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Field | Value |
---|---|
Gene ID | LotjaGi1g1v0651800 |
Transcript ID | LotjaGi1g1v0651800.1 |
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|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
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
Protein sequence (LotjaGi1g1v0651800.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
MCNVNGSEYDIVQGKSVTSSTDQPRAQKMEGDRKEKLLKTVEEEEGEEEKLSLWKRVWKESKKMWIVAGPAIFNRISTFG IYIISQAFVGHIGSKELAGFAIVYTVFIRFANGILLGMASALATLCGQAYGAKELSMMGVYLQRSWIVSFLTALFILPLF IFTTPILRILGQDESIAQEAGIISLWSIPVMFSLFVSFTCQQFLQSQSKNIIIAFLAAFSLTIHVILSWLLTIQYKFGIV GALTSTSLAFWIPNIGNLIFITCGWCPDTWKGFSCLAFKDLWPVFKLSISAGAMLALELWYNTILVLLTGNMENAEVQID ALSICLNINGWELMISFGFLAAASVRVANELGKGSSKSAKFSVAVSVLTSLTIGFILFLFFLFFRERLAYIFTKNKDVVN AVGDLSPLLAVSILLNSVQPVLSGVAVGAGWQSTVALVNLGCYYIIGLPVGIVLGNVFHWQVKGIWVGMLFGVAIQTIVL LIICYKTDWDEQVLKARNRVNRWSKVEPDHNKSDN
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 | 63 | 63 | - | – | |
PANTHER | 45 | 512 | 468 | 5.2E-251 | – | |
PANTHER | 45 | 512 | 468 | 5.2E-251 | – | |
CDD | 60 | 495 | 436 | 2.46165E-151 | – | |
Phobius | 64 | 85 | 22 | - | – | |
TMHMM | 65 | 87 | 23 | - | – | |
TIGRFAM | 70 | 466 | 397 | 2.4E-65 | ||
Pfam | 70 | 230 | 161 | 6.7E-29 | ||
Phobius | 86 | 96 | 11 | - | – | |
Phobius | 97 | 125 | 29 | - | – | |
TMHMM | 102 | 124 | 23 | - | – | |
Phobius | 126 | 145 | 20 | - | – | |
TMHMM | 145 | 167 | 23 | - | – | |
Phobius | 146 | 170 | 25 | - | – | |
Phobius | 171 | 181 | 11 | - | – | |
TMHMM | 182 | 204 | 23 | - | – | |
Phobius | 182 | 204 | 23 | - | – | |
Phobius | 205 | 210 | 6 | - | – | |
TMHMM | 211 | 233 | 23 | - | – | |
Phobius | 211 | 231 | 21 | - | – | |
Phobius | 232 | 236 | 5 | - | – | |
Phobius | 237 | 266 | 30 | - | – | |
Phobius | 267 | 286 | 20 | - | – | |
TMHMM | 287 | 309 | 23 | - | – | |
Phobius | 287 | 308 | 22 | - | – | |
Pfam | 294 | 452 | 159 | 8.9E-27 | ||
Phobius | 309 | 327 | 19 | - | – | |
TMHMM | 321 | 343 | 23 | - | – | |
Phobius | 328 | 349 | 22 | - | – | |
Phobius | 350 | 360 | 11 | - | – | |
Phobius | 361 | 385 | 25 | - | – | |
TMHMM | 363 | 385 | 23 | - | – | |
Phobius | 386 | 404 | 19 | - | – | |
TMHMM | 398 | 420 | 23 | - | – | |
Phobius | 405 | 429 | 25 | - | – | |
Phobius | 430 | 435 | 6 | - | – | |
TMHMM | 435 | 457 | 23 | - | – | |
Phobius | 436 | 458 | 23 | - | – | |
Phobius | 459 | 463 | 5 | - | – | |
Phobius | 464 | 485 | 22 | - | – | |
TMHMM | 464 | 483 | 20 | - | – | |
Phobius | 486 | 515 | 30 | - | – |
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 LotjaGi1g1v0651800.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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