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 | LotjaGi1g1v0018500 |
| Transcript ID | LotjaGi1g1v0018500.1 |
| Related isoforms 3 | |
| Lotus japonicus genome version | Gifu v1.2 |
| Description | Multidrug resistance protein ABC transporter family protein; TAIR: AT3G13080.1 multidrug resistance-associated protein 3; Swiss-Prot: sp|Q9LK64|AB3C_ARATH ABC transporter C family member 3; TrEMBL-Plants: tr|I1M6I4|I1M6I4_SOYBN Uncharacterized protein; Found in the gene: LotjaGi1g1v0018500 |
| Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr1:2273080..2282204) extracted from Lotus japonicus Gifu genome v1.2.
ATTCAATGTACTATATCTTTTGAGAGTTACGAGTTGCTGCACACCTTAGAGTAAGAGAACTCAGAACCCAGATTCACTGG CTGCAGATCATTCAAAACTCTCTTTCAGCCATCACAAACTTCACTACACCTTCTCAGTTCCTCGCCTAACACCACCACTT TCTCTTTTTATTTTTGGTCAATCACCACTTTCTCTATTTTCTTGGAAAACCTCTCATTTTTCCCGGAAAATAAAGCAAAC CATAAAGGGCCCATTCCATTGAAAACTTGCATCCTTTTTCTCCCAATCTGTGAACACCACTGTTTTGTTTTTCTTGTCTC ATTTCCTTGTTCCTTCCGTCGCAAATCTTGGCCACCACGTTACCCTATTCCCAAGGAAACCATTCCATTGACTCACTCAC TCTCTTGACTCAACTCATCTTTTCCACCCTTTATATACCACCCTCCAAAAATCTCATCTCTCACATACCCTTTTCACAGT AGTAGCATCTTTGCTCTGTTTTTCGTTTTCTCATCATGCACTCTGCCACTGGCTTTTTCCTTGAACCCATTTTCCTTCAT GGTTTATCTGGGTTCCTTCATCTACTGCTTATAGTGGCGGTTTTTGCATCATGGGTATGGAACAAATTCACATCTTATGC TAGTTCCAGTGCTAAGGTTGATGGTGGCGGCTCTAAGGAGAAAACAAACAACACTCTGTTTTCTGTGACTCTGTTTTGTT CTCTTGGTGTCTCTGCTTTCAACCTAGCTCTGTTACTGTTCAACTACTTCTACTGGTACAGCAATGGCTGGTCAGAAGAA AAGCTCGTGACCCTTTTGGATTTAGCGCTTAAAATGGTTGCTTGGGGTGTTGTTTGTGCTTGTTTCCTCAAAGGGTTCTC TAGAAGGTTTCCATTTTTCCTCTTCAGAATCTGGTGCGGTTTCTTCCTCTTTGTTTCATGTTACTGTTTTGCTGTGGATG TTGTTGTTATCTGTGAGAAAGACACTGCATTGCCACCTCAGCATGTGGTTTCTGATGTGGTGTCTGCTATTGTGGGCTTG TTCTTCTGTTGTGTGGCTTTTGTTTTGAAGAATGAGGGTGGTGGTGGTAGTAACAGTGTCCATGAACCTCTATTGAAAGG GGATTCACAAGTTGGTAATGGTAAAGAGAGCAAAGGGAGTGACACTGTTACCCCTTTTTCCAGTGCTGGAATTTTCAGCA TTCTTACATTTGCTTGGTCTGGTCCTCTTATAGCTGCTGGTTATAAGAAAACCTTGGACCTTGAAGATGTGCCTCAACTT GATTGCAGAGACAGTGTTATTGGAGCATTTCCAGGTTTTAAGGAAAAGGTTGAGAGTGATTTTGGTGGAATTAACACCTT GACCACACTTAAGCTTGTTAAGTTATTGATAATCTCGGCGTGGAAAGAGATTCTCTTCACTGCTTTTCTTGCATTGTTGA ACACTTTGGCTTCTTATGTTGGTCCTTATCTCATTGATGGTTTTGTTCAGTACCTGGATGGACGGAGGCTATATGAAAAC CAGGGCTTTGTTCTGGTTTCTGCATTTTTCTTTGCGAAAATTGTTGAGTGTTTGTCACAAAGGCATTGGTTCTTTAGGTT GCAGCAAGTTGGACTTCGAATCCGAGCATTGCTTGTGACAATGATTTATAACAAAGCCTTGACCCTTTCGTGTCAATCGA AGCAGGGCCACTCTTCTGGGGAGATAGTCAATTTCATGACTGTGGATGCTGAAAGAGTTGGTGTGTTCAGTTGGTATATG CATGATTTGTGGATGGTGGTACTGCAGGTTTCATTAGCCCTTGTGATTTTGTATAAGAACCTTGGTGTTGCTGCAATCGC