Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi3g1v0272800
Transcript ID	LotjaGi3g1v0272800.1
Related isoforms 5	LotjaGi3g1v0272800.2 LotjaGi3g1v0272800.3 LotjaGi3g1v0272800.4 LotjaGi3g1v0272800.5 LotjaGi3g1v0272800.6
Lotus japonicus genome version	Gifu v1.2
Description	Fimbrin-like protein 2; TAIR: AT5G48460.1 Actin binding Calponin homology (CH) domain-containing protein; Swiss-Prot: sp\|O50064\|FIMB2_ARATH Fimbrin-2; TrEMBL-Plants: tr\|G7LEC3\|G7LEC3_MEDTR Actin-binding calponin-like (CH) domain protein; Found in the gene: LotjaGi3g1v0272800
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr3:52858384..52879239) extracted from Lotus japonicus Gifu genome v1.2.

CTCATTTCTCTCTTCCTCACTATTTCTTTTTCTTCCTTCACGTTTTCTTTCTTTCTTCAGCAGACCCATTTCTGCTCTTT CTTCCTTTCTTCTCCTTTTCTTCTTCTTTTCTTTCTTTGTTACCTACTTTATCTCCTTCTTTTATTTGCTGCAACAACTC CCCACCGTTCCTCTTTCTCTTTTGATCAGCATCTCCACATCCTTTTCTTCTCCATGGACAACCAGTCCATGAGCCACCAC CTCTACTCTCCCTCTTGCAACCGCTGATCACACCACCACTATCGCCATGATTCTTCTCCTTTCTAACTTGCAGCAACAAA CATGGCACCACCACCAATATGAAAGCCACACACACCCCTTCTCATCACATATTTGCTCCATCTTCTAACCACCACCGTTC CTTGCTCTCCATGGAGCCTAACAATCCACCATCTTTGTTCTCCTTCTTCTGGTTTTGAATGGAGACCCCCATGAAAGGAC CCAAGCACCACCACCGTGAGCGCCACCACGCAGAGGACGCCATCGGCACATCATCTTCTCATTTTCCTTGGTAAAAGCCT TAATTTCTTGATTAGTATGTTTGTATATTTGATTTCTAAATTTATCTGGGGTTTAGATGAATCAAAATGGTTTGAGATAG TGTTATGGTGCTGAGAACATGTTGGAAATTTCAAAACCACGTTCTGTTATGAAGTCCGTCACAAACATCAGTTTTTCCGT CACAAAGCTCTGTTTTTCCGTCACTAACAGAACCTGCAGGGGACAATTCCCTGTTTCGGTTCTCCAACTTGAAAATTGCA TAACTCTCTCATCTTTTATCCGTTTTAGGTGTATGATCACTTTTTAGAAAGCCCCAAGAGTCCACTTTAATATAAAACAC ATTTGAAACTCTTTCTACTGCTAATTGGCTGAAGAAAATATATATTTCTAATGTAATATGTTTTACTAATCTCTTTACGA AGGTTGAGTGGTTGAGTAGAGTTTTATGTTAATGTATTAAGTTTTCTAAAAAGTTGTTTCCTTTGAGTTAAGTGGTTTTG GGGGTTTTAAGGATTTTGTTTTAAGCCTTAATGTGCTTGAAAAGCTTTTGCGAAAAGTTTTGAAAGTCGAACAAGTTGTC GGAGTGTTAGGGAATAAGCGTATTGATACTATCTCGCTAGTCGATGGATGCTTAGGAATAACAAGATTGGATAGAGTTAG AGCAATTAAGTTTGGATTTCCGAGTGAGGAATTAGACTCCGAAAGGTATTAATTAGAATGGATTAAGTTATGATTGCAAT CTTGATGTTGGAAGATGACTTAGGATTGAATCTTGAATTCCAAGAAGTCTATGAGCTTTACTATAAATACTTGTTTCTAG AAGGTCTAGATTTGAAACTTTGGAAGTTCAAGGACTTAGAAGTGATTAAGGGATTGATTGAGGACTAGAAGTTATTTCTT AGAGATTGATGACTTATCTATAAGTTGGGATTTTTGTAGAACCAAAGTGGAGTTTCGAAGAAACTAGGGTTGTGTGTCTA ATGAGATATCGCGAGTTTAAGTTTAAGAGAAATGATTCGATCGTTTTGAAGGAGCTTATGAGTCATGAATAAGTACATAA TCATTAGATAAGAAGAGTTGTTTGCCTTGGAAGTTAACTATGGTTTATGGATTACTTGATAAGAGTTAGTGGTTTTGATA AGAATTGATAATGATACAACGTTGGCTTGAGGAATAGATCGTGAGAGCGAGTTGAGACATTAAGTTGTTGTAGGTGACTT GATAAGTAAGTATTGAGGATAAAGAGGATTATGGAATAGAAAACGGGAAGAGATTACTTAAGGAGGATGATAGGAGAATG CTATTGTAGATGTTGTGTTAATTGCTTTAACGGGAAGTGGTGGGTAGTATTGCGAAAATACCTCAATGAGTATCCTATTA GAGACTGAGATCTCTAAGGAAAATGAGAGGAGTAAGTACTAGTAATGTGTACTTATCTATTTTGACAAGCATATGAGTAT TTGGTTTTAAAGTTGATTTACTAAGTCATAAGATTTTGAAGCTTTGTTATTGCTTTGTTGTCATTATGATGACTTATCTT AATTTCTGAGGTTGATCTTGATGGTTTATAACCATTAAGGAGATTGAGTTTAACTTGTGATTTCGTCGAGTCAATTGCTT GAGAGTGTAGCTTTAGACTTGGAAAGTAGGTAGCTCAATTAGTGATTATGTTATGTGTACTTATGAAGGGTATGAATAAC GGAAGCGCTTGACGACGAAGCCAAAGAACAGACGGAAGTGAGCCAACACGGGAAAGCAAAGATATGACTGGATTTGATTT GAGTCGCAACTTAGTAAGGAAAGCGCCTAAGGTTAGGGCAACTTACTATATATTAGCTATGAATGCATGATAGGCGTCGA TCAATTCGACTTATGCTTTACTTTGATGTTGATTATGTTGATGAACTGATGTTGTGATGTTGTGCTTTGTTGGATTGTGC GTTTTGACGCGACTTCGGAGTGGAGATTCATTGATCTGGTGATCTTTGATGTTTCGGGTTGGATAAGCAACCCTAGGCAA GTTCAAACGAGGGGTTTGGGACTTAGCCATTTGTTGGGATTCGTTGGTTTACTTAGACTTTCCCCGGGAAACTTCTTTTG GGTGGTTGGTTTTCGGAAAACCTAGAATGAATAGAATTTTGTAAACTAAAGACTTGGGAAACCTAGATTTTGAGAAATAA