Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi1g1v0651800
Transcript ID	LotjaGi1g1v0651800.1
Related isoforms 1	LotjaGi1g1v0651800.2
Lotus japonicus genome version	Gifu v1.2
Description	Protein DETOXIFICATION; TAIR: AT1G33110.1 MATE efflux family protein; Swiss-Prot: sp\|Q8W488\|DTX21_ARATH Protein DETOXIFICATION 21; TrEMBL-Plants: tr\|V7CWU6\|V7CWU6_PHAVU Protein DETOXIFICATION; Found in the gene: LotjaGi1g1v0651800
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr1:121102092..121113262) extracted from Lotus japonicus Gifu genome v1.2.

TTTCTGGAAATCATTTGTTTCTTCATGTGCTCTTGTTAGGCTAATGTGGAGATCCCTGAAGTTTTATCATTTTACGGCCC AACATGTGCAATGTTAACGGAAGTGAATATGATATTGTGCAAGGTATTATTTGTTGTTTTATTTTCATATTTTCCTAGTC AATATTAATCAAGAATTTACGAGTTTGAATATTCTTGAAAGCCAATGGTTAATGCACAAAGAAAAAAATAATAATGCTTT TCCAGTAATTTTCCAATGTGTGATACATTTTGATATCTCCACGTACCTGCACCTCATATGGTTTCTCTAGCTCCTGTCTT TTCCTGTTTAGGAGCAAAGTATAATGCATTACGTCTCTGTGTGCAGATAACTCCACCGTAATAATAATGACAAAAATTAA TATGATTATTTTGAAATTGAATATTACACTCCTATTACTTTCTCCTTCATGATTTCTTTTCCATGAGTTAAGACAAGAGG ATAAAGTTCCTACTCTATTTTTTTCCAGATTATCTGCCCATCTTTAGTGAAAAACTAATTTCTCAACATAGGATACCGTT AGGCATCAAAGTGGAGACTCATCCTAGTCAATCGTATTTTTCATACACATGGAAGAAATTGAACCCAAAACTATATGCTT AAAATACCCAAACACTTCAATTGAGCCTAACCCATGGTTGGTAAAGTTCATCTACTTTAATTAAGTCACCTGGGGGAGGA CTAATAACAACGATTCATCTCATACTTGTCACCAGACCTATATTAGATTATAAAATAATTTAATTAATAGATTAAATATG TTTTTGGCCTCCTAAAAATATAAAAAATGTTAATTTTTGTCCTTGTAAACATATTTTTTAGTTTTTAATCTTGAAAATAT ATACTGTTACTTGTTTGAATCATTTTCATTAAGTTTTACTTACTTGACTTAGATAATGATGACTCACTTTTTCTATTTTA TAATTTTTATCTGATTTAACGATGTGAGACCCACTCATGTACACAATTCTGTCATTGCTATTAAGTTTTGCTCATGTAGC TCATATGTGTTTTTTAGGTGCAAAGTCTAGGTGACACTGAGTTGTGTAAATTGATAGGTTTCAAGATACCTGATAGAGAC CAATAAAACAGTAGCTGTGAGAATGAAAGATGAATGGCAATAGATTGATTTTGATTAATGGAAACAAAAGGAAAATACAG TAGATGACTACTTCAGAGCTAGGCTCCTATGAAGAAAGCATAATTCTTCATTCTATTACAGATAACTAATTCTCCGGTAC CCCTCAATGACTAACAGAATTTCCCTTTATCCACCTTTTCCCTGGATTCCCGTAACTAACTCTCCTGAGCATCTTTTTCT