TGCTTTTGTTGCAACCATCATTGTTATGTTAGCCAATGTTCCCTTGGGATCATTGCAAGAGAAGTTTCAAAAGAAGTTGA TGGAGTCAAAAGATAAGAGAATGAAGACCACTTCTGAGATTTTAAGGAACGTGAGAATCCTCAAACTGCAAGGGTGGGAA ATGAAGTTTCTATCTAAGATAACTGAGCTCAGGAACACTGAACAAAACTGGTTGAAAAAATATCTGTACACAGCAGCCAT GACTACATTTGTGTTTTGGGGTGCCCCCACATTTGTTTCCGTGGCTACTTTTGTTACTTGTATGCTTGTAGGGATCCCTC TCGAATCAGGGAAGATCTTATCTGCACTTGCAACATTCCGGATTCTTCAAGAGCCTATTTATAATCTTCCAGACACAATT TCAATGATAGCACAAACCAAAGTTTCTCTTGACAGGATTGCATCGTTCCTTCGCCTAGATGACTTGCCGACCGATGTTGT AGAAAATCTTCCTCGGGGTAGTTCTGATACAGCAATTGAAGTTGTGGATGGGAATTTTTCTTGGGATTTATCTTCCCCTA ATCCAACCTTGCAAAATATAAATCTCAGAGCTTCTCATGGCATGAGGGTTGCTATTTGTGGTACTGTTGGATCAGGCAAG TCTACTTTACTTTCTTGTGTGTTGGGAGAAGTACCAAAGATATCAGGTACCCTTAAGGTTTGTGGAACCAAGGCCTATGT TGCTCAATCACCATGGATACAAAGCGGGAAGATAGAGGATAATATATTGTTTGGTAGAGACATGGACAGGGAAAGGTATG AAAACGTGCTCAAAGCATGTTCCCTGAAGAAGGATTTTGAGATTTTGTCATTTGGTGATCAGACAGTTATAGGAGAGCGT GGAATAAATTTGAGTGGTGGACAGAAACAAAGGATACAAATTGCTCGTGCTCTTTACCAAGATGCTGATATATATCTATT TGATGATCCTTTTAGTGCTGTGGATGCTCATACAGGATCTCACCTTTTTAAGGTAACTCAATTTCATTGTTTTTGCTTAT TATAGGTGAATCTCAGTAAAGATATAGTTTCTCAATAATATAATCCTAATTATATATTAGATATGTTTTCTAATATCAGT AAGTAGAGATATAGTTTCTCCTATACTCAAATTCTCATATACTTATTATGTGCAATGTAAAGTGGGTTATTATATTTTTT GAGCATACTACAAAATACAAATAGTTCTTAATTTAACTCTTTTGAAATGTAATTCTTTCAACAGCATGACACTTGAATAA TTCTTTCCTTAAGTAAATCTTTCTATTCTATTTGTGTGGCAGGAATGCTTGCTGGGGGTATTAAGTTCAAAAACAGTGGT TTATGTTACTCATCAAGTGGAGTTCTTACCTGCTGCTGACCTTATATTGGTGAGTATTTCTTATAATTTTACTGTCATTA ATTTTAATTTTTTTTTTAACCTTGCATTACACCTTGTTGTCAGGTCATGAAAGATGGGAAAATTACTCAATGTGGAAAGT ATGATGATCTGCTTAACAGTGGGACTGATTTTATGGACCTTGTTAGTGCACACAGAAAGGCTTTGTCCACACTTGATTCA ATGGATGGAGGGACAGTATCTAATGAAATAAGTACCATGGAAGAACAAGATGTAAATGTTTCTGGCACTCATGGTGATAC AGAAAAAGAGGAAAACAAAGGTGAGAAAAATGGTAAAGCAGATGACAAAGATGAACCAAAAGGGCAACTTGTTCAAGAAG AAGAAAGAGAGAAAGGTAAAGTTGGGCTTTCAGTCTATTGGAAGTATATCACAACTGCATATGGAGGAGCTCTTGTACCA TTCATATTATTGGCTCAGATTCTTTTTCAAGCTCTTCAAATTGGAAGCAACTATTGGATGGCTTGGGCTACTCCCATCTC ACAAGATGTGGAGCCACCTGTGGAAGGAACAACTCTTATAGCAGTTTATGTTGCTTTGGCCATCGGAAGTTCTTTCAGCA TCCTTGTCAGAGCAATGTTACTTGTCACAGCTGGTTATAAGACAGCCACTATGCTCTTCAATAAAATGCACTTCTGCATT TTCCGTGCCCCGATGTCATTTTTTGATTCCACTCCAAGTGGGAGGATCATTAACAGAGTATGTCAAACCCCTAACCTTTC CTTTTTTGCTTTTCTGATTTTTAGAGATATATTTTTGCAGCTTAAATAACTTATAGCGTGTTTGGTTCTACTATGTGAAG CCACATTAACAATTTTGGGAAGAAGCTACGAAGTGTAGCTTCTGTACTTACCATGCTTTGGATTGTGCGTCACCCCACCA ATCCAAATATGCTCTTAGTAGTCCCTCTGATCTTGTTAGTACTTTTTAAGCTCTATCTTACTGTCTGTTCTCTTGCAGGC TTCTACAGACCAAAGCGCAGTGGATACAGATATTCCTTATCAAATTGGGTCATTTGCCTTCTCCATGATCCAGCTGTTGG