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 | LotjaGi2g1v0136700 |
Transcript ID | LotjaGi2g1v0136700.2 |
Related isoforms 1 | |
Lotus japonicus genome version | Gifu v1.2 |
Description | ABC transporter family protein; TAIR: AT3G59140.1 multidrug resistance-associated protein 14; Swiss-Prot: sp|Q9LYS2|AB10C_ARATH ABC transporter C family member 10; TrEMBL-Plants: tr|A0A072UJ05|A0A072UJ05_MEDTR ABC transporter family protein; Found in the gene: LotjaGi2g1v0136700 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr2:50133933..50142852) extracted from Lotus japonicus Gifu genome v1.2.
GCAATTAATCCCTTAGTATTATAACAGTGTAGTATGTGGGGGCTAGCCTGCATCCATCCCTGGTTGTGTTCTTAAATGGA TCGTAAATATTGTAACTATTTAACCTGTTTATTACTACGTTATGGTTGTGATCTTAAATGCTTTGTTTGTTTCTTATTTA TTTTTACAATATAGCACAGACCTCAATGCACTGTGTTTTGTGTTTTCTCTTCCTTTCTTTCTGAATTACTGAACTCTGGA GAGGCTTTCTATTATGATTTTTAAAGATCCTTCCACATGCATCAACCATATAAATTGAGTAAAAAAAGAGACTTTCTCTC TTACCCTGCAAGCTGTCTTAAAAAAAGCATGCCTCAATTCAGTAACAAGTAGTCCTTTTTTTCTTCAGCTACACGTACGT ATGAATTTGCAATGTTTTTTGTTTTTCCATGGATTGTTACGTGTTTATTACGTTGTTGTTCTGATCTTATAGCACAGAGC TTAATGCACTGTGTTTTGTGTTTTTCTCTTCTGTTATTTCTGATTCTCTTAACTCTAGTGGTTGCACCATTGCCTGTATA TACTCTGATAAAAAGAGTGAGACCGAAGAAAATAAAGTGAATGGAGTTCAAAAATCAAGGTTCCAAGTTATTTGGCGGAT TTTTATGCATTGATAGCTGAGAGTTGTCTTCTATATTTATTTAACATTTGTTAGCTATTTAGCTTCGCCGCATTATGCTA CTTTGTCTCCACAAGCTGTCTGTTCTATATTCTTGACTGTATTTCTCTACAAACTGTCTGTTCTATATTCTTGATTGTAA TTCATATGATATGATTAGTGTTCACGTTCAGAGATATGAAAAAAGTGATTATTGTTGGGCCTTTTTTACATTTTGGTTAT TTCCTATGGTTCAGACGGACAATTTTTTTTCTTGTGAAATCTCATAGTTTGTTTGTATCAGTTTTTATTTTAGAATCTAT TTCCTACCCACAAAAGCTTCCTCCCGGAATTGATTTAGACTTTATAATTAATTGTGAACTAATTTTGAAACATGCACTCT TAAAGTTAGCAAGTTGGATTATTTTGCTGAATCTTATTAGACTTACGGCTGAATTTGAGTTCAGCCTAACAGAAAACCAG AATGGTAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAG AGAGAGAGAGAGAGAGAGAGAGAGAGAGGAACTGAATCTAAATCTGTTATTGTATTATTGAAAGGTTAATACAGCTATGA CTTAACTACTATATTTATACTAGAAGCAAAGCTTCTTACACAAGCTATTACTATTGTACTCTAATAGCCTTGTTCAAGTT TTGGGGAAAAGTTTTCAACGACATGCTTTTTGTTGCAGAGTTTGAGAAACAAAAAAAGCAGCAAGAATATGGAAGATTTT TGGAGCATGACTTGTGGGGATTCTGGTTGTTCAGAGACAGGAGTAGAGCCTTTCTGTCATGATTTCAGGCTTTTGAAAAA TCCTTCCACATGCATCAATCATTTGTTGACCATTTGCTTTGATGTGTTACTGCTGATCATAATGTCACTGGTTATGATCC ACAAGTGTTTGTCAGGACCAATTCGGGGTCCAATCCGAGCAGAAAGATTGTCAAAGTTGCAGCTAGTTTCTGCCATAACC