Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi2g1v0094500
Transcript ID	LotjaGi2g1v0094500.1
Related isoforms 2	LotjaGi2g1v0094500.2 LotjaGi2g1v0094500.3
Lotus japonicus genome version	Gifu v1.2
Description	Protein DETOXIFICATION; TAIR: AT1G71870.1 MATE efflux family protein; Swiss-Prot: sp\|Q9LE20\|DTX54_ARATH Protein DETOXIFICATION 54; TrEMBL-Plants: tr\|A0A0S3T9F8\|A0A0S3T9F8_PHAAN Protein DETOXIFICATION; Found in the gene: LotjaGi2g1v0094500
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr2:31012986..31022582) extracted from Lotus japonicus Gifu genome v1.2.

GCACAGAAGAAAAATGAGTGTTCCAAAATATATCTACTTTCGGTAGAAAGATGATTCATGTAAAAATAATAACCCACCTC CTCCTCTCAAGCTCCAAATCCAACCGACCCGAATCTTTCTCTACCGTTTTGCCTTTTCGCTCTCTGTATTGATCACTCAC TATTACCAAAAAAAACTCTCTTTTGCTGCTGCTACAATTATGATAAAGTTTTAAATCCCCTTGTCTCTCCCTGTCCCCCA CTTATCACAGTTCACACCTTTCCTCTTCCTTTTATTTCTTTCTCTCCACTCCTACCTAGACCTCTCTATTACGCCGCCAC TACCAAGTTTCTAGCTTTTTGCTTGATATTCCCCCTTCCATTTCCCTCTTTTCCCATAGGGTAACACATCATGGAAGACT TCTATTACTACTATTATTAGCTACTATCAGTATTCCTGCTTGGCTTTTTAGTTTTTTTGTGCTTACTCAAAACATTCTTC AGGTTTTTCAACTTCTTCTTAAAATGCCCTGTTTTCCCTCATAGCCTTGTATTTCTTGTCACACATCCTTTGTGTCACTC CTTTTCAGTGTTAGCAAGAGAGGGTAGAAGAAAAAGGTTTGTTTTAGCATACCTTTTACTTTCTTTTTTCATTTTGCTGC TTGCTTTTTTGGGTAGTATAGAATAAAAGTCTTATCATCTTCCTCACTGTTTGATTCACTACTTTTTTTCTGTTTGCAGA GTGATCAAGAAAAATGGGAGATCATTCAGAGCAGGACTACTTATCCAACAAATTCCCAACAACCTCTCAGGTTATCCCTT TGCATAATCTCATTTTAACAATCTTTTAAGTGTATCTTTGAAACTCATTCAAAAATCACAGTAAAATTAATATCACATTT CTCATAAGCAAATTTCACTAGCTTTTGTTTCTGCTTGCTTCTGTCCACATTTGATTTTAGCTTTATCGCGACTAAAACTA AAATTATGATGGACAGAAACAACTTTCATTAACTTGTACCTCTGTTTACCGTGATTTTGACTTCACGACCGAGTTCCATA TTCTCACCTAGCTCTGTTTTAACTTGTGCTGGGTTTGTTCTAAATGTGTCCAGGTTGTGGAAGAATTGAAGGAACTATGG AGCATGGCCTTACCAATCACAGCCATGAACTGGTTGGTCTTTGTGAGAGCAGTTGTTTCAGTCCTCTTCCTCGGAAGACT CGGAAGCTTGGAGCTAGCAGGTGGAGCACTCTCCATAGGCTTCACCAACATCACAGGCTACTCTGTCCTCGTGGGTCTCG CATCAGGTCTCGAACCTGTATGCTCTCAAGCATTCGGAAGCAAAAACTGGGAACTCCTCTCACTTTCTCTGCAGCGAATG GTTCTCATCCTCCTTGTCGCAACGCTCCCCATAAGCCTCCTCTGGCTGAATCTGGAGCGAATCATGCTTTTCATGGGTCA