GAATTATAGCAGTGATGTCTCAGGTTGCATGGCAAGTTTTCATTGTCTTTATCCCTGTCATAGCAATCAGCATTTGGTAT CAGGTACTGTTTCGACCTTGTAGGCTTTGATAATAAGGTGGAAGTGTGGCACATATTTCTTCCATTGCTCCCATTCTTGT CTGGCTAACATATATTAAACTTGTAATCTGCAGCAATATTATTTACCATCAGCCCGGGAACTGTCACGTTTGGTTGGTGT ATGCAAAGCCCCAATCATTCAGCACTTTGCTGAAACAATTTCGGGTACTTCAACCATTAGAAGCTTTGATCAGCAGAGAA GATTTCAGGAAACAAATATGAAACTGACTGATGGGTATTCTCGGCCAAAGTTCAATATTGCTGGTGCCATGGAATGGTTA TGCTTCCGCTTAGATATGCTGTCTTCTATCACATTTGCCTTTTCCTTGATATTCTTGATATCTATTCCACAGGGTATTAT AGATCCAGGTACATGATTCAAATCTGGTATATGTTACCAATCAATTTTTACTCTGCTTATGCAATGAGAAGTTGAAATTT AATTTTCTGAATTTTGAAGGCATTGCTGGTTTAGCTGTTACCTATGGTCTTAATTTAAACATGATACAAGCTTGGGTGAT ATGGAATCTTTGCAACTTGGAGAACAAAATTATATCAGTAGAAAGAATACTTCAGTATACTTCCGTTCCTAGTGAGCCTC CCCTTGTTGTAGAAAACAATCAGCCAGATCCTTCTTGGCCCTCATATGGCGAGGTTGATGTACAGGACTTACAGGTAGCA CATTATGCTACATTTTTCAGATTGCCCTCAAAATTGGGCTTTAGATACCACATTGTTCATAATCTAATTTTTACAAGATG TTTATGCTACATTTGTAATGATTTGTTGTTCATGATGAAGGTTCGTTATGCTCCACATCTTCCCCTTGTGTTGCGTGGTC TTACATGCACATTTCGCGGAGGACTGAAAACTGGCATTGTTGGGAGAACGGGCAGCGGTAAATCAACCCTCATACAAACA CTTTTCCGACTCGTTGAGCCTACTGCCGGGCGAGTTATGATTGACAGCATCGACATCTCTCTAATTGGACTGCATGAGTT GAGGTCTAGACTAAGCATTATACCACAGGATCCAACCATGTTTGAAGGAACAGTGAGAAATAATCTGGACCCCCTGGAAG AGTACACTGATGAACAAATATGGGAGGTGAGTTGGTGTTATTTGTTAAACAAATACATACACACTAGGTTCTTTCCAAAA TATTGGACTTAACATTGTTTTTTAAATTAGGACACTTATGGAAGAGTTTATTTGAGTTTATCTTATAGCACAAACTCTTA TGCAAGTCTTTGGATGAGCTTATGAAACAGTTTGTGACCTACATATAAACTATTTTGAGCTTATTTTTATAAACTGCTCA GATTAGCATATGAATTAGTTTTGATACCTATTTATAAGTTATTTTAAATTTATTTTAATAAGTTTCTCAAATTTTCTTCT GAATATGCGCTTATGTGATAAATGCTTATTGTTACTTTACTTAAGATGTTTTCCCGAACATACCTTTAGTATTGCTTTCA CTCATTTACATTCTTTTGATATTTGTATAGGCCTTGGATAAGTGTCAACTTGGAGATGAAGTTAGAAAGAAAGAAGGAAA GCTAGACTCTACAGGTTTGTATTCTATTTTTATTGAACATAGCGATATAGTACATCCAATCCTGAACTTGTTGCTAATGT GCTAGTACATTCTGCAGTTAGTGAGAACGGTGAGAATTGGAGCATGGGTCAGAGGCAGTTGGTGTGCCTTGGTAGGGTGC TGCTAAAGAAAAGCAAGGTTTTGGTGCTTGATGAAGCTACTGCATCAGTTGATACAGCTACAGATAATTTGATTCAGCAA ACTCTTAGGCAGCATTTCTCTGAGTCTACAGTCATTACCATTGCACATCGAATAACTTCAGTCATTGACAGTGATATGGT TCTGCTTCTTAGTCAAGGTTAGGAAGACTGTTATTATTCTTTTTCTTTAAACTTTGATATTTTTCTCACTATCTTTCCCT TTTTATCACATCATCATATATCACATCTATTACTTCTCTCTCTTCTCTTCCTTCTCTTCATTTCTCTCTCTAAGTATCTG TTAGGTGTCTGCACTACGCGGATGTCTAAGAATCATTTTCCATTTTTTGTTCACTGGTGTTTCATTTTCTGATTTCTTGG GCAATGGTGCAGGACTTATTGAGGAGTATGACTCCCCAGCAAAATTGCTAGAGGACAAGTCATCATCTTTTGCTCAACTT GTTGCAGAGTATACCATGAGGGCCAGCTCCAGTTTTGAGAAATCTGTAGAACATTGATTGATTGAAACCTACTGAAATAA AAGTTTCTTGACAATGACGAAAATTTGGGAGCGGTTACATTGTTATAAATGGAATTTTGTATTTTTTCCCCCATCCAGCA