ACTCATAACCTGACTAATCTGAATTGAAATCATTTTTATTAATGTTTAAGTATAGGAAAACTGAAGGGGAAAATATTTAC GAAAGACGGGGAAAAGTCGACCTTTGTTGTGAGTTATTGGAATTGGGGAAAGCCACTAAGGTGAGCTATGGTGATGATTG AAAGTCACCGAGTACTTTACGTACTCTTGTTGATGGGGTTGTGTTGTATTGACCGACACTAATCCCTTGGGTTCTCTTGT TGTTGGAGCGGAGTCGTATTGACCGACACTAGACCCTTGTGTATTCTTGTTGATGGAGTTGTGTTGTATTGACCGACACT AACTCATGGGTTTGTTGAGATTGGGTTGTGAGCTAAACACTTTCGTGGTAAGGGCGATTCGTTGTTTGGCTAACCACGTT GCATTCAATCGGGTGAATAACGGGAATGGTTCACCTGTGCATATCATGGTGAATAACGGGAATGGTTCACCTTGCATAAA TGATGAATAACGGGAATGGTTCATCATACGGTGAATAACGGGAATGGTTCACCAAGGATGAATAACGGGAATTGTTCATC CAGGATGGATTTCATCCAAGATGGATAACGGGAATGGTCCATCCATAGTGAAGAACGGGAATGCTTCACTTGTGGCGAAC GGGAACGCGTCACAAATCCGGATTCATATTGTGCATTTCACGCATACATTCATGCTGACTGAGACTGTGTGCTGTTTGTT TATTGAAGCAATGTTAGAGCCATAACATGCTAGGATTACTTATATGCTTATATAACAACTTATATATATACCCTGTCACA TGTTGAGTGTATATGCACTTATTGCTGTGAGTTGACCCTAGCGCCTTGGCTTTGTTTGTATGTTTGTGTTTGGGCGGTCG GCCTGCTGCCAGACGACGAAAGGAGGTGATGTGAGCAGATGCTACTCCACTTGGAAGATCTATAGAAGACTCGAAGAATA GAGTCGGGTGTAGGGCTAGAGCCTTTGGGTAGAAAAGCTTACCGTTATTGGTTTAAGCTTGCAGGATCATTTTATGATTT GTATTTAAGGTTTCGGGTAGGTTCCGGTGCATTGCTTTCCTATGGTTACTCAGTGTGGAAATCATAGGGAGTATATCGGA TTTATGGAGTCATTGCATAGTGAGTCCGTGTTGGATCTTAGTTTATTTGTCATGTACTCTATGCTGTGCCTTGATCGAGG CCAGATGTAAATTATTTACGGTTGGGAGTATGCATTACATATTTTAGAAACACTTCGAAAAGGAAAAAAAAATAAATACT CACATTTATAAATCACTTTTGGAAAAGATTGCATATTTACTTTAACATGTTACTACCGTGGCACCCGAAAATCGGGGTGT TACATTGTGGTATCAGAGCTTTGGTTGCGATAACCAGAGCTTGTTGGGGAATAGGTCTTCTGTGCTAGGTTGTGTGAACT CTGTAATCGATCAATTGGGTTTTGGTCGATTGATTGAGTGTTACTTTATAGATCGTTTGAATTGTTTCCTAAGGAAACAA TGTGTAGTTATTAGGGCATCATTTGAGGGTTGCTTGCTGAGGGCAATCCTGATGACGGCTTGTTTTCTTTCTTTAGCGTA GTAGAAAGCTTCTTGCTTGCTATCACTGCTTTGAGCACTGACTGCTTGCTTTGACTTGGTGGTTACTGCTTCCACCAAAA CTTTAACCGGTATTGTTAGTTCCTGCACTATCATGTGGTATTTCAAGTAGAGATTGCTATTCTTCTGATAGTAATAGGGT ATAAGTATGAGACTCATTCCTTCGACCGTTGTTTGTATTTAAGTATAGAAGTTATATAGGGTTTAGAGAAGTTCGTTAAG CCTTGAAGTTTGTCTTAGACTGGTATAAGCTAGTAAGGAGAGATAGAAGCTAAGAATGAATCCTAATGAGATGTTGTATG AATTCCAGGAATTAAGGTTGTGTCTTTTTCAAGACAAAATTGTTAGAGATTGAATAGATTAAGAGATGATCTAAGATTAG ATGTGACTACTTGATGAGATAGACTCATTGGCCTTACTAGTGGGTTTTTTCTGAATTTCCATCGCCAAGATATTGAGCCT GATCAACTGAATATTGAGGGGGTGATATTTGGAATTACAACTGGCATGGACTATGATAGGAGGATTGATTAGATTTGATC GATGATTAGTCGAGCTGGTAAGTAGGTTATGTTAAGCACTTGATTGTAGAGGATTAAGATCTAAATCTCTGGAAGTTGAT GATTGTCGTGTAGTCATTAAATGGTTAGTTCGCATGATTACTTTAAGTAGAGATAGTCTAAGTCAATAGATTCAATGTTG GAGATGCCTAAGTATTCTTTCGAATGTTATGAAACCATAAGTTATATGATTGTGTACTAAATACACTGAGAGACTAGACT TGTTGGTTTACTATCACTTAGTTAGACTCTAGAGGAGTAAGTAATGATCAAACAATGATTTTGGATTTCAGAGGAACACG ACGAGGTTAGCAACTGAGAGTTTATAAGTTGAACTGGAATCTTATGGTCGAGATTGATTTTGTATGTTGAGAATCATGGG TGAATAAGAGAGTTAGTGGTTTTAGTTTTGAGGATATCAGTTAGATCTTCGGAGGTTTAAAGACTAAGGATTGTTTGACG TGAGACTAATCAAGCTAGAGATTTTGAGTCTCGAGTTGTGTAGAGTGTTAAGACTTGAGAGAAGTTATGATTTGATTTGT GACTAAGAGGAAGGTTGACTTTATGGTTTGAATAAGGGTAGTTCGGAAAGGAGATTAGGTTGATGGATTGTTAGATTCTA ATTAAGATGGGAATTTGCTTAAGAGTTGTTGGTCAATGGATGTTGAGTGCGAGATTTTGGGTAGAAGAAACTTGTGACGA GATTAGAATAGTATTAGCATGATGTTATGATTGTTAGTATTATGGTTGGACTATTAGCGGGAGGGCATGACGATACATGT GAGGTCGTTCATGTAGGCGATTGATGTAGGTGCTTAGAACACTACTATGAGCATGATATCTAGATCTAGTGGAGGACGAT TAGTAGATACCTAAGTCGTGCTTCTTGTCTTGTATGTCACCTTTGAGGTGAATTCGTTGTGACGTCTCCCAGTTTTGGGA TGCGCTCTGACACTACTTAGGGTGGAAGGAAATGTGAGGGAATGTTATTCCCGAGTTTTCTCTGACACCAAGTTTCGAGG ACGAAACTTTCTTTTTGGGGGGTAGTATTGTAAGACCCTGAAATAAATAACTAGATTATTTATTTAATTTCATTATATTA ATTAATTGAGTGTTTATAATCTATTATTATTTTTAAAGTTATTTTCCTGACTTGATTTTAATTACGAATCAAGGAAATCA