GGATAGTGGAATCACGCGAATGGCGGCGGTTTACTGTTTCTACTCTCTGCCTGACCTTTTGACTAACACGTTGCTGCAGC CGTTAAGGGTGTTTCTGCGGTCGCAGAAAGTGACGACGCCGATGATGTACTGTTCGTTTGTGGCGGTGGTGTTCCATGTG CCGTTGAATTATTTGTTTGTGGTGGTGATGGGGCTGGGGGTGCCGGGTGTGGCGGTGGCGTCGGTGATGACTAATATGAA TATGGTGGTGCTGATGGCGGGGTATGTGGGGGTGTGGAGGAGGAAGGAGATGGTGTTGAGGTGGGGTTGGGGTGGTGGTG GTGGTGGTGGAGTGGGGGATTTTGGTGGTGTTGGGATGGGGCAGTTGATGAAGTTGGCTGTGCCTAGTTGTTTGATGATT TGTTTGGAGTGGTGGTGGTATGAGATTGTGACGGTGATGGCTGGGTACTTGGAGAATCCAACGCTGGCGGTTGCGGCTAC TGGGATTTTGATTCAGACTACTAGCATGATGTACACTGTCCCCATGGCACTTGCTGGCTGTGTTTCTGCCAGGGTACGTC TGTCTTCATTCCTTTCAATGAAGTTTTGTTCACATCACACTTAGAAATATATGAAAAAAAATTAAAAATAAGAAATATAA TGAATGATGCCATAGAAGTAATAGTAGAAGTGAGTGTTTATTTATCTTTCTCTTTTTTCTTTCTCCCTCATTTTTATCTT CTTTTTTCTTTCTCCCACATACACCAATCATGATAAATATACCAATAATTATTTATTCACACCTCAAAATGAGGTGGAAT GAGGTGGAGGAAGAGAAAGATAGGAAGAAAAGAAAAAGTAAGAGAGATAAAGTATAAGATGTGATAGATGATAAGAGGAG AGAGATAGAAATAAAAATTGGTAGAAATAAAGTGTATAAAAAAAGAGGTGTGTATATGTCATTACCCCTAAATATACCAC ACTATAATTTTCATTTATCTTTCTCTTTTTTCTTTCTCCCTCATTTTTATTTTGGTGGCTAAACATCTAATTGTGTGTAA CAAAAATTATTGTTAATATGGAGTATGTTTGGAAGCCTGTTCGGAAAATAGAATCAATTCTATGATAACACGTATTGGGA AGGAATTGAATTCACACTTGCCACAACATATAAATGATTTTGTAGTTAGCATAATCAATTTTGAGATTGTACAACTAAAC TTCGTAATATTATTCATAAGAATCACCATTTCATAAAGGCTATTAAAATTTTAGAGTACTAACGAATTGTATTCTTTTTT ATAAAATCTATCGGGTTATACGCTATCTGAGACTCCTTAATAAGAACCACCATAAGTCACATCATTTAACTCAAGTTTAT ATTTTGGTAGAATCCAATCTTTTAAAAAGTAATTTTAGTTAAAAATAAGATTATAGCACATCTTTCAACAATAACAAAAA AAAAGTGGGTAAGTGGGTCTGTATGTCTTATTTTCCATTTTCATTTTTTCTATCCTTAAACCAAACGGAGGAATGATCTT GATTTATGTGCTTTCCTTATATTAACTTCGTTTCTGTTCTCCTTCCCTCAAACCAAACACAACCTTACTTTTCTCTTCAA ATTCTTATTTTTTGTCATATTTGTCAGGTGTTTATTACTAGTTATTTGCCATACATATAAAAATCTTGATTTCTTGCTTT CCTTCTATTAACTTCCATTCTACTCTCCTTCCCTCAAACCAAACACAACCTTACTCTTCAATTCTTATACTTTGTCCTAT TTGTTAGATGTTTATTAGTTATTTGCCACTCATAAAAAAAGGAGGAGAGAGAAAGAATAGAAAAGAGGAACTAAATAATA TGATGCCATGCCATGGGAAGAAAGAAATAGAGAGAATTGATGGAGATGAGGTTGGGAAACCGTGCATCTGGACAAAAGCT GTAATAACTTCTCCAGTTACCAAAACACCTATTTTACCTATGATGGCTTCTGTTTAATTATTATCATGGCTCTTTATCTG