CTTCCTGCTAGCGCATACTCCTTCTAGGTGCTTCTTTTCTTCCCCTTTCTAACATACACGTTCCACACCTTGGGCCTAGG ATTATTGATGTCAGCCCACACTTGACTTTGGGGCCTATCAATGCCACCCTCTTCAAACACAACCTTGTCCTCAAGGTTGA AAACGGGAAATTGGTTCAAAAGGGTCTGTTTATCCTCCCAAGTAGCCTCATCTGCAGACCTTCCCTGCCATTGAATCAGG TATTGATGTATGGTCTCTCCCTGCTGACTGATAGCACGAGTAGCTAATACCTTTTCAGGTTCCACAGGTTCCACAAACTC ACCATCTAAACCACTAGGTAAATCCTGCTCAACATGGTAATTGCCTATAGCTTTCTTGAGCAATGAAATATGAAATACAG GATGAATGCGAGAGGTTGCGGGCAGATCAAGTTTATAAGCCACTGCCCCGATGCGTTCCTTGACTGCAAAAGGACCAAAA TATCGAGCTGCCAATTTAGGATTGATCCGTCGTGCCACTAAAAGTTGCCGGTGAGGACGTAGTTTGACAAAAACCCATTC TCCCACCGCAATCTGTTTGTCTTGTCTCCTTTTGTCAGCCTGCGATTTCATCCTTCCTTGGGCGCGAAGCAAATGAGCCT TGAGTTGGCGGAGAGCTTCATCTCTGTCCAATAGTTCTTGTGCTACTGCCTCCACCTTAGTTTCCCCACTGGAGAAACGC AAAATAGTAGGAGGCTCACGCCGATAGACTGCTGCAAAAGGGGTAACTCCAGTAGACGCATGGAAAGTAGTATTGTACCA GTACTCAGCCCATGGAAGCCAAAGAATCCAAGTACGTGGTTGATCCGCTATGAAACACCGTAGATAAGTTTCCAGGCAAC GGTTTATGACTTCCGTTTGGCCATCTGATTCGGGATGGTACGCCGTACTCATGGCCAATTGCGTACCCTGCAACTTGAAT AACTCTTTCCAGAAGTTGCTGACAAAGACAGGGTCCCGATCACTGACAATTGAGCGAGGAATTCCATGGAGTCGCACCAC TTCCTTTGCAAAGACTTCTGCCACCGTGCGTGCAGTGTAAGGGTGCTTGAGAGGAATAAAATGGGCATACTTCGAAAGCC TATCCACCACAACAAACACTGTATCGATGCCTTTGACTTTGGGCAGCCCATTGACAAAGTCCATGGACACGTCATCCCAA ATCTTCTCAGGGATGGGCAACGGTTGCAGTAGCCCTCCTAGGGACGCAACTACATATTTTTGCCGCTGGCAAACATCACA TCCTTGCACAAATTGTTGGACAGAATTCTTCATACCAATCCAATATAGATTTGCTGCTATCCGGCGATAAGTGCGATAGA AACCAGAGTGCCCTCCTTGCGGAGTGGCATGGAACTCAAGAAGCAACTTTGGAATTAGGGAAGAAGAAGCAGAAATGACC AAACGCCCATGGTAATAGAGAATACCTTGAGTGTAAGAAAATCCAGGTTTGCTGCTGGGGTCTTCCTGCAGTCGAGTAAT TATACTGGCAAGTTCCGTGTCCTGATGAACCTCTTGCACTAACACTTGTCCTTCTTCCCAGTTGGGATATGATGTTATCA CTTGCAATTCTCCTTCCTCAAACACACGGGACAAGGCATCTGCTCCCTTATTGGTGCTACCCGGCTTATAGACTATGTCA AAACGGTAACCCAAAAGCTTGGCTGCCCAGTTTTGTTGATCCACCGTAGTGATACGCTGGTGGAGCAATTGCCGGAGGCT CCGTTGGTCAGTACAAACAGTGAAATGTCGTCCCAGAAGGTATGGTCGCCAGTGCTGGATGGCTAGAACAATTGCCATCA ACTCCTTCTCATAAGCGGATTTTGTGAGGTTGCGTTCGCTGAGAGCTTTGCTGAAAAAAGCAACAGGTCGCTTGTTCTGG