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 | LotjaGi4g1v0304700 |
Transcript ID | LotjaGi4g1v0304700.1 |
Related isoforms 1 | |
Lotus japonicus genome version | Gifu v1.2 |
Description | Zinc-transporting ATPase; TAIR: AT4G30110.1 heavy metal atpase 2; Swiss-Prot: sp|Q9SZW4|HMA2_ARATH Cadmium/zinc-transporting ATPase HMA2; TrEMBL-Plants: tr|A0A0B2QSM7|A0A0B2QSM7_GLYSO Cadmium/zinc-transporting ATPase 3; Found in the gene: LotjaGi4g1v0304700 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr4:67996494..68006279) extracted from Lotus japonicus Gifu genome v1.2.
AAAACTTCTGACAAAGAGAAAGAAAAATTAATGAATTTTTTCGATTTCCTAACATTTTTCTCTCTTCTATCCCAAATTCC AAATCTCTAGTTAGTGCAGATTTTATTCTTTCCCTTTTCTACCCCAATACCCCCCACTCAGAATTTGGCCTACTTAAGAT GGCAATCTCCTTCACCACTTCACACCATTAGCCTCGCCAAATTTCTCTTTATCATCACATTATCACAAGGTATGATAATA ATTCACTTCAATCCTAAAACGTTTCTCTTCCAAACTTTCCACAATGTTTCACACTTTCACTCACACACGAAACACACACT TTTATTTATGAAACGTTCTTAATTATTTAACACGCTTTTCATTTCCCTGTTCTGTTTTTCTGAAACCTGTCACCTTTTTT TTCTCTTTCCTCCCTGTGATTCATCAGCTCCATTTCCCCTTCTCTCAATCATTCCCTCTCAACTTCTCAGTGACCCTTTT GTTTTTATGAAATTTCTTGCTCTTTCAGACACCAAAGTCACAAAGTTTTTCTTCAGAATTTGCCTTTTGAATTGAAAAAG AGCTTCATTTTGGCTCTGAATTGATCTGGGTCATTTGTGGGAAATTGTGTAGCAGGTGATCTGATTCTGTAGCAAATTTT GTGGCAGTGATGGCTTCCCAGGAGAAGAAGAAGCTGCAGAAAAGCTACTTCGATGTTTTGGGTTTGTGTTGTTCTTCTGA GGTGCCGCTTATTGAGGGCATCCTGAAACCTCTGGAAGGAATCAAAGAGGTTTCTGTCATCGTACCATCACGAACCGTCA TCGTTGTTCATGACGGTCTCATCATTTCTCAGCTCCAGATTGGTAAGATTCTTCTTCTTCCTCCTCCATCATCATCATGA TTTTAAGTTTTAACCATCTTGTGTGTGTGTTACTCTGTTTTTTTCATCCACCAACTTTGTGTTTATCACATGGGAGGGAG AGAATCAATGCAAATTTGGTATAACAAATTTCACCACAAATTAAACTAGAGATACCACCGAATATGGTATAACAATTGTC ACCATAAAACTAGCTTTTTGAGTGTCTCAAATTCTAATATACTTGTTAAGCAGGAAATTAAGTGTCATTACATAACTTCA TTTTGGGAGAAACTTTAATTTTGTAGTTTATTTTTAGGTGACCCCTAATGTGGGCTACTTTTAAAGTGGTCTAATTTTAG ACCACTTTTTTTAACCTACTATAACAGGTCAACACATCTTTTTTTAAAGATATTTAATATATGACAAATTTTTAATGATG TTTTTTCTTAAAAAATATAATGTGTTGACCTGCTATACCCAGTCAAAGTAGGTGGTGTAAAATTACACCACCTAAAAATG ATGCATATTAGGTTCTCCCTTATTTTTATATAATTAAATGTTTTTTTTGAGAATTTTTTTACAATTAATTAGTAATTTAT TCAATGTCTCTAACGGTGTCAAAAGTTAGGACAAGAAAGTATGGCTTTTGCGTCATGATCTTTTTCTTCCAAGAAATAAG ATTGAGCACTACAATCATCTTTTTGCACAAAGCATGCTTTTGCTTTTAAAAATGCGCAATGGCGGTTTAGATGGGGTGGA GTGACATGGAATCCAAAAAGAAGCTGCATTTTTATAAATTCTTCTTAGAAGTGATTATGAAACTTCTAACCACATAATCA