Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi1g1v0651400
Transcript ID	LotjaGi1g1v0651400.1
Related isoforms 1	LotjaGi1g1v0651400.2
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\|A0A0L9U771\|A0A0L9U771_PHAAN Protein DETOXIFICATION; Found in the gene: LotjaGi1g1v0651400
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr1:121029692..121040887) extracted from Lotus japonicus Gifu genome v1.2.

TAAGGGTAGTTCAAAAAGGAGTTAGAAATACGGAACTAGTCTACATTTTAGATCAATGCGAAGCCAAACTTATGGAGCTC ACAAGTTAAGATTCTAAGGACTCTAGCCCAAATACGGAAATATTTTCAAAAATCAACGTCCAAGTTGCTCAAATCAAGCC AAGCCAACCATAATTAGAGTTGTTTCAAGGTATGTACAGTTCGAGGTGAGTCATGGTCAAGGACACGATGCCATGTTTAA AATTAAGAACTCACCCAAGACTAGAGTCACTTTCATAGATTGGAGCCATTAGCCTACATCTAGAGCAGTTATGGGGCTCG AGGATACATCTAGCAAATTCGAGACACTTGTGAGGACTTCGAAGCATCATACCCATGTCGGAGCTTCATGGTCAGGCCAA ATGAATGATAGATTAGACAAATTTTCCTTGCTTTATTTCCATTTGTAGGATGAGAATAGCAGTTATCTTGTACATCTATA AATAGGAGTTTGTAATTCTTGACAAGGGTTGCACATCTTACAACTCGACACTCTAAAACGCCTATGTCTAATGTTACAAC ACACGGCCACAAGTAAATAAGATCTTGTTCCCTTTTCTTCAGCTTTCTTTCAATTAAATTTCAGTTTATTTCTTCACTTT GCAAGTTTTTCTTAACTTTTGTTCACTTTTTATTTCTTTAACATCAACACTCCTTGAAGTGTTGAATTTTAACTTGTCAC GTTTTGATCTTTATTCATCGGAATATTGATTCTTCAAGTTATCACCGGATAGCTTGAATTATGTTCTTTTTTTGTAATTT GAGTACTACAACACATTTTGAAATCACACAGATGAAAAGTTTCATATGATGAAAAGTTTCATATGTGGAGGACCTTATCC AAGTCCCCAAATTGCTTTTTGGATACTTTTATTTTCCTGTGTTATTTTCACGAATAAACAAATTGACATGCCCAGAGAGA TATTTTTCAAAGTAATCTCAGTTAATGCATTCGAGAAGTAGAAATTACACTTCAATAACCAATGTAAAAAGAACCAGAAG CTCTTCAAGCTCTGAAAATGTAGGTAGTATTGAGCATAGCCTTGAACATCCTCGAGGGACAACTGCCTCAAAACAGTTAC CTCCTCTAAATGTGGACGTGATGCCCCCGGCCCCCGAGACACTACCACGACCCACGTCTCCAATTGTTAGTCAGATCGTG TGCAACACACCTTAGAACATGTAGGTTAATTCGAGCCAAAGACTCGAGACTCGAGAAATGCCTATATACATGCCCTCAGA GGTACCCCTACGGCTTTCTACTCGAATTCTTTGTTTTTTAATGTCCCAAGTAGGAGAATGCCTCAAGCGATCTATTAGAA CCTTATTATGACCACAATGGTCATACCTACCGTGGGAAAAGTTCCTTGGAACATGAGGCATGCCAATCATGGCCAAATTC AGGACATTATGATGGATTCGACTATGCCTTTAGAACACAAACCTTCAAATGCAATTTCAAACACTACCCTCCATTCAACT CATTTCTAATAAAACAAAAGTACACCAATCAATTCCAAATAGAAAATAAATTCTAACATATATATGTTATCCGAATTGTC CATAACTTTTATTAATTTCTTTTCATATAAAAATGGCTCTAGACTTGCTGAAAAGTAATACCAACAAACTGTATCACTTC