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| Field | Value |
|---|---|
| Gene ID | LotjaGi2g1v0136700 |
| Transcript ID | LotjaGi2g1v0136700.1 |
| 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_chr2:50133917..50142909) extracted from Lotus japonicus Gifu genome v1.2.
CTTATATTTAGTTTGGGCAATTAATCCCTTAGTATTATAACAGTGTAGTATGTGGGGGCTAGCCTGCATCCATCCCTGGT TGTGTTCTTAAATGGATCGTAAATATTGTAACTATTTAACCTGTTTATTACTACGTTATGGTTGTGATCTTAAATGCTTT GTTTGTTTCTTATTTATTTTTACAATATAGCACAGACCTCAATGCACTGTGTTTTGTGTTTTCTCTTCCTTTCTTTCTGA ATTACTGAACTCTGGAGAGGCTTTCTATTATGATTTTTAAAGATCCTTCCACATGCATCAACCATATAAATTGAGTAAAA AAAGAGACTTTCTCTCTTACCCTGCAAGCTGTCTTAAAAAAAGCATGCCTCAATTCAGTAACAAGTAGTCCTTTTTTTCT TCAGCTACACGTACGTATGAATTTGCAATGTTTTTTGTTTTTCCATGGATTGTTACGTGTTTATTACGTTGTTGTTCTGA TCTTATAGCACAGAGCTTAATGCACTGTGTTTTGTGTTTTTCTCTTCTGTTATTTCTGATTCTCTTAACTCTAGTGGTTG CACCATTGCCTGTATATACTCTGATAAAAAGAGTGAGACCGAAGAAAATAAAGTGAATGGAGTTCAAAAATCAAGGTTCC AAGTTATTTGGCGGATTTTTATGCATTGATAGCTGAGAGTTGTCTTCTATATTTATTTAACATTTGTTAGCTATTTAGCT TCGCCGCATTATGCTACTTTGTCTCCACAAGCTGTCTGTTCTATATTCTTGACTGTATTTCTCTACAAACTGTCTGTTCT ATATTCTTGATTGTAATTCATATGATATGATTAGTGTTCACGTTCAGAGATATGAAAAAAGTGATTATTGTTGGGCCTTT TTTACATTTTGGTTATTTCCTATGGTTCAGACGGACAATTTTTTTTCTTGTGAAATCTCATAGTTTGTTTGTATCAGTTT TTATTTTAGAATCTATTTCCTACCCACAAAAGCTTCCTCCCGGAATTGATTTAGACTTTATAATTAATTGTGAACTAATT TTGAAACATGCACTCTTAAAGTTAGCAAGTTGGATTATTTTGCTGAATCTTATTAGACTTACGGCTGAATTTGAGTTCAG CCTAACAGAAAACCAGAATGGTAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAG AGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGGAACTGAATCTAAATCTGTTATTGTATTATTGAAAG GTTAATACAGCTATGACTTAACTACTATATTTATACTAGAAGCAAAGCTTCTTACACAAGCTATTACTATTGTACTCTAA TAGCCTTGTTCAAGTTTTGGGGAAAAGTTTTCAACGACATGCTTTTTGTTGCAGAGTTTGAGAAACAAAAAAAGCAGCAA GAATATGGAAGATTTTTGGAGCATGACTTGTGGGGATTCTGGTTGTTCAGAGACAGGAGTAGAGCCTTTCTGTCATGATT TCAGGCTTTTGAAAAATCCTTCCACATGCATCAATCATTTGTTGACCATTTGCTTTGATGTGTTACTGCTGATCATAATG