Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi1g1v0216600
Transcript ID	LotjaGi1g1v0216600.1
Related isoforms 1	LotjaGi1g1v0216600.2
Lotus japonicus genome version	Gifu v1.2
Description	Signal transducer and activator of transcription A; TAIR: AT1G78540.1 SH2 domain protein B; Swiss-Prot: sp\|Q54BD4\|STATC_DICDI Signal transducer and activator of transcription C; TrEMBL-Plants: tr\|A0A151R0T3\|A0A151R0T3_CAJCA Uncharacterized protein; Found in the gene: LotjaGi1g1v0216600
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr1:47875053..47886381) extracted from Lotus japonicus Gifu genome v1.2.

GAAGTTTCACAACAAACCAGAATGCAAAACTAAACCAACCAAACCGTTACTTTAACAGCCGTCACACACAAAAGGAACCG CCACACACACCAACAAAATTTCACGAAGAACTCCACTGTTGATTTCAACTCGTTCTCAACATGGGCACTGATTCGATGGG AAGCGAAGGGTACTCTCCGTTGAAGGATTTGAGATTGGAAATTGAAGTAAAGGAGAGAACTTTCTCTCTTTGCTTTTGGG TTTACTTGATGAACTCCACCACATTCCCTGCTACCATTATTCAACAGGTTAAGTATTAGCTTCTTTTCATTATCTTTCAC TTTTTCTTTTTTTCTTATCCCAGTTGTTTGCTTTGGATGAAAATGTTGTAAAGTTTTGATCTTTTTGGCATTTCATTTGA TGGGGTTTGTGTTTTTATTTCAGTTCTTTTGGAATGGTGGTTTTCCTTCATTGTGAAGGGGTTATGGTTTTCTTAAATCT TCTTGATCAAGCATTTTATGATCAAGTAATTGTGATTTTCTTGTGTAATTTTACATTTTGTTGTTATCTTTTGGGGATGA ATCAGTTATAATAAAATTGCAAATTCTCAATTTGTTTATGTTTCATTGTCACTCCAGTCTCCATATATAAATTTGTTATG GTTAATGTTTACTTGAGTGTGAAAGTTAATGTCATATAGCTTTAATGTGATTAATCCAGCTGATGCAAAATATTTTGTTG GGTTATCTATCCTATGTTTTCAATGTTTTGGTATCTCAAATTGATTCCAATTCATCTTGCTGTGCTCAATAGTTTGCTTC ATTTGATGCCATCTCTCTAGTGCAAGCCACAAGGCTTTGGATATTTAATTATAACACTTTGTGGCTTACATGAGACATTA GATGGAATAATTGTTGTCTACATACTTTAGGGTTGAAAATCTTGATATCCAATTTTCTACCTCTAGTAATTCTTTTTTAT GTTGCATTTCATCATTTTGTTACCTTTGGGTTATTATTCTGTATTTTTTATTTAGTCACTGAAAGCTGCTAAATAGATTA ATGGGGTTTTGCAGGTCTACTCCGATATATCTCAAAGTGCTCCTTTTCTTGTTATTAATGAGAATAAGAGAATCAATATT TTACCAGTTCTTCATTTACATGAGGAAGCTCCTGATATTGGCAATATAAGTTCCTGGACAGAGGTTCCACATGCAACTGC TGATTTTGAGTTTCCTTTGGAAAAATGGGTTCATGTTGGATGTGAGGTATCTTATATGAACACTTGGTTTCTGGATTTAA ATCAAGAGTAAATAGAATAAAAACTAAAAATAAAGCTGGCTTGCCATTGACCATGTTTGGCCTTAAGCACTTTATGTTCT TTAGTGAGAAACATAGGAGCAATTTCCTTCCTGCTACTTGTTGAGATTGGTCCATTTCTTTTTTCATTTTAAATTTATTT