AGAGTCTCAGTTTTTAATAGTTTCTTCAATTGGGTTTTGTTGGGGTGTGATGGGATGGGAGAAAGAGATAGAGAGACTTG AGAGACAAATGGAGTGGCTTGGTTGGTCTATTCTTAATCCCTTTTATGTTCTCTGACTGTGACTATAGGCTACATGTTAC AATTTTTAAGCAGAAAGCAACTATATATTTTTGGCAATTTTAGCTTCTCAAGTATGGTTGGTTTCTAAGAGCAACTCCAA CCCCAAAATTCTTATTTGGTTTCTTAACACACTATTCAGCACTATTCAGCACTATTTCTGTGGGCCCTGTCTGCCACATC AGACTTAAGAAACTCCTAAGAAACTGAAGCAGATTTTGCTCCAACCCATGGTTTCTTAAATTACTATTTGAAGGGTCCCA CCCGTGTCCCACCATACAACATAAATTAATAATATTTATTTTCACCCAATTTAGATTTAAAATTTAATACTAAATCAATA CTTCAACTTAAAAATAATTTAATTAAAATTAATACGAATTTAATTTAAATTCCAACGGCTATATTCCACAACGGCTATAT TCCCCAACGGCTATATTCCCCAACGACTATATTCCCCAACGGCTATATTCTCCAACGGCTATATTCCACAACGGCTATAT TCCCCAACGGCTATATTCCACAACGGCTATATTCCTCAACGGCTATATTCCCCAACGGCTATATAGAACACATAAGTAGA AACGCAGTACACATTAAGAAAAATTCGAATACTGAAATTACAACACTGATGCAATACACATAAGTAGAAATGCTAAAATT ACAACACTGATGCAATACACATAAGTAGAAATGCTAAAATTACAACACTAATGCAGAATCAATAAGTAGAAATGCTAAAA TCACAACATTGGCACACGCTAAGAAAGACAACAACAAGAATTAAGACATTCCTAGTTCTTTCATGGCGAATTCAACTAGG CGCTGATGCGTTGCTAACTGCACCTCGTTCATTTGTGATGTGTCCTCCATAAGGATATCTTTGTATTCCTTCAATAACCG CGCCTTTTGAAGTTTGTTTTTTTCCTTTTTCACCTCCAGTTCTTCAGTCTTGAGCTTCTCAAAACTCGCAAGGAATCCCA GTTTAGCTTTCCCGATGGCTATCATCTCGGAGTTAGGAACATAATCGAGATCACTTGAAGCTGTGTCTCCTACTTTGGCC TTCCTTTTCTGGTTCTTTTTTCCCAACGGGCGGGTTGCTGGTTGTGTGGCCTCATATTCGTCGCCCTCGATTGATGCACT CCGGTCAGACGATGTTGCATACACCCCATCTACTGACTTCTTCTGCCTCGTTGAACTGGTTGTCATAAATGTTCCCTTCC ACTTTGGTTCATCCTTCACCAACCGCCATTCATTCTCATGTTTGAAATCTTTACCTGTATCTACATGATATAATTGATGC GCCGTAGCCATGATGTCCTTATCTGAGTGTCCACTTTTCCAATGATTGACGGCTTTAGTGTGGCAACCGACAAATTTTTG AAGATCAGCATTCAATTTATTAAAATGAGATTTCAGGGATAACCATGTCCTCGAAGGAGAGGCATCGTCGCGGTACTCCT CATATTGGGCTCGAATCTTATTCCAAAACAAATCTGACTTTTGCTCATTTCCCACGACCCGATCGGTAGAAACGTTGAGC CATGATTGAAGAAGAAGTATATTATCTTTACCACTCCATTTGGTGCGTTTCTTTCCGGATTCTTCAAGATCAATATCATC TAGACCCCGTTGAGTAGAAAATTCAGGCTCATCGGGCATAGCCTCACATTGTGTACTTGAGACTTTTGAACTACTGCTGC TACCAGTAGGAGGTGCTTGGTATTGTGGTGGATACATGCAATATTGTGGATTGTTTGGATAAGGCATTTGTGGTGGATAT