TCACTGGTTATGATCCACAAGTGTTTGTCAGGACCAATTCGGGGTCCAATCCGAGCAGAAAGATTGTCAAAGTTGCAGCT AGTTTCTGCCATAACCAACGGTTCTCTAGGGATGCTGCATTTGTGCATAGGCATTTGGGTTTTAGAGGAGAAGTTAAGGA GAATGCACAGTGCTCTTCCTCTTAATTGGTGGTTGCTAGAATTGTTTCAGGGATTCACATGGGTGTTAATCGGTTTAACT CTAAGTCTACAGCTGAAACAATTTCAAAGAGCATGGTTGTGGATGTTTTCTTTTCTTGTCTTCTTTGTCTCTGGCCTTTT CTGTGCTTTATCCATATCTTATGCATTTAGCAGCAGAGAATTGTCCCTCAAGGCTGCTTTAGATGTTCTATCTTTTCTAG GAGCAGCTTTACTTCTCTTATGCACATACAAAGCATGCAAACGTGAAGAAGAAATTGATGAAAGTCTTTATGCCCCTTTG AATAGCCAGTTCAATGAAGTTCATCCTGTTAGCTATGTCACCCCATTTGCCAAAGCCAGATTTTTTAGTAGGATGTCATT TTGGTGGTTGAATCCACTGATGAAAAGGGGTCAAGAGAGAACACTTCATGATGAGGATATGCCAAAGTTGTGGGAGTCCG AGCGAGCAGAAAGATGCTATTTCTTGTTTGTAGAACAATTGAATAGACAGAAGCAAAAGGACCCATCATCACGTTCATCA CTTTTATGGACACTAATTTTGTGCCACCAGAGAGAGATTTTGATATCAGGGTTCTTTGCACTGCTCAAGGTACTCACTTT GTCTTCTTGTCCTGTAATTCTTAATGCCTTTGTATTAGCTTCTGAGGATAATGGAAATTTCAAATATGAAGGTTATGCAT TGGCCATATCACTTTTCTTTGTAAAGATCATAGAATCCCTGTCACAAAGGCAATGGTATTTTCGTTGTAAACTTGTCGGT ATGAAAGTTAAATCATTACTCACTGCAGCCATCTATAAAAAACAACTGAGGTTATCCAATGCTGCTAGATTGATTCACTC TGGTGGTGAGATAACGAGTTATGTGACTATAGATGCTTACAGAGTTGGAGAATTTCCATTTTGGTTTCACCAAACTTGGA CTACGATCCTCCAATTGTGTATTGCACTACTAGTTCTTATTCGTGCTGTTGGACTGGCAACAATTGCCTCATTAGTGGTG ATAGTTCTCACTGTGCTTTTCAATGCTCCATTAGCAAAGTTGCAGCACAAGTTTCTGAGCAAACTGCTAGTGGCACGAGA TGAAAGATTAAAGGCTAGTTCTGAGGCTCTAGTGAATGTCAAAGTATTGAAGTTCTATGCATGGGAAATCCATTTTAAAG ATGCTATTCAGAGCTTAAGAAATGTTGAACTCAAATGGTTATCTTCAGTGCTACTACAAAAAGCATATAATGTCATTATC TATTGGTCTGCGCCTATGTTTGTCTCTGCTGCTACCTTTATGGCATGTTACTTCTTGAAAGTTCCTTTACATGCAAATAA TCTTTTCACTTTTGTGGCAACATTACGTCTAGTGCATGATCCGATTTCAACCATACCCGATGTTATTGGAGTTGTTATTC AAGCAAAGATTGCATTTGCCCGGATTGTAAAATTCCTTGAGGAACCTGAGCTGCAGAGGGAAAATGTCCGTAAAGTTTGC TTTGTTGAGCAGCTCAAGGGCACAATTTTAATTAATTCTGCTGACTTTTCATGGGAATGTAATGCATCAAAGCCAACACT AAGAAACATAAATTTAAAGGTTAGTCCTGGGCAAAAGATAGCGATTTGTGGAGAAGTTGGCTCAGGAAAATCAACTCTCT TAGCAGCAATTCTTGGGGAAATCCCTTATACTAAAGGAAATGTAAGTTTTTTGTAACCTTTATGCTTATCATAGATTTAT