AACGGTTCTCTAGGGATGCTGCATTTGTGCATAGGCATTTGGGTTTTAGAGGAGAAGTTAAGGAGAATGCACAGTGCTCT TCCTCTTAATTGGTGGTTGCTAGAATTGTTTCAGGGATTCACATGGGTGTTAATCGGTTTAACTCTAAGTCTACAGCTGA AACAATTTCAAAGAGCATGGTTGTGGATGTTTTCTTTTCTTGTCTTCTTTGTCTCTGGCCTTTTCTGTGCTTTATCCATA TCTTATGCATTTAGCAGCAGAGAATTGTCCCTCAAGGCTGCTTTAGATGTTCTATCTTTTCTAGGAGCAGCTTTACTTCT CTTATGCACATACAAAGCATGCAAACGTGAAGAAGAAATTGATGAAAGTCTTTATGCCCCTTTGAATAGCCAGTTCAATG AAGTTCATCCTGTTAGCTATGTCACCCCATTTGCCAAAGCCAGATTTTTTAGTAGGATGTCATTTTGGTGGTTGAATCCA CTGATGAAAAGGGGTCAAGAGAGAACACTTCATGATGAGGATATGCCAAAGTTGTGGGAGTCCGAGCGAGCAGAAAGATG CTATTTCTTGTTTGTAGAACAATTGAATAGACAGAAGCAAAAGGACCCATCATCACGTTCATCACTTTTATGGACACTAA TTTTGTGCCACCAGAGAGAGATTTTGATATCAGGGTTCTTTGCACTGCTCAAGGTACTCACTTTGTCTTCTTGTCCTGTA ATTCTTAATGCCTTTGTATTAGCTTCTGAGGATAATGGAAATTTCAAATATGAAGGTTATGCATTGGCCATATCACTTTT CTTTGTAAAGATCATAGAATCCCTGTCACAAAGGCAATGGTATTTTCGTTGTAAACTTGTCGGTATGAAAGTTAAATCAT TACTCACTGCAGCCATCTATAAAAAACAACTGAGGTTATCCAATGCTGCTAGATTGATTCACTCTGGTGGTGAGATAACG AGTTATGTGACTATAGATGCTTACAGAGTTGGAGAATTTCCATTTTGGTTTCACCAAACTTGGACTACGATCCTCCAATT GTGTATTGCACTACTAGTTCTTATTCGTGCTGTTGGACTGGCAACAATTGCCTCATTAGTGGTGATAGTTCTCACTGTGC TTTTCAATGCTCCATTAGCAAAGTTGCAGCACAAGTTTCTGAGCAAACTGCTAGTGGCACGAGATGAAAGATTAAAGGCT AGTTCTGAGGCTCTAGTGAATGTCAAAGTATTGAAGTTCTATGCATGGGAAATCCATTTTAAAGATGCTATTCAGAGCTT AAGAAATGTTGAACTCAAATGGTTATCTTCAGTGCTACTACAAAAAGCATATAATGTCATTATCTATTGGTCTGCGCCTA TGTTTGTCTCTGCTGCTACCTTTATGGCATGTTACTTCTTGAAAGTTCCTTTACATGCAAATAATCTTTTCACTTTTGTG GCAACATTACGTCTAGTGCATGATCCGATTTCAACCATACCCGATGTTATTGGAGTTGTTATTCAAGCAAAGATTGCATT TGCCCGGATTGTAAAATTCCTTGAGGAACCTGAGCTGCAGAGGGAAAATGTCCGTAAAGTTTGCTTTGTTGAGCAGCTCA AGGGCACAATTTTAATTAATTCTGCTGACTTTTCATGGGAATGTAATGCATCAAAGCCAACACTAAGAAACATAAATTTA AAGGTTAGTCCTGGGCAAAAGATAGCGATTTGTGGAGAAGTTGGCTCAGGAAAATCAACTCTCTTAGCAGCAATTCTTGG GGAAATCCCTTATACTAAAGGAAATGTAAGTTTTTTGTAACCTTTATGCTTATCATAGATTTATGTCATTTATCACCAAA ATTCAACTTATTCCATAAAATTTGGTATCTAAACAAAGTTTGGTTTTTGATCGAGTTCAATGTCGTACTGTGATCCATAT AGCCCACCTCACTTAATGGGATAAAAAATTGTTGTTGTTTTAGTGCCGAAGTTCAACTTTTGCTATCTTTCAATTTAGCA GTAATATTAATTGATGTTAGATTCTGTTTTGTGATTTACAGATTGAAGTTTATGGGAAATTCGCTTATGTTTCTCAAACA GCATGGATACAAAGAGGAACAATACAGGAAAATATTTTGTTTGGATCAGCTTTAGATGTTCAAAGGTACCAAGAAACACT TCATAGATCTTCACTTGTGGAGGACCTTGAGTTGTTTCCCCATGGTGACCTCACTGAAATAGGCGAGAGAGGAGTAAACC