TTTAAATGATAATTAATTTCAAAATATTTTATTTTCTATAGTTTCATTGAAAATAGAAATAATATCATTAGTCTTCTTAT TTTTAATAAGCCATAACTTTTGTTTTATTCGATAAACTCAATTCAACGCTCCGTGAGCTATCTGACAATTGTCTTTTTCT TTCAAATGATGATAAGTACTATTGTCATTTTCTTATAATTTATACTTGACTTATACGCATAGTATGACGACGTCATATTT GTTCTAATTGTCTCACAGTTATTCTTTAGCTCAGTTTCTACTTCTTTCTTGGTCTATGAATCATCTTATTTTGCTCAAAG TGATTCAAATTTATATTTTATCATTTCATAGAGTTCCTCATAATTTTTGGGATAATAATATATCACCCTTATATTTTTAT CTTAACTCTATGAGGTAAATCATTCCGTGTCTAAATCAATTCGTACCGGTTTTAAAAAATATATATCTTCTCAAAATATA ATTAGAAAATATCTCACCATCCTTATCCCTCCATCCACCTCATCCTCGACTCACTCTCATTTCTCTCTTCCTCACTATTT CTTTTTCTTCCTTCACGTTTTCTTTCTTTCTTCAGCAGACCCATTTCTGCTCTTTCTTCCTTTCTTCTCCTTTTCTTCTT CTTTTCTTTCTTTTTTACCTACTTTATCTCCTTCTTTTATTTGCTGCAACAACTCCCCACCGTTCCTCTTTCTCTTTTGA TCAGCATCTCCACATCCTTTTCTTCTCCATGGACAACCAGTCCATGAGCCACCACCTCTACTCTCCCTCTTGCAACCGCT GATCACACCATCACTATCACCATGATTCTTCTCCTTTCTAACTTGCAGCAACAAACATGGCACCACCACCAATATGAAAG CCACACACACCCCTTCTCATCACATATTTGCTCCATCTTCTAACCACCACCGTTCCTTGCTCTCCATAGAGCCTAACAAT CCACCATCTTTGTTCTCCTTCTTCTGGTTTTGAATGGAGACCCCCATGAAAGGACCCAAGCACCACCACCGTGAGCGCCA CCACGCAGAGGACGCCACCGGCACATCATCTTCTCATTTTCCTTGGTAAAAGCCTTAATTTCTTGATTAGTATGTTTGTA TATTTGATTTCTAAATTTATCTGGGGTTTAGATGAATCAAAATGGTTTGAGATAGTGTTATGGTGCTGAGAACATGTTGG AAATTTCAAAACCACGTTCTGTTATGAAGTCCGTCACAAACATCAGTTTTTCCGTCACAAAGCTCTGTTTTTCCGTCACT AACAGAACCTGCAGGGGACAATTCCCTGTTTCGGTTCTCCAACTTGAAAATTGCATAACTCTCTCATCTTTTATCCGTTT TAGGTGTATGATCACTTTTTAGAAAGCCCCAAGAGTCCACTTTAATATAAAACACATTTGAAACTCTTTCTACTGCTAAT TGGCTGAAGAAAATATATATTTCTAATGTAATATGTTTTACTAATCTCTTTACGAAGGTTGAGTGGTTGAGTAGAGTTTT ATGTTAATGTATTAAGTTTTCTAAGAAGTTGTTTCCTTTGAGTTAAGTGGTTTTGGGGGTTTTAAGGATTTTGTTTTAAG CCTTAATGTGCTTGAAAAGCTTTTGCGAAAAGTTTTGAAAGTCGAACAAGTTGTCGGAGTGTTAGGGAATAAGCGTATTG ATAATATCTCGCTAGTCGATGGATGCTTAGGAATAACAAGATTGGATAGAGTTATAGCAATTAAGTTTGGATTTCCGAGT GAGGAATTAGACTCCGAAAGGTATTAATTAGAATGGATTAAGTTATGATTGCAATCTTGATGTTGGAAGATGACTTAGGA TTGAATCTTGAATTCCAAGAAGTCTATGAGCTTTACTATAAATACTTGGTTCTAGAAGGTCTAGATTTGAAACTTTGGAA GTTCAAGGACTTAGAAGTGATTAAGGGATTGATTGAGGACTAGAAGTTATTTCTTAGAGATTGATGACTTATCTATAAGT TGGGATTTTTGTAGAACCAAAGTGGAGTTTCGAAGAAACTAGGGTTGTGTGTCTAATGAGATATCGCGAGTTTAAGTTTA AGAGAAATGATTCGATCGTTTTGAAGGAGCTTATGAGTCATGAATAAGTACATAATCATTAGATAAGAAGAGTTGTTTGC CTTGGAAGTTAACTATGGTTTATGGATTACTTGATAAGAGTTAGTGGTTTTGATAAGAATTGATAATGATACAACGTTGG CTTGAGGAATAGATCGTGAGAGCGAGTTGAGACATTAAGTTGTTGTAGGTGACTTGATAAGTAAGTATTGAGGATAAAGA GGATTATGGAATAGAAAACGGGAAGAGATTACTTAAGGAGGATGATAGGAGAATGCTATTGCAGATGTTGTGTTAATTGC TTTAACGGGAAGTGGTGGGTAGTATTGCGAAAATACCTCAATGAGTATCCTATTAGAGACTGAGATCTCTAAGGAAAATG AGAGGAGTAAGTACTAGTAATGTGTACTTATCTATTTTGACAAGCATATGAGTATTTGGTTTTAAAGTTGATTTACTAAG TCATAAGATTTTGAAGCTTTGTTATTGCTTTGTTGTCATTATGATGACTTATCTTAATTTCTGAGGTTGATCTTGATGGT TTATAACCATTAAGGAGATTGAGTTTAACTTGTGATTTCGTCGAGTCAATTGCTTGAGAGTGTAGCTTTAGACTTGGAAA GTAGGTAGCTCAATTAGTGATTATGTTATGTGTACTTATGAAGGGTATGAATAACGGAAGCGCTTGACGACGAAGCCAAA GAACAGACGGAAGTGAGCCAACACGGGAAAGCAAAGATATGACTGGATTTGATTTGAGTCGCAACTTAGTAAGGAAAGCG CCTAAGGTTAGGGCAACTTACTATATATTAGCTATGAATGCATGATAGGCGTCGATCAATTCGACTTATGCTTTACTTTG ATGTTGATTATGTTGATGAACTGATGTTGTGATGTTGTGCTTTGTTGGATTGTGCGTTTTGACGCGACTTCGGAGTGGAG ATTCATTGATCTGGTGATCTTTGATGTTTCGGGTTGGATAAGCAACCCTAGGCAAGTTCAAACGAGGGGTTTGGGACTTA GCCATTTGTTGGGATTCGTTGGTTTACTTAGACTTTCCCCGGGAAACTTCTTTTGGATGGTTGGTTTTCGGAAAACCTAG AATGAATAGAATTTTGTAAACTAAAGACTTGGGAAACCTAGATTTTGAGAAATAAACTCATAACCTGACTAATCTGAATT GAAATCATTTTTATTAATGTTTAAGTATAGGAAAACTGAAGGGGAAAATATTAACGAAAGACGGGGAAAAGTCGACCTTT GTTGTGAGTTATTGGAATTGGGGAAAGCCACTAAGGTGAGCTATGGTGATGATTGAAAGTCACCGAGTACTTTACGTACT