GTCATTTATCACCAAAATTCAACTTATTCCATAAAATTTGGTATCTAAACAAAGTTTGGTTTTTGATCGAGTTCAATGTC GTACTGTGATCCATATAGCCCACCTCACTTAATGGGATAAAAAATTGTTGTTGTTTTAGTGCCGAAGTTCAACTTTTGCT ATCTTTCAATTTAGCAGTAATATTAATTGATGTTAGATTCTGTTTTGTGATTTACAGATTGAAGTTTATGGGAAATTCGC TTATGTTTCTCAAACAGCATGGATACAAAGAGGAACAATACAGGAAAATATTTTGTTTGGATCAGCTTTAGATGTTCAAA GGTACCAAGAAACACTTCATAGATCTTCACTTGTGGAGGACCTTGAGTTGTTTCCCCATGGTGACCTCACTGAAATAGGC GAGAGAGGAGTAAACCTGAGCGGAGGTCAGAAACAGCGAATTCAACTAGCCCGTGCTCTTTATCAGAATGCTGATGTATA TATCCTCGATGATCCATTCAGTGCTGTTGATGCACACACTGCCACAAATTTGTTCAATGTAATACATCCTTCCTTTCTTC ACAGACTCCATTCATATCTTCCAACATCATTCTTTATTGAAAGAATTGAAATGTGACAGAAATACTTATTGGAGGGACTT ACTGGAAAGACAGTCCTACTAGTGACTCATCAAGTTGACTTCCTCCCAGCATTTGATTCTGTTCTGGTATTTTCATCCAT CTTAACACAAAGATTCATGCCATTGTCTTTTTTATCTGACTCTAAATATTAGTGAACAAATTTTATCCTTGGTCTCCACA CCTCATCTGATTACTTAAGCCATAGAAGTATCTTAGTTCATTGTTTCGTTTACCTTAGTATGCTATCAGATGTGTATTTG TTGTTTTCTCCCTCTCCCTTCTCCAACTTTTATGCTGCTCCTAGGGGGTTTGAAAAAATTGATTGAAGTATGCGATCTTT TGCTGAAGTTTGCCTTATAACTAAAAGTTTGAAGAATGAAAAACATTTGATCATCTAAAAAGGTTTCTACACTAATTACT TTGAGGATGAATGGAATATACTGGATACGATACACTAATTTTTCCATCATGGTAGTTGGAAAATTTTATTTCTTTCCACT AATTGTATTTCATTAGTTGAAAAGTAAGGGTATGATTTGACCATAAAAATTGATGTATAACCTCTTTTTTCTGATTCATT CTTTTGGGAAGAATTTTTTGTCAATTTGGCTCAATGATATCTAATCATTCTTGTTCAGTTATTTTTTCTTTCATCAGTGC CAATGTTGTTCTTGCTATCTTGAAGCTATTAATGGACTGTCACTTTTTTCTCTGCAGTTGATGTCAGATGGAAAATCCCT ACAAGCTGCTCCTTATCACGATCTATTGACCTCAAGCCAAGAATTTCAGGACCTAGTCAATGCTCACAAAGAGACTGCTA GTTCTGACCGGCTTGTAGATTTCACTTCTTCCCAGAGACATTCAAATTCTGGTAGAGAAATTATACAACCTTTCAAACAG AAGCAGTATAAAGAATTAAATGGTGATCAATTAATTAAGCAAGAAGAGAGAGAAAGAGGAGACACAGGGTTCAAGCCTTA TTTACAGTATCTGAATCAGAGTAGAGGATACATATACTTCTCTGCGAGTTGTCTTTGTTTCCTTATGTTTGTGATTTGCC AGATAACTCAAAACTCATGGATGGCTGCTAATGTTGACAATCCCCATGTCAGCACGTTGCAACTGATTCTGGTTTACATG CTGATAGGAGTTGGCTCCACAATTTTCTTAATGATTAGAATTTTTCTTTCTGTTGCTTTGGGTTTTCAATCTTCGAAATC ATTATTTTCACAGTTAATGAACTCCCTTTTTCGTGCACCTATATCCTTTTATGACTCCACACCTTTGGGAAGGATACTTA