GGTCCCATTTGACCCTGAGGTTGGTTTTGATGGTAGAACGATTGTGGAAACATTTGATACGAAGGATTTTGAACATTACC ACCGGTGTGAGGAGGTTGGTTTTGAGGGTGACACATCTGCGGATGTTGGCTTTGTGGTTGATACATTTGCGGATGTGGGT TTTGTTGTTGGAACATCGGCATAGGTTGGCTTTGCGGGCGAATCACCTGCGAATGTTGGTTTTGTTGTTGGAACACCATC ATAGGTTGGCTTTGCAGGTGAATCATCTGCGGAGGTTGGTTTTGTGGCGGAAACATAGGCGAAGGTTGCAAACCTTCACT TGTAGGAGGTGTTTCATTGTCGAGCAGTGGATAATATTGCTCATAAGGATTAGACATTGTGAGAAATTTGAGAATTTTTG GACAAGAGAGAAATTGTGGGAGTAAATGTTGGTGTTTCAAATGGTCTACTGCACTATATATAAGGTAAAGAATCTGAGAA TTGAAAAAACGGTCGGAGAATTGAAAAAACGGTCAGAAAACGGGCAGAAAAACCGGTCAAACCGGTCAATTTAAAAAAAT TCAAAAAAAAAAAAGCCCAAACGGGCAGAAAACCGGCACCAGCCGGTGGGATGACCGGCTCAGCCGGTCACCCACTATAT AATCTACTTTTCCTCCCTCACTCTCCATTCTACCCTAGCCGCTCCTCTCTTCTTCCTCTCTTCTCTCACGCAGCTTCTCC TTCGTCCTCTTCTTCTCCTTCGTCCTCTTCTTCTCCAACCTCACCAACCGATCACCTGCGTCCTCTTCTCCTTCGTCCTC TTCTTCTCCTTCGTCCTCTTCTCCTTCGTCCTCTTCTTCTCCTTCGTCCTCTTCTCCTTCGTCCTCTTCTTCTTCCTCAC CAAACCCTCCTCACCGCCACCTCACGGCCTCCTCACCCTCACCACCGCCACCTCACGGCCTCCTCACCCTCACCACCCTC CTCACCGCCACCTAACACCCACAACCTCAAACAAAACCCACCTCTCTGCCACCAAACACCCACAACCACAACCAAAACCA CCTCACCGCCACTGACCCGCCACCAAACAACCTTCACCGCCACCAAAACCGCCCCCTCACCGCAACCAAAACACACCCCA GCCGCCACCAAAGCTTCAATCTCGACCCAAATCGCCCCTCAAGCACTGGATCGGAGACATGCAAGCCTTCCTCAAGGGCC ACCCTCTGCCACCGCCACCAGATCAGAGAAAATGAGCGGATCGGAGCTCCTGTTCTTCCCTTTCAGCTTCTGTGTTTTTT TATTTTTTTTCTATGTAAAAAAATTTATCTTCTGTTGTAAATAAATTTGTACATCTTCTTTCTTCTAAAACATTTCATTA TAATTTTGTATTTATTTTATTGTTGAATAAAATTTCTGGAATTCTGGTTTAAGAGCAAGCACTGTGTTGATTTCCTTCAT TCTGTTTCGTTTCCCTCTGGATTCAGTTGAAGCAAGTGAGAGAAAATATTACTTTTTAATGTTAAGGAACCAAAAAGCAG AGTTCCTTGCACAAGGAACTCTGCACTGTAGTTAAGAAACTAAAACTGCCACATAGATCAGCTCCAATGCTGCAAAAAAT AAGAAACGGTTCCTTAGCAACTCCAACTGGTCTAAGAAACCAGCGTTGGAGTTGCTCTAAGTCAATAGTTGCAGCCTTGC AGGTTAAATCATAGATGGTAGTAAATAACTAATTATTGTATTGCTGCATTCAATTTTTCCCTAGTTTATTTGAGCTGTAT CCGGCACCAATAGAAGTAAACAAGAGATATATTATATATAGGTTACTTTTACTTAATTTTATCAAACTATTTCCACATTT TTTATAGAGACCATGAGTTATTAGTGGAAAAAGTAGTTATTTTTCTCTTTCTCTATCTGATTACATATATATCTAAATAC ACGTGTGGAGGTCATGTGCGTTTTTCTTCACATTTTTCACCCTGAATCTTTGATCTTTTTTCATTGCTTTCCATTTTTAT