AGTAATTCATATTTAAGATACATTATAGTGAAAAAAAAAACGAAATGCCCCAATTATCTTACTTTCTCACCTGGACAGAG GAATGACGATTGAAGTAGTAAATGCATTATTAGAGTACTTGATACCAATTACATCCCCATTCTAGCATCCTGATTCCTGC ATCATAAATTGACTGAACAAGAACAAATATGGTACTAATATATAAATATTTATAAGATAAGAAAGAAATACAAAATAATT GAATTTTTGTAATAAAAATATTGAATTCGGGGACCTGAAAGTTGAAACATTGTGCTCTCTTTAGCCCCTAGCTCTTATAC CATAGTTATAAAAAATTAACATTTTTTTTGTTGCAATTAAATCATTTTTCCATCTTTCTATTCTGATTTCATTTCATCAT CAGATACTATATAAGTTTGATAACACATTACGCTACAATATAGCTACTATATATAACTAAATCCATCGCATTCATTCATA TATAGCTTGAATAAAAAGAAGTATGTTGGTGGGCCCCACTTGTGACTCTAGTGGGTCACCAAGATGGAAAAGGTCATTTT TTTGCATTTCTGCACTAATTTATGAATGAAGATAGGGAGTTCCTTTCACTCTACTAAGCCATCGATCACATTCATGAACT AAACCCAAAGCTTTTCTATGTAAAATATTTAAATGTCGTATTTAATTTGTTCCTATTAAAAAACTATAATGTTTCCTTTG GTGAATTAATTTTTTATTATTATTCATGAGCTTGTTTTCTACATATTATTTCTAGTTAGACGTTGTTTCCTCAAATAGCT AATAGGACAAAACTATTGGGGTACGTAACTCCTTTACTTATTCTCACCACCTTTTTTTCAATATTTCGAATTTATAATTG CAAAATGTATAAATTGTTTCCTGCAATCTTAAATGCAATTAATATGTAATTAATTTTTTATGTTCCGCAATCATACATGT GAAATATTGAGATTGTGATTTGTGAGAATATATGTGGGAATGATCTCTTGGTCCGTAAAATTTTCTCCTTCTTATAATTT AATCCGGTTCTGTAAAGTGAAATTAAAAGTTAAAATTATTGTTGTTGTGGTGACAGTTAAGGCTCTGAATCAAGCAAGGC TAGAAGCGAATGCTAGAGTGTATGGGAATGAAAAGCACCAAAAGAGATGGCCAAGTCCATATTCAATTGCTTCTGGGTTG CTACTTTTGCTTTCGTTTCTCAAGTATGTTTATTCTCCACTGAAATTTCTGGCACTTGGAGCAGTTGCTGCGGGCATATT CCCAATTATCTTAAAATCTTTTGCTTCACTTCGGAACGCAAGACTTGACATCAACATTCTCATGATTATAGCAGGTAACT AACCAATTGCACTTTCTAATGCTTATTTCTTAGTGCTTATATTATAGAAGTATACATGCAATATGATAGTTCTAGTGAGT CTTTTAATTTGAGCAATTATAAAAAAGGTCGTGTCCCATTTTAAGTGCATTAATAGAATTTAAGACAAGTGGTTAAGAAA TTTAATATTTTTTATAAATGATTTTATTGATCTACTAAGAAGAGATTAAATTAAATTACTTTTATAGGTAATTTAGACAA TCTCATTACAAAATTAATGTTCATAACAATATGCATGATTTTCTATGACTTTAACAAGGGAACAAAGGGCTTTTTTTCTT CTTTGACTTTTTTTCTTTCTTTTATGCCTCCCCCTTTAGAATTTAAATTGAGAAAATTTAATAAATAATGTGAAAGGGTA GAATATGCCTGCTGGTCAATCATATTTTTAAAATGTATCACATCAACTAATTAAATTAATTTTTTTAGCCCATCTTTAAA ATTTAATTGGTTAGTAGGGTAAATAAGAAAATACTAGAAAAAGTAAAATTTAATTACACTAGCAACTATGTATTTTTCCC TATCATAAAATAAATAAGAAAGTACTAGAAAAAATATGACACGATATAATTGGATATGGTGTAAAATAATTAACTGTAAA CTCAATATATAAAAATTAAATCCATTTTAATTTAGAAGTCTTTTTTACTCAAAAGAAAGATATATATAGCTTTTTTATGT TTTGTCCGCAATCTTATCCTTTGATAAGAGATAAAAACTAAAAAAATGAAACTCTCTATATGTAAAACACTAAAACTCCA CAGAATTTGAATTTTGCAAAAAATGTGTCAAAATTGACTTGTGAAGAAGAAAATCCATCTATACTCATACTTATCCGTGC CTGCCTTTTCCCAGAAGGAAATTAATAACTTTGCCGTTTGCTCATAAAACTGACATGCTATCCAAAATTCATTTTTTAAG