TAAGGAAATATATGAGATGGCTATTCTTCCATGTTACAGGTTTGTCCAAATCATATCCAGCTTCAGATTAATGGAGAGAT TGTAGGAAAAAAGTCTCTGTCTTCCTTATTAAATAAGGAACCTAATTCAAGTGATTTGAGGAAAATAACTTTGGCCAATG TTGGTGGTGATGGAAATAGTGTGCATGGTTATGTGCACAATTTTGAAGTATTCCCTATTATTTCTCCTGTCAAGGATCAC CATTTAAAGGTGATTAATTCCCTGATTGTAATTTTTCTTCTTGAAATTCTATGGTAGTTTCTTTTTTACAAGATTTTATT ACTTCCTTTGTTGATAACTGAATATTATCTGATGCCAGAACCCTCCTCTGAAGCTAACAATTGATGAATCATCTGCATCT GAGATTGAAGAAGAAAGTGACGGTGTTTGGGGCATTGTTGGTGGCAAGGTAAGAAAGATGTATTTTGCCCATCACATCTG GTGTATCTTTTTTTTTTTTGTGTTTGTTTTTATTATTATGAATCATTAATAAAAAACTCGGGTAAGCTTTCCAGTTTTAG TTGGTTTTTTATTTTGGAAATAGGTGATGCAGTTTATGTTTGTCATTTTAAAGGTTCTTATAATCCAGCCATATATACAT GCAAGTCTGAAGTCTTAAGAGTTGAGCCAGTTTATTTTGTTGAAGTGATGGTTCTTCTTAAAATTCATGTTAGGCCTAAC TCTACCCCAAAAGCTTGCTCAAGGGTGAGGATTGCTCTACCCTATATATGGACTTATTTGACCATATCTGTAGACTGTAG TCAATATTGGACCTTAACACACCTCCTCACGGCCAGAGATGGACATCTGAAGCACGAAATTTGCAGGAATGGACGAACAT CTGGGTGGCATATATATGGGTGGTCTCCAATAAAAGAATCTAGGATAGACTCATACAATCTTCGAATTTGGGTTAGGTCT AACTTTAACCCAAAAGCTAGCTCAAGGGTACCCTATAGATGGACTTATTTGGCCATATCTCTAGTTGATGTGAGACCTTA GCAGTTCTAAACTCCAAAAATAAAGTATGTATGTATGTTTATTTGTTTGTATGTAAGTAACTGTGTGTTTGTGTGGAAGT CACTATTCATCTTTTAGTACTTGCACACTGATTGCATTGATGTTTGCTCTTTAATTTCCTATGAATGGCACAAATTAAGT CCAGTACTAAGTGCTAACTTCCCTTTTGGTTAAAATTTTAATGTAAACTTCACTTTTGCATAATTTGGGGCAGGCATCTT GTCGCAGGAACTTCTCCTTGGATGTTGTTCTATCAGATGGCTTTGGAGATCCCGTAGATAAGGAGAATGAGGTTTATAAT CCTGCCATTATGACTGTTCAAGTTAAAGCTCTCTACTTGGTAGGGAGTTAGGATTTGTAATATTTACTATACTCTTTCTG ATTATAGCAGGTTTTTGCTTCACTTTTGTATGCTGACACCCGGGCTCCGGTGGAGAAAACAATTGATGAAGAAGCACCAC TTTTGGTTAGCTATGATGGAATTGAATTTTCTTCTGGTGAAAGACCAAGTAAAATTTTACTGGGGCGTGCATCATTTAAG CTCAAAATATCTCAGGTAAGGATACTATGTATGAATATTTGTCATGCTATCTCTTCTAATGAATTTTGGCAGTTGCTTTT TGTGATTCCTGGAGAAGCAAGTTTTTTGTTGGAAAGTGACAAGATTGCCTATACTATAAGCAATGGATAAGCATTCATAC TTATACCATTTACCATAGTTTCAACTTTCAAATACTTTCTAATTTTTTGGCTGAGAATTAATGACCTGGTATTACTTGTC ATTTAATATTAATATCAGTGTCATAATATTTAAGAAATTTTTATTTCTAACGTATGTTGGAGCAATATCTTTGAGTTTCC AGTGCTATTTCAGTCTAAAATTTATGTGAATGCCTTTTCAATTTCATTCCATATTTTTGGGTACTATTACTAACTAATGT