AGAAGAATCGCTCCCACGCCACGGCCAGAAGCATCACACTCGATCATGAAAGGCTGAGAGAAATCTGGTAGGACGAGTAC TGGCGCGGTTGTCATGTGCTCTTTTAAGACTTCAAAGGCTTCTTGGGCGCGAGCATTCCAAACAAAACCATCTTTCTTTG TAAGTTCAGTGAGGGGACGTGCTATTTTGCTGTAATCGCGAACAAACTTGCGATAATAACCTGTGATCCCCAGGAAACCA CGAACCCCCTTGACATTTTTGGGTGTTGGCCAATTGGTAATGCTTTGAATTTTTGCAGGGTCCATAGCGACTCCCTCCTG AGAAACCACATGCCCAAGATATTCCACTGAAAGTTGAGCGAATGAACACTTTTTCCGATTTGCTACCAGTTGTTGCTTCC TTAGAACCTCCAACACCTTGGCTAAATGACTCAAATGTGACACCCAATCCATGCTGTAAACCAGTATATCATCGAAAAAA ACTAAGACAAATTTGCGGAGCATGCTTCGGAAGACTTCGTTCATCAGTGCCTGGAAGGTTGAGGGTGCATTCATCAACCC AAAGGGCATTACCAAGTATTCATAATGACCCTCGTGAGTGCGGAAAGCCGTTTTGTGTATGTCATCTTCTTTCACCAAGA CCTGATGATACCCGGATTTCAAATCCAGCTTCGAAAAATAGAGAGCCCCATGCAGTTCATCTAACAATTCCTCAATCACA GGGATTGGAAATTTATCTGGAACAGTGGCCTTGTTCAACTCCCGGTAATCGACGCACATCCTCCACGTCCCATCCTTCTT TTTGACAAGGATTACTGGACTGGAGAAAGCACTCTGACTGTGCCTAATGATCCCAGATTGAAGCATCTCTCTGACCTGCT TCTCGATCTCATCCTTGTGGTGATGTGAATAGCGATAAGGCCTTACATTCACTGGGCCTTGTCCTGCCTTCAAAGTGATC TGGTGTTCTTTTTGTCGTTTCGGAGGTAAACCAGCTGGGGCTGCAAAGACATCTCCATATTCGCTTAACAGTGCAGCCAA TTGGTGTTCTTGTTGCTCGTTCAATTTGGTTGGCTTTTCCAAATTAGCCATGGTGGTCTTGGAACTAATCAGAGAAGCCA GAGAACACTCTGCTTGGCCCCAATGGTCTTGGCCAAACACACTTTGCAAAGCTCCTTGTTGATCCTGAGAGTAATCTCTA CCCTGTAACAAAATCTCCTTCCCATTCACCTGGAACTTCATCGTTTGCTTTCCCCAGTGGACTTTCGTTTCGCCCAAAGT AGCCAACCACACTATTCCCAACACCAGGTCGAGTTCCCCCAGATCGAAAAGGTAAGTGTCTACTGAGGTGGTGTATTCAT CAATTCGTACCTCCAAATCCTTGCACGTACCCGTCGCAATTGCTCGGTGGCCATCTCCCAGGCGAATTCGCAGATCTGGA GTTGATTGAACCTGCCATCCCATAGCCTCAACCACGCTTCTGGACACAAAATTGTGGGTTGCCCCACTGTCGACCAAAAT CACGACGGGCACTCCGTAAATTGATCCTCGGAGTTTCATGGTGTGGGTTGGTATAGGCTCAGTACCCATCACCATGATGC TGCAAGCTCCGTCGTCTCCTGGTTCTTCTACTTCCGCCTCGGCTTCCGATTCCTCTCCACCCTCTTCTGATTCGTCGATC ACCATAATCCTGAGCTGCTGGTCAGGGCATTGGTGTAGAGGGTGATACTTCCCTCCACACTTAAAACACAACCCCTTTTG CCTTCGATCTAGTAGCTCCTGGTACGGAAGATGGCGAATGCCTCTGTCGCGCGGTGGCGTTCGCAGATTCACCTTGTCCT CGCGCCGCTCCCCCTTTTCTTCACGATTCTTAATCATTACCCAACCTTGATTTGTTTGACCCGTTGACCCGAGACCCGCA