AAACAAAAGTGTTAAATGAAACGGTCCTTCGCAGTAGTTCTTCTGTCTTGTTGCCTATTCTGGCTCTCTCCTTGTATTAT AATTCATGTGAAAGCGTCAAGCTTGACCTCTAGAATGTCTTAGCTACTTAGTAGTAATCTATTAAACATGTGAAGACACA GGTACCAAAGATGTTTTTAACTTCTTTTTGTGATGCCAGGATGGAATCAAATTGGATGAGAAATTCTTAAGTAGTGTACA TACTCAAATATTAAGTAGAGAAATTAACAGTGCATATGAGTTGATGCAATTTTTTTGAAAGTTCAAGGATATATTAAAAT TAAAAAATTTACATTAAAAGTTGTGTTAAAGTTATTTTAATATTTTTTTGGGGCCAAGTTATTTTAATATTAAGTTAAAA CTTTTGCTTGATTGTGATTTGTGACTGTAGAGTATAGACACTGCATGCTCATATAAAAATAATTCTTTCAAGATGTTTTC TTTAATATAATTAAGACCTTATTTTTCAAAAACATTAACATATACAGTGAAGTCAAGTCTTCAATTTATTTGTTAAGCAT GTAATATATTTGTTACATATTTAACCTGCTTCAGATTATTCATCCACAACAGGCTATGTACACCTCTAAAAATCTAAAAT GAGAAAATTATGTTTAACTAGAGCATAGTTAACTTTATGTATTAATCATTAAAGATATCATTAAAACATCCACGCATTTT TAATTTGCAGTTCCACTGAATGTGTTTTAATTTGACAGTGATTGGCACAATTGCTATGAATGATTATTTGGAAGCCGCCA CCATTGTTTTCCTATTCTCAATTGCAGAATGGCTAGAAACAAGGGCAAGCTACAAGGTATTTTTGTTATTTCATTTTTCA AGCTTAACAGTTAACACTAGTTCTAGTATTGTTCTTTAATTTATCAAGAGACTAGTGGATCCAGATTATACAGTGAAGCC TTAATCAAATGAGTGGTGATGCTTCTTATTGTATAACTTAAATGACATTATTTCAAAATCATACCATTTTTTTTACCATT AGAATCATGTATAATGTTTGTCACAACTGTGAACAATTCTGAGCTGTCAAAATCATAGTCTTGTTTCCTTATTGCTCACA CAAAATTATGAAAAAAGTGGGATTTACTGATTTTACATTCTCAATGAATTGGTCCATTTTGGTATTGTGTTTGCATGTGA TTTTCTCCTCTAGCTGTAGAATACAAAAGCAGGGTCCTCTGCTTCAATTCTGACATTCAGCATTGGAAACCTTCTTAAAT TTGCAATTTTTGTGAATTCAGGCAAATGCAGTAATGTCATCACTGATGAACATAACTCCTCAAAAAGCAGTCATAGCTGA AACAGGAGAAGTTGTGGATGCCGATGAAGTGAAAGTTAACACCATCATTGCAGTTAAAGCAGGGGAGGTGATACCCATTG ATGGGGTTGTTTCAGATGGAAACTGTGAAGTTGATGAAAAACATTTGACTGGGGAATCATTCCCAGTAGCCAAGCAAAGG GATTCTACTGTCTGGGCTGGCACCATCAATTTAAATGGTAAACTTTTCATCTCCAATATATGTATCATTGGTAAAAGAGA AAATATGTATCATTGGTGAAACTAATGTTTCTTTTTATTGGTTAAAAGGCTATATTAGTGTGAAAACCACTGCATTGGCT GAAGATTGTGTGGTTGCTAAAATGGCAAAGCTTGTGGAAGATGCTCAGAACAGTAAAACCAGCACTCAGAGATTGATTGA CAAGTTTGCCAAGTTTTATACCCCAGGTTAGTTAAATTCAAGACTATTTGCTTTAATCACTCTTGAGCCTGAAAAGTTTA ATCTACAATCACAGTCTTCACCCATGAAGAGTGACGGTGTTGACACCACCACCGACACGACACTTGTTAGACCAAAATAG TGTATTTTTTTCTGTAGCTGGTTGTCATAGAGCTTAGAAAATTGTTTTTATGTTTTCGTTGTGAAGAGATGAACATGTCT TGACTTTGAATAAGTGGTGTTCTACTTTTTGGAGGTTAGCCATATGTCGTGGTGTTAGTGTCGTGTCAGAGTCGATGCTA TATAGGTCTTTAATATATTTTTCTTTTCCTTTTTTATTCCTTTCTTGCCTTTATTCAGTTTCACTGTCCTAATTTCTTTC TGGTAATATTTTCAGCTGTGGTAGTCATATCAGCTCTTGTAGCTGTAATTCCATTAGTGTTTAAAGTGCATAATGAGAAG