TAATTGATAGGAAAGTGTTTTTAATAAAATAAGGCTTTTGATCTGCTGTGAAAAAAACTGTCATGTCCATCATCACTCTT TCACCAAACCAGAGTTGGAAGAACTTGTCACTTGAGAGATTTATAAAGTAAAAGGGAAAATCAAATTAATGTCAATGTAT TCCAGGTATGTTGTGGACCAAAGACAGTACACAATCTTGCCAAGGTTGATAATGACAGAGTGTCCTAACTCCTAACTCAA CCCCAATTGAAGTGTTTTGAAGTAGGAATCTTACAAATTGTTTCACTTTGTTCACTAATCAGAATGAGAGCTCTTCCCAT AAGCTGTTGAAAAACTAAACTTTCTTATTTTTTAAGAGCTCTAACAAAGAAAGATTTAAAGGCTCGGTACAAAAGTGATG TGCATAGCATGTAATACTCTTTAATATTCTCATAGTAATTTTGTCTATCTTATTTTTGGTCTACATGTTTTTAAATACAA AATTGAGTGAGTGTTGCAGGCTTTCTTTCAGTTGTGTACTGTTGTAGTATTAATGATTAATAATTTGTTTGGTTCTACTG ACAATCATGTATTAATTTATATAACAAGATTAAATTGATCAGTATATTGCAATAAGTTGAAACAAGTTGTAGGTAGGATG TAGACATAAGCTCTTATTAACAAGTTATTATGGACAACTTATGAAAATGAGCTCAAAGTGTCTTATAAATATGTCGTAAG CTATTTATGTAAACTCGAGTGTTTATGCTATGAGATAAACTCAAATAAACTCTTCCAAACTCGCTTGAAACCTCAAGGCT TACTCACTATTCTTATTATTTATTATTTCACATCCCAAAGAGATTACGTTTATTGTCACCAACAAAACAAATCAAGCAAA GATAGTTCTTTTCTACTCCTCATGGAGAAAAGAAGCCAAACGCTTGAATAACTTTTTGGCACTCTCAGATTCTGGCTTTA ACCAATGATAAATATGATCCTCATCTTCCTCTTCAAACAACTCCAGTTTCCCTTGCCATCCACTTTTCTTCACAGCTTCA TAATACCAAATAGCTCTGTCCTTAAATCTATCCTTGCCAGCAACACACACAATGATTCTAGAGCATCCAAGTGTAGCCAG ACTAGGTGCACCAGGACCCACAGGGTTGAGCTTGGGATTATCAACACCACCTGGTGCAGATGGATACACCAGATTCCAAA TCTTGTGGTCAATGTTCTGTTCAGGCTCTATAATGGGTTCTGATCCAATTGGGTATGAACTGTTGAAGAAGGGATGAACT ATAAATGCTCCTGAGAGTTTAACATCACCTGGTAAAACCTCAATCCCTGCACGCATGGCGATGTTATGCGCAATGTTACC ACCAGCACTATCACCCCCTGTGGAAATTTTAAGTAAATAATGACATTAGTTCTTGAAACATGTGGTATCACTCATATTAA AATGTATGTGAAAGAGCTTATTTGAACTGATTAAACTCATAACAATAGCATATGAGTTAACTATAAGCTAGCTTCTTTCA GCTTATTTTGATATATTTCTTTGATTTACTTATGAATAAACGTTTATACCTTTGAGTTTATTTCACCGAACTTCTCAAAT AAACTTATAAATAAATGTTTATGTGATAACTAATAAAATAACATAAGCACTTAATTAGTCATGTACTCAAACACATTTAA TCTTAGATTGTATATTTAAGGGACCAATCTAATTACTTACCGATGAAAATTCTGTTTAAATCACCATGGTCAATCAACCA TGGCTCTGGATTGCTAAGGCTCTTGGTGGAATGGGAGGATACCCATTGGAGTGCAGCCCAGCAGTCATGGTAACAAGCAG GGAGAGGGTGCTCAGGAGCAAGCCTGTACTCCACACAGACGACCAAAACGTTTGTTTGTGGAACAAAGGTTTTGAAATGA TCATGACATGACTTAGAGAAAGCAGATTCCAAGATGAAAGCACCACCATGAAAGTAGACCAAGATTGGTACTTTCTCAGC TACATGATGATCTTGGTTTAGTTTTTTTGGAAGGAAAAGGCGGGCTGAGATTGTGGGGTGGTGAGAGATGGTGATGTCTT TCGTTGAGAGCTCTGTTTGTGGATCATCAAGCAAGGGTGGAACTGCTGGTGCTTGTAGCGGTCGCTCCACTGTGCCATCA TTGAAGATTCTGAGAAAGGGAGGTATCTCTGCAACAAGCTCTTTAGTAATGTTGGTGGTGGTGGAAGCCATTTCAATTCT GGGACATAAGAGTTCGCTTTTTTGCATTATATATAATGCTTTATCATCTAGATGGTGATAAATTTTGTTACTCAATTGGT GTTTG