TCTTTTTGGGCAAAACGTGAACCCTTGGTCTGTGCTTAATTGCTGAGGTATAAATTTGTTGTATGATTGCATCAAGTACG TCTGGACCCACTAAGTTAGGTCACACTTGTAATGTGACTGGACAAAACTAGAACTAATTGATCACTTGTAAGTGCAATTC TGCTTGGCTTGCATATACAAACCCATCGTACATTTCCATTGGACCAAATAATTTAACCATCAAATCTCTAAAGAGATCCA CTATTGTCATGGGACCATTGCAACTAACTAACTATAGATCCATGATAGTATTATATTTCTGTTTGTATTGTGTTGCAGTC GTCTTGTATGAAACATTTTTCTGATTTGCAACTTGAACCTAGGAATGTTTACCACAAAGCATTTATAAATTATAACATGT TTGGATTATATTCTCTTTTCAGAAAATTCTTACATTGACCCATAAAAATTTCTTAGTACATATTTGCATAAATGGTGAGA ATTTAGGTGGGGATAAGCAACTACTCTGATTGTCCACTGTTATATTGAAACATTTTTGCTTGTTATTAAACATGCTCTAA GAAGCTTTAATGGCAGTTTTTGCATGTTATTAGAACTGATTTTGATTTTAAAATTAGTGCTTAGTGTTTAGTGCTTTTAC AGTTGATTTTAGAAAAAATTGGTTTTAGTAATAGTGAGTTGAGTGTGAAGTGATCAATTTATGTTTAGATGTATTTATAA AAAATTTTTTTAGGGTAATGTGAAATTAGTTGTAAAATCTCAGATTAAATTATGTTCAACGAAGGAGTTTCCCTCTAGGT TCCAGCAATAGGTTTTGAATAGAATTAATTATGTGCGGGTGCAGTTGATTTTACTCTATTGGAATTGATTTAGAGATTCC CCAGGGGGGGAGCCAAACACACAATTGCAAGTATTTCCAAACATGCCCTTAAGATCATCAATTTCTTTGCAATAAATGCA GGTAGGGAATGAGCTTGGAGCTGGTAAACCATACAAGGCAAAGTTAGCAGCCATGGTTGCCTTAGGATGTGCTTTTGTGA TGGGCTTCATCAATGTAACATGGACTGTGATCCTTGGACACAAGTGGGCTGGGCTGTTTACAAAAGATGAGCCTGTCAAA GCCTTGGTTGCATCAGTCATGCCACTTATGGGCCTGTGTGAGCTTGGAAACTGCCCACAAACCACAGGCTGTGGCATCCT TCGCGGGACGGCCAGGCCTGTGATAGGGGCCCACATCAACCTGGGCTCATTCTATTTCGTGGGCACCCCGGTTGCCGTGG GCTTGGCATTTTGGTTCAAGGTTGGGTTCAGCGGGCTCTGGTTCGGGCTTCTCTCTGCACAAGTGGCGTGTGCTGTGTCA ATTCTCTATGTGGTTATAGTGCGTACAGATTGGGAAGCTGAGGCTTTGAAGGCTGAGAAGCTCACAAGGGTGGAGATGGG TAGTTACAATGGAAGTAGGATTAAAGAGAGTGAGAAAGAGGAAGAAAGCAAAGGGTTGTTGGTGAGTGGGAATGGGCACA AGAGTGACATTTGCTAAGAGCATATTTGAATACACCATTGAAGATAATGCTGAAATTTAAATCATGGTGAGCAGAAGCGA ATGTTGATGAAAATTACTTTTATTCACCATAATTTTGATTCAATGTAGTTTTATACCGTGTATTAATGACATAAATTTTG TTGGTTGGATGAGATAGATATTATTTGTTGCCTAATCAATTAGAGTTGGAGGCTTATCAGTAGTGCCTGTAATTGAGGCT AGAAGCTATGTTGATGGGTTGCTTTCATATAATTTTGGGGATGATTCGTCTGTTCTTCTATATCTTTCATTTTGATCTTT TTTTGGAAAGTATCTCATTTTCTATACCTAGCTTTTACATGTTTAACAGTACAGTTTTTTCTTTCTCATAAAATAGATGG GAAAATTTTGGAAGTTATAAAAAAAAAGTAGCTTTTTCTCTGTGTTGTAACTTGTAAGTGACAAGTGCAGGGAGATATGG GTGGTGTGAGAATCTGGCATTGACATTTGATGATTTATTGATAAGGCTGAGACTGAGAGATCAAACAGAAAGCAGCTTTT AGTGAAAGCTGTTGCACACAAATGAGCACTTGAGAATAATTCAAGACGTGTATAACTCGTGTGAGTAGTACCTGCCTAAT CGCCATCAAGTTGCTTCTCTAGTAATAACTCACGAGGAGATCAATAATTATACTGTTTTTTCTTCCTATCTCTTAAC