CACTGGCTTCATTTTGCACTAGTGATCTTAGTGAGTGCATGCCCATGTGCAGTTGTACTTTCAACACCAGTTGCAACTTT TTGTGCCTACACTAAAGCAGCTACATCGGGTCTTCTCATCAAAGGGGGTGAAAATCTTGAGACACTTGCCAAAATTAAGA CCATGGCTTTTGACAAAACTGGCACTATAACAAAGGGTGAATTTGTGGTGACAAGTTTTCAATCCCTTTCAGATGACATT GATTTGAGCACATTGCTTTACTGGTAAGGATTGTTTCTTCATCCTTTGTATTTGTCAATCTTTACTTGAAATGCATATTC AATTTAGTGAATTATGGTGATAGATCTTGTTAGGAATTTTTTTAAGCTTATTTTGAATATGGATCAAATAGATGGTTGGA TAATAAGTTCAACAAATTCAACTTTTCAGGGTGTCAAGCATTGAGAGCAAGTCAAGTCATCCATTGGCGGAAGCAATGGT TGATTATGGAAGGTCTCTCTCTATTGAACTAAAGCCAGAAAAGGTGACTGAATTTGAAAATTTTCCTGGAGAAGGAATCA GAGGGAAAATTGATGAGAGAGTTCTTTTCATTGGTAACAAAAAAATTGCCACAAGAGCAGGGTCTGAATCAGGTGAACAC CATTCCCCTATTTATGTTTATGGTGACATTACTCTTTAAGGTCAATTAAAAGTAGAAGTGTAAACCTGGTCATGATACTA TACTGCTATTGAGAGAGATTCATTACACTAAAATTATAACTCATTTCAATATCCCTTCTAGCTAACAATTACCATGGAGC CTTATTAATTTTTCTGTTTACTGGAACTGGATGAAGTTTTCATTGTAATGATTTTTGTTTTGTAGTTCCGACCTTACAAG GTGAAGATCAAAGAGGAAAGACCACTGGGTACATATACTCTGAAGGGAGCCCAGTTGGATTTTTTTCTCTATCCGATGCT TGCCGATCAGGGGTTCAGGAAGCAATAGCGCAGCTTAAGTCATTGGGAATCAAAACCGCTATGCTCACCGGGGATTGTCA ATCAGCCGCAATGCAAGCACAGGAGCAGGTATGTGATTTTACATGGTTAAACCCCTATGCATATATTATGGCTATGTTCT AAAATTTGGCTATATCATAGTATGAGTATCAAATTCTATATTTTCAAACACAGTGAACTTATATGCTGTGACTGATGAAT TGAACTTACTTTTAATGTTTTAAGATGTCACAAGACCATTCATTTTTTTATGTGTAAATATCTGAATATGCTCTAGTGTT ACATTTACTTTCCATGTATGATGTATCAGTTGGAGTCATATAACCTGAAATAAATACTAATGGGAACATTGATTTCATTT ACAGCTTGGAAATGCTCTGGATTTAGTCCATGCAGAACTTTTGCCAGAGGACAAGGTGAAAATCATCTCAGAGTTAAAAA CTGAAGGCCCAACAGCCATGATTGGAGATGGTGTTAATGACGCGCCTGCATTGGCTACAGCTGATATAGGAATCTCAATG GGAATTTCAGGTTCTGCACTGGCAAGTGAGACAGGCAACATAATTCTCATGTCAAATGACATTAGGAAGGTACCAGAAGC CATTAAGCTTGCAAAAAAAGCTCGGAGGAAAGTGATCGAAAATATTATCTTGTCGGTCATTACTAAGGCTGCGATTGTTG GTTTGGCCATTGGTGGTCATCCAATTGTTTGGGCAGCAGTTCTTGCTGATGTTGGAACATGTCTCTTGGTCATCTTAAAC AGCATGTTAATTCTGAAGAGAGGACATAAGCATGGAGGAAAATGTTGTAAAACTTCAACTCAGAAACATGTCCACAAAAA TGGATGTGGTGGTGGCAATTCCCCTCATCATCACCATCATCACGGGCATAAGAACCATGATCACCAGCATAAACACCAAC ATCAGCATCAACATGAAAGCCATGATCATTGTTGCTCAGACAATGCAAAAAAGATATCTCAGCCTCAGAAGTGTGCCTCC AAGACATGCTCCCCTAAGAGTCCACCCTGCCCTTCAAATTCAAGTTTATGTGGAAGTGTTAAGCATCTTAATACCACGGA GGGTCATGATCAATGTAAGGGAAATGATGAATTCCAGGAATCAGATCACTGCCATCATGGAAGATGTGACAAGAGTCAAG ATGGAGTCCATAAGCATGATACCGAAAGCAAGGCTTGTTTGGAGTCACACAATTTGATCCTAAATGCAGAAAGTTATGGT