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 | LotjaGi4g1v0270100 |
Transcript ID | LotjaGi4g1v0270100.1 |
Related isoforms 2 | |
Lotus japonicus genome version | Gifu v1.2 |
Description | Nitrate transporter 1.1; TAIR: AT2G26690.1 Major facilitator superfamily protein; Swiss-Prot: sp|Q9SZY4|PTR27_ARATH Protein NRT1/ PTR FAMILY 6.2; TrEMBL-Plants: tr|V7CA08|V7CA08_PHAVU Uncharacterized protein; Found in the gene: LotjaGi4g1v0270100 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr4:63558935..63569683) extracted from Lotus japonicus Gifu genome v1.2.
TCTCAATACAAACATAAGGTGTGAGTTCAAGCATAGAAGAACAAAGCTCCCTATACCTAATACCTCTCTGCTACTTTAGC ACTTTGCCACTTCTGAACTTCAGAAAATGGTTAGTACCTGCATTTGTGATCATTTTCTGAAGAGTCTTTGGTCAATGAGA GTGTTTGAAAAGTAAATTTCTTTTTAATTTTAATGAAAATTTTGTCTCAATATTTCAGGAGAAGATGAGTTGGACAGTTT CAGATGCTGTGGACTATAAAGGTTTCCCTGCTGATAGGTCCAAAACTGGTGGTTGGGTACCTGCTGCTCTCATTTTAGGT TTGTAAAGCTAATTACTTGTAGTATTGGTAATACCTTGTCTCGCTCCATTTTTGGAGCTTCTTCAATCCCTTCTTGCTAG AAGTTTGCATTTTCAAATACTAAGAGTATGTCTGGATACTCGTTGGTGCCAGTGCTAACAGACGTTAGCATCCATTTTGA GGTAAAAAGTGAACGAAACTCTTCTAATCGATTTAACGAATGTGTTTTCATGTTAACTGGTATTCAAAGTCACCATAACT CTTTTGAAAGCTTGAAAATGTTATAATTAGAGGGGCGTGAATGATTTTACCTCTTACAGGCCTGATCATAGCAATTAGCA ACAGTAGCTTGAATCCTAGAAAAGGCTCTTACACTCTGGCACATATCAATTCTCATAAAAGTAGAGAGGTGTTGGTGGGT GCCATAAATGGTTTTTATATACAAACTAGCTGTAATATTAAAAACTCCACTGGATTCTATCTGAAAAAAGTTGTGGAGAT TTCTTTTGATACCTTTCTGACATGATCCAATATCAATTTCTTCTATTTGAGTGAGCAAAATATTTTTAAAATTTTAACAT AGTACTTGTTTCATTTTTCTATTCTTTCATGATTCTATTTTATAAAAAGTATGTTATAAAAAAATCACATTAATATAATA GTTAAAACTCTATTAGATTAGATCATTTGGGAAAATGCACAAACCCTCCATTTCAATGAGTGCAGAGTAATATTTACCGT CACTCTCTATTTCATACAATTTCATTTTTTTCTTCTTCTTATATTTCTTTTTTTTTTAATTTCTATCACACCATTTTTTA TGATCATTAGTGCCAAACAAATAACTTCCTTTTGTGTTTATGTGCACACACAAGTCACCGCTCTATTGGTTCATATTAAA AGGTTCAAAAGACCTCACAAGCACAATGGTCTACACCTTTTTTGGGGTGATGATTGAGAAAAGAGAGCAACTCGAATATT ACCAGACAAACCTAGTGGAATGTAAACTAAATATATTGAGGACAATTTATGCGTCATTTTCTGTTTGGACTGGGGGGAAA CAGCAGAATATTATATACAAGCTTTATGATGATTTCTATATATATTTTCTCTTATTTTATCACCACACTTTCAAAAAGTT