GCTGATTGATGGGCCGGGCGGTTGTACGAACCCGACCCGGAACCCAAACGAGCGATTCCTCCTTTCGACCCGGCCCACGA ACGTCCTGGCCCATGGAGCTCCGTTTCCACCGCCCTGGCCAAAGGAATCAGTCGAGAACGGGGTAACGCTACCAGGGTCC GCAAGCTTCGTACTCTGGCTCGTATGTCTTCTCGCAAGCCATGGATGAAGTATCCAAAGAATTGTTCATCTGGAAGATTG GGGGTTTGGGACAGCAAGCGCTCGAATTCCAACACGTATTCATCGACGGTGCCTTTCTGCTGGAGATCGGAGAGTTGTTC GAACACATCTCCTTTGCTTGCAGATCCGTACCTTTCGAGCAACTCATTCGTGAGTTTTTCCCAAGTGAGGCCTGGATCCA GATGCAAGAGTGAGTTGAAGTAATGGATGGTTGAACCCTCCATGCACAGATGTGCGAGGTTAACCTTGACCTCAGGGCTT GTTCCCATGACGTGAAAATAGACTTCAGCTCGGGCAATCCAACCGCTGGGTCCTCGCCATTGAAGAGTGGAAGCTCTACT TTCTTTGCAGATTTCCTGAATTCATCCAGCAATCCTCCGTCCAACTTAGTCCAACCGGAGACTCCGGAAGGACTTCCCTC CTCAGATCCTATTTTGATCGGAGTTTTGATGTTATGACCATTTCTCGATTTGTCTTGCTCCTGCTGCTGCTTGGACATGT TCAGAGTCAGCAGATCAAGCAATTGAGCCTGATGATTCTCTGCTCGTTCCTGCATAGTAGCCAGGGTGATTCGCAGGTTC GCTACTTCCTGTTCCAGGGCTGCAACTTTCGTCTCCATTTTCCTTGGTGGCATACGGTGGTGCTTTGTATCACTCTCCTC TCACTGGTACCCGCTTCGATTGATCCGGTAGGTCGGACCAATTTGATAGAGACCAATAAAACAGTAGCTGTGAGAATGAA AGATGAATGGCAATAGATTGATTTTGATTAATGGAAACAAAAGGAAAATACAGTAGATGACTACTCCAGAGCTAGGCTCC TATGAAGAAAGCATAATTCTTCATTCTATTACAGATAACTAATTCTCCGGTACCCCTCAATGACTAACAGAATTTCCCTT TATCCACCTTTTCCCTGGATTCCCGTAACTAACTCTCCTGAGCATCTTTTTCTCTTCCTGCCAGCGCATACTCCTTCTAG GTGCTTCTTTTCTTCCCCTTTCTAACATACACGTTCCACACCTTGGGCCTAGGATTATTGATGTCAGCCCACACTTGACT TTGGGGCCTATCAATACCAACTAAGATAAATACCGAGTTAGAAATATGAGTCATCATTTTACAAGTCAACAATACTTAAT GATAACTTAATGCTAATGATTAAAATGGACAATACTGTATATTTTCAGGAATTAAAAACATAAAAATCTTTTTTCATTAA TAAAACCAATCATTTAAATCCAATTTTTTAACATTCTCATCACCATCTCATTTTAATCCAATTTTTCTTTATAGTTCAAT TCTTTTCCTATCACATTATGCACTTATCATATTTTTCGTTCTTTATAGCAACAGTAAGAAAATGTAATTTAGTATGCGGA ATAAACAAAAACTATTACATAATAACTTATCCATATTATAAAATATGGAACACTTATTTAGTGTTTTGAAAAGTTGTATT ACATAAAACGAACCATTTATGATGATCGATACGAATCATTCTAATGCAACTTTAGACAAAACTTTTTACCCGTTTCATAG ACGAGTTTACTAAAAATCCAGAAGTAAAAAATGTTGTAGTGGTCGTGTTAAATTTTCACATCCATTACCAATTATTCTGG TTCCCATCCCGGTAGAAAACCAATTTTTCTGCTTACTTTAAATGCCACACAACACAACTGTATCCTATAACAACTAACAA GTGTGTGAATATCATTGCTTCATGCCAGACAAAAACACACACCTCTTGGATGTTATACTATTCAGTCCCATTCTCCTCAA