CTTGTTGATGGGGTTGTGTTGTATTGACCGACACTAATCCCTTGGGTTCTCTTGTTGTTGGAGCGGTGTCGTATTGACCG ACACTAGACCCTTGTGTATTCTTTTTGATGGAGTTGTGTTGTATTGACCGACACTTACTCCGAGTTGTGTTGTATTGACC GACACTAACTCATGGGTTTGTTGAGATTGGGTTGTGAGCTAAACACTTTCGTGGTAAGGGCGATTCGTTGTTTGGCTAAC CACGTTGCATTCAATCGGGTGAATAACGGGAATGGTTCACCTGTGCATATCATGGTGAATAACGGGAATGGTTCACCTTG CATAAATGATGAATAACGGGAATGGTTCATCATACGGTGAATAACGGGAATGGTTCACCAAGGATGAATAACGGGAATGG TTCATCCAGGATGGATTTCATCCAGGATGGATAACGGGAATGGTCCATCCATAGTGAAGAACGGGAATGCTTCACTTGTG GCGAACGGGAACGCGTCACAAATCCGGATTCATATTGTGCATTTCACGCATACATTCATGCTGACTGAGACTGTGTGCTG TTTGTTTATTGAAGCAATGTTAGAGCCATAACATGCTAGGATTACTTATATGCTTATATAACAACTTATATATATACCCT GTCACATGTTGAGTGTATATGCACTTATTGCTGTGAGTTGACCCTAGCGCCTTGGCTTTGTTTGTATGTTTGTGTTTGGG CGGTCGGCCTGCTGCCAGACGACGAAAGGAGGTGATGTGAGCAGATGCTACTCCACTTGGAAGATCTATAGAAGACTCGA AGAATAGAGTCGGGTGTAGGGCTAGAGCCTTTGGGTAGAAAAGCTTACCGTTATTGGTTTAAGCTTGCAGGATCATTTTA TGATTTGTATTTAAGGTTTCGGGTAGGTTCCGGTGCATTGCTTTCCTATGGTTACTCAGTGTGGAAATCATAGGGAGTAT ATCGGATTTATGGAGTCATTGCATAGTGAGTCCGTGTTGGATCTTAGTTTATTTGTCATGTACTCTATGCTGTGCCTTGA TCGAGGCCAGATGTAAATTATTTACGGTTGGGAGTATGCATTACATATTTTAGAAACACTTCGAAAAGGAAAAAAAAATA AATACTCACATTTATAAATCCCTTTTGGAAAAGATTGCATATTTACTTTAACATGTTACTACAGTGGCACCCGAAAATCG GGGTGTTACACAAAAGCTCACTAATATGTAAGACTATACAAAATTGATAATCAACAAGAAGATCCAATGCATGAACAACA ACTACCATCACCAAGAAGAGTCATGAAACCCAGTGAAGAAACCTGACAACAACATTTAGAGAAACGTGGTGAAGAACCCC ACCCCCACTCCCACTGTACACCCAATCCCCCACCCATACTCTTCTAGAAAACCGATCAAGAGAAAGAGATTGAGAGAAAG ATAGGTTTCAGAGACGAAAGAGAGAGCAACAGAGAAAGAGAGGGCGTAGATTTGAGCCACCTGAAAACCCAAATTTGAAT TTTCCCTCTTCAGATCAACGTCCTCCTCATATCAACCTATCACCACCGCGTGTTCGTCGTCTTTGTAACCACCACCGTCC AAACTCAAGCCCAAAAGTACAGATCTGCGCCACCCCCTTGCCTCCACCTATCCGGTATAGAAGGTGGGCATGGTGATGGG TTCAATGGAGATTGGGGGTTTTGTTGTTACCTCCACAGATTTGCTGAAAGAGATGGGAGTTTTGTTGTTGCCTCCACTCT CTCTGGTTAGGGTCTTCATCTAGAGAGCAAAGCTTCAATCTTTGCTTAGGATCTTTAAACCTGGACAGTGAAGCTTTGGT TTCACGTTTTTAGTAATGGGTGGTTCCGCGGTGGTGGTGCGGTGGAGAGAGGAGAAGAAGAAGAGTGGAGTGGTAGTGGT GGGGTGTTGGTGTTGTGCTAATGGAGAGGGGTGAATTGTTGAAGAGATGGAAGTTTTTTTTTTTGGTACAGAAGAAGAAG AAGATGGAAATTTAAAAGAAAAGAATTAGAATTGAAGATAATATATTTTTTAAAAGAAAAAGGAAAAAATATTTGACATG GCATCCTAGTGGGAAACACTATCAGGTTCACGTCATTAATGAGGTCCACATAGGCAACGTCTGTTAGCAATTAGACGACA AGACCCAATTGTCATAAGTTAATCTTTGGTGTACAAAAATTCCTCATTTTAAACAAAAATGATTCAAATTGCACATAGGC CTAATATCAGGGACGAAAAGTACAATTAAGTCAATTAAGCACTAAAATTACTATTTTCCTCCCGTTATATCCGTTGGCGA TTTTTAATGAGAAGCAAGCATTGATCAAATATTTTTTTTTGTTACATCGGAAAGATAAATTGCACCAGTTAGGAATCGAT CTCTGAACCTCCCCTTACCCAACACATATGTCCCCCAACTCCTACCACTTGAGCTATCTTAAATCATCAAATATTGAGAG AACACAACACTTCCAAGGTTAGGTGGTAAAAATAAATAAACAGTTTTATAGGAGTAGTTGAGATTATAACAGCTTTAAGT AAATCAACTATACATACGAGGATGTCAACAACATCATGTTTGAACTTGGAAGTAAAAATTTGAAAAAGTATTTAACGGGC AAGAGAGGGTCCCATCCCAAATGTTATTATTTTTTAATAATTTGAATTTGGGTTTTCTTTTTTCTTTTTTCTTTCATCTC ACAGAACAACTTTGAACTCTGACAGCTCTGAACTGTCCCATAGTGTTGGCAATTCTTCTTCCTACTCTCTCCCTCACACT TCTTAGGAGCTTTATTAAAGCGGAATTAGAGAGAGATTGAGATGCACACCAACTGTTTGATTGATTGATTGAATACACTT TTTCTTCTCCTTTCTCATTCTGCATTTGCATTTCCCCAATCTGTTTCATTTTGTAGCAGAAGACATGTCTAGTCACTGGG GGATCCTTGTTTCAGATCCATGGCTTCAGAATCAGTTCACCCAAGCGGAGCTTCGCAGCTTGAAAACCCATGTAAGTGTT CGTTCATCATGGTTACAATCCCACTGTTTTGCTTCTTTTTCTTGGGTAAAATTGGATTTTGATTCATATTCTTATTTTAA TTTGGTTTCTGGGTCATGATCATTGTCCATGGTTGGTGTAGTTCATGAGCATGAGGAGAGAGAGTGGGAAGCTTGTGATT GCTGATTTGGCTTCAAAGATGTCCAAGTTGAAGGTTGTGGGAGAAAATCTAAGTGAGGAGGAGAGAGCTTCTCACATCCA GGATTTGTATCCGAACACAGATGAAGAGGTTGATTTTGAATTGTTTCTTAAGGTGAGTTTTCAAATCTTGATTTGCTATC