Download Genomic Sequence

CDS sequence (LotjaGi2g1v0094500.1) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGGGAGATCATTCAGAGCAGGACTACTTATCCAACAAATTCCCAACAACCTCTCAGGTTGTGGAAGAATTGAAGGAACT ATGGAGCATGGCCTTACCAATCACAGCCATGAACTGGTTGGTCTTTGTGAGAGCAGTTGTTTCAGTCCTCTTCCTCGGAA GACTCGGAAGCTTGGAGCTAGCAGGTGGAGCACTCTCCATAGGCTTCACCAACATCACAGGCTACTCTGTCCTCGTGGGT CTCGCATCAGGTCTCGAACCTGTATGCTCTCAAGCATTCGGAAGCAAAAACTGGGAACTCCTCTCACTTTCTCTGCAGCG AATGGTTCTCATCCTCCTTGTCGCAACGCTCCCCATAAGCCTCCTCTGGCTGAATCTGGAGCGAATCATGCTTTTCATGG GTCAGGATAGTGGAATCACGCGAATGGCGGCGGTTTACTGTTTCTACTCTCTGCCTGACCTTTTGACTAACACGTTGCTG CAGCCGTTAAGGGTGTTTCTGCGGTCGCAGAAAGTGACGACGCCGATGATGTACTGTTCGTTTGTGGCGGTGGTGTTCCA TGTGCCGTTGAATTATTTGTTTGTGGTGGTGATGGGGCTGGGGGTGCCGGGTGTGGCGGTGGCGTCGGTGATGACTAATA TGAATATGGTGGTGCTGATGGCGGGGTATGTGGGGGTGTGGAGGAGGAAGGAGATGGTGTTGAGGTGGGGTTGGGGTGGT GGTGGTGGTGGTGGAGTGGGGGATTTTGGTGGTGTTGGGATGGGGCAGTTGATGAAGTTGGCTGTGCCTAGTTGTTTGAT GATTTGTTTGGAGTGGTGGTGGTATGAGATTGTGACGGTGATGGCTGGGTACTTGGAGAATCCAACGCTGGCGGTTGCGG CTACTGGGATTTTGATTCAGACTACTAGCATGATGTACACTGTCCCCATGGCACTTGCTGGCTGTGTTTCTGCCAGGGTA GGGAATGAGCTTGGAGCTGGTAAACCATACAAGGCAAAGTTAGCAGCCATGGTTGCCTTAGGATGTGCTTTTGTGATGGG CTTCATCAATGTAACATGGACTGTGATCCTTGGACACAAGTGGGCTGGGCTGTTTACAAAAGATGAGCCTGTCAAAGCCT TGGTTGCATCAGTCATGCCACTTATGGGCCTGTGTGAGCTTGGAAACTGCCCACAAACCACAGGCTGTGGCATCCTTCGC GGGACGGCCAGGCCTGTGATAGGGGCCCACATCAACCTGGGCTCATTCTATTTCGTGGGCACCCCGGTTGCCGTGGGCTT GGCATTTTGGTTCAAGGTTGGGTTCAGCGGGCTCTGGTTCGGGCTTCTCTCTGCACAAGTGGCGTGTGCTGTGTCAATTC TCTATGTGGTTATAGTGCGTACAGATTGGGAAGCTGAGGCTTTGAAGGCTGAGAAGCTCACAAGGGTGGAGATGGGTAGT TACAATGGAAGTAGGATTAAAGAGAGTGAGAAAGAGGAAGAAAGCAAAGGGTTGTTGGTGAGTGGGAATGGGCACAAGAG TGACATTTGCTAA

Download CDS Sequence

Protein sequence (LotjaGi2g1v0094500.1) extracted from Lotus japonicus Gifu v1.2 Proteins.

