Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi2g1v0325400
Transcript ID	LotjaGi2g1v0325400.5
Related isoforms 10	LotjaGi2g1v0325400.1 LotjaGi2g1v0325400.2 LotjaGi2g1v0325400.3 LotjaGi2g1v0325400.4 LotjaGi2g1v0325400.6 LotjaGi2g1v0325400.7 LotjaGi2g1v0325400.8 LotjaGi2g1v0325400.9 LotjaGi2g1v0325400.10 LotjaGi2g1v0325400.11
Lotus japonicus genome version	Gifu v1.2
Description	Protein DETOXIFICATION; TAIR: AT5G65380.1 MATE efflux family protein; Swiss-Prot: sp\|Q9FKQ1\|DTX27_ARATH Protein DETOXIFICATION 27; TrEMBL-Plants: tr\|G7JXS2\|G7JXS2_MEDTR Protein DETOXIFICATION; Found in the gene: LotjaGi2g1v0325400
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr2:80075779..80087633) extracted from Lotus japonicus Gifu genome v1.2.

ATGAGTTTTTCAACACCCATTCAACTATCTCATTGCAACTAGTTTTATGAGTATCAAATCTTTTATGCTCTGCTGTATAG TCTTATACTTATACAGTTTCGGAATATCTATTGTTCTGCGAGATCGGCTAGAAACCTGCCAGAACCGCTCCTTGTCCGTA CCTCACTGCACTGGTGGCAATCACTCCTCGCCCTGGTCGGCTCCGGTGTCACATAATTCCCTCCATTTATAGACCAATTG TATTGATTCCCTCCATTAGCTCCAATACAAATTAAGAAGTGAGATTTAAGAACGAAAACCCTTCCCCAATCCCTAACGAT TCTTTTACGGCCTCGCACTCTCCAGAGTTCGCTCCCGATGACTTCTTCCCCGGAGTCGCCGCCGGTGCTCTGGATCCGGA CCCATCCACGACAGCTACTTGCGCCTTGGCGGTTCATATCCGACTCCGAGTGGGAGGATGTGATTGCTCGCGTCGGAGGT AGGTTCTGAGAATGTTCGCTATCAACCATGAGAATCTCTTTCTCCATTTTCATAGATTGTTCGACTTTAGGTTTTTTCAG TGATTCAATTCAATGGTTTGATATTTGATTCATATGTTTTTCAATTTCAGATATGGTTTTTCAGGTCATCTCGCACATGT TCCCTTACAACCACTCATTGCTCGTTGAAACAGGTAAATGAATTGAACGACCTTAACCTTATGTTGTAATCTCTTAGTGT GTGGAGTTTTAATTTTGTGAATCGCTTAGTTATTGAGGAAATTATGTGAAACAAATTGGTTTGCCAATATAGCTAGAGAC AATTACAGTTAGTTCATTTCTTGGGCAGATTTGAAATCCATATCCATTCAAACAAACCATAACACCAACCAGAATTTTGC ACAGTAGCCACCATTTTATACAATCTCTTGTTGAGGATGTGTGTACTAAGCTGCAATTTTAGTCAATAGAAAAACTAGAA CAAAATGATGCAGCAGAAAAGTTAGGAGTGCCTAAATCATACTGCTATGCAGCACTACATGTAAAAGGAACTTTATTTTC AGTGCATACTTGTCAACCTTTTATTGTGCCAGCCTGATGCAGACATTTTTTCTTCTTTTTTCATTAGTCAAGTGAAAGGT CCCCACATGGGATACTGACCCCAATTTGTTAATTTTGGACATTATTACTGAACATGCACCAGTTTAATTTCTTTCGGTGT GTGAGCGCATGCATATTTAATTTACACATACACATCCGGGGAAAGCATAGTTCATGTTAATATCTTCTTTTCAGTGGCAT GTTGTTTAATTTCAGTGTTTAGTTTATGGAGATTAGAGAAAGATCAAGAGATGACCCATCAAAGTGTATTAAGTTATTTC AATGCTCATTTCTTTGGAAGCTCACTGAATATAAGGTGTCCCACTCTTCTGCCGAGCCAGTACAGTTATTATTGTGTTAC TCCTTTAGTAGAATGTTTTAACTTACTCTATATTTCCCCTCAGGTATCAGTTTTGCCACAAATGATTTTCCTTAACAGTG