TCATCTTGCCAGCTTTCTTCTAAGTGTGATAACAGGTTATTCCTCATCAGATTTTGTGTTCCAAAATTAGGAGATTTTCC TTTTCTTGAGACATTCAGCCGTCCAATTCGATGCATCTCTAGGAGCCGCAACACTAAATTATCCACTCTGGTGTGGAAAA GGCCAACTTCTGCTCTTCATCAACTTAGTTTATCACAATCTTCAGCAATGGTTGATGAGTCTTTGGAACATATGCAATGT GGTCTTGAATCAACAGCCAATCCATTAGTGAAGCGGTTTAGAGTTGGACATGACAAGATATCTGTATCAGTGCAACCTGA TGAGGAATGTAATTCTCATGTATGGACTGCTAATCAGGTGGTTACCAGTTTTTGTTTTAATGTTATACTATCTTTTTTGA TATATAAATAAAATGGCATTAAATATAAAAAAGGCAACTACCACTTGACATGTGCATGGATAGCTACCTAGTTGGTTGTA ACTTTATGGCTATTATGTCAAATGTTGTACCACAGTCACTACAGGCTGTTTTGATTGATTCACCATAGAAAAAATCTGAA TATCTCATTTTTCCATAAGCTGTTTCATACATTTTGTCTTCATCTGTTATCTTTTGTACAATTTACTTCAGCTTTAGTGC ACGTGTTCTCGCAAGGATCTAGGGATCCTCAGATCTAGGGTTAGTAAAGCCGTTTCTTAGCAAAGGAGAACCTGTCTTAT TGAGTCATGGGTCTAGCCTTTTATAGTGGGGCTAAACCCTAATCCTAAGCTATTACATCATGGGCCTTACAATTGCCTAA ATAGGCCTCATGTCAGGTCTGGCCCAAGCACTGACGCCAGCACTTAGGGGACTCACCCTGTGTCCTATAACGCTCTTGGG GACTCGCCCCTTACCGCAAGCTCCTTAGACTAGGGCACCAGCTTTTGGGCATGACGCCCTATCCAGTCCACATGTCCACA AGACGCCAAGTCCAAGGCATGAGGATGAAGTGCATCTTTACCTGTGCTCGCCAAGTCACCATTCCTTCAGCCTAGGGCGT GTCGCCCTCTCTGGTCCAGCACATGTTTGAACTTATTAGAATATAAATTTTTTAATCAGTGCTCACTAGAAAATCAACAA TATTTGCGGAACAGAGTCCTGAGATTAGTGAAACTAGTGCAATTCATGAACATTTGTGATCAGTTTTTTGATTTCAGGTT AATAACTTGGGCAGGCCTATGAATGGTTTTGTTTCTCTGATACACCACCTCGTAAATGCCAAATCATGGAAAGAACACAA GCCAATCCGTCCTTGTTTTAAGATTAAATCAATTTAGGAGAGTAAGGGGGGCATTGACCATTGAGGTTTGAAACCTTGAC CACTTGGTCTGACACACTTTGATTATTGAATCTCAAGCTTTTTTGGAAATGCCTTGGAATGGTTTTTATTTATATCCAAC AATGAACATATTCACTATGAGGCCAACTTGATATTGTCAAGTAGATTATATCTGAGTTTAGAAGCCTTTATTTCTTAGCT ATTAACATTCTTCCTTACATGCTCTATAAACCTTTGCCGATGTAACCTGGGCATTTTTAAATTTCGTTACCAATGTTTCC TTCAATTTCTTTAGGATTTGTCTTGCATATAACCTTTTTCTGCCATTCTCTTTTAACTATAATTGCAAACTTATTCAAAC TTAGGTTCAGAATGAGTTTCCAACCAGCATGGATGCGAGGCCTACTAAATTTGATGAAGCCGATGACTCTCCATCTGACT CAGAGAGTATAGGGGAGAGAAATTCACCTTCGAATAATATGGCAAGTAGAAGATATCCAATATCGGATATGACCATTTTC AAATACTGCCTGGCAGGCTTGGCTGAGAGATCTCTCATGCTAAAGGAAATAGCTTTCTTTTCTTCTGGCAACGAAATTTT GGAGTTGGCTCATCACGTGTCACTCTATTCAGGATGTTCACACCATGGGTATGTGATTTTTCTTACAAGGGTTTTATAAT TGCTTTAGTACCCCATGGAGTATAATAGTTGGGCATAATTGCTTTTAAATTGAAAAATTGTGCTGATAATCTAAAATCAA