TTTTTCTGGATGTCTGCAAATTAAAAAGGATAAAAATAATTTAAATCACCAGTTAGATCAATACATGCTTTTATATTTAG CAGCTCCATTGTAGTGGTGGAAATGGGAAAGGAACAAAAGGAGAACATTTTGCAGGACCAAAACTATTCAGAGGAGAGTG TTGATCAAGAGGAAGAGTCACTAAGGAAAAGGACATGGAAAGAAAGCAAGAAGATGTGGATGGTAGCAGGCCCGGCCATA TTCACAAGGTTTTCAACCTTTGGAATACTTGTAGTTAGTCAATCCTTCATTGGACATATTGGCTCTACTGAACTAGCTGC CTATGCCCTTGTCCAAACAGTCCTAGTCCGGTTTGCAAATGGTGTATTGGTAAGTTTTGGATCAGTTAATTTTTCCTTCG TATCAATTGTGACACACAGAAGTTACGCACATATGCTTCTTCTTAGAATTGATTTTGCCTTCTAAAGCAGACAGGCTTGC TGCGCGTTTTGATGAAGATGTTGCGCGTGTTTGCGTCTAATGCAGGAGCAATTAATTAGGAAGTTATTATTTTTAGTATT TTTAAATCAATTTAGGATTTATTATGTTTTTTTAATTAAGTTAGAATCTTTATGATCTTACTTATTTTTGGTTAGGAACT TATTTATTTTCTATTTGGATCTTTCATTTTTAATTAAAATCTTTTAGGATATTATTTATTTTTCTGTTAGGATATTTTCT TTTCATATTTAAGGACTTGTAAGGCATAGCCTATTGGAGATTATTATTGACAATCAAAAAAATGAGAATTTTCTCAAATC CTGGTGGATTCCGGTTTTCTGTTACTTAGGGTTTTGTGTTTGCAAACCCTTGTGCGTTCCGCTGTGTCAAGTGGTAACTA GAGCAGGCAATATCCTGTCTTTTTGCAACCTGATCAATGGCAGACGAACAACCAGCAAGTAAGGGCGATATGGAGAGGGT CGCCACCTCCATAGAAGCACTCACGCAACAGATGGGGGCGCTGGGTAATTCAATGAATACCTTGGTGAACCTTATGACGA CACGAGTACAGGACGAACCTCAGAGGAGAATCCCACGTCCAGGCAACAATAACCATACTTCCGCCACGGAGGATTCTAGT TCTGACGAAGAGGTATTCGCAGAGGAAGAAGCCAGCGAACAGGGAGGCAGAAACAACCATGATTATCGTATTAAAGCAGA TATTCCATTCTTTTATGGAAACATGACCGTAGAGGAGTTCATGGATTGGCAGATTAGCGTCGATCGTTTCTTCGACATCA TGGATATCCCTGAGAACAAACAGGTGAAGATGGTGGCCATCAAGTTGAAGAGCACTGCTGCTGTATGGTGGGATAGATTG GTTGCTCAGAGGCAGCGACAGGGGAAATCAGCAGTTAGATCATGGCGCAGGATGAAGCAATTAATGACAGAAAGTTTTTT GCCAAAAAATTATGAGCAAATTCTGTACAAAAAATACATTGATTGCGAGCAGGGCAAGCAAAGTGTAGCAGAATACACCA CTGATTTCGTACGCCTCTCTGAGCGTAACGAATTGACCGAGTCTGAACCCTAGAAGGTGGCACGTTTCATGAGCGGGTTG AAAGGTTCCTTGCAGGCCAAGATGGGTCTGCAGAAAGTGTGGACTGTGGCCGAAGCCTCTAATTTGGCACAGAAGGCTGA GTTGCTGGAGGGATTTCTCCTTTTTTCACAACAGATTTTCCCCTCTGAGAAATTTTGATACAGCAGGTGCAGGTGATAAA GAGAAGAGTCCAGCCGCGAAAGATTCTGGCAACTCAAGCGGCGTGTAGCCCAACAAAGCGCCGAACCAGAAATCAGCCAA CCCCTATACGAAGCCAACCGGGGACAAGTGTTACCGATGTGGTGGACAGGGTCATCGCTCCAATATTTGTCCTTCGAGGA GGACTACTGCCGCCATTATGTATGATGACATTGACGGGGAAGAGGAAGATAATGAGCTTGCAGGGGCTGACTTTGCTGAA GAGGAGTCCGGAGATAGAGTCAACTTTGTGCTCCAACGAATTTTACAGTCATCCAAGGACGACAGCCAAAGGAAGAATTT ATTCCGTGCTCACTGTTCTATCAAGAACAAAGTATGTAACCTGATCCTGGATAATGGCAGCACTGAAAATCTGGTTTCTC