TATTTGGGTATCTTTCCCTTCTATGATTCTTAAATGGTGTACTGTCTCTGAAGCGGACCTTTATCATGCAATGATGTATA TATATTTTGAAGCCCCACAGACAATCTTGGTGAGAATCAGTAGTTATGGAGCCTAAGACCACTTCAAGTATGAATCTGGT TCCTTGTTTATTGTTACTTAATACAATAATGTTTTGTTTCCTGGTTTTCATCATGCTGTATTACTGCTCTTGATGTGCAG ATTGTGTTATTGCTTTTGGCCATAATTGCAGTTCCATGGATGCTTTTTCCAAAACCTTTTTATACTAAAGAAGCGGCATA CTGAGGTGCCACTTTTACCTGCATTGTTTATGATTTCCTTGCTAGAAAGTTTGTTTTATTCAACGAAACCTCTATAGATT GTGGTTATTTTATACAACGAAACTTTGATACATACACATCTACTTTCTCTTTTATATCTATTCGATAATTCCACTTATTT CTTCCTATCATTTTATTTTTATTTTTCCATCACATCACACATTAAATCTCACATTTCACTCTCTTTTCTCTCCTTCTTAC TCTTGGTGTGAGTGTACATAAGTGTGAGGATAACATTATTGTAACTAGCTATCAGTTTGAAATATTATAAAAATTGAAGT TAAATACAAAGTGTCACTCAACACCAAAAAAAGAGAGTGTGTAAATATCATATGCAGACAAACCAAATCTGTATAAAAAG CTCAAACATTGCACATATTATCATTACGGCATTACCTCTCTTCTTTCTTCTGTTTTGTTCCTTCTCTTCTTCTCTGTTGA GTTTTTGAATCCAAATAAACTCTAGTCACAACCGGCATAGCTAGGCTACTCAAAGATGCCTAGCAAGGAGGTTTCACCGT TAGGAGAAATAAATGCTCCATTGTTGGAAGTTCACCCTTTAACAGATGCAGCAGAACAAGAACAAGACCTCAAAAGAAAG ATTTGGGTTGAATCCAAGAAGCTATGGCACATAGCAGGCCCCGCAATATTTAGCCGTATAGCATCGTATTCCATGTTACT CATCACCCAAGCCTTTGCAGGCCACCTAGGTGACCTTGAACTCGCAGAGGTTCTTGCAGAGCCAGCTTAAATCCACCGTT ATTGCCTGGGTGTGTCTAGTGGCGCTTTTGGTGCACGTGTTTATCTGTTGGTTATTCGTTTTCAAGCTTCAGTTTGGTGT GATTGGCATTGCTGCTACCAATAACTTCTCTTGGTGGTTCGGCCTTTTGGGTTATACTGTTTGTGGCGGTTGCCCTCACA CGTGGTCTGGATTGTCTATGGAAGCTTTTTCTGGTCTTTGGGAGTTTGTTAAACTTTCAGCTGCTTCTGGAGTCATGCTC TGGTACTTTCTTTCAAAATTATGCTATGATTATGTATGTTCTGGTTTTCTTAACATTCTTGACGGCTTTTATTTTCTTTC AATTTCAGTGTGGAGAATTGGTATTGTAGAGTTCTGATAGTGATGACTGGAAATCTTCAGAACGCTGAGATTGCCGTGGA TGCTTTGTCCATATGGTAAGAATTGTTCTGTTCAGTGCTAGTGTATGAACCTACTGGAAGAGAGAGTAAAATGAAAAATA AAACTTAAGAGTGTAGAAAGAAAGTAATTATTTTTACAATTTAATGATAAAATTTAATGAATTGTATTTTTATTCTTAAA TGGAATGATGTGTATTCTCACTGGATACACCCGGGAGAGAAATTTTAACAGTAGAGAACTGCAGGAGTGCATAATTTGGA TTTTGGATTTTACTTTCTTATTCCAATATAAAACTGTTGGTATTATTTTCTGGGCTAGCTCATAATCGATGCTGTGTTTT TATTGGCAGCATGTCAATAAATGGCTTGGAAATGATGATTCCTCTGTCATTTTTTGCTGCAACAGGGTAAGAAAACATTG GTGGCGCCTAGTCGTCAAACAAAAATTGTGCACTATTAAAGTTGGTAGTTGTTTTTTTTTTCTTTGTCTGTTGTCGATCT TTAACTAAGAATCCTTCTCTCTCAATTTGGAACTCTCTGGATTGGTAGTAAAGAGTAATGTGCCCTTTGAATGCACAATC AGACAGATTCCTGGCGAGTTTGTTTGTCTTCCCCTGTTTAAGAATTTTGTATTATAAGTATTTTGACACGGTTCTAGTTG AGACAGTGACCAAATCTGTATGTTACGGTGTTGATTGCTCCATCCTGAGGCTGTGACAACTGAGTGAACTGACAACCCAA