CAATAATTCATCAAATAATAAATCTTTGTCAATTCTTAAATTTCTTTCCCTTTTCAGTATTAAATATAATACCCGCTACT AGTATTAATTTTTTTCAAGCATGACCCTAATACTGCATATTGTTTGGTACAGTCTCACGCTAATGTGCTTAAGCTGTTTA GGTAGAGGTTCATGATTAGCTTACTCCCTTTCCTAACTTATACCGGCAAGAGCCCTTTGGGTTTGAAGTTTAGGCACTGC AAAGACCTGTTTTTGTTGTGTGCTGAATTTAACCTTACTTTTTAAAAAATATTTTGGGGGTCGGGATCATGGATCATACT CTTGAACATTTAATCAGTTACATTCTTGTACCATGTCAATGACAAACTATCCTAAAAGCTCAATTTATTAGGTGAACCCT CATCAATGGCTTTTTATTCTCTTAACAATTTCCAATGACAACTTGTCTGGACTTTTTCTTGGTCTCATTTGGTGGAAGTT TTAACTCACTAAATCTAAATCGAAATTGAATGTTCTGGCTACATTTTAGGCCTGCATCATTCTATCCTCATTATTTCATG CTTACAAAAATTTACAATTTTCTTCATGGTTTATATGATTAATTATGTTTACTGCAATTACCCAGCTTGATTCCTCCTTT TTAATGGTTGCCTTTTGTTTCTAAATCAGAAACCAAATATTACTAGCCAAGAGATTGATAGAAGATGGAACTAATCTTTG GAAGGTATTGTCTCCAAACAACCACCACGTTTCATGGGAGAGTGCAGTCTATGAGATTGAAGAGAAATTCATGAAGATTG CTTCTTGTGATTCAAGATCTCTCTCACATCAGGTCCTTTAACTGTTTCCACCTGAAAGTTACATTGCAGGGGCATTAATA CATCAGTTTGTGGTTACTAACACTGTAAAATGCAACAAATACATCATTCTTTGAGCTTTATTTGGCTGGGAATTTCTTAT TATTTCCAAGATGAACTTAAATTTATGTGGTAGAGCTAGGCCTTTCCAGTTGTTTCCTTCAAGGATAGAGTAACTACAAA CATTGAAACTAGTGCTTACCATTATCAACAATCAACGGTGTAAATGGAAATAGGAAAAAATACAAGTTAGGAAAAAAATA CAAGTTTATAGTGGTCTTTGGGTTTTTCTGAGTATATCACAATCCTAGAAGGATAGCCTGCAAAAGTATCATAGTTTTTG TAATGGTTGCAGGACCTAGAGCTTCTGAGAAGGATTGCTGGATGTCAAGAGTATCTGACACAGGAGAGCTTTGAGAAATT GTGGTGCTGGGTGTACCCAGTAGCTTTTACAATATCGAGGGACTTGATCAATCCTATCTGGAATTCCGTAGCACCTAAAT GGATAGAAGGATTGATTACTAAGGAGGAGGCCGAAGCTTCACTTCGAGGTCCTGCAGGATTTCAAGAACCCGGTACCTTC ACACTCCGATTCCCCACTTCAAGAAGCTGGCCCCACCCAGATGCAGGTTGCCTAATTGTGACTTACGTTGGCAATGACTA CAAAATTCACCACAGATTACTTTCTATGGATCATGCTTATGGGTAAGCTTTATTTACTCTTTAGAGAATCTGTTGCATAT TAATCTACTTTGTTGGATGTTCCTAAGTCATGAATGTCTTGTAGAAGGAAGAGTTAAAGATATGTTTTTAAGTTATAAAT GAGGAAGTAGGGAATCAACTTATTAGCTCCAAAAGGACTTTAGGCTTGTTGAGAAAGAGGAAAACAGAGTGCATATAACT TAAACTGTGCATTACAGTTACTGAGCAGAGGATAATATGTTTACTAAGGGTCATAAATACAATGTGTTGAGAAGTCCCAC ATTGACTAGAGATATGGCCAAATAAGTCCTTATAAAGGGTAGAGCAATACTCACTTCTAAGCTAGATTTTGGAGTAGAGT TAGGCCTTACCCAAATTCTATTATGGTATCAGAGCCCATCCTAGATCCATTTATTGGGTACCCATAAGTGGGTCACCCGT