AAAACCTGGTGGATTACTTGAATCTGTCAACTGAACCTCATGACAAACCATACACCCTGGGATGGGTGAACAAAGGCACA TAAGTGAAGGTTTCCAGGATGTGCAAGGTACCAATCTCCATGGGAAAGCATTACCAAGAGGAGGTGCTGTGTGATATCTT GAGCATGGATGTTTGTCACGTGTTACTAGGACGTCCCTGACAGTATGACAAAGACATTACCTACAGAGGAAAGGCTAATG TGACGCTGTTCAATTGGGGTGATCACAAGATTGCCATAGCTTCTGTTCTGCATTTCAATCAGAGTTCAGAAGAGAAAAAG ACTAACTTCCTAATGCTGAATGGGAAGGATTTTGATGGCGCGGTGAAAGAAATTAAATATTTCTGCGCAGTTGTGATAAA AGGCGTGTTGAATGCTGTGAAGGAGGAGGAGACAATCCCAGCAGAGGTACTAGAAGTGTTGGAGGATTTCAAGGAGCTAA CTGCAGAGGAGCTGCCTAATGAGCTGCCTCCCATGCTCGACATCCAGCACCAAATAGACCTGATTCCAGGTGTTGTCCTG CCAAACCTTCCCCATTACCGCATGAGTCCCAAGGAGAATGAGATCTTGAGGGAGCAGATTGAAGATTTGTTGAAGAAAGG CTTTATTCGTGCCAGCATGAGCCCTTGTGCTATACCTGTGCTCCTTGTCCCTAAGAAAGGAGGTCAGTGGCAAATGTGTG TGGATAGTAGAGTCATCAACAAGATCACCATCAAGTATCGCTTCCCATCCCCCGCTTGGAAGACATGCTTGATGAGCTGG CTGGTTCTAAGGTGTTTACCAAAATAGATCCGCGCAGTGGCTACCATCAGATCAGAATCAGACCTGGAGATGAGTGGAAG ACAACTTTCATGAGCAAAGAGGGTCTTTATGAATGGCTGGTGATGCCTTTCGGGTTGTCAAACGCCCCTAGCACTTTTAT GCGGCTGATGAACCAGGTTCTTCGTCCCTTCATTGGTTCTTTCGTTGTAGTTTATTTTGATGATATTCTGATTTACAGTA AAACAAAGAAAGAGCATTTAGAGCATGTGAAGCAGGTTTTGCAAGTCTTACAGGAGAACCAGCTGTACATTAATCTAAAA AAAAATGTACGTTCAGCAGCGACAAATTGCTTTTTCTAGGCTTCATTGTTGGAGCTGAGGGGATCCATGTTGATGAAGAG AAAATTCGTGCAATCAGAGATTGACCCACACCCAATTCAGTGACTGAAGTCCGCAGCTTTCATGGATTGGCTACCTTCTA CAGGAGATTCTCCAAGATGACACATTTCATTGCCTGCAAGAAGACTGCTGATGCAAGCAACATAGCCAAATTGTTTTTCA AGGAGGTGGTGAGCCTTCATGGTGTTCCCATGACGATTACCTCAGACAGGGATACCAAATTTCTCAGCCACTTTTGGATC ACTCTTTGGAGGATGTTTGACACGCAGTTAAATCGCAGTTCTACTGCTCATCCGTAGACTGATGGCAAAACTGAAGTCAC CAACAGGATCTTGGGGAATATGATTCGGAGCATATGTGGTGATAAGCCAAAACAATGGGATGTGGCACTTTCTCAGGTGG AGTTCGCTTATAACAGTGTTGTACACTCAGCTATCGGAAGGTCCCATTTTTCTGTAGTTTATACTGCTGTTCCAAGGCAT GTGGTGGATTTACTAAAGCTTCCTAAGGCACCAGGCGTTAGTGCATCAGCTGAGACCATGGCCAAGTAGGTTGTTGCTAT TAAGGAATCTGTGAAGGCTAGCATAGAGGCTGCTGGGAAGAGGAACAAGGCTGCTGCTGATAAACACCGGAGGGCTAAGG TCTTCAATGAGGGAGATGATGTTATGGTGTTTTTGCGCAAGGAGCGGTTCCCAGTAGGTACTTACAACAAGCTGCAGGCG CGCAAGTACGGGCCATTCAAGGTGACTCGGAAGATCAATGATAATGCTTATGTGGTGGATCTCCCGGATCATATGAATAT CTCTAAAACTTTCAATGTGGCTGATATTCACGAGTACCAGGCAGACAAGGCTCTTTATCAAGAAGAGAACTCGGGGTCGA