GCAGTTACAACAAACAAGCATAGTAGTTGTTCAGGACACAAGTCCCATGGGGAAAAACACTGCCACACCCAAAATGTTGA CATGGTTACTCATGATAGTGCTTCAATTTGTTCTCTTAGCCATTTCAATGTCTCTTGTAAAAAAGAAAGCCAACAGTCTG CTCAACATTGTCACGTGAACCATCATTGTGAAAATCTGAAAGACCATGGCATTCAGCATAAAAAATCAGGTTGTGATTCT GATTCTGAGAAGCATGGGACTGGTGAAATATCCATTGACATCGCTGATGAGCCTGTTGCCTCCAAGCATGGTTGTTTAAG TTTGAAAGAGGAAATAAAAGCTTCTTCTTGTTGTGAAGACCGCTCGGCTACATGTCACAAATTGCTTGCTGAATTTGGCT GTGAGGGTTTAAGTGAGAGAGAAGTCAGTGCTTGTTGCAGAAATGAAGGCACTTCGAAAGAGTCCCCGGAATCCTCTATT GTGCAGCATGCTTGTATTAGTTTGGACAAGAGAGAAGTTGGTGGATGTTGCAAGAGCTACATGAAAGAATGCTGTGCCAA ACATGGACATGGACACTCAGGGGCTGGTTTTGTAGGAGGCTTATCAGAAATTATTACAGAATAGGTGTAGCTGACTCCAC AATAAGCAAAAGATTTGAACAAGTTTGTATTTAGCAGATTTTCATGGTGTGGAATGACAAGAAAGGAACCCTTTAAATTA ATAACTGTAAGTGCTTATACAGGCAACATACTGTTAATAGTCTTGTATATTGTTTGAACAGGTAGTTGGATGTAATACAA CATGTCTGTGACCTCCATTTAATAAGGTGGATAAACAGCCCTGTGGTATGAGTTGAAGGTTTTGCAGGGCAAACAAACAT TGCTCTGGTAGGGCACCTTGGCTTTTCATTTTCAAGTTTTTTGTTAAGGGAATTGGGCTTGTAAGGAGAAGGGAAACCAC TCCTTTTAGCACTTGTTTGGGTAGATGTTAAGGGCTTCTGGCTCTTTCATGTATGTTGCCTAATATACTGGTAGATGTTA ACATCAAAGCTATAACTTCTGTTACGTTTTGTTGCATGTGGTGACACACTCTGATTAGGTGATTCCTACCTTTGACACAT TTTGTTTACACTATAATTTCCAGAATTAGCTTTTGTTTTTATTTATCTAAAATTCAAATCTTAGAGTTGTATTTGTTTTC TTGGACAAAACAAGATTTCAGAAGCGGTTCACCAGACGTTTCCTTTAAAAATATTATTTTCAATTTTAATACACTTTTTC TGATGTATCGAAAAAAAGAATAAAGA
CDS sequence (LotjaGi4g1v0304700.1) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGGCTTCCCAGGAGAAGAAGAAGCTGCAGAAAAGCTACTTCGATGTTTTGGGTTTGTGTTGTTCTTCTGAGGTGCCGCT TATTGAGGGCATCCTGAAACCTCTGGAAGGAATCAAAGAGGTTTCTGTCATCGTACCATCACGAACCGTCATCGTTGTTC ATGACGGTCTCATCATTTCTCAGCTCCAGATTGTTAAGGCTCTGAATCAAGCAAGGCTAGAAGCGAATGCTAGAGTGTAT GGGAATGAAAAGCACCAAAAGAGATGGCCAAGTCCATATTCAATTGCTTCTGGGTTGCTACTTTTGCTTTCGTTTCTCAA GTATGTTTATTCTCCACTGAAATTTCTGGCACTTGGAGCAGTTGCTGCGGGCATATTCCCAATTATCTTAAAATCTTTTG CTTCACTTCGGAACGCAAGACTTGACATCAACATTCTCATGATTATAGCAGTGATTGGCACAATTGCTATGAATGATTAT TTGGAAGCCGCCACCATTGTTTTCCTATTCTCAATTGCAGAATGGCTAGAAACAAGGGCAAGCTACAAGGCAAATGCAGT AATGTCATCACTGATGAACATAACTCCTCAAAAAGCAGTCATAGCTGAAACAGGAGAAGTTGTGGATGCCGATGAAGTGA AAGTTAACACCATCATTGCAGTTAAAGCAGGGGAGGTGATACCCATTGATGGGGTTGTTTCAGATGGAAACTGTGAAGTT GATGAAAAACATTTGACTGGGGAATCATTCCCAGTAGCCAAGCAAAGGGATTCTACTGTCTGGGCTGGCACCATCAATTT AAATGGCTATATTAGTGTGAAAACCACTGCATTGGCTGAAGATTGTGTGGTTGCTAAAATGGCAAAGCTTGTGGAAGATG