AAGTTTTTTTATTTATTTCCCAGCATTTTCTCCTTTTTCAACAGATTAAGGTTCACTTTTCACACGCAGTATCTAGTATC TGCTTAGAGCATCTACATCCATCATACTCACTAAAATATCTACACTTCATTTTTTACAATTCCCCATAGTGCCACATCAT CTACACAACTTTACTAACTTTTTACTCTAACCCAACAACTCTTAGACCATGTACAATGGTGTAAACAAGTTTTTCCCATT CAACACCACTTTTTATCTTCCCAACACTCCACATCATCTTCTCTCTCCAATTCAACACACTTTCAACAAATACCCACTCC AATGGTTTTCTCTCTCAACACCCTACCCCACCACTCACCCTACCCCACCACTTTTTATTTCATATTTTTATTTAATTTTA TGTTTTTGTTTTTTTTATTTACATAAAATTACAATTATTATTTTAAATTAAATTAAATAATAAACACTTAACGAATTAAT TTTTTTTAATATAGATAATAATTTATTTTATTTCCTTAACTAAAAAATGGAAGACGATAAACGAAGCACACAATAATTTA TTTTATTTTCTTAACTTAAAATGCAAGACAACAAACTAAGCACACAACACACAAATAACGTAATTAGTACGATACAAATC ATCTTCCATCACGAAGCATTTGCAAACTTTGTCCATATGTGCTTCACTAGATCTGCTTGCAGTTCATGATGAACGTTCGA ATCACGCAACTCGGATCTAGCACGCACATGATTTGCAAAAGCGGGTAACACCTCGGTCGAGTATGGTTGCGGTGTACTAG ATCCACATTCCCCAGATTGCTCAAAATCGGTCCAACGTTGAGCAAATGTATCTCGTTCATCCTCAACAATCATATTATGT AATATGATGCATGACCTCATAATGATACCCAAATCAGCTATGTCCCACAAACGAGCTGGTTCACGGATGATTTTAAAACG AGCTTGAAGAACTCCAAATGCACGTTCGATGTCCTTCCGACATCTCTCCTGAACTTGTGCAAACAACTTATCCGGTTCAC TTTGAGGAAGTCTGATCGATTTGACGAAAGTTGGATAAGAAGGGTAGATACCATCAGCTAGATAGTATGCCATATTATAG GGACGTTGATTCACAATGAAACTCACAGTTGGAGCCTTTCCCTGTTCCACATCATCAAACACTGGTGATCGATCTAGAAC GTTTATGTCGTTCAACGTTCCCGGACATCCAAAAAAGGCATGCCAGATCCATAGATCATGAGATGCAACTGCTTCAAGAA TAACTGTAGTGGTTCCCTTATCCCCTCTAGTAAATTGACCTTCCCATGCTTTAGGACAATTTTTCCACTCCCAGTGCATG CAGTCAATACTCCCGATCATGCCTGGGAACCCCCTTTGTTCACTAACCTGTAGTATTCTTTGCAGGTCCTCTTGAGTTGG TGCTCTCAGGTACTCGTGCTCATACAATCGTATGATTCCATTACAGAATCTACGTAAACACTCCAGTGCTGTAGTACCTC CTATTTTGATGTACTCATCGACTGCATCTGCTGCCACACCATATGCTAACATTCGCATTGCTGTGGTACATTTTGCTAAG GGTGATATACCTTCTTTCTTGGCTGCATCAACTCGCTGGGTGAAGTAGTTATCACTACTTGAAAAGTCCCCAACGATTCG AAGGAAAACGTGTTTTTGCATTCGGTACCGACGACGAAACATTGAATCGTCATATGTAGGCTCATTGGCAAAGTAGTCGC CAATTAGCCTTCGGTTTGCTGCTGCATGATCTCTACGGACATACTTTCTACGAGGTGCACTATCTTCCAAATTTTGGTTT GGACCCAACCCTAATTGGTTGAGTATAAAAGCTTCTTCAAGTTGAGAATTTTGAAGGTATGTTGCAATATCAAAAGGATT TTCACAAGGATTCTCAAAAGGATCAAAAGGATCCATTTGTTGTGAAATTCGAAGTAGAAAGTAAGAGGTTTTGGATATTG GTACATAAATTGATCTATGAATCCATATATATAAGTAAATTGAATGGTGGACACTGACGGATTCAAAACAAGTTACCCAC