AGATGTTCAGTTCTGCAAACTTCGCGCTCCAGTTGTCCAGCCTTGGGGATGAGGGAGGTCTTTAATATATGGTAGAACAA TCCTCACCTCTAAGCTAGCTTTTAGGATAGAGTTAGGTCTAACCCGAATTCTATTCCAAAGATTTATAGTTACCCCAATT ACCATAATCACATCACAATAATATACAATACTTCTAATGAAGACCTAATGAATCCATAATTACTCTATTTATATTATTTC CAACACTCCTTTAAGTTGGAGGATACAAATCATATGCATACACCAGGCTTCTTATTTGTTTAAGTATAGCTAACTTGAGG ACCTCTCGATGACTTTGTGAAGACATGTACCAGTTGGTCATTGGAATTGATTATGCTTGTGGTGGTGTTTCAACTTTGTT GGGTCTCTTCTTATGATTATCTTAAACAATTTTCTTTTCTTCTCTTCGGTCTTTTATATTTTTATAGCTCTATTATCTCT TTTCTTTTTATTGAACTCATCTTTTGTTCTCATTCAATTTTGATTAATAAATATAAATATAGCTTCAATTTTTAGTAATT TTTTTTTTGAAATGTATATTATGTATTAATGTATTTATACTATTTGAACTATATCCAAAATTCTAAAATAGCGGGTATAC TGCCATGCGCTATCCTGGCATCACATTTTTGGAGCTAGCCATTATGCTCTTCTATCTTGGGATTTATAATTCTGTGAGAC GTTGAGATACTTCAGTTTTCCAACCAATCTTTGACACCTCTCTGGATCTAAAATGTTGCTCCCCCTTTCTTTGGAGAAGT TTGACTTTGGGATCAATAGAAGTACGAACAAGCTTAGCATTGATCCACCCATTTCTTTTCAAATGTCCATTGCATGCTTC CTTTGAAAAATCACTATACCATTCTTGGATTATGCTGCCTCTATTCCTAAGAAGTAACGAAGTTTGCCAAGATTTTTTGT TTGAAAATGGTGATAAAGGTGTTACTTTACCTATGTGATGCCATGATTATTACTACCTGTAATGATAATGTTGTCAAAGC ACACAACCAAGTAAATGCACTCTGCATCTTTATGTTGATAGAAAACTGAGTGGTCAGCCTCACTCCAATCATGTCAAACG ATTGAATCACATTGTTGAATCTATTAAACTATGTCTGGGTGATTGTTTAAGCCTATATAAGGATATGTGAGGATCACAGG CTAGTCCTTAGGAGTCCCCTTAAGCAAAAAAAAAAAACACGGAGGTTGCTTCATATAAACTTCTTTTGTGACATCACCAT GAATGGGAGCATTTTTTATATCAAGCTGGTATTGAGACCAATTTTATATAGCATCCACTGTCACTGTCTCAGCTCGTGTA TCACGAAATGTCTCTTGCAAAAATGTCTTCTTCTAGAAGATCCACCACCACTGTCGCTGTCTCAGCTCGTGTATCACGGT CAGCAACGTCCCTGTTCTCTACCACCCTGACTAGTGACGAACTACTTCTGACTCTCATCTGGGGCCATATCTTTCATCCC CTTGGCCCAACCACCAAAGCTTGATCTACTTATTGCATTGCGGAAAGGTGTACACTCAGCTCATCGTCCTTGGCCTCATT ATGCCACTTTGAGCCATCACTGTTTATCTCCTTCCCATTATACTTGTCTCCCTTGTCCTATGTGTCTCTTCCTAAGATTG TAGGTGATGTCTTAGCTCATCCAGGTTTGAGATAGGACGTGATTGATGAGATGGGTGCATGTCAAAGCAGTGATACTTCT GTACTCATTTCTCTTCCTCCAAGGATGTCTATTGTAGGTTGTGGGAGATTTTCATAGTGAAGGTTGGTACAAATGGTGAA ATTAATCGACTTAAGGGTTGTCTGCTGGTACCCGGATATGCAGAGGTTTTCTCAGATGAGAGAAGGGGGTGTGATAGAAA CAGAGATGAAAAGAAGAAACTGAGAATATTATAGAAAGCAAAATAGAGCAAAGCTCAATTACAGATGAGTATGCACTACC CAGAGCCCCAGCTCCTACCAGAGAGAAGAGTCTCTCCTAACAAACTAACCAATTCTCATACCTGCCTCACACACTCCCCT