CTCAGAACAGTAAAACCAGCACTCAGAGATTGATTGACAAGTTTGCCAAGTTTTATACCCCAGCTGTGGTAGTCATATCA GCTCTTGTAGCTGTAATTCCATTAGTGTTTAAAGTGCATAATGAGAAGCACTGGCTTCATTTTGCACTAGTGATCTTAGT GAGTGCATGCCCATGTGCAGTTGTACTTTCAACACCAGTTGCAACTTTTTGTGCCTACACTAAAGCAGCTACATCGGGTC TTCTCATCAAAGGGGGTGAAAATCTTGAGACACTTGCCAAAATTAAGACCATGGCTTTTGACAAAACTGGCACTATAACA AAGGGTGAATTTGTGGTGACAAGTTTTCAATCCCTTTCAGATGACATTGATTTGAGCACATTGCTTTACTGGGTGTCAAG CATTGAGAGCAAGTCAAGTCATCCATTGGCGGAAGCAATGGTTGATTATGGAAGGTCTCTCTCTATTGAACTAAAGCCAG AAAAGGTGACTGAATTTGAAAATTTTCCTGGAGAAGGAATCAGAGGGAAAATTGATGAGAGAGTTCTTTTCATTGGTAAC AAAAAAATTGCCACAAGAGCAGGGTCTGAATCAGTTCCGACCTTACAAGGTGAAGATCAAAGAGGAAAGACCACTGGGTA CATATACTCTGAAGGGAGCCCAGTTGGATTTTTTTCTCTATCCGATGCTTGCCGATCAGGGGTTCAGGAAGCAATAGCGC AGCTTAAGTCATTGGGAATCAAAACCGCTATGCTCACCGGGGATTGTCAATCAGCCGCAATGCAAGCACAGGAGCAGCTT GGAAATGCTCTGGATTTAGTCCATGCAGAACTTTTGCCAGAGGACAAGGTGAAAATCATCTCAGAGTTAAAAACTGAAGG CCCAACAGCCATGATTGGAGATGGTGTTAATGACGCGCCTGCATTGGCTACAGCTGATATAGGAATCTCAATGGGAATTT CAGGTTCTGCACTGGCAAGTGAGACAGGCAACATAATTCTCATGTCAAATGACATTAGGAAGGTACCAGAAGCCATTAAG CTTGCAAAAAAAGCTCGGAGGAAAGTGATCGAAAATATTATCTTGTCGGTCATTACTAAGGCTGCGATTGTTGGTTTGGC CATTGGTGGTCATCCAATTGTTTGGGCAGCAGTTCTTGCTGATGTTGGAACATGTCTCTTGGTCATCTTAAACAGCATGT TAATTCTGAAGAGAGGACATAAGCATGGAGGAAAATGTTGTAAAACTTCAACTCAGAAACATGTCCACAAAAATGGATGT GGTGGTGGCAATTCCCCTCATCATCACCATCATCACGGGCATAAGAACCATGATCACCAGCATAAACACCAACATCAGCA TCAACATGAAAGCCATGATCATTGTTGCTCAGACAATGCAAAAAAGATATCTCAGCCTCAGAAGTGTGCCTCCAAGACAT GCTCCCCTAAGAGTCCACCCTGCCCTTCAAATTCAAGTTTATGTGGAAGTGTTAAGCATCTTAATACCACGGAGGGTCAT GATCAATGTAAGGGAAATGATGAATTCCAGGAATCAGATCACTGCCATCATGGAAGATGTGACAAGAGTCAAGATGGAGT CCATAAGCATGATACCGAAAGCAAGGCTTGTTTGGAGTCACACAATTTGATCCTAAATGCAGAAAGTTATGGTGCAGTTA CAACAAACAAGCATAGTAGTTGTTCAGGACACAAGTCCCATGGGGAAAAACACTGCCACACCCAAAATGTTGACATGGTT ACTCATGATAGTGCTTCAATTTGTTCTCTTAGCCATTTCAATGTCTCTTGTAAAAAAGAAAGCCAACAGTCTGCTCAACA TTGTCACGTGAACCATCATTGTGAAAATCTGAAAGACCATGGCATTCAGCATAAAAAATCAGGTTGTGATTCTGATTCTG AGAAGCATGGGACTGGTGAAATATCCATTGACATCGCTGATGAGCCTGTTGCCTCCAAGCATGGTTGTTTAAGTTTGAAA GAGGAAATAAAAGCTTCTTCTTGTTGTGAAGACCGCTCGGCTACATGTCACAAATTGCTTGCTGAATTTGGCTGTGAGGG TTTAAGTGAGAGAGAAGTCAGTGCTTGTTGCAGAAATGAAGGCACTTCGAAAGAGTCCCCGGAATCCTCTATTGTGCAGC ATGCTTGTATTAGTTTGGACAAGAGAGAAGTTGGTGGATGTTGCAAGAGCTACATGAAAGAATGCTGTGCCAAACATGGA CATGGACACTCAGGGGCTGGTTTTGTAGGAGGCTTATCAGAAATTATTACAGAATAG