CDS sequence (LotjaGi1g1v0018500.1) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGCACTCTGCCACTGGCTTTTTCCTTGAACCCATTTTCCTTCATGGTTTATCTGGGTTCCTTCATCTACTGCTTATAGT GGCGGTTTTTGCATCATGGGTATGGAACAAATTCACATCTTATGCTAGTTCCAGTGCTAAGGTTGATGGTGGCGGCTCTA AGGAGAAAACAAACAACACTCTGTTTTCTGTGACTCTGTTTTGTTCTCTTGGTGTCTCTGCTTTCAACCTAGCTCTGTTA CTGTTCAACTACTTCTACTGGTACAGCAATGGCTGGTCAGAAGAAAAGCTCGTGACCCTTTTGGATTTAGCGCTTAAAAT GGTTGCTTGGGGTGTTGTTTGTGCTTGTTTCCTCAAAGGGTTCTCTAGAAGGTTTCCATTTTTCCTCTTCAGAATCTGGT GCGGTTTCTTCCTCTTTGTTTCATGTTACTGTTTTGCTGTGGATGTTGTTGTTATCTGTGAGAAAGACACTGCATTGCCA CCTCAGCATGTGGTTTCTGATGTGGTGTCTGCTATTGTGGGCTTGTTCTTCTGTTGTGTGGCTTTTGTTTTGAAGAATGA GGGTGGTGGTGGTAGTAACAGTGTCCATGAACCTCTATTGAAAGGGGATTCACAAGTTGGTAATGGTAAAGAGAGCAAAG GGAGTGACACTGTTACCCCTTTTTCCAGTGCTGGAATTTTCAGCATTCTTACATTTGCTTGGTCTGGTCCTCTTATAGCT GCTGGTTATAAGAAAACCTTGGACCTTGAAGATGTGCCTCAACTTGATTGCAGAGACAGTGTTATTGGAGCATTTCCAGG TTTTAAGGAAAAGGTTGAGAGTGATTTTGGTGGAATTAACACCTTGACCACACTTAAGCTTGTTAAGTTATTGATAATCT CGGCGTGGAAAGAGATTCTCTTCACTGCTTTTCTTGCATTGTTGAACACTTTGGCTTCTTATGTTGGTCCTTATCTCATT GATGGTTTTGTTCAGTACCTGGATGGACGGAGGCTATATGAAAACCAGGGCTTTGTTCTGGTTTCTGCATTTTTCTTTGC GAAAATTGTTGAGTGTTTGTCACAAAGGCATTGGTTCTTTAGGTTGCAGCAAGTTGGACTTCGAATCCGAGCATTGCTTG TGACAATGATTTATAACAAAGCCTTGACCCTTTCGTGTCAATCGAAGCAGGGCCACTCTTCTGGGGAGATAGTCAATTTC ATGACTGTGGATGCTGAAAGAGTTGGTGTGTTCAGTTGGTATATGCATGATTTGTGGATGGTGGTACTGCAGGTTTCATT AGCCCTTGTGATTTTGTATAAGAACCTTGGTGTTGCTGCAATCGCTGCTTTTGTTGCAACCATCATTGTTATGTTAGCCA ATGTTCCCTTGGGATCATTGCAAGAGAAGTTTCAAAAGAAGTTGATGGAGTCAAAAGATAAGAGAATGAAGACCACTTCT GAGATTTTAAGGAACGTGAGAATCCTCAAACTGCAAGGGTGGGAAATGAAGTTTCTATCTAAGATAACTGAGCTCAGGAA CACTGAACAAAACTGGTTGAAAAAATATCTGTACACAGCAGCCATGACTACATTTGTGTTTTGGGGTGCCCCCACATTTG TTTCCGTGGCTACTTTTGTTACTTGTATGCTTGTAGGGATCCCTCTCGAATCAGGGAAGATCTTATCTGCACTTGCAACA TTCCGGATTCTTCAAGAGCCTATTTATAATCTTCCAGACACAATTTCAATGATAGCACAAACCAAAGTTTCTCTTGACAG GATTGCATCGTTCCTTCGCCTAGATGACTTGCCGACCGATGTTGTAGAAAATCTTCCTCGGGGTAGTTCTGATACAGCAA TTGAAGTTGTGGATGGGAATTTTTCTTGGGATTTATCTTCCCCTAATCCAACCTTGCAAAATATAAATCTCAGAGCTTCT CATGGCATGAGGGTTGCTATTTGTGGTACTGTTGGATCAGGCAAGTCTACTTTACTTTCTTGTGTGTTGGGAGAAGTACC AAAGATATCAGGTACCCTTAAGGTTTGTGGAACCAAGGCCTATGTTGCTCAATCACCATGGATACAAAGCGGGAAGATAG AGGATAATATATTGTTTGGTAGAGACATGGACAGGGAAAGGTATGAAAACGTGCTCAAAGCATGTTCCCTGAAGAAGGAT TTTGAGATTTTGTCATTTGGTGATCAGACAGTTATAGGAGAGCGTGGAATAAATTTGAGTGGTGGACAGAAACAAAGGAT ACAAATTGCTCGTGCTCTTTACCAAGATGCTGATATATATCTATTTGATGATCCTTTTAGTGCTGTGGATGCTCATACAG GATCTCACCTTTTTAAGGAATGCTTGCTGGGGGTATTAAGTTCAAAAACAGTGGTTTATGTTACTCATCAAGTGGAGTTC TTACCTGCTGCTGACCTTATATTGGTCATGAAAGATGGGAAAATTACTCAATGTGGAAAGTATGATGATCTGCTTAACAG TGGGACTGATTTTATGGACCTTGTTAGTGCACACAGAAAGGCTTTGTCCACACTTGATTCAATGGATGGAGGGACAGTAT