALIKYTLFWVILLAAKFAFSFFVQIKPLVQPTKDIMSIHHVDFAWHEFFPKAQHNYGAVFALW APVLLVYFMDTQIWYSVFSTVYGGVIGAFDRLGEIRTLSMLRSRFQSLPGAFNTYLVPTDKKHKKKFSLSKRFAEISASR RSEAAKFSQLWNEVICSFREEDIISDREMDLLLVPYSSDPSLKIIQWPPFLLASKIPVALDMAAQFRGKDSDLWKRICAD EYMKCAVIECYESFKHILNALVVGEAEQRTISVIIREIESSISKNTLLSNFRMGYLPSLCKKFVELVEILKDADSSKRDT VVVLLQDMLEVFTRDMMVNEISELAELNHSSKDSGRQLFAGTDAKPAVLFPPVVTAQWEEQIRRLYLLLTVKESAIEVPT NLEARRRIAFFTNSLFMDMPRAPRVRKMLSFSVLTPYYSEETVYSKNDLEVENEDGVSIIYYLQKIYPDEWNNFMERLDC KKDSEIWEKDENVLQLRHWASLRGQTLCRTVRGMMYYRRALKLQAFLDMANEQEILDGYKAVTVPSEEDKKSHRSLYASL EAVADMKFTYVATCQNYGNQKRSGDRHATDILNLMVNNPSLRVAYIDEVEEREGGKVQKVYYSVLVKAVDNHDQEIYRIK LPGPAKLGEGKPENQNHAIIFTRGETLQTIDMNQDNYLEEALKMRNLLEEFNEDHGVRRPTILGVREHIFTGSVSSLAWF MSNQETSFVTIGQRVLARPLKVRFHYGHPDVFDRIFHITRGGISKASRGINLSEDIFAGFNSTLRRGNITHHEYIQVGKG RDVGLNQISLFEAKVACGNGEQTISRDIYRLGHRFDFFRMLSFYFTTIGFYISSMIVVLTSYAFLYGRLYLSLSGIEAAI VKLARRKGDDSLKAAMASQSLVQIGLLTTLPMVMEIGLERGFRTALGDLIIMQLQLAPVFFTFSLGTKVHYFGRTLLHGG AKYRATGRGFVVRHEKFAENYRLYSRSHFVKGIELLILLICYKIYGSATPESTAYALLSWSMWFLVCSWLFSPFLFNPSG FEWQKIVEDFDDWTKWISSRGGIGVPSNKSWESWWDEEQEHLQHTGFLGRICEIILTFRFFVYQYGIVYHLHVARGDKSI MVYALSWLVIVAVMVILKIVSLGRKQFSADFQLMFRLLKLFMFIGAIVAMGLMFTLLSLTMGDIFVSLLAFLPTAWALIQ IAQACRPLVKGVGMWGSVKALARGYEYLMGVVIFTPVAILAWFPFVSEFQTRLLFNQAFSRGLQIQRILSGGKKNK

Download Protein Sequence

Domain prediction

Data for domain prediction are obtained with InterProScan, and merged with InterPro data obtained from the EB-eye REST service.

