Your browser is unable to support new features implemented in HTML5 and CSS3 to render this site as intended. Your experience may suffer from functionality degradation but the site should remain usable. We strongly recommend the latest version of Google Chrome, OS X Safari or Mozilla Firefox. As Safari is bundled with OS X, if you are unable to upgrade to a newer version of OS X, we recommend using an open source browser. Dismiss message
Field | Value |
---|---|
Gene ID | LotjaGi1g1v0651400 |
Transcript ID | LotjaGi1g1v0651400.2 |
Related isoforms 1 | |
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
CDS sequence (LotjaGi1g1v0651400.2) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGAAAAATGCTGAGGTTTCCATTGATGCTCTGGCCATATGCCTCAACATTAATGGGTGGGAGATGATGATAGCCCTTGG TTTCTTTGCAGCTGCCGGTGTCCGAGTTTCAAATGAGCTTGGAAGAGGGGATTCAAAGGCTGCAAAATTTTCCATTCTAA TAACAGTTCTCACATCATTTTCCATTGGTTTGGTGTTATTCTTTGTGTTTCTGTTTTTGAGGGAAAGACTTGCTTATGTT TTCACTCTAGACTCAGAGGTAGCTGAAGCAGTTGGGGATTTATCACCTTTATTGTCAATCTCCATATTGTTGAACAGTGT CCAACCTGTTCTCTCTGGGGTTTCTGTTGGAGCTGGATGGCAAAGCGTTGTAGCATATGTAAACATAGGCTGTTATTACC TCATTGGTATTCCGGTTGGAGTGGTGCTGGGTAACCTTATCCATTTGCAAGAAAAGGGTGTTTGGATTGGAATGTTGTTT GGAACATTTGTTCAAACCGTAATGCTAATTACAATCACACTTAAAACAGATTGGGAAAATCAGGTAGTGATAGCTCGAAA TCGTGTTAACAAATGGGCTGTCAAGGAGAACACAGAGCCAAATAGTGGATCACCCATTTCTAGTTAA
Protein sequence (LotjaGi1g1v0651400.2) extracted from Lotus japonicus Gifu v1.2 Proteins.
MKNAEVSIDALAICLNINGWEMMIALGFFAAAGVRVSNELGRGDSKAAKFSILITVLTSFSIGLVLFFVFLFLRERLAYV FTLDSEVAEAVGDLSPLLSISILLNSVQPVLSGVSVGAGWQSVVAYVNIGCYYLIGIPVGVVLGNLIHLQEKGVWIGMLF GTFVQTVMLITITLKTDWENQVVIARNRVNKWAVKENTEPNSGSPISS
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 | 1 | 19 | 19 | - | – | |
PANTHER | 1 | 198 | 198 | 5.5E-108 | – | |
PANTHER | 1 | 198 | 198 | 5.5E-108 | – | |
Pfam | 6 | 141 | 136 | 7.6E-24 | ||
TMHMM | 13 | 35 | 23 | - | – | |
Phobius | 20 | 38 | 19 | - | – | |
Phobius | 39 | 49 | 11 | - | – | |
TMHMM | 50 | 72 | 23 | - | – | |
Phobius | 50 | 74 | 25 | - | – | |
Phobius | 75 | 93 | 19 | - | – | |
Phobius | 94 | 111 | 18 | - | – | |
Phobius | 112 | 122 | 11 | - | – | |
TMHMM | 122 | 144 | 23 | - | – | |
Phobius | 123 | 147 | 25 | - | – | |
Phobius | 148 | 152 | 5 | - | – | |
Phobius | 153 | 174 | 22 | - | – | |
TMHMM | 154 | 176 | 23 | - | – | |
Phobius | 175 | 208 | 34 | - | – |
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 , while the GO metadata was last updated on .
GO term | Namespace | Name | Definition | Relationships |
---|---|---|---|---|
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). | ||
Cellular component | Membrane | A lipid bilayer along with all the proteins and protein complexes embedded in it an attached to it. | ||
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. | ||
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. |
Expression pattern of LotjaGi1g1v0651400.2, 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…