ATCTGTTTTCAAGTATCAACTTTTTTATTTTTAGAAATCCTTTATCCACTACGGATCACCTTTTTCCTTGCTTGTTTCTC TCTTTTTTCACCCGATCTCTTTTTATTGTTTTCTTTTATGCCAATCTTAAATTCTATTCAATATCTTTGAAACAGGGCAC AGAATATGTAGGTAAAAATTGAAATTCACATTTTGAAACTGGTGCTTTTCTTTGCTTCAGAGCTCCAAAGGCAATCAAAT GTCAGCTGGTTGATTTAGTTGATTTTTCCTTATTTTAGTTGGTCAAAATGTATATATGTTTTTCATTTTTCTTGTTTGAA TCCTTGACTTCAAAGATATATGTACCTTTAATATTCCAGTTTCCTTATTTTCCTCAACCCAGAAGCAAAATTTCACCCTT CGTTTTGCAGAAATTAGTATTGAAGTTTCAAATTTCACTGACTGCATCATATGTTACCTGTAACCATGGTTTGGAGTATT TCGATTAATTGTCTTAGTAACCGAACTTCACAGTGGGATCAACTTTCGAACTGGTTCACCTCATAATGCTCATATAGAGT AGAAAAATACTGGAAGTACACTTTATGTGAAACGATTTCAGTTGTTATGGAAAAGTCAAATTTTGATCTGAGATAACTAG TAATTTTGCTATAATGATGACAGGTTTACTTGAAACTACAAATATTTGTAAATTCTAGAATTGGAAGTAGTCCAAGGAAC TCTTCGGCATTCCTAAAGGCGGCTACAACCACATTACTTCACACTATAAGTGAACCTGAGAAAGCATCATATGTTGCACA TATAAATCACTATCTTGCACAAGATGAGTTCCTCAAGAAATCCCTTCCTATTGATCCTTCAACCAATGAGCTCTTTGAAA TTGTGAAAGATGGTGTTCTTCTATGGTACTATACATTTTCACTTGTTTACTATTTTTACTGCTCATAAGAATTTCATTTT AAAAGAATTATATACATCGTTGCAGCAAGCTTATCAATGTGGCAGTTCCGAGGACTATTGATGAACGGGCGATCAATACA AAAAGATTACTCAATCCATGGGAAAGAAATGAAAATCACACTCTTTGTCTTAACTCTGCTAAGGCAATTGGATGTACAGT AGTTAACATTGGAACCCAGGACTTCATTGAAGGAAGAGTATGTTCGCCTTTCACTTTCCATATATAAATGCATTATTGTG GGTATGTACACTGAACCACAAAATTTAAGCCTTAGCTCTCCTTTTGTTTTTTGTTTTCGTTGTGCACATACAAAAATTAA CTCAAATCTGGTCAGACTTTGCTGGATTTTCTTTCTAAATAAAATGGATTTAATTTTGAATCAAAGTGATTCTTAATCAA TCTAATTCCCCCCCCCCCCCCTCTTTTTATTGTTTTCCAAACACAGGTGAGTTTTCTGATGTGCTACACTTTGTCAACAG TCTCAGTTTTCTGATGTTACTCATTAAACTTGGACATTATGACAGTGATTCTTAGGAATATAATGTGTTAGACTTAGGAA GTAGCCACATTATTAGATTTAACCTATTTCATATACACCTATTTTACTTGCATTATCTACGCCTCAAATATGATTTAGAG TTTCAAACCAGGTGCAGATTGTTCTACCTGTCTAAATGGTCTGTCAGGTTCATATAAGAAGTTTAAGTAGAAAAGCTTGA CAATTTTAGAAGAGGCTTTGTGCCTAACGTATGCAGAACTGATAGGCAATTGTCAACTGTGAGTGAGAGGTTCGCTAAAT AAAAAATATGGTGCACATGAAAATGGGAGCGGGGATTCAACATTTTTCTGTTTGATTAAGTGTGATTTGTCTGTTTGATA ATTGAGTCAACCATGATCTCTTTTGAGGTTTTTCCTTTTTTTTGTTTTGTGCAGTGGTATCTAATTTTTTTATTGTTATT TCAGCGTCATCTGGTGCTTGGGCTGATTTCACAGATTATTAAGGTAAACAAACAAAAACCGAAGTTTATAATCTTTTAGT TTAGATTTGTAAAAACATTTGTCATATACTCCAAATAAATCTGGAATTTTCTAAATTTATGCTTTCTAGTTTCTGGATTG ATGGAATTAATGGGATGGCATAATGGCATATTGCATGTTAATTTTTTTGGGGGTATACTTTGACATTCCTGATGGTGGTT ATAAATTAGATACAATTACTGGCGGACCTCAATCTAAAGAAAACTCCTCAGCTTCTTGAGTTACTTGGTGATAGTAAGGT AAATACTTCTTTCCATATTGTTTCATATTTTAATCATATATTGTATATCTTGCCTTAATTTTTCTTAAACAAACAGGATA TGGAAGAGTTGATGAATCTTCCACCAGAAAAGATCTTGTTAAGGTGGATGAATTTCCATTTGAAGAAGGCAGAGTACAAG AAGATTGTGACCAACTTCTCCTCTGATGTGAAGGTAACTGAATATATATATTTTTTGCTTGAATATCAATGTAGTGATAT TCTTTCTCTTGCTTTTGACAATTACAACCACTGTGTTTCTTCATTCAGTACTATTTTACTGTAACAGAAGCTTCTTAATT TATTTCTTGTAAATATCTGGTGACTGAACTTGTATGGTTCTGACCCCCCAGGATGCTGAGGCTTATGCCCACCTTCTAAA TGTTCTTGCGCCTGAATACGCTAATCCCTCCACACTGGCTGTTAAAAATCCATTTGAAAGAGCAAAGTTAGTCCTGGAAC ATGCTGATAAGATGGGTTGCAAGCGATACTTAACTGCAAGAGACATATTAGAAGGATCCCCAAATCTCAATCTTGCATTT GTTGCACATATTTTCCAGCACAGGTGAGAAAAGCCTTTCTATTTGTTTATATAATTTAAAATCATTAATGTGTCTTCACC CAACAACTTGAGTTTTAGCATGACATATCTGAGCCTCTATGACCAAGTAGTCTAGATTTCAATCCTGGTTGCATCCCCAT TATTCTAATTAAAACAAGATAGGTGAGCCACTGCATTATCCACATTTCAATCCCAATAGGTATAGCTTAAGCTTTTGGGA TATTAGGTAGATCGTCCTATTGAAAATATTGAAGTATGATAAATTTTGAACTGTCACATTTCTACATTATTGATGGATGA AGCGGTACAAAATGGAACTTGATTGGTTTCATTACTATTGGTTTAATTTTATTAGTAATTAAGTCTCAAGTAAAGTTATA AGACCCTTTTTAAATTCTTGGAAGTTAAGTTTTAGGAATGTAAGAAAGAGGAATGTCAAACTTTAATGAAGGTCATTGTG ACGATTAAGTTAATACACTAACTGTTAAGATTCATGCTAATCACATTTTGACTTCAAATACGTTTACTAAAGATTGCACA GATCATATGTTTGTCAATTAGCTTTGCTAACTGCTACATCTTTTAACAATATAATCACCACTATTCATCTTGTTCTTTTA