MGDHSEQDYLSNKFPTTSQVVEELKELWSMALPITAMNWLVFVRAVVSVLFLGRLGSLELAGGALSIGFTNITGYSVLVG LASGLEPVCSQAFGSKNWELLSLSLQRMVLILLVATLPISLLWLNLERIMLFMGQDSGITRMAAVYCFYSLPDLLTNTLL QPLRVFLRSQKVTTPMMYCSFVAVVFHVPLNYLFVVVMGLGVPGVAVASVMTNMNMVVLMAGYVGVWRRKEMVLRWGWGG GGGGGVGDFGGVGMGQLMKLAVPSCLMICLEWWWYEIVTVMAGYLENPTLAVAATGILIQTTSMMYTVPMALAGCVSARV GNELGAGKPYKAKLAAMVALGCAFVMGFINVTWTVILGHKWAGLFTKDEPVKALVASVMPLMGLCELGNCPQTTGCGILR GTARPVIGAHINLGSFYFVGTPVAVGLAFWFKVGFSGLWFGLLSAQVACAVSILYVVIVRTDWEAEALKAEKLTRVEMGS YNGSRIKESEKEEESKGLLVSGNGHKSDIC

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	29	29	-	–
PANTHER	PTHR11206:SF75 View details on PTHR11206:SF75 Search for proteins/transripts with this domain View external data on PTHR11206:SF75	12	481	470	3.6E-257	–
PANTHER	PTHR11206 View details on PTHR11206 Search for proteins/transripts with this domain View external data on PTHR11206	12	481	470	3.6E-257	–
CDD	cd13132 View details on cd13132 Search for proteins/transripts with this domain View external data on cd13132	23	469	447	1.28757E-159	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	30	52	23	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	31	53	23	-	–
TIGRFAM	TIGR00797 View details on TIGR00797 Search for proteins/transripts with this domain View external data on TIGR00797	33	439	407	8.2E-66	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	33	193	161	7.2E-33	IPR002528 Show description in modal box View details on IPR002528 Search for proteins/transripts with this domain View on EBI InterPro Service
Phobius	CYTOPLASMIC_DOMAIN View details on CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	53	63	11	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	60	82	23	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	64	85	22	-	–
Phobius	NON_CYTOPLASMIC_DOMAIN View details on NON_CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	86	104	19	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	104	126	23	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	105	124	20	-	–
Phobius	CYTOPLASMIC_DOMAIN View details on CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	125	177	53	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	178	200	23	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	178	200	23	-	–
Phobius	NON_CYTOPLASMIC_DOMAIN View details on NON_CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	201	205	5	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	205	227	23	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	206	226	21	-	–
Phobius	CYTOPLASMIC_DOMAIN View details on CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	227	256	30	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	257	275	19	-	–
Pfam	PF01554 View details on PF01554 Search for proteins/transripts with this domain View external data on PF01554	263	424	162	1.1E-31	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	276	289	14	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	290	313	24	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	290	312	23	-	–
Phobius	CYTOPLASMIC_DOMAIN View details on CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	314	333	20	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	334	353	20	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	335	357	23	-	–
Phobius	NON_CYTOPLASMIC_DOMAIN View details on NON_CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	354	372	19	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	373	390	18	-	–
Phobius	CYTOPLASMIC_DOMAIN View details on CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	391	410	20	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	409	431	23	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	411	431	21	-	–
Phobius	NON_CYTOPLASMIC_DOMAIN View details on NON_CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	432	436	5	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	437	459	23	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	437	459	23	-	–
Phobius	CYTOPLASMIC_DOMAIN View details on CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	460	510	51	-	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	487	510	24	-	–

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 LotjaGi2g1v0094500.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi2g1v0094500.1