Prediction algorithm	Identifier	Start	End	Length	E-value	InterPro ID
Phobius	CYTOPLASMIC_DOMAIN View details on CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	1	483	483	-	–
PANTHER	PTHR12741:SF53 View details on PTHR12741:SF53 Search for proteins/transripts with this domain View external data on PTHR12741:SF53	1	1915	1915	0.0	–
PANTHER	PTHR12741 View details on PTHR12741 Search for proteins/transripts with this domain View external data on PTHR12741	1	1915	1915	0.0	–
Gene3D	G3DSA:1.25.40.270 View details on G3DSA:1.25.40.270 Search for proteins/transripts with this domain View external data on G3DSA:1.25.40.270	28	190	163	3.8E-16	IPR023175 Show description in modal box View details on IPR023175 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF04652 View details on PF04652 Search for proteins/transripts with this domain View external data on PF04652	41	166	126	1.1E-16	IPR039431 Show description in modal box View details on IPR039431 Search for proteins/transripts with this domain View on EBI InterPro Service
SMART	SM01205 View details on SM01205 Search for proteins/transripts with this domain View external data on SM01205	321	437	117	1.4E-74	IPR026899 Show description in modal box View details on IPR026899 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF14288 View details on PF14288 Search for proteins/transripts with this domain View external data on PF14288	323	434	112	1.7E-37	IPR026899 Show description in modal box View details on IPR026899 Search for proteins/transripts with this domain View on EBI InterPro Service
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	484	501	18	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	484	506	23	-	–
Phobius	NON_CYTOPLASMIC_DOMAIN View details on NON_CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	502	512	11	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	513	530	18	-	–
Phobius	CYTOPLASMIC_DOMAIN View details on CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	531	550	20	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	551	572	22	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	554	576	23	-	–
Phobius	NON_CYTOPLASMIC_DOMAIN View details on NON_CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	573	598	26	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	596	618	23	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	599	620	22	-	–
Phobius	CYTOPLASMIC_DOMAIN View details on CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	621	658	38	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	658	680	23	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	659	680	22	-	–
Phobius	NON_CYTOPLASMIC_DOMAIN View details on NON_CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	681	732	52	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	709	728	20	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	733	755	23	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	733	752	20	-	–
Phobius	CYTOPLASMIC_DOMAIN View details on CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	753	1476	724	-	–
ProSitePatterns	PS00105 View details on PS00105 Search for proteins/transripts with this domain View external data on PS00105	921	934	14	-	IPR004838 Show description in modal box View details on IPR004838 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF02364 View details on PF02364 Search for proteins/transripts with this domain View external data on PF02364	1038	1123	86	9.5E-28	IPR003440 Show description in modal box View details on IPR003440 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF02364 View details on PF02364 Search for proteins/transripts with this domain View external data on PF02364	1129	1731	603	1.3E-215	IPR003440 Show description in modal box View details on IPR003440 Search for proteins/transripts with this domain View on EBI InterPro Service
Coils	Coil View details on Coil Search for proteins/transripts with this domain	1314	1334	21	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	1477	1499	23	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	1483	1505	23	-	–
Phobius	NON_CYTOPLASMIC_DOMAIN View details on NON_CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	1500	1504	5	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	1505	1524	20	-	–
Phobius	CYTOPLASMIC_DOMAIN View details on CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	1525	1535	11	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	1536	1554	19	-	–
Phobius	NON_CYTOPLASMIC_DOMAIN View details on NON_CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	1555	1565	11	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	1566	1586	21	-	–
Phobius	CYTOPLASMIC_DOMAIN View details on CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	1587	1628	42	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	1629	1648	20	-	–
Phobius	NON_CYTOPLASMIC_DOMAIN View details on NON_CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	1649	1653	5	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	1654	1676	23	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	1654	1676	23	-	–
Phobius	CYTOPLASMIC_DOMAIN View details on CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	1677	1726	50	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	1727	1748	22	-	–
Phobius	NON_CYTOPLASMIC_DOMAIN View details on NON_CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	1749	1759	11	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	1760	1782	23	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	1760	1780	21	-	–
Phobius	CYTOPLASMIC_DOMAIN View details on CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	1781	1799	19	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	1795	1817	23	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	1800	1818	19	-	–
Phobius	NON_CYTOPLASMIC_DOMAIN View details on NON_CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	1819	1823	5	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	1821	1843	23	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	1824	1844	21	-	–
Phobius	CYTOPLASMIC_DOMAIN View details on CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	1845	1864	20	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	1864	1886	23	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	1865	1885	21	-	–
Phobius	NON_CYTOPLASMIC_DOMAIN View details on NON_CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	1886	1916	31	-	–

Gene function (GO predictions)

GO predictions are based solely on the InterPro-to-GO mappings published by EMBL-EBI, which are in turn based on the mapping of predicted domains to the InterPro dataset. The InterPro-to-GO mapping was last updated on April 27, 2020, while the GO metadata was last updated on April 27, 2020.

GO term	Namespace	Name	Definition	Relationships
GO:0000148 View details of GO:0000148 AmiGO InterPro QuickGO	Cellular component	1,3-beta-D-glucan synthase complex	A protein complex that catalyzes the transfer of a glucose group from UDP-glucose to a (1->3)-beta-D-glucan chain.	Subterm of View details of GO:0098797 View details of GO:1990234
GO:0003824 View details of GO:0003824 AmiGO InterPro QuickGO	Molecular function	Catalytic activity	Catalysis of a biochemical reaction at physiological temperatures. In biologically catalyzed reactions, the reactants are known as substrates, and the catalysts are naturally occurring macromolecular substances known as enzymes. Enzymes possess specific binding sites for substrates, and are usually composed wholly or largely of protein, but RNA that has catalytic activity (ribozyme) is often also regarded as enzymatic.	Subterm of View details of GO:0003674
GO:0003843 View details of GO:0003843 AmiGO InterPro QuickGO	Molecular function	1,3-beta-D-glucan synthase activity	Catalysis of the reaction: UDP-glucose + [(1->3)-beta-D-glucosyl](n) = UDP + [(1->3)-beta-D-glucosyl](n+1).	Subterm of View details of GO:0035251
GO:0006075 View details of GO:0006075 AmiGO InterPro QuickGO	Biological process	(1->3)-beta-D-glucan biosynthetic process	The chemical reactions and pathways resulting in the formation of (1->3)-beta-D-glucans, compounds composed of glucose residues linked by (1->3)-beta-D-glucosidic bonds.	Subterm of View details of GO:0006074 View details of GO:0051274
GO:0009058 View details of GO:0009058 AmiGO InterPro QuickGO	Biological process	Biosynthetic process	The chemical reactions and pathways resulting in the formation of substances; typically the energy-requiring part of metabolism in which simpler substances are transformed into more complex ones.	Subterm of View details of GO:0008152
GO:0016020 View details of GO:0016020 AmiGO InterPro QuickGO	Cellular component	Membrane	A lipid bilayer along with all the proteins and protein complexes embedded in it an attached to it.	Subterm of View details of GO:0005575
GO:0030170 View details of GO:0030170 AmiGO InterPro QuickGO	Molecular function	Pyridoxal phosphate binding	Interacting selectively and non-covalently with pyridoxal 5' phosphate, 3-hydroxy-5-(hydroxymethyl)-2-methyl4-pyridine carboxaldehyde 5' phosphate, the biologically active form of vitamin B6.	Subterm of View details of GO:0043168 View details of GO:0050662 View details of GO:0070279

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Expression data

Expression pattern

Expression pattern of LotjaGi1g1v0319000.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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