TAGAGTTAATAATCGGAAAAGGACTAGATTCGAATTGAGTGGAGCATATTCAAACCCAATAACCCATACACTAAAGCCGA ACACTGCAGACTTGACACCACTGGCAAATTATTAAAGCAAACCCCACCGACTTGACACCACTGGCAAATTATTAAAGCAA ACCCCACCGACTTGACACCACTGACAGATTCGAAACAAGTTACCCACTAGAGTTAATAATCGGAAAATGACTAGATTCGA ATTGAGTGGAGCATATTCAAACCCAATAACCCATACACTAAAGCCGAACACTGCAGACTTGACACCACTGGCAAATTATT AAAGCAAACCCCACCGACTTGACACCACTGGCAAATTATTAAAGCAAACCCCACCGACTTGACACCACTGACAGATTCGA AACAAGTTACCCACTAGAGTTAATAATCGGAAAAGGAGTAGATTCGAATTGAGTGGAACATATTCAAACACAATAACTCA TACATTAAAGCCGAACATTACAGACTTGCCATCACTGACAAATTATTAAAGCAAACACAACATACTTGACGACAACACTG ACAAATGGTTAAAGCAAACACCACAGACTTGACACCACTGGCGGGTTTGACCGAATACAGACAAATACTCGATTGAAATT AATTACCAAATAGGTCTTGGGCCAACTTACTCAACAGCTCTTTCTTACGGTCATCGAGATCCTCTTCAGAACTTAGCTTG AGATACAAATTGGTTTTCATCAATTGGTTAGTTTGTTCTTGCACCATTGTTAGCTTATCAATTCGTGCAATCTCTTGAGC CTTCAAATCTTTGTATTCAACCCAAACTTTCCCCTTCTCCTCAACGACAGGTTCTTTACTTTTCTTTTTATTCTTTCTTT TAGCTGCCTCCCTACCCATTGGACGAGGAATTGATCCTATAGTGGTTGAGCCACATGCATCACTATCGTGAGATCTCTTA GATCCACTACTTGCTGAGCCACCATTTCCTCCTACTTGACTACAAAAACGTGGTAGATCACGGAGAGCGATCCATTCTTC CATCAAAGTAAATTGAACATTCTTCCCACATGCGAATAATTCCTGCGCTTTTGCCAAAACATCATTATCCGACCAACCGC TTCCTTGTTGACGCTTAGCGGCATCATAAGCGCCAATCCATTTACCCAGTATTTTGTTCATATAATTCCAACGGTTTCGA CATGCAATTCCATCACGCGGAGGATCGAATGAGCAATGCTCATTACAATACTCAGCAATATCTCTCCAAAATGTTTCTCC TTTCTGGTTTTTCCCCACAACACTGCTTGTTCCACAGTTAATCCACCCACTAATTAGCACCATATTTTGTGCAGTGTTCC ATGCGGGTGCATGCGTTTTTTTGCTCTTAGGAGTGACTTCATTGACTTCATTATCAGCTGACCCGTCACCAAGATTGACT TGTGTTGAAAATTCCGGAAATTCCGGTCCATCAACACTAGGAAAATTTGCACGAACCATTGGCATATAACCACTAGACTG GGGTGTTTGAGATGGATATCTCACAGATCCATAAGATGGATGAAAGTTTGGAACAAATGATGACTGGTTCAAATACTGAT TTGGATCTGGATAATAGTTTGGATTTTGAGGATGTTGGTTGGAGAATTGATGTGGGACTTGAAAATAGTTTGGATTTTGA GGACGTTGGTTGGAGAATTGATGTGGGACTTGATAATTGGTGGGATTTTGAGGACGTGGGTAAGAAAATTGATTTGGATC TTCATAGTTGTTGGGATTTTGGTTGGAAATTGGGTAGCTTGAAGAATTCTGGGTGTTGTAATGGTGATTGTTGGGATCCA TTTCAAAACAAATGCTAATAGAAGGATAATAAGATGGTGAGAGAGATAATAAAGATGGGGAAAAACTTGGTTTTTTTTTC TGTGTCCAAATCTATCAAACCAAGTCTCTATTTATAGAGAAAAAAAAGTTATGAATTTTGGTAAAAAAAAAAAAAAAAAA