CACCTCTCCCTTCATACCCCAGATTCCTTTCCACGTCACTAACTAATTCTCCTTTACCCGATCTGTCCCTATTTTCCTTC TTCTAGAATAAACCAACCATGTAGTGGGCCCTTTTGAACTCTGGCCCAACACCTCTCCCTGATTCTCATTGTCTACGGGT CCAGGTATCCTATCAGGGTGGAAAGGTGGTTCAAACAAACTCAGACCAAGAATTGGATGAGGTGGATGCAACAAAAGGAA CAGAGCCCAAAAAGATAACATCAACAGCTAGCTTTGATATCATCTTAAATTTGGGCCAATGTGAAACTCTACTCTAAAAG AGACCTCGTGAGTCGATGTGGGTTCTCAAGACAGAACCCTCACACCCAAGACTAGACATCTGTTGTGTGGAGATATAGGA CTAGTTTATTTTATTGCATTGGGAAAGTTGTTGGGGCCTTAAGGGCAGATAGATTTCACTGGGAAATTCTGTGGGTTTAG GTATATTTTTTGGATAACGGTGGGTGACTAGTATCGGATCTAGGATAGGTTTTAATACCATGTCGCGAAAGAAGAAAATT AGATCAGATAACCATATTCGTGTTTTCCCATTACATGAGAATAATAGATATACTAAGTCATAAATACAAGGATTAACTAT TACCCTAAGTATCATATTCACAAGAATAGACAGTATCTAATCGAATCCATAATTACTCTATTTACATCACTTCCATCAAA GTGAAAATGTATGCTTTTGCCCCCCTTGTGGCTATTTACTTACAACTCTAGATGATCAAACTATTCAAAACATTTTTGAT AAAATTCTACGTAGTCATGAAAAGTAATATCACAAGGGTCCATTTCTTGACCACTTAGAAGCTTTGATATCATGTACCAA CTCTCTTAAAAGTTTAAGCTATTAGGTGGAAATCCATTAATGTTTATATCTCCTACAAGGTGAATTGATCTGTCAATGAT GTTGATAGTGCGTTGAATTTGGTAATTTATTCCTTAGCTTACCTAGTGGAGTACATCTAAAGGATGCACAGAGAATTAAC CATACAAGAGAAGTTATAGAAGTGAATCCTGAATATTAGACCTTTGATGAACATTCAAGAAAATATCACTGAAAAAGTTA GAGGTCTATCACCTAATCACTTATAATATATGCCATCTTTTAACTAAAATATTAATTACACTTATTGTTTTTACAGCTCT GGTGATAAAAGAACTGACATGAAACCGTTGCAAGATATGCTGCTGGAAGAACCTGAACTGTCTCGGTTGGGAAGGTTAAT ATAAAGCACCTTTTTCATTGTTTCCTGTATATTGAATGCTTGGCATTTCTCAATATTGACTATGCGAATAATGTGAATCT GTTCAGGATAATAAGAAGTCATTAAGCAACACCAAGTGCAGAATGTCCAGTTACTTTTAAGGTTGTCTTCGCAAGATAGA CTCCAAAAGGAGAATGTAGAAGGTTGTGCTTGAATTATGCTAATGTGTTTTCCATTTAACATGTAAATATGTAAAGAAAG TGTTCAGGGATGATATTTTTAACATTAACAGCGATGATCATTGTATGGGTCAATATTCATTTATATGTAACAGCCACCAA TCAAAGCATCACTTTTGAGTTTTTATTGTTGAGTTGGCTTCAACTTAGTTAAAATACTAATATTAGTAATAGAAAACAAT GTTAAATTCATGTTTTTAACAATGAATTCAACAAGTCTTCAAGTAGGAG

Download Genomic Sequence