TGAGCGGAGGTCAGAAACAGCGAATTCAACTAGCCCGTGCTCTTTATCAGAATGCTGATGTATATATCCTCGATGATCCA TTCAGTGCTGTTGATGCACACACTGCCACAAATTTGTTCAATGTAATACATCCTTCCTTTCTTCACAGACTCCATTCATA TCTTCCAACATCATTCTTTATTGAAAGAATTGAAATGTGACAGAAATACTTATTGGAGGGACTTACTGGAAAGACAGTCC TACTAGTGACTCATCAAGTTGACTTCCTCCCAGCATTTGATTCTGTTCTGGTATTTTCATCCATCTTAACACAAAGATTC ATGCCATTGTCTTTTTTATCTGACTCTAAATATTAGTGAACAAATTTTATCCTTGGTCTCCACACCTCATCTGATTACTT AAGCCATAGAAGTATCTTAGTTCATTGTTTCGTTTACCTTAGTATGCTATCAGATGTGTATTTGTTGTTTTCTCCCTCTC CCTTCTCCAACTTTTATGCTGCTCCTAGGGGGTTTGAAAAAATTGATTGAAGTATGCGATCTTTTGCTGAAGTTTGCCTT ATAACTAAAAGTTTGAAGAATGAAAAACATTTGATCATCTAAAAAGGTTTCTACACTAATTACTTTGAGGATGAATGGAA TATACTGGATACGATACACTAATTTTTCCATCATGGTAGTTGGAAAATTTTATTTCTTTCCACTAATTGTATTTCATTAG TTGAAAAGTAAGGGTATGATTTGACCATAAAAATTGATGTATAACCTCTTTTTTCTGATTCATTCTTTTGGGAAGAATTT TTTGTCAATTTGGCTCAATGATATCTAATCATTCTTGTTCAGTTATTTTTTCTTTCATCAGTGCCAATGTTGTTCTTGCT ATCTTGAAGCTATTAATGGACTGTCACTTTTTTCTCTGCAGTTGATGTCAGATGGAAAATCCCTACAAGCTGCTCCTTAT CACGATCTATTGACCTCAAGCCAAGAATTTCAGGACCTAGTCAATGCTCACAAAGAGACTGCTAGTTCTGACCGGCTTGT AGATTTCACTTCTTCCCAGAGACATTCAAATTCTGGTAGAGAAATTATACAACCTTTCAAACAGAAGCAGTATAAAGAAT TAAATGGTGATCAATTAATTAAGCAAGAAGAGAGAGAAAGAGGAGACACAGGGTTCAAGCCTTATTTACAGTATCTGAAT CAGAGTAGAGGATACATATACTTCTCTGCGAGTTGTCTTTGTTTCCTTATGTTTGTGATTTGCCAGATAACTCAAAACTC ATGGATGGCTGCTAATGTTGACAATCCCCATGTCAGCACGTTGCAACTGATTCTGGTTTACATGCTGATAGGAGTTGGCT CCACAATTTTCTTAATGATTAGAATTTTTCTTTCTGTTGCTTTGGGTTTTCAATCTTCGAAATCATTATTTTCACAGTTA ATGAACTCCCTTTTTCGTGCACCTATATCCTTTTATGACTCCACACCTTTGGGAAGGATACTTAGTCGGGTAAGCTCCCT AAATTTTAATGGAAGTATCACTCTATGCAATTGTTTCTAACCCTTTGTTTCCTGGTTTAGGTCTCAGCAGATCTGAGCAT TGTGGATCTTGATCTCCCACTTAACCTCGCTTATACTGTGGGAGGTGCTATAAGCTATTATGCTGATCTTATAGTTTTAA CAGCCATCACTTGGCAAGTCTTGTTTATCACTATACCCATGGTTTATGTCGTTTTGCGCTTGCAGGTAATGGAACATATT GTAATTTGAATTATACCGCGAATTTCAGTAGTGAATATGGGCCTGCTTCTTTAACTAACTAGATGAGAAAGTCACCATAT TGAACTTCACAATAATCATTGTTTTTTAATGAGATGGTTGGGCAGAATGCTATAACCCAGAATTTCTTTTATCTTCTACA CTTAGAAACTTCTGATAGTCCACTGATAGTAAAAGACTTCTGATAGTCTTTTGGTAGGAATATACTAGAAGTTACCATTC GAAACACAAGAAGCAGTAGTTATCCCCACTACTCTCCATGGTTTCCATCAAATAACATTTTCTATATCAGCATTTCTTGC AATTTTCCTTCGAAACATAGCATTGCTGCTTTTGGTAGCATGCTTAGACCCCATAATTTTCAATACACTTGGTTGGTGTC ATGAATTAATATTGCAAAACACAAGCATGGATATCTCACCAGACCTACCAATCTTAAGATGAAATTCAATTTATTTAAAA ACTTAATCACTTGGTTAGAATCTCTTATATCGTATTATGAAGTAACCATCCCAAAACCTAAAGATATTGAGTAAAGCCAA