AAAATTTCAACAAGATAATTCAGTTTAAAGTTTTTTTAAAAAAAAAATCCGGCTGGCCAATGGGACGCTGCCACGCGTCC CATCCTCACCCACTCGGTCTTCTCTCTCCTCTCCCACTGACACGCCACGCGCGTTGTCGGCGCGTGTCCTGCACGCGCCT AGCGTTCTCCAATCCGGAGCTGCCACGTGGCTCCGGATGCTCCTCTCAACAATGTTGAACGGTTTCAACATTTTCCCAAC TTCAACAACATTCAACAGACCAATGCAAGGGCTAAACATGTTTCAACAACATTCAACATCAGTTTCAACAGACCATTGTA CATGGTCTTAAAAGTTTCTATAGTGGATCCCACCATCAACATCAAATTTGTATATTTTATTATTTATCTTCATTTATTAA TTATCACCATCTAATTATATTAATTGTAAGTGTTTGTAATAAATACAAGCTCATTTTTCAAGTCTAGTGTGGAGTATCTA TTCCCACATACTCATATTTGTCATGTTGGAATTGAATATGTACTCCAATAGTAATAGATACTCATATAAGTATGTATTTA ACATTAGATACTACCATTGGAGATGCTCTTACAAACACAAGTATTTCACATTACTATATCTTATGTTAAAACATGTGCTA ATCACCCTGATTCTCTGTTCCCTTTTCTGCTCCATTTATCTGGCTATGGAATACCAATAGTATTTTTAATAAATAAGTTA TTACAAGAACTGTAAAAGTAGAAGGTAATTTTCAAAATTCTCTATGCATGAAAATTCTTCTACAGTTGATTCTGAAAACA AAATTAATTATGACAAGAGCGGGTAGCTTTTGGATGTCAAAACTGATTCTAAGAAAAAAGAAACTAATTCAAACATGCTA TTACAGGGATCGAAATCGTTGAGAGGCTCTCCACCATGGGAATTGCTGTCAACCTGGTGACATACATGATTGGAGTCATG CACTTCCCAAGCTCAACTGCAGCCAATACAGTGACTGACTTCATGGGCACATCATTTCTCTTGTGTTTGCTTGGAGGTTT TCTAGCAGACTCCTTCCTTGGCAGATTCAAGACCATTGGAATATTTGCTTCCATACAAACACTGGTTAGTTCCACTAGTA GTATGTTTGTATCCGCTTCTATTTTCTCAGAATGGCACTTAGAAACTACTCACCTAAGCTTCTCCCCCATAATTGATTAT AACTTTAGAATCCATTGCATAAGGATTTCCAAACATGCATGACCATGAGGACTTATCATAAATCTCCAAGTTACATTTCT TATAAAGTATCAACTTTATTTTATGTATACTTCATGGTATTAACTTAGATGAGATGATAATTTCAGGGTACTGCTACATT AGCAATCTCAACAAAATTGCCACAGCTACGTCCCCCACCTTGCCATGCCATGGAAAATTGCAAGCCAGCCAATGGATTCC AAATGGGAATCTTATACATGGCTCTATATCTCATCGCACTCGGAACCGGTGGCTTGAAATCTAGTGTTTCAGGATTTGGT TCTGACCAATTTGATGTGAAAGATGAGAAGGAGAAGTCTCAAATGACCTATTTCTTCAACAGGTTTTTCTTCTTCATCAG TTTTGGAACTCTGGCAGCTGTGACAGTACTTGTTTATATCCAAGATGAAGTGAGTCGAAGTTGGGCCTATGGAATATGTT CTGTTTGCATGGTCATAGCCATTTTGGTGCTGTTATCAGGCACTAAGAGATATAGGTACAAGAAGAGTGTGGGAAGCCCC ATTGTCCACATTTTCCAAGTTATAGTTGCTGCAATTAAGAAAAGGAAGATGGAACTACCTTACAATGTTGGCTCTTTGTA TGAGGACACTCCAGAGGATTTAAGAATAGAGCACACTGATCAGTTCCCGTAAGCTTATCTCAATATCTTCATCTACCCTA AACTCGTTCAGGAAATTGTGGCAGTTCTTCCAACAGATGACTCTCGAACCTTGAGAAAGTCATCTGTTGAAAATGAATAT