GTTATTTACAGGAAGAGGAGACTGACGCAGATAGGCTTGCTTTGCGTTTTGATGAAGATGTTGCGCGTGTTTCCGTCTAA TGCAGGAGCAATTAATTAGGAAGTTATTATTTTTAGTATTTTTAAATAAATTTAGGATTTATTATGTTTTTTTAATTAAG TTAGAATCTTTATGATCTTACTTATTTTTGGTTATGAACTTATTTATTTTCAATTAGGATCTTTTATTTTTAATTAGGAT CTTTTAGGATATTATTTATTTTTCTGTTAGGATATTTTCTTTTCCTATTTAAGGACTTGTAAGGCAGAGCCTATTGGAGA TTATTATTGACAATCAAAAAAACGAGAATTTTCTCAAATCCGGGTGGATTCCGGTTTTCTGTTACTTAGGGTTTTGTGTT TGCAAACTCTTGTGCGTTCCGCTGTGTCACCTTCAGAATCCAATTGTAGAAGGATTACAATTTACATGCTGTTAACATAA TTGCAAATTGAAAATAGTAGCTGGGCATGGCAAGTGCACTGGAAACTCTATGTGGGCAAGCATATGGGGCCAAAAGATAT GACATGCTTAGAGTGTATCTTCAAAGATCATGGATAGTCTTGTTCTTAACCTCAATCTTTCTTCTTCCTATTTATATTTT CACAACCCCAATTTTAGAGGCTCTAGGCCAGGACAAAAAAATTGCTCAAGTTGCTGGAAGCATTTCTCTCTGGGCAATAG GTATCATCTTTGCTTTCTCTGTGTCATTCACTTGCCAAATGTTCCTACAAGCACAGAGCCAGAACAAGATCATTGCCTAC CTAGCAGCAATTTCAATTTCAATTCACCTTTTTCTGTCATGGCTTCTAACTGTGAAGTTCAAGTGCTTCATAATTAATTG AGGAGGAAAAAAGTTGATCCAAACATGTTATATAACTCGTGATTGACTATTTCCAAACTAGGATCTCATCTTTGCAATAA TGTGAAAGAAACAATATGCCAATTAGTGATTAGGAAATGGACAATATTTATGTAATGGAAGAGATGTAAGACTAACATAA AGCAATGGTTCCTTTTACAGTCTTGAGATCTGGTACAACACAGTTTTAATTCTTCTAACAGGGAACATGAAAAATGCTGA GGTTTCCATTGATGCTCTGGCCATATGGTAATTATATTTCATTCTGTTTTGTTTTATTAATTTGGACTATTTACTATATT TCTCATTCTTACATTTATTTTCGCTTCTATATATATTTTGTATGAATTAAGGGGTATGATCCACCAGCTTCTTCATAATA AAATGGATTTAATAGAAGGTATTACTTTTGCAGCCTCAACATTAATGGGTGGGAGATGATGATAGCCCTTGGTTTCTTTG CAGCTGCCGGGTAATTTGTTGTTATCACAATATCACTTTTCTTCAGAATATGTCTTCTTTAGGGGTGGGGTGAGGGAGAA TAAATGTTGTGATTTTGTGCGCACAAAAAAAAAAAAACAATACCGTGAAAAAACATTAACATTTCTTATAACCGTTATGT ATTTGTAGTTATGACATTTTCCAAATTAAAAAACAATATTCAAAGAGCATGTTTTAAAAAATAAGATATATTAAATAATA CAAATAAGAGGGGATGAATCTTAGGGGAAAGTTGTTCTTATATGAGAATTGTTTATGATAGTTAAGTCTAATAATTAATA ATTAAAATTAAAATCTTAAGAGATGCAATTTTAAAAAAAAAATCACTTAACATAGTGGACATGTAACCATTAATTATTTT TTAATATTAAATCATTTATAATTATCTAACGATCTCCTCATTGTTTTTAATCACATTCTTCTTTTTTTTTTGTTACAAAT GAGGGGAAAAGAGAACCCGAGGAAGACAAAAAGGAAATTACCCTAGGCCTAAGCGAGGGCCAGACTCAGGATGCCATTCC ATCCTGCAAAGGGACATCGAAAAGATTCTAATAACAAAGAAACGTATAATTATCATTTCTAATTCTCATTCTTTAATTCT CAAATAAGGACGACATTTAAGGGCCCCACTTCCTTAATGTCTTTTCGTCCCTTTCATTAATTCTTTTTAAGATAACTTTT