TGAATGGTTTTATAGTTCAATAGTTAGATAGGGAACATGTGAAGGATTTTTCTTCTTTTTTTCAACAGAGACACTACTAT GCATGTGCAAAAGAATTTATGCGGATGGAGGGCACAACAAAATCCTCCGTAGCTAATCATGTAGCTGAAACTGTTGCTGG ATCTATGACAATAAGGGCATTTGAGGGGGAAGATCGTTTTTTCAGGAGAAATCTTGATCTAATTGATGCCAATGCTAGTC CTTTCTTCCATATTTTTTCCTCAAGTGAGTGGCTGATACAACGGTTAGAAACAGTCTATGCGATTGTTCTTTGCTCCACG GCACTTTGCATGGTTATGCTTCCACCTGGGACTTTAACCTCTGGTGAGACTTCAGTTATTGCTACCATTGAAACATCGTT CTTAAGTTTTGTCATGATCTTGCAAATAATATTTTTTTCTCTAAAAATAGCCTTATCTCTCTTATGCGAGTCTTTTTTAT ATTCAATCTCAGGATTTATTGGCATGGCTCTATCTTATGGCCTTTCATTAAACGAGTCCTTAGTATATTCAGTTCAAAGC CAATGCATTCTTGCAAATTACATAGTATCTATAGAGAGGCTAAGTCAATACATGCATATACCAAGTGAGGCTCAAGAAGT CGTAGAAGGAAATCGTCCTCCAGTTAATTGGCCAGTTGCAGGCAAAGTAGAAATAGAAGATTTGCAGGTATTAATTACTT CAAATTTGCAGCATACAGTTACAAAATATAGGAACTGATAAAAGTGCATAATTTTCTTTATTATGCCACAACAGATACGA TACAGGCCTGAGGAGCCACTTGTACTACATGGTATAACATGCACATTTGAAGGAGGGCACAAGATTGGTATTGTTGGTAG GACAGGCAGTGGAAAATCCACTCTAATAGGTGCTTTGTTTCGTCTTGTGGAGCCAGCTGGAGGAAAAATCATAGTGGATG GCATAGACATCTCTTCTATTGGCCTTCATGATTTGAGATCAAGTATTGGAATAATACCTCAGGATCCTACCCTTTTCATT GGAACCGTTAGATATAATTTGGACCCTTTATCGCAACACTCTGATCAAGAAATATGGGAGGTAATATCTGCTACATTATG ATTTTCCTTGCTCTTCATAGAAAATGTGGACTAATTGTTTCTTCCACGAAGGTTCTCGGAAAGTGTCAATTGCGAGAGGC TGTCAAAGATAAAGGTGGCTTAGACACTTCAGGTACATTTCTAGACTCAAATTTAATTGTTGTAACTTAATTTGATTTGA TGCGGGCTTCGCTTCTTCCTTGTTACTAATGAGTAGAAACAAATGTTACGTAGTTGTTGAAGATGGATCAAATTGGAGCA CCGGACAAAGGCAATTATTCTGTTTGGGACGTGTTCTTTTGAGGAGGAGTAGGATATTAGTGCTTGATGAAGCAACTGCA TCAATCGATAATGCAACTGATTTGATTCTGCAGAAAACCATCAAGACTGAATTTGCAGATTGTACGGTAATTACCGTAGC CCACAGGATACCAACTGTGATGAATTGCACTATGGTTCTTGCCATCAATGAGGGTAAGTTTCATATTGAATGTGTGGACT AAGCTTTACTGATACCATATTTGCTTATTACTTCCTAAATGTTCAAGTTATGCTAAAGGTCCCCAAATGTGTTATATGTG AGTAAGAAATCCCATGTTGAATGAGAAATGAATATGTTGAGTAACATGTAAGTAAGGGGACCTGTACATCCAATACAAAA CAAGGTTTTCAATACACTTGTGTTATTTACTCTTAGCCCAGTTGTGGATATTTCCTCGGAGTTTCATGACCCATCAGAAT GTTTTTGTTTGTCAACTTAGTTTATGAAATCTGAAATGATTAAACTGATGCCAAGGTCTTGAACAAATTTTGTTTTGTCA AATTAATCTTTTAATATGTATTATCAGTCAAATTAGTTTTATAGGTTCGTGGCACAAAAATTCATTGGACTGATATAGTA TACATTTTAAGACTTAAAATCCAGTTTGAAATATTCAGGAACTGATATTAGTTTGAATATTTACTCATAAATGTCATTTG TTTAATTTAATTGAACAAACATTTGTCCAGACTAATCCATCTTTATTGCCAACTGGCAACTTCTACAGTTGATGTCATAT AATCTTGTGCTTGTAAGTTGTAACTAAACTGGATAAGGTAAGAGCACAAACATTAGTCCTTAAAATTGTTGCACAAAATG