CATAGTTTCGGAACATGTTTACAATAAATTTTTTTGTGGTTTCATGACATTGTCTAAAGATTTCCTTTGTTTCTTCAATT TTATAGTTTCTTGGAGAAAGCAGCTATTGTGGCAGAAGGTGATTTTGAGAGGACTTCATCAGGTTCTGCTCCAAACCCAT GGAAACTTTGCTCATTGACAAGGGTAGAGGAGGTTAAAATGATGGTGAGGCTTCTACCAATATGGGCAACAACCATCATA TTTTGGACCACATATGCACAAATGATCACCTTTTCAGTTGAGCAAGCATCCACCATGGAAAGGAATATTGGAAATTTCCA AATCCCAGCAGGTTCCCTCACAGTCTTCTTTGTGGCAGCAATCCTAATCACTCTTGGTGTATATGATAGACTCATCATGC CCCTTTTGAAGAAGTGGAATGGTAAACCAGGTATGAGAAGAGAGAAGACAGTAATATATTTAGTTTACTTCAAAAACATT TGATCAATCCTCTGATTAAAATAAACAAAAGCATTATTCTGGTTAGTAAGGTCGGCTATATGAAGCAGAAATTCATATTA AAGATATTAGTCAGTTTTACATTGGCTGCTGAAAGCCTAACACAACCATCATAGGCAGAGTTGGACAATACTTTGATTAA TTAAAGATATCATTCAATATGGAATAGTTTTTTCATAATTAAGAGACAAATTGTTAATTATTCTATATCATAATATATAT AACAGAAAGCAACATGTGTAACCCACACAACGTTGTTGGTATAATGGTATTGATGCCTCTCTCAAAGTTAAATGTGCATG TTTGATAGCAAAACAGCAAAACCAACCTTGATTGCACTTTTTAACATTGATGTGTGTGTGTTGTCATCTGGTAATACAAT AATTTAGACCAATAAAGTCAAAACAATCTGTGTTATAAAAGGAATTAACATATACATTTTGTGTCTCTCAGGTTTCACCA ACCTACAAAGGATTGGAATTGGACTTGCATTGTCCATTCTTGGAATGTTGGCTGCTTCTGTAGGTGAGATGAAACGTTTG TCCGTGGCTAAAGGAGCAAGTGGTCACAATACAACACTGCCCATAAGTGTTTTCCTTCTAATTCCACAGTTCTTTTTGGT TGGTGCTGGTGAAGCATTCATATACACAGGCCAGCTTGATTTCTTCATAACACAATCACCAAAAGGAATGAAAACCATGA GCACCGGTCTCTTCCTCACAACTTTATCTCTCGGTTTCTTCGTCAGCAGTTTCCTTGTCGCGGTTGTGAAGAAAGTAACT GGGACAACAGATGGGCAGGGGTGGCTAGCTGACAACATAAACAAGGGAAGGCTTGACTTGTTCTATGCACTGCTTACCAT ACTGAGTTTCATCAATTTTGTAGCATTTGTGGTGTGTGCACTCTGGTACAAGCCAAACAAAGCTAAACCATCTATGCAAA TGGGGGCAATCAAGGGTTCCTCGGTTGAGGAGAAGTGCTGAAGATGAAGAGTGAAGACACTGAGGATTATCTTAGCATTG GGGACTATACTCATTATTATTATGGGTTTGGTTTTGTTGACTGTAGATAGGAAGTTATATACCTATGTATGCATCTTAAG AACGGTTTTGAGTTTGGTTTATTTTAGTGATATCATAGAAATAATTAATGTTCAGGTTGGTTTCTTATGTGTGAAATTGT AACATATTAGTTGGTCTTTCAAGCTCTTGCTTCATTTTTCTCAAACAACAGTCTTTCTTCTTGCTTTCTCTGTATGCAGA TTTCTGCAAATCAGTGGCTCCATCTACAAGTTATGGATAGCCATTCTCCACAATGTTGATGATCTCTTGATATCCAAATA TCACATTTATCTGAACACACCACCTAGTCCAGTTCTTGCCATCAAGGATTGAGAGGTTCACAGATAAATTGCCATATTTT GACCCATCTTGCATAGATTCTTGGCTTAAATAAGTTTTTCGTCCCTAACCTTTCCATAATACCTGGTTTTCGTCCCTCGC CGGAGCAAAGGTGGGGTTTAGTCCCTAACCTTTGCCAAAACGTTTGGTTTTAGTCCCTCCGGAGCTCTGGGTCAACGCCG