Protein sequence (LotjaGi4g1v0304700.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
MASQEKKKLQKSYFDVLGLCCSSEVPLIEGILKPLEGIKEVSVIVPSRTVIVVHDGLIISQLQIVKALNQARLEANARVY GNEKHQKRWPSPYSIASGLLLLLSFLKYVYSPLKFLALGAVAAGIFPIILKSFASLRNARLDINILMIIAVIGTIAMNDY LEAATIVFLFSIAEWLETRASYKANAVMSSLMNITPQKAVIAETGEVVDADEVKVNTIIAVKAGEVIPIDGVVSDGNCEV DEKHLTGESFPVAKQRDSTVWAGTINLNGYISVKTTALAEDCVVAKMAKLVEDAQNSKTSTQRLIDKFAKFYTPAVVVIS ALVAVIPLVFKVHNEKHWLHFALVILVSACPCAVVLSTPVATFCAYTKAATSGLLIKGGENLETLAKIKTMAFDKTGTIT KGEFVVTSFQSLSDDIDLSTLLYWVSSIESKSSHPLAEAMVDYGRSLSIELKPEKVTEFENFPGEGIRGKIDERVLFIGN KKIATRAGSESVPTLQGEDQRGKTTGYIYSEGSPVGFFSLSDACRSGVQEAIAQLKSLGIKTAMLTGDCQSAAMQAQEQL GNALDLVHAELLPEDKVKIISELKTEGPTAMIGDGVNDAPALATADIGISMGISGSALASETGNIILMSNDIRKVPEAIK LAKKARRKVIENIILSVITKAAIVGLAIGGHPIVWAAVLADVGTCLLVILNSMLILKRGHKHGGKCCKTSTQKHVHKNGC GGGNSPHHHHHHGHKNHDHQHKHQHQHQHESHDHCCSDNAKKISQPQKCASKTCSPKSPPCPSNSSLCGSVKHLNTTEGH DQCKGNDEFQESDHCHHGRCDKSQDGVHKHDTESKACLESHNLILNAESYGAVTTNKHSSCSGHKSHGEKHCHTQNVDMV THDSASICSLSHFNVSCKKESQQSAQHCHVNHHCENLKDHGIQHKKSGCDSDSEKHGTGEISIDIADEPVASKHGCLSLK EEIKASSCCEDRSATCHKLLAEFGCEGLSEREVSACCRNEGTSKESPESSIVQHACISLDKREVGGCCKSYMKECCAKHG HGHSGAGFVGGLSEIITE
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 | 92 | 92 | - | – | |
PANTHER | 3 | 837 | 835 | 0.0 | – | |
PANTHER | 3 | 837 | 835 | 0.0 | – | |
Gene3D | 5 | 79 | 75 | 4.8E-11 | – | |
SUPERFAMILY | 8 | 75 | 68 | 2.62E-9 | ||
ProSiteProfiles | 11 | 77 | 67 | 13.783 | ||
CDD | 93 | 694 | 602 | 0.0 | – | |
Phobius | 93 | 110 | 18 | - | – | |
TMHMM | 108 | 130 | 23 | - | – | |
Phobius | 111 | 115 | 5 | - | – | |
Phobius | 116 | 134 | 19 | - | – | |
Phobius | 135 | 140 | 6 | - | – | |
Phobius | 141 | 157 | 17 | - | – | |
SUPERFAMILY | 143 | 386 | 244 | 1.01E-17 | ||
TIGRFAM | 143 | 694 | 552 | 2.7E-178 | ||
TIGRFAM | 143 | 484 | 342 | 3.1E-99 | – | |
TMHMM | 145 | 176 | 32 | - | – | |
Phobius | 158 | 162 | 5 | - | – | |
Phobius | 163 | 182 | 20 | - | – | |
TIGRFAM | 166 | 670 | 505 | 4.0E-72 | ||
Gene3D | 170 | 295 | 126 | 4.4E-31 | – | |
PRINTS | 183 | 201 | 19 | 5.9E-7 | – | |
Phobius | 183 | 310 | 128 | - | – | |
Pfam | 202 | 370 | 169 | 3.9E-45 | – | |
SUPERFAMILY | 206 | 291 | 86 | 6.02E-21 | ||
PRINTS | 241 | 255 | 15 | 2.4E-22 | – | |
TMHMM | 308 | 330 | 23 | - | – | |
Phobius | 311 | 330 | 20 | - | – | |