CTGGTGCAGTTTCACATGTTTATCAGTTTCACATGTTTAACACTAGGGAAGACTAGAAAATATGTTTGGTCAGCAAATTG CCTACTTGTTAGCCTTTTTTTTTCGATACATCGGAAAACTAGCAGAAAGAAAACTAACTAACACCCAATAAATCCCTCAT GATGAGGGTTTCCATATCATGACATGGTCTACTCAAAACTTGGAGCCCTGGAGCACTAGAAGCCGTTTTTGCAATGAAAT CAGCTACCTGGTTACAGTCACGATGAATTCCTCTCACTGCAACTTGCCAATCCCTTGCCAGCATGGTACGAATCTGCTGC ACTTCCGTGATAAAACGGTCCACTTGTTAGCTGCGTCTATGTTTTAGTAATGCCAATAAAAATTCAGAAAAAAATTCTCA CTCACTTTTAGGTGTATGGAGAAGATAAAAATGAAGAAAGACATGCTGAAAAGTTAGAACAATAAACAAATCTATTGGTT TTCATTCTTTCCATAGATAGAGCCAAAACCTTAAAGAAGAAAAGGGGAATGTTTTTCCCTAGTTACTCCGATGATCACTA ATTAATTATTTACAGAAAGATTCTCTTCAACATAAAACGATAATTGGACAGTACTAGGGATGTTCCCTACTGTATAACAT GTTTAGTTTAATACTTTTGAATCACCTCAGTTTGCAAGTTGTAATTCTTAACTCTTGATCTGTGTTGGATTCTATGCAGC TTGTGAAATTAAACATCCCCCTAGTTCATCACAGCTTTAAATTTATTAAGATACAAATAGTTTTAGTTACATGTGAAGTT AATATGCAATCTGTAGAGTGAGGGTTGCAAACGAGCTGGGAGCTGGGAATGGTAAAGGAGCCAAGTTTGCTACTAAAGTA TCTGTGGTCACTTCTTCAATAATAGGACTCTTCTTTTGGATGTTGATTTTAATATTTCACGACAAAATTGGCTACATATT CACTACAAGCAAACCCGTCCTTGATGAAGTAAACAAGCTTTCTCTTCTGTTAGCCTTCACAATTCTTCTTAACAGTATTC AGCCAGTTCTCTCAGGTAATTAACACCTTACCCTTACTTAGCCTTTCAGCTTTCAATTTTTTTTTAACTGAAATCAATTA CATGCTATATATTATCTTGTCCTCGTTGGATAATATGAACAGGAGTGGCTGTGGGATCAGGGTGGCAATCATATGTTGCA TACATAAATTTGGGTTGCTACTATCTTGTTGGGTTGCCTCTTGGATTTTTAATGGGGTGGGTCTTCAATCAAGGAGTTAT GGTGAGTTTTCTGTTTCTAAAAGTTTGTTCATTTCTTTTACTACCATATGAAATTCATATGTATGAAGTATAATTCTCAT GATTCTAACAACTAGTGAAATTGAACAATTAATTAGGGAATCTGGGCAGGGATGATTTTTGGTGGGACAGCACTTCAGAC ATTGATATTAGGTGTGACTACCATTCGGTGCGATTGGGATAGAGAGGTAACTAGCTACCAGTTTTATTTTTCTTGTGTTA TTGGCACTTTGGATAATCTAATCTTAATTTGATATTTTGTGGTGGTTAACATTACAGGCTGAGAAAGCAAAACTGCATTT GACAAAGTGGTGTGATCCAAAACGAGAACTGAACTAGTACTTCTTATAGAGGGGCCAGTATTCATAACCTAAATGCCAAA TTAAGGAATAAATGGGCATAATTGTAGACGGACTCCTTGACTAAAAGTGCGTAAGTACAATAGAATTTCATTCTTAAAAG TAATAAAATTGCATATGACATTAAAAACAATTGATTTCTTTTGCCAATTTTATCTTTGTCTTTCAACGAGTATAAATTCG TTTGGTAAACTAATCTCTCATATAAATACTTTTCTTACTTTATTAGGGGCTTTATTAGACTAATTTTACTATCGTATTAT AAACAAAAGGCTAATAAATTATGTAAATTTATAATTGTAAAAAAGTTTCAAATTAATTAAAAGTGATAATAACCTTTAAA ATTAATTGAAGAATAAGAAAATCTTAAATTAAAATTCACATATTACAATATGTCACAAACGGATGACCCAAACAAAAGAC TAATAAATTATGTAAATTTATAATTGTAAAAAAGTTTCAAATTAATTAAAAGTGATAATAACCTTTAAAATTAATTGAAG AATAAGAAAATCTTAAATTAAAATTCACATATTACAATATGTCACAAACGGATGACCCAAACAAAATTAACTTGAATTTT