GAGCTCCGGTGGCACATGTGGCAATGCCACGTAGGATTAATGAGGCCACGTGTTATTATTATTATTAATTTTTTTTTAAA AGGAAAATAAACTGATTAATCATTAACTCTGAAATTAAAAACCCTAATTAACCAAGGTAAAAAACCCAAACTAATCCCTC ACCTAAATTAAAAGTCCCTTTCAACGTTAAAAGGTAAAATCAAGCAATTCATCTTCATCCCTCTTTTTTTCTCATCTTCA TCGTAGTTGCAGAGGTGAAGAACATCTAGGGTTTCTGGTCAGTTCAGCTTCATCGCTGTCTGATTCAAATCTTTGTTCTT CTACCCGATTTCGTTTTGCCTTCCCCACTGGTTGTTGTCGTGTTCCTCTCATCCTTCGTTCGCGAATCTCCAGATCTCTT CCCCGTCAGAATGTCTCAAATGTCAAGGGAATCTCGTTCTAGTGCTAGATCTTCTTCAAGCTTTTCTGTTCGACGGAGAA TGATTCGTAATGGGAAGTGTTTCTGTGAAGACAGGGTAGTTTTCCTCACTTCCCACACTGGTATTAACCCAAATAGGGAT TTCTAGAGATGTCGACATTTCTTGGTAAGTAACAAAGTTGTTGCACATACTTGCTGGGTTTAATTCCCTCACTTCCCACA CTGACATGGTCCTTGCTTAATTTTCAGAAACCAAATGACTGTGGGTTCTTTCTTTGGGATGATGAGGCTGGCTTAGAAGC TTATGAAAGACAAAATTTGTTGAAACTCGTGAAGATATCTGATGAATTGGCTAATATGAAGAGGATTTTGGAGGATACAA AGAGGGAATTGGAGGAAACCAAGAACAAGCTGGTTGATTCGAACAGAAAATTGGAGGATAGAAAGAATTTAACAATTTTG ACTTGTGTACTGTTGTGTGTACTTTTAGTATGGGCTGTAGCTGGAATGATATTGTATTGAATGAAGGTTGTTGTAACAAA ATGCTTTAACTTCAGTCATGAATGAAGGTTGTTGTAACCAAATGTATTGGTAGAATGATGGTTGGTGTAACCAAATTTAT GGTGTTACCATGATAATGAATGAAGGCTAGCCATGAATGAATGTTGTTCTGATTGAAATTGGTATTTTTGGATCTAATCC TCCTTTTGTATTTACACATTTGGTTTTAG
CDS sequence (LotjaGi4g1v0270100.1) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGGAGAAGATGAGTTGGACAGTTTCAGATGCTGTGGACTATAAAGGTTTCCCTGCTGATAGGTCCAAAACTGGTGGTTG GGTACCTGCTGCTCTCATTTTAGGGATCGAAATCGTTGAGAGGCTCTCCACCATGGGAATTGCTGTCAACCTGGTGACAT ACATGATTGGAGTCATGCACTTCCCAAGCTCAACTGCAGCCAATACAGTGACTGACTTCATGGGCACATCATTTCTCTTG TGTTTGCTTGGAGGTTTTCTAGCAGACTCCTTCCTTGGCAGATTCAAGACCATTGGAATATTTGCTTCCATACAAACACT GGGTACTGCTACATTAGCAATCTCAACAAAATTGCCACAGCTACGTCCCCCACCTTGCCATGCCATGGAAAATTGCAAGC CAGCCAATGGATTCCAAATGGGAATCTTATACATGGCTCTATATCTCATCGCACTCGGAACCGGTGGCTTGAAATCTAGT GTTTCAGGATTTGGTTCTGACCAATTTGATGTGAAAGATGAGAAGGAGAAGTCTCAAATGACCTATTTCTTCAACAGGTT TTTCTTCTTCATCAGTTTTGGAACTCTGGCAGCTGTGACAGTACTTGTTTATATCCAAGATGAAGTGAGTCGAAGTTGGG CCTATGGAATATGTTCTGTTTGCATGGTCATAGCCATTTTGGTGCTGTTATCAGGCACTAAGAGATATAGGTACAAGAAG AGTGTGGGAAGCCCCATTGTCCACATTTTCCAAGTTATAGTTGCTGCAATTAAGAAAAGGAAGATGGAACTACCTTACAA