TATCATCATTGCCTTAACATCCTGCAGTTATATTAGTAGGAATCCACCAAGTTTTATTATTACCATGATCAGGGTCACAT GGTTGAAAATTTAAAATAGAAAGAAATAAAGAAAGCTATAACTCCCTTACCTCATTTGCTTTTTATTTCAATATATAGGA AAGTCTGTTACCAGCTCCACAGACCAACCAAGAGCTCAAAAAATGGAGGGGGATCGAAAGGAGAAGCTGCTGAAAACAGT AGAGGAAGAAGAAGGAGAAGAAGAAAAGTTGTCACTATGGAAGAGGGTGTGGAAAGAGAGCAAGAAGATGTGGATTGTGG CAGGTCCAGCCATCTTCAATAGAATCTCCACTTTTGGGATCTATATTATCAGTCAGGCATTTGTAGGTCATATTGGATCA AAGGAATTGGCTGGTTTTGCTATTGTTTACACTGTTTTCATAAGGTTTGCTAATGGTATTCTGGTACGTTTCTTACAAAC TTTTCATTTGCTTGTTACTTTTTCCTTTGATATTTGTGTGATGGGCCTACAAAAAATATGAAAGTTCTGAACTATGCATG ATCAATTAACTTAAAATATTAGTTTTGATTGTGAAATCAGGATTAATATTAGGGAGAAACTTCTATGACTGACTTCTCAG TTTAAAATTGATTTTGATAAAAGCGAAACTTGTTCAAACATGTTTTAAATCTTGTGACAATGAATTAAAGTAAAAGAAGA TGAGGTTATGTGATAGATATTTTGATACTCTTGAAGATGAAGAGGAAAAAACACTTGGAAGGAAAATGAATATTTTCTGT TATATTTTTTAATCTTTATGAAATTAGGCTTAGAAAGAAGAAAAGCAGGCAGATACAGTTTGAAAGAAAAATTATTTTTT TCAAATTCTTTTCATTTCAGAAGAAAAGGTGACATATATTCACATTTTCCCCCTGCTTGTTGTTTTTTAGTTTTTCTTAA ACGAGTAGTTCTCTCATATATTTTTCCTCATTTTCCCTAGTATTTTCTTTCTAGGAAGACAAACAGAACAGCAATACATA GAATATGATTGTTATTCTTCATTTTATTATGTAGCTATATGATATGTTCTGGTCAGAATAAAGATAATTTTATAACTCAT ACTTTTATACTCCTTTTACATTCTTTATAAAGTGTGATGGAAAAGGGAGAGATGGTTTATGTTTTTAATTAGAATCTACC AGTTTATGGGGCCTGCTGGAGTATTTTAATAACTTTTGAAACAGAGATTCTAAAGAAAGGAATCTACTTCAAATAGTTTA ATGGATTAAAGTAGGCAGAAGGTTGTGAAACATCTACAATCAGGACTTTTATAATAGAAAAACATTGGTAGACATCTAAC GGGTGTAGACGTTTAGATTAAGAATTAAAGAAAAGTGACGAAAGTAATGAATGTTATATATGATGTGATGTGATGAAGAG ATGTTAGAGGAAAAAAAAATGAGATGTGTTTGGGGTGTTTGTGCTATTTAGGTGTCTAATTATCATAACCTTTCAAAATA TACATGTGCTACTATTGTGTGCATCATGGTCAACAATGCAATTTATTCAATAATATGTGTCCAGCTGCAATTATAAAATG CAATCACCGTAACCAAAGTTATTTGTACTTTAGTTAGGAATGGCCAGTGCATTGGCAACACTTTGTGGACAAGCATATGG TGCCAAAGAACTCAGCATGATGGGGGTGTATCTTCAAAGATCATGGATAGTTTCATTCTTAACTGCACTCTTTATTCTTC CACTGTTCATCTTCACAACCCCAATTCTGAGGATCTTAGGCCAAGACGAAAGCATAGCCCAAGAGGCAGGAATCATTTCT CTTTGGTCAATTCCTGTCATGTTTTCTTTATTTGTCTCATTCACTTGCCAGCAATTCCTGCAATCTCAAAGCAAGAACAT