PRINTS | 314 | 328 | 15 | 5.9E-7 | – | |
Phobius | 331 | 341 | 11 | - | – | |
Phobius | 342 | 366 | 25 | - | – | |
TMHMM | 345 | 367 | 23 | - | – | |
Phobius | 367 | 648 | 282 | - | – | |
Gene3D | 373 | 644 | 272 | 1.6E-78 | ||
SFLD | 375 | 644 | 270 | 0.0 | – | |
SFLD | 375 | 644 | 270 | 0.0 | – | |
Pfam | 388 | 606 | 219 | 1.8E-37 | – | |
PRINTS | 392 | 406 | 15 | 2.4E-22 | – | |
SUPERFAMILY | 392 | 693 | 302 | 4.58E-46 | ||
ProSitePatterns | 394 | 400 | 7 | - | ||
Gene3D | 403 | 523 | 121 | 1.6E-78 | ||
PRINTS | 538 | 548 | 11 | 2.4E-22 | – | |
PRINTS | 570 | 587 | 18 | 5.9E-7 | – | |
ProSitePatterns | 592 | 614 | 23 | - | – | |
PRINTS | 592 | 611 | 20 | 2.4E-22 | – | |
PRINTS | 616 | 628 | 13 | 2.4E-22 | – | |
PRINTS | 627 | 641 | 15 | 5.9E-7 | – | |
Phobius | 649 | 668 | 20 | - | – | |
TMHMM | 649 | 668 | 20 | - | – | |
Phobius | 669 | 673 | 5 | - | – | |
TMHMM | 673 | 695 | 23 | - | – | |
Phobius | 674 | 696 | 23 | - | – | |
Phobius | 697 | 1058 | 362 | - | – | |
MobiDBLite | 717 | 759 | 43 | - | – | |
MobiDBLite | 723 | 748 | 26 | - | – |
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 | Nucleotide binding | Interacting selectively and non-covalently with a nucleotide, any compound consisting of a nucleoside that is esterified with (ortho)phosphate or an oligophosphate at any hydroxyl group on the ribose or deoxyribose. | ||
Biological process | Cation transport | The directed movement of cations, atoms or small molecules with a net positive charge, into, out of or within a cell, or between cells, by means of some agent such as a transporter or pore. | ||
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 | Cation-transporting ATPase activity | Enables the transfer of a solute or solutes from one side of a membrane to the other according to the reaction: ATP + H2O + cation(out) = ADP + phosphate + cation(in). | ||
Biological process | Metal ion transport | The directed movement of metal ions, any metal ion with an electric charge, into, out of or within a cell, or between cells, by means of some agent such as a transporter or pore. | ||
Molecular function | Metal ion binding | Interacting selectively and non-covalently with any metal ion. |
Expression pattern of LotjaGi4g1v0304700.1, 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…