TGTTGGCTCTTTGTATGAGGACACTCCAGAGGATTTAAGAATAGAGCACACTGATCAGTTCCCTTTCTTGGAGAAAGCAG CTATTGTGGCAGAAGGTGATTTTGAGAGGACTTCATCAGGTTCTGCTCCAAACCCATGGAAACTTTGCTCATTGACAAGG GTAGAGGAGGTTAAAATGATGGTGAGGCTTCTACCAATATGGGCAACAACCATCATATTTTGGACCACATATGCACAAAT GATCACCTTTTCAGTTGAGCAAGCATCCACCATGGAAAGGAATATTGGAAATTTCCAAATCCCAGCAGGTTCCCTCACAG TCTTCTTTGTGGCAGCAATCCTAATCACTCTTGGTGTATATGATAGACTCATCATGCCCCTTTTGAAGAAGTGGAATGGT AAACCAGGTTTCACCAACCTACAAAGGATTGGAATTGGACTTGCATTGTCCATTCTTGGAATGTTGGCTGCTTCTGTAGG TGAGATGAAACGTTTGTCCGTGGCTAAAGGAGCAAGTGGTCACAATACAACACTGCCCATAAGTGTTTTCCTTCTAATTC CACAGTTCTTTTTGGTTGGTGCTGGTGAAGCATTCATATACACAGGCCAGCTTGATTTCTTCATAACACAATCACCAAAA GGAATGAAAACCATGAGCACCGGTCTCTTCCTCACAACTTTATCTCTCGGTTTCTTCGTCAGCAGTTTCCTTGTCGCGGT TGTGAAGAAAGTAACTGGGACAACAGATGGGCAGGGGTGGCTAGCTGACAACATAAACAAGGGAAGGCTTGACTTGTTCT ATGCACTGCTTACCATACTGAGTTTCATCAATTTTGTAGCATTTGTGGTGTGTGCACTCTGGTACAAGCCAAACAAAGCT AAACCATCTATGCAAATGGGGGCAATCAAGGGTTCCTCGGTTGAGGAGAAGTGCTGA
Protein sequence (LotjaGi4g1v0270100.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
MEKMSWTVSDAVDYKGFPADRSKTGGWVPAALILGIEIVERLSTMGIAVNLVTYMIGVMHFPSSTAANTVTDFMGTSFLL CLLGGFLADSFLGRFKTIGIFASIQTLGTATLAISTKLPQLRPPPCHAMENCKPANGFQMGILYMALYLIALGTGGLKSS VSGFGSDQFDVKDEKEKSQMTYFFNRFFFFISFGTLAAVTVLVYIQDEVSRSWAYGICSVCMVIAILVLLSGTKRYRYKK SVGSPIVHIFQVIVAAIKKRKMELPYNVGSLYEDTPEDLRIEHTDQFPFLEKAAIVAEGDFERTSSGSAPNPWKLCSLTR VEEVKMMVRLLPIWATTIIFWTTYAQMITFSVEQASTMERNIGNFQIPAGSLTVFFVAAILITLGVYDRLIMPLLKKWNG KPGFTNLQRIGIGLALSILGMLAASVGEMKRLSVAKGASGHNTTLPISVFLLIPQFFLVGAGEAFIYTGQLDFFITQSPK GMKTMSTGLFLTTLSLGFFVSSFLVAVVKKVTGTTDGQGWLADNINKGRLDLFYALLTILSFINFVAFVVCALWYKPNKA KPSMQMGAIKGSSVEEKC
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 | 41 | 41 | - | – | |
Gene3D | 2 | 564 | 563 | 7.1E-196 | – | |
PANTHER | 5 | 573 | 569 | 6.7E-297 | – | |
PANTHER | 5 | 573 | 569 | 6.7E-297 | ||
SUPERFAMILY | 21 | 561 | 541 | 1.57E-25 | ||
CDD | 27 | 554 | 528 | 0.0 | – | |
Phobius | 42 | 61 | 20 | - | – | |
TMHMM | 42 | 61 | 20 | - | – | |
Phobius | 62 | 72 | 11 | - | – | |
TMHMM | 71 | 93 | 23 | - | – | |