TATGGTTTTTATAGAATCTCATACAAATTAGTAGTTTGGTCTCTTTGTTGGGAGTCTTTACAATCATACAATATATTATT GATGTGCACCTTGATGTTCTAATCTACTTTATCTTCAAAAGAGATAAACATAAATTTTTCAACATGAAATTAATTTGATA TGAAAGGATCCATTGCCTTGGACAAATTGTGTATTTTAAGCAATATTAGCGTAACATTCAATAAATGTTATTGTAAATTC ACTTGTGAATAATTTTGAAATGTTATACTTAAAGGGTTACATTCAATGAAGTTTTTAATTTAAAACACCATTTTATACTT TGTAAATGAGGATCATGAATTATTTTAGTGATTCTTGGAAAGACGTGACATGTTCACATTAGTTATCGCTTTATACTATA CAATTTTATTAAAAAAAAGAAGGGTTAATCATCTACTTGGTCCCTGTCTTTGTCTCGCCGTCTGAAGTAAGTCCCTCATC GGAAAATTTGCAAATTAGGGTCCTCTTGTTTGCAATTTGTGTGGAGCAGGTCCTCGCCGGAGCCCGAAGCTCCGGCGAGT GATGAATGGACGTGCTAACTGGATTTACTTATCTGACGTGGCAAGGAAAAAATAAATAAATAAATAAATTTATTTACATG TCAGTTTTTTTAATGTAATTATCAAAATAAAACCATAATTAACTAACAAATTCATTTCCCCCCAAATAATCTCAATTCCT GAAATTACCCCCAAATTCCCATTCATCTCTATCAATTTAGGGTTCCTGACTGAGGTCTTCTACCCTCTTCATCATTCACC AATTCTTTTCAGAAAACAAAAATTTCCATCTTCTCCTCTTCCTCCCTCTCCCACCATACACACCCACCCCCACCCTCAAC CGAAACCCCAACCCCCACCCCACCCAACCGAAATCCAAAACCCCCACTCCTGAACCCCACCCATAACCTGAACCCCACCC TTAACCTGAACCCCACCCATAACCGAAACCCCAACCCTAATCTAACACCAGAAAGGGGAAAGAAAGAAAGAAACAACAAA GAGCTTGAGTTGGTTCTAATAATCTGAGTTCGGATCCAAAATTTTGGGTTTGGATCTGAGTTTATCAGAGAAGGAGAAGG AGAAGACGGTGTGTGAGAGAGAGAGAGGAACAGAGAACGAGATTCGCGAACGAGATTCTTGGCCACTACCACCACTCACG GCTTGGCCACCGCCACTAATTCTACGGGCTGCCTCCATTGGTGTTTCGATTGGAGAGGTGCCTTGCTTTTTGGACGGTGG GTGCGTGTTGTGTGTGTGGGATGGGTAGCGGTAGTGAGTGATTTTGTTTCTGGGAGTGAGTGATTTTGTTGCTGTGGGGG GTTTCGACTGCTTGATTGATGATGGGGAAGAGGATTTAATATGAAGGATGTTGTTGTTCTGTCACTCTTCTCTGATCTGA ACCCGTGCTCCCCTATTTCTTCCACCACTATTTCATGTTTCTGTTCTATCTGTTTCTTGCTGCTGCTAGTTATTCCCCCT GTCTATTCTCTTTCTTTTGTATACTCCTTGTACTGTGTAATTTACTTGCACCTCTTGTGCATATTCTAATATAAACTTGG CTTACCAAAAAAAAAAAGCTATTTTGTTTCTGGATTTTGATTTGTGTTTCTGGATTTACAAGTTTTGTTGAAGAAACAGT TCTGGAACATTCCAAAAGTAAAAAATTTCTGGGTTCTGTTTGCATAGATTGGTTAATTAGGATTAGTTAGTTTTTAGGGT TAATTAGGGACTGTTAATTAAATAAAACTGATTTGTATATTTTTTAATTTTTTTTCTTGACACGTCAGCCTCATTTATCC AGTCAGCACGCCCATTCATCACTCGCCGGAGCTCCGGGCTCCGGCAAGGACCTGCTCCACACAAATTGCAAACAAGAGGA CCTAGATTTGCAAATTTTCCGGGGAGGGACTTACTTCAGACGGCGAGACAAAAACAGGGACCAAGTAGATGATTGAAGAG GAGTGTTGAAATAACAATTGTGAATGAAATAGTCTCACGTTGGATATGTAAGCAAGAGTTAAAGAGTATATAAGTGTAAA GACTTACTCACCAATTGCGTTAAAATTTTGTGGCGAATGTATGTAAATGATATCTATTGTCCAAGACCACTGTACTTATG CTCTTGGCCTCATGAGTTGCTGTGCCACTCCAACAATAAAAACTTCCAACGTTGCACATATTATCATTACGGCATTACCT