CDS sequence (LotjaGi1g1v0216600.1) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGGGCACTGATTCGATGGGAAGCGAAGGGTACTCTCCGTTGAAGGATTTGAGATTGGAAATTGAAGTAAAGGAGAGAAC TTTCTCTCTTTGCTTTTGGGTTTACTTGATGAACTCCACCACATTCCCTGCTACCATTATTCAACAGGTCTACTCCGATA TATCTCAAAGTGCTCCTTTTCTTGTTATTAATGAGAATAAGAGAATCAATATTTTACCAGTTCTTCATTTACATGAGGAA GCTCCTGATATTGGCAATATAAGTTCCTGGACAGAGGTTCCACATGCAACTGCTGATTTTGAGTTTCCTTTGGAAAAATG GGTTCATGTTGGATGTGAGGTTTGTCCAAATCATATCCAGCTTCAGATTAATGGAGAGATTGTAGGAAAAAAGTCTCTGT CTTCCTTATTAAATAAGGAACCTAATTCAAGTGATTTGAGGAAAATAACTTTGGCCAATGTTGGTGGTGATGGAAATAGT GTGCATGGTTATGTGCACAATTTTGAAGTATTCCCTATTATTTCTCCTGTCAAGGATCACCATTTAAAGAACCCTCCTCT GAAGCTAACAATTGATGAATCATCTGCATCTGAGATTGAAGAAGAAAGTGACGGTGTTTGGGGCATTGTTGGTGGCAAGG CATCTTGTCGCAGGAACTTCTCCTTGGATGTTGTTCTATCAGATGGCTTTGGAGATCCCGTAGATAAGGAGAATGAGCAG GTTTTTGCTTCACTTTTGTATGCTGACACCCGGGCTCCGGTGGAGAAAACAATTGATGAAGAAGCACCACTTTTGGTTAG CTATGATGGAATTGAATTTTCTTCTGGTGAAAGACCAAGTAAAATTTTACTGGGGCGTGCATCATTTAAGCTCAAAATAT CTCAGCTTTCTTCTAAGTGTGATAACAGGTTATTCCTCATCAGATTTTGTGTTCCAAAATTAGGAGATTTTCCTTTTCTT GAGACATTCAGCCGTCCAATTCGATGCATCTCTAGGAGCCGCAACACTAAATTATCCACTCTGGTGTGGAAAAGGCCAAC TTCTGCTCTTCATCAACTTAGTTTATCACAATCTTCAGCAATGGTTGATGAGTCTTTGGAACATATGCAATGTGGTCTTG AATCAACAGCCAATCCATTAGTGAAGCGGTTTAGAGTTGGACATGACAAGATATCTGTATCAGTGCAACCTGATGAGGAA TGTAATTCTCATGTATGGACTGCTAATCAGGTTCAGAATGAGTTTCCAACCAGCATGGATGCGAGGCCTACTAAATTTGA TGAAGCCGATGACTCTCCATCTGACTCAGAGAGTATAGGGGAGAGAAATTCACCTTCGAATAATATGGCAAGTAGAAGAT ATCCAATATCGGATATGACCATTTTCAAATACTGCCTGGCAGGCTTGGCTGAGAGATCTCTCATGCTAAAGGAAATAGCT TTCTTTTCTTCTGGCAACGAAATTTTGGAGTTGGCTCATCACGTGTCACTCTATTCAGGATGTTCACACCATGGAAACCA AATATTACTAGCCAAGAGATTGATAGAAGATGGAACTAATCTTTGGAAGGTATTGTCTCCAAACAACCACCACGTTTCAT GGGAGAGTGCAGTCTATGAGATTGAAGAGAAATTCATGAAGATTGCTTCTTGTGATTCAAGATCTCTCTCACATCAGGAC CTAGAGCTTCTGAGAAGGATTGCTGGATGTCAAGAGTATCTGACACAGGAGAGCTTTGAGAAATTGTGGTGCTGGGTGTA CCCAGTAGCTTTTACAATATCGAGGGACTTGATCAATCCTATCTGGAATTCCGTAGCACCTAAATGGATAGAAGGATTGA TTACTAAGGAGGAGGCCGAAGCTTCACTTCGAGGTCCTGCAGGATTTCAAGAACCCGGTACCTTCACACTCCGATTCCCC ACTTCAAGAAGCTGGCCCCACCCAGATGCAGGTTGCCTAATTGTGACTTACGTTGGCAATGACTACAAAATTCACCACAG ATTACTTTCTATGGATCATGCTTATGGCTCTGGTGATAAAAGAACTGACATGAAACCGTTGCAAGATATGCTGCTGGAAG AACCTGAACTGTCTCGGTTGGGAAGGATAATAAGAAGTCATTAA

Download CDS Sequence

Protein sequence (LotjaGi1g1v0216600.1) extracted from Lotus japonicus Gifu v1.2 Proteins.