TTTTCTATTCTTCTTTTGAAAATGAGTTATGTTTTTCTATGCATATTAATCTTTCTCCATGTGATATGTTGTCAGAGTTT GAAATATATTCATTTTTTATTTTTGGTTCTTCAGCAATCTATGCTAGCTAACTCAATTCCACCTTGTAGGAATGGACTTT CAGCCCTGACAAAACAAATTTCTCTGCTTGAAACTTTGCCTGATGATACCCAAGACTCTAGAGAAGAGAGAGCGTTTCGC CTTTGGATTAATAGTCTTGGAAATTCAGCCTATATCAACAATGTATTTGAGGATCTCAGAAACGGGTGGAATATCTCTTG AATTCTTACTACCTTTCTTATTTATATTATGCTTGAACTTTTTTTGTTATAAGCTTTTTGTATATAACTGAAACTACTTG TAGACTGCAATCAATTGAATATTTAAAATTTTTATTCAATGATGTTCAAATTTTAATTAAATTATGTAATTTCATTCAGT TACATTTGCTACGTTGAAATTATTCTGGCTTTTTGAAATGATAGTGTGATGAGCATCGTCCTCTAATAAAGAAGGTCTAT GAAAGATGGAATAAGAAGAAGGCTGCTGTTTAGCCTAATTCTGTTATCAGTGCAAGAAGGACTAGCCTAGTATCTAGTCT GTTAGAGTTGGCAGTTAGGATCCTATCCTATAAATAGAAGGACAGGGCAGTTTGTTAGGGAGTTAGAGAATCAGTTAGGT TGTTGGAGATACTGGACTCTCGAAGTTCCAGAGGGATTAGGGTTCATAGTTCCCTTGTTGTAGTTCCAATTCTTGTATCC TTGAGTCATTGATTCTCAGTGTGAGGATCTTGGTTCTGTTTCAGTTCAATTGAATAAGCCAATTCACTTTCTCTGTTTTT TATTCCATCATAGTGACATGCTTGTTTTCAGGGCGATAGTTTGCTTCTTTTGATATGTTTATTATACATTGAGTTGGTAT GATGTTGCTTCTTTACAGGTGGGTTCTTTTAGAGACTCTTGACAAGGTGTCACCAGGGATTGTCAATTGGAAGATCGCTA ACAAGCCTCCAATTAAGATGCCATTTAGAAAAGTAGAGAACTGCAACCAAGTTGTGAAATTGGGGAAACAGCTCAAGTTT TCCTTGGTTAATGTTGCTGGAAATGATATTGTGCAGGGAAATAAAAAATTAATATTAGGTAGGTTGGCCTCCATATTACA TGCTGATATCTGGTAATAAATCAATTGCTGTATTGAGCTTTCTCCAATCAATTAAATAGCCACATATTTCTTCCCTTGTA TCAAACTTTTCATAATTCAGTATTCTCTTCAGATGTCAGTGGATGTAGGCAGAATCTAAATCAAATACTAATGATTTTAT TTTCAGCTTATTTGTGGCAGTTGATGCGATGCAATATTCTCCAACTTCTGAAGAACTTGAGATTTCACTCTCATGGGAAG GAAATTACTGATGCTGATATTTTAGAATGGGCCAACAGCAAAGTTTGCAGCTCAGGAAGTCAAAGTCGCATGGGTAGTTT TAAGGTATTGAAAATCCTTCTCCTCGATCATGTGCTGGAGAGTTTGTTTATTAGTTTTGCTTTTTCGCCTTATTTTCATT ATTAATAATGTCATTTTGAATTGTGAGTGGATAGGTATATCATAGAAAAGGAATTTCTTGACACATTTATTTTGTAATAC TTGTGACAATTTTTGTTTGTTTGATGCAAATGAATGCTGAATATACTTATAAGGAGCCAATAATTTGTACTTTTTAGCTT TCAAATAATCATTGATGGTGTCATGATTACTGACTATAAAGACAAGTACAATGATGTACGTGTTACGTCTGTTCCATCTT TCTTATAAAAAATATAAAGCCAAATTTTACTTTAGTTTGTTATATAAGTCAATGAAAAGCTAGATTGGATTTGCATCCAT GTATGATGAATTGAAGTAAATTCATCACAAAATTAATGTTTTATGGGCCATGCACAAAGTTCTTAGTTGAATATGGATTT CTTCTCGATCTCCACTATCTATCTGGAATTGTGCGACTGAATTATTTGTTGAATACTGGATATTGAATTTTTTTCAAATG GGATTTGAAATTTCAGGTTCTGTATTTTCTTTTTGGTTTAGAATTCATTGGCTAAAATGGAAATCTAAGGGTAGCTCTAG CGGTCCTCTTTTATATTTAATTCAATTTACTCTATGTTACATATTATTAGAGGTTTGTCTGTTTTCAATAGAGTGTTTTC AACATCTCATAATCGTAATTTGTAGGAGGAATGGATTCAAAAGACGCTTTGAGTTTATTCTGATTAAAATAATTTAGGGA GAATAGAGAAACAATATAGAGAGCCAACTTATGGGTAGGATTTTCGATCTTCACATTACTTGACTATAAGGGGCTTTCAT ATATTGACTATAAGAATTATGATAAGACATTGCAAAAATAGTTTGACTGTCAAGACAAGATGCTTTCTTCTGGTGACATG GGAAGAAGTTATGGGTCTGAGGGTAGCACAATAACCAATGTGTAGCCACCATAATGTGTCATGGCATTTTGTTTGAGGCC AGATATGACTGTTTGATGCTTGCTGTGCAGCAGAGCTTTCCCATGTACGTAAACTTGGCCTGATGTTTGGCACAAAAGAA GTCTTGAGAGTGGTAGGGTTGACAACATAGCCGGAAACAATTGCTTTTGCATAATGCAGTAGGCAAAATTTCTTAAGAAT CTCACTTCATCTCTGATTTTGTAGTAAATATTGAAATACTGCTTTTGGGTGCCAATCAGTATAATAGCTAGAATAAGAAC AAAATTCATCAATACAAATTTAATCTCTCGAACTAACTGTCTTGCTTATTACTGAATTCAGATCATAACCATGCAATGTG ATTACAATTGTTTTCCTTAGCCTTTTTAGGTAAATCTTTCATCTATGCATGTTGCTTTTTTCATTTTTGAGCAGTATAGC ACTAGCACATGTTCATGGATTTAAGGATTACAGATTAATTTCATTAATTAATTTGTTACCATTTCAAATTTCAGGATAAA AGTTTTTCAGATGGAATATTTTTCCTTGAGCTTCTTAGTTCTGTGCAGCCCAGAGCTGTTAGTTGGGGTCTTGTAACAAA AGGAGTAACAGGTATGTTTTCATTTTACTCTTTCAATTTGTGAATCACTTGATATTCAGACTGAAATAGTGTTGTAGATT GTTCAATTCTTTGATACATATGACTTCCTTTCCTTGCTTTCGATTCTTTTGTTTGTTTTAATCTTTTTTCTGATGAGATT CTGGAAGCAGTAATTGCTTTATATTATTTCCGTCTAACTTTATGTAAAAGGTATATTGAAAAATTATGTTGTGACAATTA