TTTTTTCTTTTACCCCAATTCTTAAGTGTCTACAAGATTTTATGAAAATCAAGATGAATCGCAAATTAAGAGTGAATGAA ACTTTTGTTGTTTATTTGTCAAGGTATATTTTTAAAGTCGATAGCTATGAAATTAATCCTCTAAAGCTCAAAACTCAAAT TAAATGAATAGTGTGGGTAGGTACTTTTTTTCTTAGTTTGGAAATGAATAGAGTGGATGAAACTTTATGCATAAAAACTA TATATAGGAATGGAATCAAAATTATTATCTATCTAAGTTTTATATTTTAAAATATTAAATTATTGAAAAAACAAATTCAT TTATAGACACATAGGTGTGTGGATAATTAAAAATAATTTTATCGTTTTAACTATATTGGACCCCACCTCAAGACAAGGAG TATGATTGCTATGATCCTCAAATATTCTTTGGATGCTTTTTTAATCGACACATTCTTCAAACTTTATCCCTAATACTTTG TGTACACCTATTATAACAATCACAAAGTAGTAAAATATTGATTGGGTGTTACTAATTTTATGCAGTGTCCGAGTTTCAAA TGAGCTTGGAAGAGGGGATTCAAAGGCTGCAAAATTTTCCATTCTAATAACAGTTCTCACATCATTTTCCATTGGTTTGG TGTTATTCTTTGTGTTTCTGTTTTTGAGGGAAAGACTTGCTTATGTTTTCACTCTAGACTCAGAGGTAGCTGAAGCAGTT GGGGATTTATCACCTTTATTGTCAATCTCCATATTGTTGAACAGTGTCCAACCTGTTCTCTCTGGTAATTATTATTATTA TTTATTTATTTTTTAATAATTTCTTTTATTCATTTGATCAAAAAAAGTGAAACATTTGGTCTGAAACTGTAAACTCAAGT GAATTTGATTTTTATATGAAAGGTTGTAGAACTAAAACTCGAACATGAAGTGCAAATGATCTTACAATTATTTTTGTTCT AAGATTATTATTCATATATTAAGATCAAACCTATGGCTAGTTCTTAATTTATGCATGGACTACTGACCAAGAATGTTGTT AAATATTATAGGGGTTTCTGTTGGAGCTGGATGGCAAAGCGTTGTAGCATATGTAAACATAGGCTGTTATTACCTCATTG GTATTCCGGTTGGAGTGGTGCTGGGTAACCTTATCCATTTGCAAGAAAAGGTAATTCATTTGTAATTACATAGATGCTTG TTCCAACCTTACTTTACACCATAGACTTTTATATTTTCACCCTAGCTTTCTTTTATATAAGATTTTTATTTGGATTAAAG GTGTGTATTGTCAGACACATTCAATTGAATTTCACAAAATCATAAAATATATTTTTATTATAAAATTTTAAATGAATGTA ACTTTTTTTTTCTTATATGACATATTATATTGTGATTGATTATCGGTGTAAAATTATTTTACACTAATAATAAATCACAA TTAAAGTTGTATACTCACTCTTTCTTTGTATTTTTTTATTTTATAATATCACATATTATATATATCACACTTTTATTTCT ATTTCTATGAAGATGTGGATGGTTAGAATTTTATTTATCAATTATTTTTTGTTATACAATTGTGAAGAATAATTTAGGTA TATGAAAAATAATCCTTTCATTCCTTAATTCCTCACAAGCTAAGAGTGAGATAGAATTAGAAAAGAAAGAACTGAGAAAA ATGAGATATAATGAACAATGGATGGGATAGAAATAAAGAGATAAGAAAAAGTGAAAATAGATGAATAGAGAGTGAATATG AATATATTAAAACTAAACATTTATCATTAATGATATATTTACTGAATAATGATTTATACACACCGTATTTCTCTTACATC TCATTTCTACACATTTTTTTTCCTCATATCTCTCTGCATTTTCTGTCACATCACATATCACATCACTTATTTCTCTCTCA TTTCTTCACTACCTTCCAAGGTGGAATTAATTGGTGAACAAAACATTATTGATTTACATGCGTAAGCTTTATATTATTTT TCATTTTATTTAATGAAGTTGGTGAAACATAATTTGTATAACTTCACAATTGCATACATGTTCCTTCCCATATTATGTCT TTATTAAAAGGAGACAAGTGTCATATATGTGCCACTTTTGATGCAGGGTGTTTGGATTGGAATGTTGTTTGGAACATTTG