TTTCTATAGGAACTATGGTGTCCATGCTTGATTTCCCATATGAAGTTGCAAAAGATTAGAAACTAAAGTTTGATTAAGTA CTTGTTTTAGTTTGGTAAAATGAAATGTGTTCTATATTTGCAGGAAAGCTAGCTGAGTATGATGAGCCAATGAAGTTGAT GAAGAGAGAAAGATCGTTATTTAGGCAACTTGTTCAAGAATACTGGTCTCATTTTCAGTCTACAGAATCACATGGGAAGT TGTGAGTGATTTTTTGTTCTATCATTTTTCACTGTCTTTGTTATTATCAAAGAATGAAGAGGCCAATAAAGTGTATAATT AGAAGTTGAATGTAAAATATTGAGCCTATCATAATGGCTGCGAAATATAACATTGTTTTTTACAATTAACCTAGCTTGAA TTGAAAATGCAAGTTTAAGAGCACTTGCAACCAAAGACGA
CDS sequence (LotjaGi2g1v0136700.2) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGGAAGATTTTTGGAGCATGACTTGTGGGGATTCTGGTTGTTCAGAGACAGGAGTAGAGCCTTTCTGTCATGATTTCAG GCTTTTGAAAAATCCTTCCACATGCATCAATCATTTGTTGACCATTTGCTTTGATGTGTTACTGCTGATCATAATGTCAC TGGTTATGATCCACAAGTGTTTGTCAGGACCAATTCGGGGTCCAATCCGAGCAGAAAGATTGTCAAAGTTGCAGCTAGTT TCTGCCATAACCAACGGTTCTCTAGGGATGCTGCATTTGTGCATAGGCATTTGGGTTTTAGAGGAGAAGTTAAGGAGAAT GCACAGTGCTCTTCCTCTTAATTGGTGGTTGCTAGAATTGTTTCAGGGATTCACATGGGTGTTAATCGGTTTAACTCTAA GTCTACAGCTGAAACAATTTCAAAGAGCATGGTTGTGGATGTTTTCTTTTCTTGTCTTCTTTGTCTCTGGCCTTTTCTGT GCTTTATCCATATCTTATGCATTTAGCAGCAGAGAATTGTCCCTCAAGGCTGCTTTAGATGTTCTATCTTTTCTAGGAGC AGCTTTACTTCTCTTATGCACATACAAAGCATGCAAACGTGAAGAAGAAATTGATGAAAGTCTTTATGCCCCTTTGAATA GCCAGTTCAATGAAGTTCATCCTGTTAGCTATGTCACCCCATTTGCCAAAGCCAGATTTTTTAGTAGGATGTCATTTTGG TGGTTGAATCCACTGATGAAAAGGGGTCAAGAGAGAACACTTCATGATGAGGATATGCCAAAGTTGTGGGAGTCCGAGCG AGCAGAAAGATGCTATTTCTTGTTTGTAGAACAATTGAATAGACAGAAGCAAAAGGACCCATCATCACGTTCATCACTTT TATGGACACTAATTTTGTGCCACCAGAGAGAGATTTTGATATCAGGGTTCTTTGCACTGCTCAAGGTACTCACTTTGTCT TCTTGTCCTGTAATTCTTAATGCCTTTGTATTAGCTTCTGAGGATAATGGAAATTTCAAATATGAAGGTTATGCATTGGC CATATCACTTTTCTTTGTAAAGATCATAGAATCCCTGTCACAAAGGCAATGGTATTTTCGTTGTAAACTTGTCGGTATGA AAGTTAAATCATTACTCACTGCAGCCATCTATAAAAAACAACTGAGGTTATCCAATGCTGCTAGATTGATTCACTCTGGT GGTGAGATAACGAGTTATGTGACTATAGATGCTTACAGAGTTGGAGAATTTCCATTTTGGTTTCACCAAACTTGGACTAC GATCCTCCAATTGTGTATTGCACTACTAGTTCTTATTCGTGCTGTTGGACTGGCAACAATTGCCTCATTAGTGGTGATAG TTCTCACTGTGCTTTTCAATGCTCCATTAGCAAAGTTGCAGCACAAGTTTCTGAGCAAACTGCTAGTGGCACGAGATGAA AGATTAAAGGCTAGTTCTGAGGCTCTAGTGAATGTCAAAGTATTGAAGTTCTATGCATGGGAAATCCATTTTAAAGATGC TATTCAGAGCTTAAGAAATGTTGAACTCAAATGGTTATCTTCAGTGCTACTACAAAAAGCATATAATGTCATTATCTATT GGTCTGCGCCTATGTTTGTCTCTGCTGCTACCTTTATGGCATGTTACTTCTTGAAAGTTCCTTTACATGCAAATAATCTT TTCACTTTTGTGGCAACATTACGTCTAGTGCATGATCCGATTTCAACCATACCCGATGTTATTGGAGTTGTTATTCAAGC