CTAATGAAATAAGTACCATGGAAGAACAAGATGTAAATGTTTCTGGCACTCATGGTGATACAGAAAAAGAGGAAAACAAA GGTGAGAAAAATGGTAAAGCAGATGACAAAGATGAACCAAAAGGGCAACTTGTTCAAGAAGAAGAAAGAGAGAAAGGTAA AGTTGGGCTTTCAGTCTATTGGAAGTATATCACAACTGCATATGGAGGAGCTCTTGTACCATTCATATTATTGGCTCAGA TTCTTTTTCAAGCTCTTCAAATTGGAAGCAACTATTGGATGGCTTGGGCTACTCCCATCTCACAAGATGTGGAGCCACCT GTGGAAGGAACAACTCTTATAGCAGTTTATGTTGCTTTGGCCATCGGAAGTTCTTTCAGCATCCTTGTCAGAGCAATGTT ACTTGTCACAGCTGGTTATAAGACAGCCACTATGCTCTTCAATAAAATGCACTTCTGCATTTTCCGTGCCCCGATGTCAT TTTTTGATTCCACTCCAAGTGGGAGGATCATTAACAGAGCTTCTACAGACCAAAGCGCAGTGGATACAGATATTCCTTAT CAAATTGGGTCATTTGCCTTCTCCATGATCCAGCTGTTGGGAATTATAGCAGTGATGTCTCAGGTTGCATGGCAAGTTTT CATTGTCTTTATCCCTGTCATAGCAATCAGCATTTGGTATCAGCAATATTATTTACCATCAGCCCGGGAACTGTCACGTT TGGTTGGTGTATGCAAAGCCCCAATCATTCAGCACTTTGCTGAAACAATTTCGGGTACTTCAACCATTAGAAGCTTTGAT CAGCAGAGAAGATTTCAGGAAACAAATATGAAACTGACTGATGGGTATTCTCGGCCAAAGTTCAATATTGCTGGTGCCAT GGAATGGTTATGCTTCCGCTTAGATATGCTGTCTTCTATCACATTTGCCTTTTCCTTGATATTCTTGATATCTATTCCAC AGGGTATTATAGATCCAGGCATTGCTGGTTTAGCTGTTACCTATGGTCTTAATTTAAACATGATACAAGCTTGGGTGATA TGGAATCTTTGCAACTTGGAGAACAAAATTATATCAGTAGAAAGAATACTTCAGTATACTTCCGTTCCTAGTGAGCCTCC CCTTGTTGTAGAAAACAATCAGCCAGATCCTTCTTGGCCCTCATATGGCGAGGTTGATGTACAGGACTTACAGGTTCGTT ATGCTCCACATCTTCCCCTTGTGTTGCGTGGTCTTACATGCACATTTCGCGGAGGACTGAAAACTGGCATTGTTGGGAGA ACGGGCAGCGGTAAATCAACCCTCATACAAACACTTTTCCGACTCGTTGAGCCTACTGCCGGGCGAGTTATGATTGACAG CATCGACATCTCTCTAATTGGACTGCATGAGTTGAGGTCTAGACTAAGCATTATACCACAGGATCCAACCATGTTTGAAG GAACAGTGAGAAATAATCTGGACCCCCTGGAAGAGTACACTGATGAACAAATATGGGAGGCCTTGGATAAGTGTCAACTT GGAGATGAAGTTAGAAAGAAAGAAGGAAAGCTAGACTCTACAGTTAGTGAGAACGGTGAGAATTGGAGCATGGGTCAGAG GCAGTTGGTGTGCCTTGGTAGGGTGCTGCTAAAGAAAAGCAAGGTTTTGGTGCTTGATGAAGCTACTGCATCAGTTGATA CAGCTACAGATAATTTGATTCAGCAAACTCTTAGGCAGCATTTCTCTGAGTCTACAGTCATTACCATTGCACATCGAATA ACTTCAGTCATTGACAGTGATATGGTTCTGCTTCTTAGTCAAGGACTTATTGAGGAGTATGACTCCCCAGCAAAATTGCT AGAGGACAAGTCATCATCTTTTGCTCAACTTGTTGCAGAGTATACCATGAGGGCCAGCTCCAGTTTTGAGAAATCTGTAG AACATTGA
Protein sequence (LotjaGi1g1v0018500.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
MHSATGFFLEPIFLHGLSGFLHLLLIVAVFASWVWNKFTSYASSSAKVDGGGSKEKTNNTLFSVTLFCSLGVSAFNLALL LFNYFYWYSNGWSEEKLVTLLDLALKMVAWGVVCACFLKGFSRRFPFFLFRIWCGFFLFVSCYCFAVDVVVICEKDTALP PQHVVSDVVSAIVGLFFCCVAFVLKNEGGGGSNSVHEPLLKGDSQVGNGKESKGSDTVTPFSSAGIFSILTFAWSGPLIA AGYKKTLDLEDVPQLDCRDSVIGAFPGFKEKVESDFGGINTLTTLKLVKLLIISAWKEILFTAFLALLNTLASYVGPYLI DGFVQYLDGRRLYENQGFVLVSAFFFAKIVECLSQRHWFFRLQQVGLRIRALLVTMIYNKALTLSCQSKQGHSSGEIVNF