GTCGGGTAAGCTCCCTAAATTTTAATGGAAGTATCACTCTATGCAATTGTTTCTAACCCTTTGTTTCCTGGTTTAGGTCT CAGCAGATCTGAGCATTGTGGATCTTGATCTCCCACTTAACCTCGCTTATACTGTGGGAGGTGCTATAAGCTATTATGCT GATCTTATAGTTTTAACAGCCATCACTTGGCAAGTCTTGTTTATCACTATACCCATGGTTTATGTCGTTTTGCGCTTGCA GGTAATGGAACATATTGTAATTTGAATTATACCGCGAATTTCAGTAGTGAATATGGGCCTGCTTCTTTAACTAACTAGAT GAGAAAGTCACCATATTGAACTTCACAATAATCATTGTTTTTTAATGAGATGGTTGGGCAGAATGCTATAACCCAGAATT TCTTTTATCTTCTACACTTAGAAACTTCTGATAGTCCACTGATAGTAAAAGACTTCTGATAGTCTTTTGGTAGGAATATA CTAGAAGTTACCATTCGAAACACAAGAAGCAGTAGTTATCCCCACTACTCTCCATGGTTTCCATCAAATAACATTTTCTA TATCAGCATTTCTTGCAATTTTCCTTCGAAACATAGCATTGCTGCTTTTGGTAGCATGCTTAGACCCCATAATTTTCAAT ACACTTGGTTGGTGTCATGAATTAATATTGCAAAACACAAGCATGGATATCTCACCAGACCTACCAATCTTAAGATGAAA TTCAATTTATTTAAAAACTTAATCACTTGGTTAGAATCTCTTATATCGTATTATGAAGTAACCATCCCAAAACCTAAAGA TATTGAGTAAAGCCAATGAATGGTTTTATAGTTCAATAGTTAGATAGGGAACATGTGAAGGATTTTTCTTCTTTTTTTCA ACAGAGACACTACTATGCATGTGCAAAAGAATTTATGCGGATGGAGGGCACAACAAAATCCTCCGTAGCTAATCATGTAG CTGAAACTGTTGCTGGATCTATGACAATAAGGGCATTTGAGGGGGAAGATCGTTTTTTCAGGAGAAATCTTGATCTAATT GATGCCAATGCTAGTCCTTTCTTCCATATTTTTTCCTCAAGTGAGTGGCTGATACAACGGTTAGAAACAGTCTATGCGAT TGTTCTTTGCTCCACGGCACTTTGCATGGTTATGCTTCCACCTGGGACTTTAACCTCTGGTGAGACTTCAGTTATTGCTA CCATTGAAACATCGTTCTTAAGTTTTGTCATGATCTTGCAAATAATATTTTTTTCTCTAAAAATAGCCTTATCTCTCTTA TGCGAGTCTTTTTTATATTCAATCTCAGGATTTATTGGCATGGCTCTATCTTATGGCCTTTCATTAAACGAGTCCTTAGT ATATTCAGTTCAAAGCCAATGCATTCTTGCAAATTACATAGTATCTATAGAGAGGCTAAGTCAATACATGCATATACCAA GTGAGGCTCAAGAAGTCGTAGAAGGAAATCGTCCTCCAGTTAATTGGCCAGTTGCAGGCAAAGTAGAAATAGAAGATTTG CAGGTATTAATTACTTCAAATTTGCAGCATACAGTTACAAAATATAGGAACTGATAAAAGTGCATAATTTTCTTTATTAT GCCACAACAGATACGATACAGGCCTGAGGAGCCACTTGTACTACATGGTATAACATGCACATTTGAAGGAGGGCACAAGA TTGGTATTGTTGGTAGGACAGGCAGTGGAAAATCCACTCTAATAGGTGCTTTGTTTCGTCTTGTGGAGCCAGCTGGAGGA AAAATCATAGTGGATGGCATAGACATCTCTTCTATTGGCCTTCATGATTTGAGATCAAGTATTGGAATAATACCTCAGGA TCCTACCCTTTTCATTGGAACCGTTAGATATAATTTGGACCCTTTATCGCAACACTCTGATCAAGAAATATGGGAGGTAA