AAAGATTGCATTTGCCCGGATTGTAAAATTCCTTGAGGAACCTGAGCTGCAGAGGGAAAATGTCCGTAAAGTTTGCTTTG TTGAGCAGCTCAAGGGCACAATTTTAATTAATTCTGCTGACTTTTCATGGGAATGTAATGCATCAAAGCCAACACTAAGA AACATAAATTTAAAGGTTAGTCCTGGGCAAAAGATAGCGATTTGTGGAGAAGTTGGCTCAGGAAAATCAACTCTCTTAGC AGCAATTCTTGGGGAAATCCCTTATACTAAAGGAAATATTGAAGTTTATGGGAAATTCGCTTATGTTTCTCAAACAGCAT GGATACAAAGAGGAACAATACAGGAAAATATTTTGTTTGGATCAGCTTTAGATGTTCAAAGGTACCAAGAAACACTTCAT AGATCTTCACTTGTGGAGGACCTTGAGTTGTTTCCCCATGGTGACCTCACTGAAATAGGCGAGAGAGGAGTAAACCTGAG CGGAGGTCAGAAACAGCGAATTCAACTAGCCCGTGCTCTTTATCAGAATGCTGATGTATATATCCTCGATGATCCATTCA GTGCTGTTGATGCACACACTGCCACAAATTTGTTCAATAAATACTTATTGGAGGGACTTACTGGAAAGACAGTCCTACTA GTGACTCATCAAGTTGACTTCCTCCCAGCATTTGATTCTGTTCTGTTGATGTCAGATGGAAAATCCCTACAAGCTGCTCC TTATCACGATCTATTGACCTCAAGCCAAGAATTTCAGGACCTAGTCAATGCTCACAAAGAGACTGCTAGTTCTGACCGGC TTGTAGATTTCACTTCTTCCCAGAGACATTCAAATTCTGGTAGAGAAATTATACAACCTTTCAAACAGAAGCAGTATAAA GAATTAAATGGTGATCAATTAATTAAGCAAGAAGAGAGAGAAAGAGGAGACACAGGGTTCAAGCCTTATTTACAGTATCT GAATCAGAGTAGAGGATACATATACTTCTCTGCGAGTTGTCTTTGTTTCCTTATGTTTGTGATTTGCCAGATAACTCAAA ACTCATGGATGGCTGCTAATGTTGACAATCCCCATGTCAGCACGTTGCAACTGATTCTGGTTTACATGCTGATAGGAGTT GGCTCCACAATTTTCTTAATGATTAGAATTTTTCTTTCTGTTGCTTTGGGTTTTCAATCTTCGAAATCATTATTTTCACA GTTAATGAACTCCCTTTTTCGTGCACCTATATCCTTTTATGACTCCACACCTTTGGGAAGGATACTTAGTCGGGTCTCAG CAGATCTGAGCATTGTGGATCTTGATCTCCCACTTAACCTCGCTTATACTGTGGGAGGTGCTATAAGCTATTATGCTGAT CTTATAGTTTTAACAGCCATCACTTGGCAAGTCTTGTTTATCACTATACCCATGGTTTATGTCGTTTTGCGCTTGCAGAG ACACTACTATGCATGTGCAAAAGAATTTATGCGGATGGAGGGCACAACAAAATCCTCCGTAGCTAATCATGTAGCTGAAA CTGTTGCTGGATCTATGACAATAAGGGCATTTGAGGGGGAAGATCGTTTTTTCAGGAGAAATCTTGATCTAATTGATGCC AATGCTAGTCCTTTCTTCCATATTTTTTCCTCAAGTGAGTGGCTGATACAACGGTTAGAAACAGTCTATGCGATTGTTCT TTGCTCCACGGCACTTTGCATGGTTATGCTTCCACCTGGGACTTTAACCTCTGGATTTATTGGCATGGCTCTATCTTATG GCCTTTCATTAAACGAGTCCTTAGTATATTCAGTTCAAAGCCAATGCATTCTTGCAAATTACATAGTATCTATAGAGAGG CTAAGTCAATACATGCATATACCAAGTGAGGCTCAAGAAGTCGTAGAAGGAAATCGTCCTCCAGTTAATTGGCCAGTTGC AGGCAAAGTAGAAATAGAAGATTTGCAGATACGATACAGGCCTGAGGAGCCACTTGTACTACATGGTATAACATGCACAT TTGAAGGAGGGCACAAGATTGGTATTGTTGGTAGGACAGGCAGTGGAAAATCCACTCTAATAGGTGCTTTGTTTCGTCTT GTGGAGCCAGCTGGAGGAAAAATCATAGTGGATGGCATAGACATCTCTTCTATTGGCCTTCATGATTTGAGATCAAGTAT TGGAATAATACCTCAGGATCCTACCCTTTTCATTGGAACCGTTAGATATAATTTGGACCCTTTATCGCAACACTCTGATC