MTVDAERVGVFSWYMHDLWMVVLQVSLALVILYKNLGVAAIAAFVATIIVMLANVPLGSLQEKFQKKLMESKDKRMKTTS EILRNVRILKLQGWEMKFLSKITELRNTEQNWLKKYLYTAAMTTFVFWGAPTFVSVATFVTCMLVGIPLESGKILSALAT FRILQEPIYNLPDTISMIAQTKVSLDRIASFLRLDDLPTDVVENLPRGSSDTAIEVVDGNFSWDLSSPNPTLQNINLRAS HGMRVAICGTVGSGKSTLLSCVLGEVPKISGTLKVCGTKAYVAQSPWIQSGKIEDNILFGRDMDRERYENVLKACSLKKD FEILSFGDQTVIGERGINLSGGQKQRIQIARALYQDADIYLFDDPFSAVDAHTGSHLFKECLLGVLSSKTVVYVTHQVEF LPAADLILVMKDGKITQCGKYDDLLNSGTDFMDLVSAHRKALSTLDSMDGGTVSNEISTMEEQDVNVSGTHGDTEKEENK GEKNGKADDKDEPKGQLVQEEEREKGKVGLSVYWKYITTAYGGALVPFILLAQILFQALQIGSNYWMAWATPISQDVEPP VEGTTLIAVYVALAIGSSFSILVRAMLLVTAGYKTATMLFNKMHFCIFRAPMSFFDSTPSGRIINRASTDQSAVDTDIPY QIGSFAFSMIQLLGIIAVMSQVAWQVFIVFIPVIAISIWYQQYYLPSARELSRLVGVCKAPIIQHFAETISGTSTIRSFD QQRRFQETNMKLTDGYSRPKFNIAGAMEWLCFRLDMLSSITFAFSLIFLISIPQGIIDPGIAGLAVTYGLNLNMIQAWVI WNLCNLENKIISVERILQYTSVPSEPPLVVENNQPDPSWPSYGEVDVQDLQVRYAPHLPLVLRGLTCTFRGGLKTGIVGR TGSGKSTLIQTLFRLVEPTAGRVMIDSIDISLIGLHELRSRLSIIPQDPTMFEGTVRNNLDPLEEYTDEQIWEALDKCQL GDEVRKKEGKLDSTVSENGENWSMGQRQLVCLGRVLLKKSKVLVLDEATASVDTATDNLIQQTLRQHFSESTVITIAHRI TSVIDSDMVLLLSQGLIEEYDSPAKLLEDKSSSFAQLVAEYTMRASSSFEKSVEH
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 | 11 | 11 | - | – | |
| Phobius | 12 | 35 | 24 | - | – | |
| TMHMM | 13 | 35 | 23 | - | – | |
| Phobius | 36 | 60 | 25 | - | – | |
| PANTHER | 43 | 1488 | 1446 | 0.0 | – | |
| PANTHER | 43 | 1488 | 1446 | 0.0 | – | |
| Phobius | 61 | 85 | 25 | - | – | |
| TMHMM | 66 | 88 | 23 | - | – | |
| Phobius | 86 | 96 | 11 | - | – | |
| Phobius | 97 | 118 | 22 | - | – | |
| TMHMM | 98 | 120 | 23 | - | – | |
| Phobius | 119 | 129 | 11 | - | – | |
| TMHMM | 127 | 149 | 23 | - | – | |
| Phobius | 130 | 152 | 23 | - | – | |
| Phobius | 153 | 163 | 11 | - | – | |
| TMHMM | 164 | 184 | 21 | - | – | |
| Phobius | 164 | 184 | 21 | - | – | |
| Phobius | 185 | 298 | 114 | - | – | |
| MobiDBLite | 197 | 216 | 20 | - | – | |
| Gene3D | 287 | 594 | 308 | 1.4E-20 | ||
| SUPERFAMILY | 293 | 600 | 308 | 1.96E-33 | ||
| TMHMM | 299 | 318 | 20 | - | – | |
| Phobius | 299 | 320 | 22 | - | – | |
| ProSiteProfiles | 300 | 580 | 281 | 33.773 | ||
| Pfam | 300 | 566 | 267 | 5.1E-24 | ||
| CDD | 301 | 588 | 288 | 2.39519E-106 | – | |
| Phobius | 321 | 331 | 11 | - | – | |
| Phobius | 332 | 353 | 22 | - | – | |
| TMHMM | 338 | 360 | 23 | - | – | |
| Phobius | 354 | 410 | 57 | - | – | |
| TMHMM | 410 | 432 | 23 | - | – | |
| Phobius | 411 | 433 | 23 | - | – | |
| Phobius | 434 | 438 | 5 | - | – | |
| TMHMM | 436 | 458 | 23 | - | – | |
| Phobius | 439 | 460 | 22 | - | – | |