CTCATCCTAGTTTTGTTTTGTTTCCTTCTCTTCTTCTCTGTTGTGTTTTCAATCCAAATAAACTCTAGCCACAACCGGCA TACTACAAAAAGATGTCTAGCAAGGAGATTTCACCGTTAGGAGAAATAAAAGCTCCATTGTTGGAAGTTCATCCTTTAAC AGATGCAGCAGAACAAGAACAAGACCTCAAAAGAAAGATTTGGGTTGAATCCAAGAAGCTATGGCACATAGCAGGCCCTA CAATATTTAGCCGTATAGCAACCTATTCCATGTTAGTCATCACCCAAGCCTTTGCAGGCCACCTAGGTGACCTTGAATTC GCAGCTATCTCCATCGCCAATAATGTTGTAGTCGGCTTCGACTTTGGCCTCTTGGTACAGATTAAATACTTTTAATTCTA CTATGTAGTTCTAATAGTTAATTTATTTTTCTTAACTATGGCTTTTAATCTATTTCATTTATAGTTGGGCATGGCAAGTG CGTTGGAAACACTATGTGGGCAAGCTTATGGGGCAAAGAAGTACTACATGTTAGGCGTGTACATGCAACGTTCTTGGATC GTTCTTTTCATTTGTTGCATCTTCCTTTTGCCTATCTACCTATTTGCCTCGCCGGTTTTGAAGTTGTTGGGGCAGCCTGA TGATCTGGCAGAGCTTTCCGGTGTGGCGTCGATGTGGATGATACCAATGCACTTCTCCTTAGCGTTTCAGTTACCTCTCC AAAGATTCTTGCAGAGCCAGCTTAAAACCGCCGCTATGGCCTGGGTGTGTCTAGTGGCGCTTTTGGTGCACGTGTTTATC TGTTGGTTATTCGTTTTCAAGCTCCAGTTTGGTGTGATTGGTATTGCTGCTACCAATAACTTCTCTTGGTGGATCCTCAC GTTGGGCCTTTTGGGTTATACTGTTTGTGGCGGTTGCCCTGACACTTGGTCTGGTTTGTCCATGCAAGCTTTTTCTGGTC TTTGGGAGTTTGTTAAACTTTCAGCTGCTTCTGGAGTCATGCTCTGGTACTTTCTTTCAAAATTATGCTATGTTTATGTA TGTTCTGGTTTTCTCAACATTCTTGACGGCTTTTTTTCTTTTCTTTCAATCTCAGTGTGGAGAATTGGTATTATAAAGTT CTGATATTGATGACTGGAAATCTTCAGAATGCTGAAATTGCAGTGGATGCTCTGTCCATATGGTATGAATTGTTCTGTTT AGTGCACTGTACGTAGTGTATGAACCTGCTAGAAAAGAGAGTAAAAATTGTATTTTAATTCTTAAATGAAAAATGATGTG TATTCTCACTAGATACACCCTGGAGAGAAATTTAAACAGTAGAGAACTGCAGGACTTCATAATTGTTGGTATAATTTTTA TGGCTAGCTGATAATCGATGCTGTGTTTTTTATTGGCAGCATGTCAATAAATGGCTTGGAAATGATGATTCCTCTGTCAT TTTTTGCTGCAACAGGGTAAGATATCTTGTTTTTAGTCTGCTATATTCCCTGCTATACCAATTTTCTTTCTTTATTTGTT ATTTTCAGTACTCGCCTTGCCTTTTAGTATTTTGCTTACTCTTTTCGAGTTTTCTGCATCAAGTCAAAAATGGAGGGCCA TAGTCAATAACTAATTGGGTGGCAAGGGTCAGGTCAACAAGGCCCATCAAAACACAAGGCTGAGATTAGATAGGAAAATG TTGTGGGTGTCCTAAATTAAAATAAAGTGAGAAATTTTGATGATTAGTAACGAACCAATAATTCTCTGACGAAAATATTT CCACAAGATTACATTGCAGTGGTGATTGGAACATTTGGACATTAGGAATCGGTCAAAATAGAAAGTACAAATTAAATTAA CATACGTCTGTCCTGACATCTGCATAAACAGCATCACCATGAAATCTCTGTCAATAATTAATAAAGAAGAAAAACATTAC AGCAGCCACAGAAAACATTGGTTGGTGGCGCATATGTTTGGTCAGCAAATTGCCTACTTGTTACTTGTTAGCTACGTCTA TGTTTTAGTCTTATGCCAATGAAAATTCAGTAAAAAATTCTCATAGCACTTTCTCACTCACTTCTAGTTTTTGGTGTATG GAGGAGATAAAAATAAAGAAAGACTTGAAAAATTAGAATAAAATAAACAAATCTATTGGTTTTCATTATTTCCATAGCCA AAACCTAAAAGAAGAAAAGGAGTATTTTTCCCCTAGTTACATCAGATGATCATTAATTAATTATTTATTGAAAGATTCTC