AAGAAATATGGGAGGTTCTCGGAAAGTGTCAATTGCGAGAGGCTGTCAAAGATAAAGGTGGCTTAGACACTTCAGTTGTT GAAGATGGATCAAATTGGAGCACCGGACAAAGGCAATTATTCTGTTTGGGACGTGTTCTTTTGAGGAGGAGTAGGATATT AGTGCTTGATGAAGCAACTGCATCAATCGATAATGCAACTGATTTGATTCTGCAGAAAACCATCAAGACTGAATTTGCAG ATTGTACGGTAATTACCGTAGCCCACAGGATACCAACTGTGATGAATTGCACTATGGTTCTTGCCATCAATGAGGGAAAG CTAGCTGAGTATGATGAGCCAATGAAGTTGATGAAGAGAGAAAGATCGTTATTTAGGCAACTTGTTCAAGAATACTGGTC TCATTTTCAGTCTACAGAATCACATGGGAAGTTGTGA
Protein sequence (LotjaGi2g1v0136700.2) extracted from Lotus japonicus Gifu v1.2 Proteins.
MEDFWSMTCGDSGCSETGVEPFCHDFRLLKNPSTCINHLLTICFDVLLLIIMSLVMIHKCLSGPIRGPIRAERLSKLQLV SAITNGSLGMLHLCIGIWVLEEKLRRMHSALPLNWWLLELFQGFTWVLIGLTLSLQLKQFQRAWLWMFSFLVFFVSGLFC ALSISYAFSSRELSLKAALDVLSFLGAALLLLCTYKACKREEEIDESLYAPLNSQFNEVHPVSYVTPFAKARFFSRMSFW WLNPLMKRGQERTLHDEDMPKLWESERAERCYFLFVEQLNRQKQKDPSSRSSLLWTLILCHQREILISGFFALLKVLTLS SCPVILNAFVLASEDNGNFKYEGYALAISLFFVKIIESLSQRQWYFRCKLVGMKVKSLLTAAIYKKQLRLSNAARLIHSG GEITSYVTIDAYRVGEFPFWFHQTWTTILQLCIALLVLIRAVGLATIASLVVIVLTVLFNAPLAKLQHKFLSKLLVARDE RLKASSEALVNVKVLKFYAWEIHFKDAIQSLRNVELKWLSSVLLQKAYNVIIYWSAPMFVSAATFMACYFLKVPLHANNL FTFVATLRLVHDPISTIPDVIGVVIQAKIAFARIVKFLEEPELQRENVRKVCFVEQLKGTILINSADFSWECNASKPTLR NINLKVSPGQKIAICGEVGSGKSTLLAAILGEIPYTKGNIEVYGKFAYVSQTAWIQRGTIQENILFGSALDVQRYQETLH RSSLVEDLELFPHGDLTEIGERGVNLSGGQKQRIQLARALYQNADVYILDDPFSAVDAHTATNLFNKYLLEGLTGKTVLL VTHQVDFLPAFDSVLLMSDGKSLQAAPYHDLLTSSQEFQDLVNAHKETASSDRLVDFTSSQRHSNSGREIIQPFKQKQYK ELNGDQLIKQEERERGDTGFKPYLQYLNQSRGYIYFSASCLCFLMFVICQITQNSWMAANVDNPHVSTLQLILVYMLIGV GSTIFLMIRIFLSVALGFQSSKSLFSQLMNSLFRAPISFYDSTPLGRILSRVSADLSIVDLDLPLNLAYTVGGAISYYAD LIVLTAITWQVLFITIPMVYVVLRLQRHYYACAKEFMRMEGTTKSSVANHVAETVAGSMTIRAFEGEDRFFRRNLDLIDA NASPFFHIFSSSEWLIQRLETVYAIVLCSTALCMVMLPPGTLTSGFIGMALSYGLSLNESLVYSVQSQCILANYIVSIER LSQYMHIPSEAQEVVEGNRPPVNWPVAGKVEIEDLQIRYRPEEPLVLHGITCTFEGGHKIGIVGRTGSGKSTLIGALFRL VEPAGGKIIVDGIDISSIGLHDLRSSIGIIPQDPTLFIGTVRYNLDPLSQHSDQEIWEVLGKCQLREAVKDKGGLDTSVV EDGSNWSTGQRQLFCLGRVLLRRSRILVLDEATASIDNATDLILQKTIKTEFADCTVITVAHRIPTVMNCTMVLAINEGK LAEYDEPMKLMKRERSLFRQLVQEYWSHFQSTESHGKL
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 | 35 | 35 | - | – | |
PANTHER | 33 | 1472 | 1440 | 0.0 | – | |
PANTHER | 33 | 1472 | 1440 | 0.0 | – | |
TMHMM | 35 | 57 | 23 | - | – | |
Phobius | 36 | 57 | 22 | - | – | |