TATCTGCTACATTATGATTTTCCTTGCTCTTCATAGAAAATGTGGACTAATTGTTTCTTCCACGAAGGTTCTCGGAAAGT GTCAATTGCGAGAGGCTGTCAAAGATAAAGGTGGCTTAGACACTTCAGGTACATTTCTAGACTCAAATTTAATTGTTGTA ACTTAATTTGATTTGATGCGGGCTTCGCTTCTTCCTTGTTACTAATGAGTAGAAACAAATGTTACGTAGTTGTTGAAGAT GGATCAAATTGGAGCACCGGACAAAGGCAATTATTCTGTTTGGGACGTGTTCTTTTGAGGAGGAGTAGGATATTAGTGCT TGATGAAGCAACTGCATCAATCGATAATGCAACTGATTTGATTCTGCAGAAAACCATCAAGACTGAATTTGCAGATTGTA CGGTAATTACCGTAGCCCACAGGATACCAACTGTGATGAATTGCACTATGGTTCTTGCCATCAATGAGGGTAAGTTTCAT ATTGAATGTGTGGACTAAGCTTTACTGATACCATATTTGCTTATTACTTCCTAAATGTTCAAGTTATGCTAAAGGTCCCC AAATGTGTTATATGTGAGTAAGAAATCCCATGTTGAATGAGAAATGAATATGTTGAGTAACATGTAAGTAAGGGGACCTG TACATCCAATACAAAACAAGGTTTTCAATACACTTGTGTTATTTACTCTTAGCCCAGTTGTGGATATTTCCTCGGAGTTT CATGACCCATCAGAATGTTTTTGTTTGTCAACTTAGTTTATGAAATCTGAAATGATTAAACTGATGCCAAGGTCTTGAAC AAATTTTGTTTTGTCAAATTAATCTTTTAATATGTATTATCAGTCAAATTAGTTTTATAGGTTCGTGGCACAAAAATTCA TTGGACTGATATAGTATACATTTTAAGACTTAAAATCCAGTTTGAAATATTCAGGAACTGATATTAGTTTGAATATTTAC TCATAAATGTCATTTGTTTAATTTAATTGAACAAACATTTGTCCAGACTAATCCATCTTTATTGCCAACTGGCAACTTCT ACAGTTGATGTCATATAATCTTGTGCTTGTAAGTTGTAACTAAACTGGATAAGGTAAGAGCACAAACATTAGTCCTTAAA ATTGTTGCACAAAATGTTTCTATAGGAACTATGGTGTCCATGCTTGATTTCCCATATGAAGTTGCAAAAGATTAGAAACT AAAGTTTGATTAAGTACTTGTTTTAGTTTGGTAAAATGAAATGTGTTCTATATTTGCAGGAAAGCTAGCTGAGTATGATG AGCCAATGAAGTTGATGAAGAGAGAAAGATCGTTATTTAGGCAACTTGTTCAAGAATACTGGTCTCATTTTCAGTCTACA GAATCACATGGGAAGTTGTGAGTGATTTTTTGTTCTATCATTTTTCACTGTCTTTGTTATTATCAAAGAATGAAGAGGCC AATAAAGTGTATAATTAGAAGTTGAATGTAAAATATTGAGCCTATCATAATGGCTGCGAAATATAACATTGTTTTTTACA ATTAACCTAGCTTGAATTGAAAATGCAAGTTTAAGAGCACTTGCAACCAAAGACGATCTCAAGCTGAACAGTGCAATTTA GCTGTGCTCCAGCTGATAAACGATACATAACAA
CDS sequence (LotjaGi2g1v0136700.1) 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 (LotjaGi2g1v0136700.1) 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 LotjaGi2g1v0136700.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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