CATCATTGCATTCCTTGCAGCTTTCTCATTAACTATTCATGTGATCCTCTCTTGGCTTTTGACAATTCAATACAAGTTTG GGATTGTTGGTGCTTTGACCTCAACAAGTTTGGCATTCTGGATTCCCAACATTGGTAACCTTATTTTTATCACTTGTGGT TGGTGTCCTGATACATGGAAAGGTTTCTCATGTTTAGCATTCAAAGATCTTTGGCCTGTCTTCAAGCTCTCTATTTCAGC CGGCGCTATGTTAGCGTGAGTTTTCTTCTCTATTAACTAATGGATTAGTTAAAACATGGTGTTTTGATTATCTAGATGTC TATTTTGCTATTCATTGCAGACACTAATGTTCATGAACAAATTTATGTCTTCCTAACTGGTAGCTATGAAATATTTTTAC AGTCTTGAGCTTTGGTACAACACAATATTGGTTCTATTAACAGGCAACATGGAAAATGCAGAAGTTCAAATTGATGCTCT TTCCATATGGTAATCTTTCTGCATTGCCACCACATTTATTAGAATTGTATAATTTATAAGTCTCAACTTTATGTTTTTGG TTCTATATTGGTCTAATGTGTAGTAAACTTCTCCCTTGTGTCACCTAAGTTCAAATTTGTTTATTTGCAGCTTGAACATC AATGGATGGGAACTGATGATATCATTTGGTTTCCTGGCTGCAGCAAGGTAATGCCATTCATTCCCTTTCTTTACTTGTAG TAATTGTTTTTGTCGTGTGTTGTCTAACTTATCTTAGGTGGACTAGTAGTGTTATTTATAAAAAAAAATTAAGTAAACTA AGGGGGTTTATTTCTCAATTCACTTATCTAAAACATTATTGGTTCACCTAGTATTGGGTTATTTATCTCCGAGGTACGTT AGAGAACATATTTTGTTACCATGGAATGTTAACTCTATCGTTCATTAATTTGCAGTGTTAGAGTGGCAAATGAGCTTGGA AAAGGAAGCTCCAAATCTGCAAAGTTCTCTGTGGCTGTATCAGTGCTAACATCCTTAACCATTGGCTTCATTCTCTTCTT ATTCTTCTTGTTCTTTAGAGAAAGACTTGCTTATATATTCACCAAAAATAAAGATGTGGTCAATGCTGTTGGGGATTTGT CACCTTTGTTGGCAGTCTCTATACTTCTTAACAGTGTCCAACCAGTGCTCTCAGGTATTCTTTACAACAAATAGTTGCAA CTTCTATAATTATTTTTAGAGTCAAAATGAATTCTGGCGAGAAGTTTATGTGCCAGGTGCCAAAATTGATTTTGAGGAAA TAGAAGCCGATTCCAACATGTTATTTATATGAATTGAACAGGAGTTGCTGTGGGAGCAGGGTGGCAAAGCACTGTAGCAC TTGTGAATTTAGGGTGTTATTACATCATAGGTCTTCCTGTAGGAATTGTACTTGGTAATGTTTTCCATTGGCAAGTCAAG GTAGGCTTTAATTACTAGTACTCATAATTTCTCATTTTCAAATTCTACTTAGATTCTTGTTTCTTCCATTACACAATTAA TCTTCTTACTTCTTCTTTAGGGTATCTGGGTTGGAATGTTGTTTGGAGTAGCTATTCAAACTATAGTGCTGCTTATAATC TGCTACAAAACTGATTGGGATGAGCAGGTATTTTTCTGAATCAATTATTACTACTATTTGTCCTTCTTAATTTCATTATC CCTTTTAAATAAAATTATATTATTTATGTTTTATATATGTGACTTGATGAAATCATTGTTAATGTGTGCAGGTACTTAAA GCTCGTAATCGTGTTAACAGGTGGTCTAAGGTGGAACCTGATCATAATAAATCAGATAACTAGTTTCAAGCTCCTTATTC CTAGTGAATATTTTGGAAAATTTGCATCTGAAATATATCAAAATGTATAAAAAATGTTTTATGAATTTGTGGGCTTGATT TGTTTTCTAGATGTTATGTAGATAAGAGACATTGATATATAGCTTGGTAAATTATTGCTCTTGAATGTAAAAATTGAATT ATTTGAGTACATTTTTTCATTCTCTTCTCACAGCCATAGATGTCACCTAGC