TTCAAACCGTAATGCTAATTACAATCACACTTAAAACAGATTGGGAAAATCAGGTAATTCATACTATTCTGTTGGATTTT TTATTATGAAATTGATTATGAGTTTAGGAAAAGTAACAAAAAGTTACATATGATGTTTCAGGTAGTGATAGCTCGAAATC GTGTTAACAAATGGGCTGTCAAGGAGAACACAGAGCCAAATAGTGGATCACCCATTTCTAGTTAAATAGTACATCTAGCA TATATATGAATAATTTGTATAATACAAATTTCTAATTTGATTTGGATATTGATCGATTTCTCCAATTATTTAAATTTTCT TTACATAGACAACTAGATATAATATTCATGCACAACCTTTTCAAAAATCAACCAATCCAGAAAAACACCCACAAAGGAAG AAGAAACGCAACCCCAAAACCAAAATTTAGAAAATAAACAGAGGAGTATTAAATATTAACGATTAATGTGGAGGAATGAA AGATAATGGTGATGAAGACACCACCCTGCACACTTGTGACTTGTCTCCTCTCTTTCTCTCCATCCTCTGTATAAATAAAC ACCCTCAGCAGCTTGGAGGTGGAGTATATTTCCCTCTTGCCATTCCAAACCTCTTCTGTTCAGTTTCAAGAGTTAGGAGC TCCAATTTCTCTCTAGAGAAGCTCTTCACTTTCACCTTCTTTCCTTCTCTCATCTTTGAAATTTTCTATTCAATCCTCAC TAATTTTTGTCCAAACGTGTTTCGGGGTGTGAGAGGAGTGATTCTGGAAAGTTTGGTGAGATCCTGGGTAGTTTTAGGCC ATTTCTGGGTTTCACCTTCATCATCTTCATTGTGTTCTTGAGCACCGTCGTGGGTTTAACCTCTGTAGAAAGCTTTAAGA ACCCATAACTGGATGCAAAGCTAAGGAAAAGAGAAACTCAAATTTGTCTCTTTTAATCATGAAAATGAAGAAAGAACATG AGTTCTGGCCTTGAGTTTGCTGGAACTATGTTGTATAATTTAATTAAAAGTCTTTTAATCTAGAAAACATGAAGGC

Download Genomic Sequence

CDS sequence (LotjaGi1g1v0651400.1) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGGTGTATTGTCTTGAGATCTGGTACAACACAGTTTTAATTCTTCTAACAGGGAACATGAAAAATGCTGAGGTTTCCAT TGATGCTCTGGCCATATGCCTCAACATTAATGGGTGGGAGATGATGATAGCCCTTGGTTTCTTTGCAGCTGCCGGTGTCC GAGTTTCAAATGAGCTTGGAAGAGGGGATTCAAAGGCTGCAAAATTTTCCATTCTAATAACAGTTCTCACATCATTTTCC ATTGGTTTGGTGTTATTCTTTGTGTTTCTGTTTTTGAGGGAAAGACTTGCTTATGTTTTCACTCTAGACTCAGAGGTAGC TGAAGCAGTTGGGGATTTATCACCTTTATTGTCAATCTCCATATTGTTGAACAGTGTCCAACCTGTTCTCTCTGGGGTTT CTGTTGGAGCTGGATGGCAAAGCGTTGTAGCATATGTAAACATAGGCTGTTATTACCTCATTGGTATTCCGGTTGGAGTG GTGCTGGGTAACCTTATCCATTTGCAAGAAAAGGGTGTTTGGATTGGAATGTTGTTTGGAACATTTGTTCAAACCGTAAT GCTAATTACAATCACACTTAAAACAGATTGGGAAAATCAGGTAGTGATAGCTCGAAATCGTGTTAACAAATGGGCTGTCA AGGAGAACACAGAGCCAAATAGTGGATCACCCATTTCTAGTTAA

Download CDS Sequence

Protein sequence (LotjaGi1g1v0651400.1) extracted from Lotus japonicus Gifu v1.2 Proteins.

MVYCLEIWYNTVLILLTGNMKNAEVSIDALAICLNINGWEMMIALGFFAAAGVRVSNELGRGDSKAAKFSILITVLTSFS IGLVLFFVFLFLRERLAYVFTLDSEVAEAVGDLSPLLSISILLNSVQPVLSGVSVGAGWQSVVAYVNIGCYYLIGIPVGV VLGNLIHLQEKGVWIGMLFGTFVQTVMLITITLKTDWENQVVIARNRVNKWAVKENTEPNSGSPISS