Phobius | 73 | 92 | 20 | - | – | |
ProSitePatterns | 84 | 108 | 25 | - | ||
Phobius | 93 | 98 | 6 | - | – | |
Pfam | 95 | 518 | 424 | 5.8E-104 | ||
TMHMM | 98 | 120 | 23 | - | – | |
Phobius | 99 | 118 | 20 | - | – | |
Phobius | 119 | 137 | 19 | - | – | |
Phobius | 138 | 157 | 20 | - | – | |
TMHMM | 140 | 162 | 23 | - | – | |
Phobius | 158 | 186 | 29 | - | – | |
TMHMM | 183 | 205 | 23 | - | – | |
Phobius | 187 | 206 | 20 | - | – | |
Phobius | 207 | 211 | 5 | - | – | |
TMHMM | 209 | 231 | 23 | - | – | |
Phobius | 212 | 230 | 19 | - | – | |
Phobius | 231 | 326 | 96 | - | – | |
Phobius | 327 | 347 | 21 | - | – | |
TMHMM | 328 | 350 | 23 | - | – | |
Phobius | 348 | 366 | 19 | - | – | |
TMHMM | 365 | 387 | 23 | - | – | |
Phobius | 367 | 387 | 21 | - | – | |
Phobius | 388 | 406 | 19 | - | – | |
TMHMM | 407 | 429 | 23 | - | – | |
Phobius | 407 | 427 | 21 | - | – | |
Phobius | 428 | 446 | 19 | - | – | |
TMHMM | 444 | 466 | 23 | - | – | |
Phobius | 447 | 467 | 21 | - | – | |
Phobius | 468 | 487 | 20 | - | – | |
TMHMM | 486 | 508 | 23 | - | – | |
Phobius | 488 | 512 | 25 | - | – | |
Phobius | 513 | 531 | 19 | - | – | |
Phobius | 532 | 555 | 24 | - | – | |
TMHMM | 533 | 555 | 23 | - | – | |
Phobius | 556 | 578 | 23 | - | – |
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 |
---|---|---|---|---|
Biological process | Oligopeptide transport | The directed movement of oligopeptides into, out of or within a cell, or between cells, by means of some agent such as a transporter or pore. Oligopeptides are molecules that contain a small number (2 to 20) of amino-acid residues connected by peptide linkages. | ||
Cellular component | Membrane | A lipid bilayer along with all the proteins and protein complexes embedded in it an attached to it. | ||
Molecular function | Transmembrane transporter activity | Enables the transfer of a substance, usually a specific substance or a group of related substances, 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 LotjaGi4g1v0270100.1, 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…