Download Genomic Sequence

CDS sequence (LotjaGi1g1v0651800.1) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGTGCAATGTTAACGGAAGTGAATATGATATTGTGCAAGGAAAGTCTGTTACCAGCTCCACAGACCAACCAAGAGCTCA AAAAATGGAGGGGGATCGAAAGGAGAAGCTGCTGAAAACAGTAGAGGAAGAAGAAGGAGAAGAAGAAAAGTTGTCACTAT GGAAGAGGGTGTGGAAAGAGAGCAAGAAGATGTGGATTGTGGCAGGTCCAGCCATCTTCAATAGAATCTCCACTTTTGGG ATCTATATTATCAGTCAGGCATTTGTAGGTCATATTGGATCAAAGGAATTGGCTGGTTTTGCTATTGTTTACACTGTTTT CATAAGGTTTGCTAATGGTATTCTGTTAGGAATGGCCAGTGCATTGGCAACACTTTGTGGACAAGCATATGGTGCCAAAG AACTCAGCATGATGGGGGTGTATCTTCAAAGATCATGGATAGTTTCATTCTTAACTGCACTCTTTATTCTTCCACTGTTC ATCTTCACAACCCCAATTCTGAGGATCTTAGGCCAAGACGAAAGCATAGCCCAAGAGGCAGGAATCATTTCTCTTTGGTC AATTCCTGTCATGTTTTCTTTATTTGTCTCATTCACTTGCCAGCAATTCCTGCAATCTCAAAGCAAGAACATCATCATTG CATTCCTTGCAGCTTTCTCATTAACTATTCATGTGATCCTCTCTTGGCTTTTGACAATTCAATACAAGTTTGGGATTGTT GGTGCTTTGACCTCAACAAGTTTGGCATTCTGGATTCCCAACATTGGTAACCTTATTTTTATCACTTGTGGTTGGTGTCC TGATACATGGAAAGGTTTCTCATGTTTAGCATTCAAAGATCTTTGGCCTGTCTTCAAGCTCTCTATTTCAGCCGGCGCTA TGTTAGCTCTTGAGCTTTGGTACAACACAATATTGGTTCTATTAACAGGCAACATGGAAAATGCAGAAGTTCAAATTGAT GCTCTTTCCATATGCTTGAACATCAATGGATGGGAACTGATGATATCATTTGGTTTCCTGGCTGCAGCAAGTGTTAGAGT GGCAAATGAGCTTGGAAAAGGAAGCTCCAAATCTGCAAAGTTCTCTGTGGCTGTATCAGTGCTAACATCCTTAACCATTG GCTTCATTCTCTTCTTATTCTTCTTGTTCTTTAGAGAAAGACTTGCTTATATATTCACCAAAAATAAAGATGTGGTCAAT GCTGTTGGGGATTTGTCACCTTTGTTGGCAGTCTCTATACTTCTTAACAGTGTCCAACCAGTGCTCTCAGGAGTTGCTGT GGGAGCAGGGTGGCAAAGCACTGTAGCACTTGTGAATTTAGGGTGTTATTACATCATAGGTCTTCCTGTAGGAATTGTAC TTGGTAATGTTTTCCATTGGCAAGTCAAGGGTATCTGGGTTGGAATGTTGTTTGGAGTAGCTATTCAAACTATAGTGCTG CTTATAATCTGCTACAAAACTGATTGGGATGAGCAGGTACTTAAAGCTCGTAATCGTGTTAACAGGTGGTCTAAGGTGGA ACCTGATCATAATAAATCAGATAACTAG

Download CDS Sequence

Protein sequence (LotjaGi1g1v0651800.1) extracted from Lotus japonicus Gifu v1.2 Proteins.