MGTDSMGSEGYSPLKDLRLEIEVKERTFSLCFWVYLMNSTTFPATIIQQVYSDISQSAPFLVINENKRINILPVLHLHEE APDIGNISSWTEVPHATADFEFPLEKWVHVGCEVCPNHIQLQINGEIVGKKSLSSLLNKEPNSSDLRKITLANVGGDGNS VHGYVHNFEVFPIISPVKDHHLKNPPLKLTIDESSASEIEEESDGVWGIVGGKASCRRNFSLDVVLSDGFGDPVDKENEQ VFASLLYADTRAPVEKTIDEEAPLLVSYDGIEFSSGERPSKILLGRASFKLKISQLSSKCDNRLFLIRFCVPKLGDFPFL ETFSRPIRCISRSRNTKLSTLVWKRPTSALHQLSLSQSSAMVDESLEHMQCGLESTANPLVKRFRVGHDKISVSVQPDEE CNSHVWTANQVQNEFPTSMDARPTKFDEADDSPSDSESIGERNSPSNNMASRRYPISDMTIFKYCLAGLAERSLMLKEIA FFSSGNEILELAHHVSLYSGCSHHGNQILLAKRLIEDGTNLWKVLSPNNHHVSWESAVYEIEEKFMKIASCDSRSLSHQD LELLRRIAGCQEYLTQESFEKLWCWVYPVAFTISRDLINPIWNSVAPKWIEGLITKEEAEASLRGPAGFQEPGTFTLRFP TSRSWPHPDAGCLIVTYVGNDYKIHHRLLSMDHAYGSGDKRTDMKPLQDMLLEEPELSRLGRIIRSH

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
PANTHER	PTHR11801:SF43 View details on PTHR11801:SF43 Search for proteins/transripts with this domain View external data on PTHR11801:SF43	9	706	698	5.7E-205	–
PANTHER	PTHR11801 View details on PTHR11801 Search for proteins/transripts with this domain View external data on PTHR11801	9	706	698	5.7E-205	IPR001217 Show description in modal box View details on IPR001217 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF49899 View details on SSF49899 Search for proteins/transripts with this domain View external data on SSF49899	26	172	147	6.53E-7	IPR013320 Show description in modal box View details on IPR013320 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	412	451	40	-	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	421	437	17	-	–
SUPERFAMILY	SSF55550 View details on SSF55550 Search for proteins/transripts with this domain View external data on SSF55550	603	697	95	3.78E-7	IPR036860 Show description in modal box View details on IPR036860 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSiteProfiles	PS50001 View details on PS50001 Search for proteins/transripts with this domain View external data on PS50001	609	707	99	9.767	IPR000980 Show description in modal box View details on IPR000980 Search for proteins/transripts with this domain View on EBI InterPro Service

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:0003700 View details of GO:0003700 AmiGO InterPro QuickGO	Molecular function	DNA-binding transcription factor activity	A protein or a member of a complex that interacts selectively and non-covalently with a specific DNA sequence (sometimes referred to as a motif) within the regulatory region of a gene to modulate transcription. Regulatory regions include promoters (proximal and distal) and enhancers. Genes are transcriptional units, and include bacterial operons.	Subterm of View details of GO:0140110
GO:0005634 View details of GO:0005634 AmiGO InterPro QuickGO	Cellular component	Nucleus	A membrane-bounded organelle of eukaryotic cells in which chromosomes are housed and replicated. In most cells, the nucleus contains all of the cell's chromosomes except the organellar chromosomes, and is the site of RNA synthesis and processing. In some species, or in specialized cell types, RNA metabolism or DNA replication may be absent.	Subterm of View details of GO:0043231
GO:0006355 View details of GO:0006355 AmiGO InterPro QuickGO	Biological process	Regulation of transcription, DNA-templated	Any process that modulates the frequency, rate or extent of cellular DNA-templated transcription.	Subterm of View details of GO:0010468 View details of GO:1903506 View details of GO:2000112 Regulates View details of GO:0006351
GO:0007165 View details of GO:0007165 AmiGO InterPro QuickGO	Biological process	Signal transduction	The cellular process in which a signal is conveyed to trigger a change in the activity or state of a cell. Signal transduction begins with reception of a signal (e.g. a ligand binding to a receptor or receptor activation by a stimulus such as light), or for signal transduction in the absence of ligand, signal-withdrawal or the activity of a constitutively active receptor. Signal transduction ends with regulation of a downstream cellular process, e.g. regulation of transcription or regulation of a metabolic process. Signal transduction covers signaling from receptors located on the surface of the cell and signaling via molecules located within the cell. For signaling between cells, signal transduction is restricted to events at and within the receiving cell.	Subterm of View details of GO:0009987 View details of GO:0050794 Part of View details of GO:0007154 View details of GO:0023052 View details of GO:0051716

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Expression data

Expression pattern

Expression pattern of LotjaGi1g1v0216600.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi1g1v0216600.1