TTCAACATAAAACGATAATTGGACAGTATTAGAGATGTTCCCTACTGCATAACACGTTTAGTTAAATACTTTTGAATCAC ACATTCACACCTCTGTTTACAATTTGCGATTCTTAGCTTTTGATGTGTGTTGGATTCTATGCAACTTGTGAAATTAAATA TTCACTCAGCTCATCGCAGCTTAAAATTTATTAAAATACAAATAGTTTTAGTTACATGTGAAGTTACTTTGCAATCTGTA GAGTGAGGGTTGCAAACGAGCTGGGAGCTGGGAATGGTAAAGGAGCCAAGTTTGCTACTAAAGTATCTGTGGTCACTTCT TCAATAATAGGACTCTTCTTTTGGATGTTGATTTTGATATTTCACGATAAAATCGGCTACATATTCTCTACAAGCAAACC CGTCCTTGATGAAGTAAACAATCTTTCTCTTCTGTTAGCCTTCACAATACTACTTAACAGTATTCAGCCAGTTCTCTCAG GTGATTAACACCTTACCCTTACTTAGCATTTCAGCTTTCAAAATTTTTTAACTGAAATCAATTACATGCTGTATATTAAT TATCTGGTCCTCATTGGATATTTTGAACAGGAGTGGCTGTGGGATCAGGGTGGCAATCATATGTTGCATACATAAATTTG GGTTGCTACTATCTTGTTGGTGTGCCTCTTGGACTTATAATGGGCTGGGTCTTCAATCAAGGAGTTATGGTGAGTTTTCT CTGTTTCTAAATATTTGTTCATTTATTTTACTTCCATATGAAATTCATATGCATGAAGTATAATTCTCATGACACTAACA ACTAGTGAAATTGAACAATTAATTAGGGAATCTGGGCAGGGATGATTTTTGGCGGGACAGCACTTCAGACATTGATATTA GGTGTGATTACCATTCGGTGCAATTGGGATAGAGAGGTAACTAGCTACCAGTTTTATTTTTCTTGTGTTATTGGCTCTGA CTTTGTATAATCTAATCTTAATTTGATATTTTGTGGTGGTGAACATTGCAGGCTGAGAAAGCAAAACTGCATTTGACAAA GTGGTCTGATCCAAAACGAGAACTGAACTAGTACTACTTATAGAGGGGCCAGTATTCATAACCTAAATGCCAAATTATGG AATAAATGGGCATAATTGTAGACAGACTCCTTGACTAAAACTGCGTAAGTACAACATAATCCATTTTTTTGAACCCAATA GAATCCATTCTTAAAAATAATAAAATTGCATACGACATTAAATACAATTGATTTCTTTTGCCAATTTTATTTTTGTCTTT TAACGAGTGTAACGCGTTTGGTAAATTTGAGTGAGTCTGTGACGATTCCTCCGAACAAATGACTTTCTCACTTTATCCTC TTAATTATCAAGCGG

Download Genomic Sequence

CDS sequence (LotjaGi2g1v0325400.5) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGGAAGCTTTTTCTGGTCTTTGGGAGTTTGTTAAACTTTCAGCTGCTTCTGGAGTCATGCTCTGTGTGGAGAATTGGTA TTGTAGAGTTCTGATAGTGATGACTGGAAATCTTCAGAACGCTGAGATTGCCGTGGATGCTTTGTCCATATGCATGTCAA TAAATGGCTTGGAAATGATGATTCCTCTGTCATTTTTTGCTGCAACAGGAGTGAGGGTTGCAAACGAGCTGGGAGCTGGG AATGGTAAAGGAGCCAAGTTTGCTACTAAAGTATCTGTGGTCACTTCTTCAATAATAGGACTCTTCTTTTGGATGTTGAT TTTAATATTTCACGACAAAATTGGCTACATATTCACTACAAGCAAACCCGTCCTTGATGAAGTAAACAAGCTTTCTCTTC TGTTAGCCTTCACAATTCTTCTTAACAGTATTCAGCCAGTTCTCTCAGGAGTGGCTGTGGGATCAGGGTGGCAATCATAT GTTGCATACATAAATTTGGGTTGCTACTATCTTGTTGGTGTGCCTCTTGGACTTATAATGGGCTGGGTCTTCAATCAAGG AGTTATGGGAATCTGGGCAGGGATGATTTTTGGCGGGACAGCACTTCAGACATTGATATTAGGTGTGATTACCATTCGGT GCAATTGGGATAGAGAGGCTGAGAAAGCAAAACTGCATTTGACAAAGTGGTCTGATCCAAAACGAGAACTGAACTAG