MCNVNGSEYDIVQGKSVTSSTDQPRAQKMEGDRKEKLLKTVEEEEGEEEKLSLWKRVWKESKKMWIVAGPAIFNRISTFG IYIISQAFVGHIGSKELAGFAIVYTVFIRFANGILLGMASALATLCGQAYGAKELSMMGVYLQRSWIVSFLTALFILPLF IFTTPILRILGQDESIAQEAGIISLWSIPVMFSLFVSFTCQQFLQSQSKNIIIAFLAAFSLTIHVILSWLLTIQYKFGIV GALTSTSLAFWIPNIGNLIFITCGWCPDTWKGFSCLAFKDLWPVFKLSISAGAMLALELWYNTILVLLTGNMENAEVQID ALSICLNINGWELMISFGFLAAASVRVANELGKGSSKSAKFSVAVSVLTSLTIGFILFLFFLFFRERLAYIFTKNKDVVN AVGDLSPLLAVSILLNSVQPVLSGVAVGAGWQSTVALVNLGCYYIIGLPVGIVLGNVFHWQVKGIWVGMLFGVAIQTIVL LIICYKTDWDEQVLKARNRVNRWSKVEPDHNKSDN

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	63	63	-	–
PANTHER	PTHR11206 View details on PTHR11206 Search for proteins/transripts with this domain View external data on PTHR11206	45	512	468	5.2E-251	–
PANTHER	PTHR11206:SF335 View details on PTHR11206:SF335 Search for proteins/transripts with this domain View external data on PTHR11206:SF335	45	512	468	5.2E-251	–
CDD	cd13132 View details on cd13132 Search for proteins/transripts with this domain View external data on cd13132	60	495	436	2.46165E-151	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	64	85	22	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	65	87	23	-	–
TIGRFAM	TIGR00797 View details on TIGR00797 Search for proteins/transripts with this domain View external data on TIGR00797	70	466	397	2.4E-65	IPR002528 Show description in modal box View details on IPR002528 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF01554 View details on PF01554 Search for proteins/transripts with this domain View external data on PF01554	70	230	161	6.7E-29	IPR002528 Show description in modal box View details on IPR002528 Search for proteins/transripts with this domain View on EBI InterPro Service
Phobius	NON_CYTOPLASMIC_DOMAIN View details on NON_CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	86	96	11	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	97	125	29	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	102	124	23	-	–
Phobius	CYTOPLASMIC_DOMAIN View details on CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	126	145	20	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	145	167	23	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	146	170	25	-	–
Phobius	NON_CYTOPLASMIC_DOMAIN View details on NON_CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	171	181	11	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	182	204	23	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	182	204	23	-	–
Phobius	CYTOPLASMIC_DOMAIN View details on CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	205	210	6	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	211	233	23	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	211	231	21	-	–
Phobius	NON_CYTOPLASMIC_DOMAIN View details on NON_CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	232	236	5	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	237	266	30	-	–
Phobius	CYTOPLASMIC_DOMAIN View details on CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	267	286	20	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	287	309	23	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	287	308	22	-	–
Pfam	PF01554 View details on PF01554 Search for proteins/transripts with this domain View external data on PF01554	294	452	159	8.9E-27	IPR002528 Show description in modal box View details on IPR002528 Search for proteins/transripts with this domain View on EBI InterPro Service
Phobius	NON_CYTOPLASMIC_DOMAIN View details on NON_CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	309	327	19	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	321	343	23	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	328	349	22	-	–
Phobius	CYTOPLASMIC_DOMAIN View details on CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	350	360	11	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	361	385	25	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	363	385	23	-	–
Phobius	NON_CYTOPLASMIC_DOMAIN View details on NON_CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	386	404	19	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	398	420	23	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	405	429	25	-	–
Phobius	CYTOPLASMIC_DOMAIN View details on CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	430	435	6	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	435	457	23	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	436	458	23	-	–
Phobius	NON_CYTOPLASMIC_DOMAIN View details on NON_CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	459	463	5	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	464	485	22	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	464	483	20	-	–
Phobius	CYTOPLASMIC_DOMAIN View details on CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	486	515	30	-	–

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:0015297 View details of GO:0015297 AmiGO InterPro QuickGO	Molecular function	Antiporter activity	Enables the active transport of a solute across a membrane by a mechanism whereby two or more species are transported in opposite directions in a tightly coupled process not directly linked to a form of energy other than chemiosmotic energy. The reaction is: solute A(out) + solute B(in) = solute A(in) + solute B(out).	Subterm of View details of GO:0015291
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:0042910 View details of GO:0042910 AmiGO InterPro QuickGO	Molecular function	Xenobiotic transmembrane transporter activity	Enables the directed movement of a xenobiotic, a compound foreign to living organisms, from one side of a membrane to the other.	Subterm of View details of GO:0022857
GO:0055085 View details of GO:0055085 AmiGO InterPro QuickGO	Biological process	Transmembrane transport	The process in which a solute is transported across a lipid bilayer, from one side of a membrane to the other.	Subterm of View details of GO:0006810

Genome browser

Expression data

Expression pattern

Expression pattern of LotjaGi1g1v0651800.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

Loading expression data from ljgea-geneid. Please wait…

LotjaGi1g1v0651800.1