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	NON_CYTOPLASMIC_DOMAIN View details on NON_CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	1	28	28	-	–
Pfam	PF01554 View details on PF01554 Search for proteins/transripts with this domain View external data on PF01554	2	160	159	1.9E-26	IPR002528 Show description in modal box View details on IPR002528 Search for proteins/transripts with this domain View on EBI InterPro Service
PANTHER	PTHR11206 View details on PTHR11206 Search for proteins/transripts with this domain View external data on PTHR11206	2	217	216	1.4E-119	–
PANTHER	PTHR11206:SF335 View details on PTHR11206:SF335 Search for proteins/transripts with this domain View external data on PTHR11206:SF335	2	217	216	1.4E-119	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	27	49	23	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	29	50	22	-	–
Phobius	CYTOPLASMIC_DOMAIN View details on CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	51	70	20	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	69	91	23	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	71	93	23	-	–
Phobius	NON_CYTOPLASMIC_DOMAIN View details on NON_CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	94	112	19	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	113	130	18	-	–
Phobius	CYTOPLASMIC_DOMAIN View details on CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	131	141	11	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	142	166	25	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	143	165	23	-	–
Phobius	NON_CYTOPLASMIC_DOMAIN View details on NON_CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	167	171	5	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	172	193	22	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	172	191	20	-	–
Phobius	CYTOPLASMIC_DOMAIN View details on CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	194	227	34	-	–

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 LotjaGi1g1v0651400.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi1g1v0651400.1