CCAACTTTTGACCTATCCTTTTTCTCTAGTGCTAGTTTTAGGTCCTTCCTTTTCTCATGCTTGTTTGTTCAGAGAGAAAA TGGAAGGAAAAACTACTAGTGGAGAAGAAATTAGAGGATTGTATCATTTTCTATCATTTGGTTGTGAAGATAGTACAAGG AGAGGGGAAAGTTAATTAGGTATTACCGTATTATTCATATACTTTTTGTGACAATCTCTTGGAGTTTTCTCATATCTGCC TCAGAGAACGAACTTCAAAATTATGTCTTTCAATTCAGCAACTGTTTTGTAGACATGTATGTAAGATTTTGAAATTTTCC TTGATGTGTTTTACATTCCTATAACATATTCACAAAACAAAAACTTGCTTCATGCAGACCAAGAGAAAACGATGAATGCC ACCTACATTATCAGTATTGCAAGAAAGCTTGGATGTTCTATATTCTTGCTTCCTGAAGACATCACTGAGGTAGTTTGGAA TCAATATTTTGTCACTCTCCACTCCCTCTCCTTTCCGTCATTCAATGTTTTCTAAAACTGCTGAAGCATTCAGTTTTAGC TGAATGAATCTTCAACTTAATGCATTTCTTCACAGTTAAGGGGATTTCTTATTCATAAATAGTCAACTAGCATTGATTAA CTAATGTAGTAATGTTGCTTCCCATGTTTCCCACTAGGTTTGAATTTTAATATTGTTGTTTACTTTGTGATAATGCTGTT AGCCTGTTACTGAATTTCAGGTGAATCAAAAGATGATCCTTACACTTACAGCTAGTATAATGTATTGGTTCCTAAAACAC CCTCATGAAGAACGGACAATTGGAACTTCAGATAGTGAGAGTGGGAATCAATTGGAGACTACATCAAATTCTACACTAGA TGACTCTGCTTCTGATTCATCAGTAGATGAAAATGGAAACATGTAAATATGCGAGGAGTGAACCGTTTTTTAATGATCTA TATTTGAAACCCTGATTAGTTGATCTGTAGATCAATATAGGGGGCAGGTAATTTATTGGTTTCAAAGCAAATTTTGTTCA AGCAATTGCTATGTAAATAGTTTTCACCCTGTTTGGAACCTTATTTCAAAGCAAATCTCCTTGAGTCATCAGTTCAAGTT CCACATATGAAAGAGAAAAAAAAAAACTAATTGCTGGCCATTGAGTAACTTGGAAC

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CDS sequence (LotjaGi3g1v0272800.1) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGTCTAGTCACTGGGGGATCCTTGTTTCAGATCCATGGCTTCAGAATCAGTTCACCCAAGCGGAGCTTCGCAGCTTGAA AACCCATTTCATGAGCATGAGGAGAGAGAGTGGGAAGCTTGTGATTGCTGATTTGGCTTCAAAGATGTCCAAGTTGAAGG TTGTGGGAGAAAATCTAAGTGAGGAGGAGAGAGCTTCTCACATCCAGGATTTGTATCCGAACACAGATGAAGAGGTTGAT TTTGAATTGTTTCTTAAGGTTTACTTGAAACTACAAATATTTGTAAATTCTAGAATTGGAAGTAGTCCAAGGAACTCTTC GGCATTCCTAAAGGCGGCTACAACCACATTACTTCACACTATAAGTGAACCTGAGAAAGCATCATATGTTGCACATATAA ATCACTATCTTGCACAAGATGAGTTCCTCAAGAAATCCCTTCCTATTGATCCTTCAACCAATGAGCTCTTTGAAATTGTG AAAGATGGTGTTCTTCTATGCAAGCTTATCAATGTGGCAGTTCCGAGGACTATTGATGAACGGGCGATCAATACAAAAAG ATTACTCAATCCATGGGAAAGAAATGAAAATCACACTCTTTGTCTTAACTCTGCTAAGGCAATTGGATGTACAGTAGTTA ACATTGGAACCCAGGACTTCATTGAAGGAAGACGTCATCTGGTGCTTGGGCTGATTTCACAGATTATTAAGATACAATTA CTGGCGGACCTCAATCTAAAGAAAACTCCTCAGCTTCTTGAGTTACTTGGTGATAGTAAGGATATGGAAGAGTTGATGAA TCTTCCACCAGAAAAGATCTTGTTAAGGTGGATGAATTTCCATTTGAAGAAGGCAGAGTACAAGAAGATTGTGACCAACT TCTCCTCTGATGTGAAGGATGCTGAGGCTTATGCCCACCTTCTAAATGTTCTTGCGCCTGAATACGCTAATCCCTCCACA CTGGCTGTTAAAAATCCATTTGAAAGAGCAAAGTTAGTCCTGGAACATGCTGATAAGATGGGTTGCAAGCGATACTTAAC TGCAAGAGACATATTAGAAGGATCCCCAAATCTCAATCTTGCATTTGTTGCACATATTTTCCAGCACAGGAATGGACTTT CAGCCCTGACAAAACAAATTTCTCTGCTTGAAACTTTGCCTGATGATACCCAAGACTCTAGAGAAGAGAGAGCGTTTCGC CTTTGGATTAATAGTCTTGGAAATTCAGCCTATATCAACAATGTATTTGAGGATCTCAGAAACGGGTGGGTTCTTTTAGA GACTCTTGACAAGGTGTCACCAGGGATTGTCAATTGGAAGATCGCTAACAAGCCTCCAATTAAGATGCCATTTAGAAAAG TAGAGAACTGCAACCAAGTTGTGAAATTGGGGAAACAGCTCAAGTTTTCCTTGGTTAATGTTGCTGGAAATGATATTGTG CAGGGAAATAAAAAATTAATATTAGCTTATTTGTGGCAGTTGATGCGATGCAATATTCTCCAACTTCTGAAGAACTTGAG ATTTCACTCTCATGGGAAGGAAATTACTGATGCTGATATTTTAGAATGGGCCAACAGCAAAGTTTGCAGCTCAGGAAGTC AAAGTCGCATGGGTAGTTTTAAGGATAAAAGTTTTTCAGATGGAATATTTTTCCTTGAGCTTCTTAGTTCTGTGCAGCCC AGAGCTGTTAGTTGGGGTCTTGTAACAAAAGGAGTAACAGACCAAGAGAAAACGATGAATGCCACCTACATTATCAGTAT TGCAAGAAAGCTTGGATGTTCTATATTCTTGCTTCCTGAAGACATCACTGAGGTGAATCAAAAGATGATCCTTACACTTA CAGCTAGTATAATGTATTGGTTCCTAAAACACCCTCATGAAGAACGGACAATTGGAACTTCAGATAGTGAGAGTGGGAAT CAATTGGAGACTACATCAAATTCTACACTAGATGACTCTGCTTCTGATTCATCAGTAGATGAAAATGGAAACATGTAA

Download CDS Sequence

Protein sequence (LotjaGi3g1v0272800.1) extracted from Lotus japonicus Gifu v1.2 Proteins.