Download CDS Sequence

Protein sequence (LotjaGi2g1v0325400.5) extracted from Lotus japonicus Gifu v1.2 Proteins.

MEAFSGLWEFVKLSAASGVMLCVENWYCRVLIVMTGNLQNAEIAVDALSICMSINGLEMMIPLSFFAATGVRVANELGAG NGKGAKFATKVSVVTSSIIGLFFWMLILIFHDKIGYIFTTSKPVLDEVNKLSLLLAFTILLNSIQPVLSGVAVGSGWQSY VAYINLGCYYLVGVPLGLIMGWVFNQGVMGIWAGMIFGGTALQTLILGVITIRCNWDREAEKAKLHLTKWSDPKRELN

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	PTHR11206 View details on PTHR11206 Search for proteins/transripts with this domain View external data on PTHR11206	1	234	234	2.3E-124	–
Phobius	CYTOPLASMIC_DOMAIN View details on CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	1	90	90	-	–
PANTHER	PTHR11206:SF194 View details on PTHR11206:SF194 Search for proteins/transripts with this domain View external data on PTHR11206:SF194	1	234	234	2.3E-124	–
Pfam	PF01554 View details on PF01554 Search for proteins/transripts with this domain View external data on PF01554	18	178	161	2.2E-28	IPR002528 Show description in modal box View details on IPR002528 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	91	111	21	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	91	110	20	-	–
Phobius	NON_CYTOPLASMIC_DOMAIN View details on NON_CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	112	130	19	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	131	153	23	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	133	155	23	-	–
Phobius	CYTOPLASMIC_DOMAIN View details on CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	154	159	6	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	160	184	25	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	162	184	23	-	–
Phobius	NON_CYTOPLASMIC_DOMAIN View details on NON_CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	185	189	5	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	188	210	23	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	190	212	23	-	–
Phobius	CYTOPLASMIC_DOMAIN View details on CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	213	238	26	-	–

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

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Expression data

Expression pattern

Expression pattern of LotjaGi2g1v0325400.5, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi2g1v0325400.5