Phobius | 58 | 76 | 19 | - | – | |
Phobius | 77 | 100 | 24 | - | – | |
TMHMM | 78 | 100 | 23 | - | – | |
Phobius | 101 | 119 | 19 | - | – | |
TMHMM | 115 | 137 | 23 | - | – | |
Phobius | 120 | 137 | 18 | - | – | |
Phobius | 138 | 143 | 6 | - | – | |
TMHMM | 144 | 166 | 23 | - | – | |
Phobius | 144 | 168 | 25 | - | – | |
Phobius | 169 | 173 | 5 | - | – | |
Phobius | 174 | 195 | 22 | - | – | |
Phobius | 196 | 304 | 109 | - | – | |
Gene3D | 293 | 596 | 304 | 4.4E-14 | ||
SUPERFAMILY | 294 | 599 | 306 | 9.94E-25 | ||
Pfam | 305 | 563 | 259 | 1.4E-19 | ||
Phobius | 305 | 331 | 27 | - | – | |
ProSiteProfiles | 306 | 586 | 281 | 25.962 | ||
CDD | 307 | 594 | 288 | 1.10346E-84 | – | |
Phobius | 332 | 342 | 11 | - | – | |
Phobius | 343 | 360 | 18 | - | – | |
Phobius | 361 | 430 | 70 | - | – | |
Phobius | 431 | 459 | 29 | - | – | |
TMHMM | 437 | 459 | 23 | - | – | |
Phobius | 460 | 530 | 71 | - | – | |
TMHMM | 531 | 553 | 23 | - | – | |
Phobius | 531 | 551 | 21 | - | – | |
Phobius | 552 | 912 | 361 | - | – | |
Gene3D | 597 | 863 | 267 | 4.2E-76 | – | |
SUPERFAMILY | 613 | 844 | 232 | 3.86E-55 | ||
CDD | 621 | 821 | 201 | 4.51516E-101 | – | |
ProSiteProfiles | 623 | 844 | 222 | 22.709 | ||
Pfam | 639 | 773 | 135 | 1.2E-23 | ||
SMART | 648 | 821 | 174 | 3.5E-17 | ||
ProSitePatterns | 746 | 760 | 15 | - | ||
Gene3D | 878 | 1213 | 336 | 2.8E-31 | ||
SUPERFAMILY | 905 | 1210 | 306 | 1.7E-44 | ||
TMHMM | 912 | 931 | 20 | - | – | |
Phobius | 913 | 933 | 21 | - | – | |
CDD | 916 | 1205 | 290 | 1.30403E-76 | – | |
ProSiteProfiles | 918 | 1193 | 276 | 26.513 | ||
Pfam | 931 | 1172 | 242 | 7.7E-23 | ||
Phobius | 934 | 952 | 19 | - | – | |
TMHMM | 951 | 973 | 23 | - | – | |
Phobius | 953 | 978 | 26 | - | – | |
Phobius | 979 | 1040 | 62 | - | – | |
Phobius | 1041 | 1063 | 23 | - | – | |
TMHMM | 1041 | 1063 | 23 | - | – | |
Phobius | 1064 | 1478 | 415 | - | – | |
TMHMM | 1145 | 1167 | 23 | - | – | |
Gene3D | 1214 | 1465 | 252 | 3.1E-79 | – | |
SUPERFAMILY | 1220 | 1462 | 243 | 1.24E-63 | ||
CDD | 1228 | 1447 | 220 | 6.81416E-124 | – | |
ProSiteProfiles | 1230 | 1463 | 234 | 16.713 | ||
Pfam | 1247 | 1394 | 148 | 4.0E-29 | ||
SMART | 1256 | 1439 | 184 | 8.9E-11 |
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 LotjaGi2g1v0136700.2, 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…