MSSHWGILVSDPWLQNQFTQAELRSLKTHFMSMRRESGKLVIADLASKMSKLKVVGENLSEEERASHIQDLYPNTDEEVD FELFLKVYLKLQIFVNSRIGSSPRNSSAFLKAATTTLLHTISEPEKASYVAHINHYLAQDEFLKKSLPIDPSTNELFEIV KDGVLLCKLINVAVPRTIDERAINTKRLLNPWERNENHTLCLNSAKAIGCTVVNIGTQDFIEGRRHLVLGLISQIIKIQL LADLNLKKTPQLLELLGDSKDMEELMNLPPEKILLRWMNFHLKKAEYKKIVTNFSSDVKDAEAYAHLLNVLAPEYANPST LAVKNPFERAKLVLEHADKMGCKRYLTARDILEGSPNLNLAFVAHIFQHRNGLSALTKQISLLETLPDDTQDSREERAFR LWINSLGNSAYINNVFEDLRNGWVLLETLDKVSPGIVNWKIANKPPIKMPFRKVENCNQVVKLGKQLKFSLVNVAGNDIV QGNKKLILAYLWQLMRCNILQLLKNLRFHSHGKEITDADILEWANSKVCSSGSQSRMGSFKDKSFSDGIFFLELLSSVQP RAVSWGLVTKGVTDQEKTMNATYIISIARKLGCSIFLLPEDITEVNQKMILTLTASIMYWFLKHPHEERTIGTSDSESGN QLETTSNSTLDDSASDSSVDENGNM

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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
PANTHER	PTHR19961 View details on PTHR19961 Search for proteins/transripts with this domain View external data on PTHR19961	4	665	662	0.0	IPR039959 Show description in modal box View details on IPR039959 Search for proteins/transripts with this domain View on EBI InterPro Service
PANTHER	PTHR19961:SF60 View details on PTHR19961:SF60 Search for proteins/transripts with this domain View external data on PTHR19961:SF60	4	665	662	0.0	–
Gene3D	G3DSA:1.10.238.10 View details on G3DSA:1.10.238.10 Search for proteins/transripts with this domain View external data on G3DSA:1.10.238.10	13	91	79	5.8E-5	–
Gene3D	G3DSA:1.10.418.10 View details on G3DSA:1.10.418.10 Search for proteins/transripts with this domain View external data on G3DSA:1.10.418.10	119	245	127	3.5E-38	IPR036872 Show description in modal box View details on IPR036872 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF47576 View details on SSF47576 Search for proteins/transripts with this domain View external data on SSF47576	122	619	498	5.76E-164	IPR036872 Show description in modal box View details on IPR036872 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSiteProfiles	PS50021 View details on PS50021 Search for proteins/transripts with this domain View external data on PS50021	123	240	118	20.582	IPR001715 Show description in modal box View details on IPR001715 Search for proteins/transripts with this domain View on EBI InterPro Service
CDD	cd00014 View details on cd00014 Search for proteins/transripts with this domain View external data on cd00014	124	238	115	1.3797E-19	IPR001715 Show description in modal box View details on IPR001715 Search for proteins/transripts with this domain View on EBI InterPro Service
SMART	SM00033 View details on SM00033 Search for proteins/transripts with this domain View external data on SM00033	125	238	114	3.0E-19	IPR001715 Show description in modal box View details on IPR001715 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF00307 View details on PF00307 Search for proteins/transripts with this domain View external data on PF00307	150	238	89	4.8E-17	IPR001715 Show description in modal box View details on IPR001715 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:1.10.418.10 View details on G3DSA:1.10.418.10 Search for proteins/transripts with this domain View external data on G3DSA:1.10.418.10	246	374	129	7.6E-37	IPR036872 Show description in modal box View details on IPR036872 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSiteProfiles	PS50021 View details on PS50021 Search for proteins/transripts with this domain View external data on PS50021	268	371	104	21.484	IPR001715 Show description in modal box View details on IPR001715 Search for proteins/transripts with this domain View on EBI InterPro Service
CDD	cd00014 View details on cd00014 Search for proteins/transripts with this domain View external data on cd00014	269	369	101	1.35611E-17	IPR001715 Show description in modal box View details on IPR001715 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF00307 View details on PF00307 Search for proteins/transripts with this domain View external data on PF00307	269	370	102	7.0E-21	IPR001715 Show description in modal box View details on IPR001715 Search for proteins/transripts with this domain View on EBI InterPro Service
SMART	SM00033 View details on SM00033 Search for proteins/transripts with this domain View external data on SM00033	270	369	100	2.2E-20	IPR001715 Show description in modal box View details on IPR001715 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:1.10.418.10 View details on G3DSA:1.10.418.10 Search for proteins/transripts with this domain View external data on G3DSA:1.10.418.10	389	506	118	3.6E-37	IPR036872 Show description in modal box View details on IPR036872 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSiteProfiles	PS50021 View details on PS50021 Search for proteins/transripts with this domain View external data on PS50021	393	499	107	23.401	IPR001715 Show description in modal box View details on IPR001715 Search for proteins/transripts with this domain View on EBI InterPro Service
CDD	cd00014 View details on cd00014 Search for proteins/transripts with this domain View external data on cd00014	394	496	103	1.01611E-15	IPR001715 Show description in modal box View details on IPR001715 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSitePatterns	PS00019 View details on PS00019 Search for proteins/transripts with this domain View external data on PS00019	395	404	10	-	IPR001589 Show description in modal box View details on IPR001589 Search for proteins/transripts with this domain View on EBI InterPro Service
SMART	SM00033 View details on SM00033 Search for proteins/transripts with this domain View external data on SM00033	395	497	103	4.5E-24	IPR001715 Show description in modal box View details on IPR001715 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF00307 View details on PF00307 Search for proteins/transripts with this domain View external data on PF00307	395	497	103	1.7E-19	IPR001715 Show description in modal box View details on IPR001715 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:1.10.418.10 View details on G3DSA:1.10.418.10 Search for proteins/transripts with this domain View external data on G3DSA:1.10.418.10	507	619	113	1.3E-35	IPR036872 Show description in modal box View details on IPR036872 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSiteProfiles	PS50021 View details on PS50021 Search for proteins/transripts with this domain View external data on PS50021	514	622	109	19.353	IPR001715 Show description in modal box View details on IPR001715 Search for proteins/transripts with this domain View on EBI InterPro Service
CDD	cd00014 View details on cd00014 Search for proteins/transripts with this domain View external data on cd00014	515	622	108	2.8874E-13	IPR001715 Show description in modal box View details on IPR001715 Search for proteins/transripts with this domain View on EBI InterPro Service
SMART	SM00033 View details on SM00033 Search for proteins/transripts with this domain View external data on SM00033	516	620	105	1.1E-19	IPR001715 Show description in modal box View details on IPR001715 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF00307 View details on PF00307 Search for proteins/transripts with this domain View external data on PF00307	517	621	105	2.1E-16	IPR001715 Show description in modal box View details on IPR001715 Search for proteins/transripts with this domain View on EBI InterPro Service
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	630	665	36	-	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	634	665	32	-	–

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:0005515 View details of GO:0005515 AmiGO InterPro QuickGO	Molecular function	Protein binding	Interacting selectively and non-covalently with any protein or protein complex (a complex of two or more proteins that may include other nonprotein molecules).	Subterm of View details of GO:0005488
GO:0051015 View details of GO:0051015 AmiGO InterPro QuickGO	Molecular function	Actin filament binding	Interacting selectively and non-covalently with an actin filament, also known as F-actin, a helical filamentous polymer of globular G-actin subunits.	Subterm of View details of GO:0003779 View details of GO:0044877
GO:0051017 View details of GO:0051017 AmiGO InterPro QuickGO	Biological process	Actin filament bundle assembly	The assembly of actin filament bundles; actin filaments are on the same axis but may be oriented with the same or opposite polarities and may be packed with different levels of tightness.	Subterm of View details of GO:0022607 View details of GO:0061572

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Expression data

Expression pattern

Expression pattern of LotjaGi3g1v0272800.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi3g1v0272800.1