| Phobius | 461 | 912 | 452 | - | – | |
| TMHMM | 525 | 547 | 23 | - | – | |
| Gene3D | 600 | 853 | 254 | 5.4E-74 | – | |
| SUPERFAMILY | 611 | 836 | 226 | 1.55E-56 | ||
| CDD | 614 | 814 | 201 | 1.18508E-107 | – | |
| ProSiteProfiles | 614 | 837 | 224 | 22.149 | ||
| Pfam | 632 | 766 | 135 | 1.2E-19 | ||
| SMART | 641 | 814 | 174 | 2.3E-12 | ||
| ProSitePatterns | 739 | 753 | 15 | - | ||
| MobiDBLite | 859 | 902 | 44 | - | – | |
| MobiDBLite | 868 | 902 | 35 | - | – | |
| Gene3D | 887 | 1227 | 341 | 6.4E-40 | ||
| Phobius | 913 | 936 | 24 | - | – | |
| TMHMM | 917 | 939 | 23 | - | – | |
| SUPERFAMILY | 926 | 1227 | 302 | 9.81E-56 | ||
| CDD | 926 | 1220 | 295 | 1.81892E-94 | – | |
| Pfam | 928 | 1171 | 244 | 2.0E-30 | ||
| ProSiteProfiles | 928 | 1208 | 281 | 38.543 | ||
| Phobius | 937 | 966 | 30 | - | – | |
| TMHMM | 966 | 988 | 23 | - | – | |
| Phobius | 967 | 993 | 27 | - | – | |
| Phobius | 994 | 1051 | 58 | - | – | |
| TMHMM | 1038 | 1060 | 23 | - | – | |
| Phobius | 1052 | 1080 | 29 | - | – | |
| TMHMM | 1062 | 1084 | 23 | - | – | |
| Phobius | 1081 | 1155 | 75 | - | – | |
| Phobius | 1156 | 1173 | 18 | - | – | |
| Phobius | 1174 | 1179 | 6 | - | – | |
| Phobius | 1180 | 1201 | 22 | - | – | |
| Phobius | 1202 | 1495 | 294 | - | – | |
| Gene3D | 1228 | 1481 | 254 | 1.0E-78 | – | |
| SUPERFAMILY | 1235 | 1475 | 241 | 1.18E-64 | ||
| CDD | 1243 | 1463 | 221 | 3.59719E-121 | – | |
| ProSiteProfiles | 1245 | 1479 | 235 | 19.068 | ||
| Pfam | 1263 | 1410 | 148 | 4.7E-30 | ||
| SMART | 1271 | 1463 | 193 | 1.8E-12 |
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 | ATP binding | Interacting selectively and non-covalently with ATP, adenosine 5'-triphosphate, a universally important coenzyme and enzyme regulator. | ||
| Cellular component | Integral component of membrane | The component of a membrane consisting of the gene products and protein complexes having at least some part of their peptide sequence embedded in the hydrophobic region of the membrane. | ||
| Molecular function | ATPase activity | Catalysis of the reaction: ATP + H2O = ADP + phosphate + 2 H+. May or may not be coupled to another reaction. | ||
| Molecular function | ATPase activity, coupled to transmembrane movement of substances | Catalysis of the reaction: ATP + H2O = ADP + phosphate, to directly drive the active transport of a substance across a membrane. | ||
| 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 LotjaGi1g1v0018500.1, 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…