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Field | Value |
---|---|
Gene ID | LotjaGi3g1v0150300 |
Transcript ID | LotjaGi3g1v0150300.1 |
Related isoforms 2 | |
Lotus japonicus genome version | Gifu v1.2 |
Description | ABC transporter ATP-binding protein; TAIR: AT3G28345.1 ABC transporter family protein; Swiss-Prot: sp|Q6YUU5|MDR_ORYSJ Putative multidrug resistance protein; TrEMBL-Plants: tr|K7LUK7|K7LUK7_SOYBN Uncharacterized protein; Found in the gene: LotjaGi3g1v0150300 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr3:20205779..20219792) extracted from Lotus japonicus Gifu genome v1.2.
CATTCCTCTTAAATCAGGTCTCTCCGAGTCTTGTGTATTGAAAAAACACACCGTAGGAAGTAGCTCTGTCAACCAACTCC TATGGAGGATAAGTGTGTTAGGAAAAAAAATATTTGGCAAGAATGCTATGAGTGAAGACACATAAACAAGAAAGTGAAAG TTTGCACTCCATATGTGACACTGACTATGCAGAGGCAGGAAGATACTTCCAATAAGCAGGCCTTAGAAATATCGAATATT GTCTCTCTAAGTTGGCACTTGGCAACAATACTTGACTAGGTCCATTTGGCTGCACATAATTTTCACAATACTGACAGGGG AATGATTCCTTGCAGAATGCAGATATCTAATATTGCTATAAAACAAATTAACCGTGACCTCATTGACCTTAACCAGGTGG TACTATAATAAGAAAAAAACTCAGCACATAAGTCACATTGTACCGGCCTCCATGTTGTATTCAGAAACGGCTTTGTTGTA AAAAGACAAGAGTAAGAGCCACGTTTTGGCTGCTGATTTTCTTCTAATCTAAGAGAATCTGAATGAGTATATATGAGTCT TTCCAAGTGTATTTTTTACTGAGGTTGTTGGCAAGGCTTATTGAATCCTGAAAAATAAATTAAAGGGTGTCTCTCCAAAG GGAGGGTATAGAGAAAATGGGGAGCAATAGCATGTTTCGCTATGCTGATGGGGTGGATAAGTTATTGATGTTTTTTGGGA CCCTGGGAAGCCTTGGAGATGGACTGCAGAACCCTCTCATGATGTATGTTCTCAGTGATGTGATCAACGCCTATGGAGAC AAGAATAGCATTTTGACAAAGCATATTGTAAACGAGGTGAGAACTTGTTCAACAAAATCACTACAAGAGCAATTTATGTG GCATAATACCTACACAATTTTGCTGGAAATTGCTTTTGTTACATTTTAAGAAGTTGTTTAATTTAGATGCTAAAGCTGTC TGGTGAAATTCAGAACATATTTTTTGTTTACTTCTATAGTATTATGCAGCTATGAACTTCATTTAAGTCCAATTGTGGTG CTAAAAGGATGATGTACACATTAAAGTAGATTAGCTATTACTTTTGTCTGGAGCAATGCTATATGTTATGGTAAGAAAAC TAAGAAATACAAGAATTGATGACGTGACAAAACTAACAGTATTATTTGACGGAAATCATGGAGGGGTTAGTGGGATTAAG CTTCCACTGCTTGTGTTTCATATCGTAACTTAAACTAGCATTTTTCTTTTGTTATAGTTTATGCCTTTATGGTGTTACAC ATTAATATGTTTTTTAAGTAAAGCATCTAAACACACCAAGTAGAAACTATGCATGTGAGGAAGGATAGCACTTATGCTAG GTCTTACTTTTTTATTATGTAACACTGGACTTCCATGTATGAAGAGACAGAGGTTTACCACTCACAAGGTTGAGAAAATT GTCATTCCAAACCTAGCTGTTATAAAAATGAAAATAAAAGCCAGTTCTTTTTCTGGAGAGAACAAAAAAAAGTGAGGTCC CCATATGAGAACATATACTGCATACTCATGTCTTTGCGATAAATAAAGATCTAATAGTATTGTTTGTGAAGGAGGCCTAA CTCAACCCAAAAGCTAGCTCAAAAGTTAATGTTTGCACAACCATATATAGCCAATGTGGGACTCTAGGGTGACCCAAATA TGGGGAGTCAACAAATGGATCTAGGATAGGGGCCCAGGCCCATGGTCAAACAACCATTGACTCTGATACCATGAAGGAGG CATAACTCAACCCAAAAGCTAGCTCAAAAGTTAAGGTTTGCACAACCATATATAAGCAATTGCTTGGCCACATCTCTAGC CAATGTGAGACTCTAACAGTTTGGATCAGCTTCTATTTCTTCATAATTAATTCTGACAACCAGATGCTACCCTCAAATTG ATTTTAACTTTAGAATCAATTCTAGAACGATTTCCAAACATGCACTTATATATACTACCTAAGTTACAAGAGACTGGAAA ATATCCAGCCCCAGTGTCTAATAACTAAAAAGCATCATTCTTTTCCCATTTTAGGCATGCATGCAATATATCTAATTTGA CTTCTTTACAACAAATGATTTTTATACATGATTACTTAACAGTTTTTGAGATTGCCACTTCACTTTCCTTTTTTCAGTAT GCATTCAGGCTTTTATGTGTTGCAGTTGGAGTTGGGATTTCTGCTTTTATAGGTAAGTTGTACACTTCAATATAGCTCAA TTACCTTCCTTGGATCCTTGAATAATTCAAATCAACTTGGAAGTTATGCAAGAAGCATAGCTATTATTAGAAAAATGAAT CTAACTACTTTTCATGCTTTATACCAATTGATAATGGCTAAACAGAAGGAGTATGTTGGACAAGAACAGCAGAGAGACAG GCTTCCAAAATGAGAATGGAATACCTAAAATCAGTCCTAAGACAAGAAGTTGGTTACTTTGACACCCAGACTGATGGTTC TTCAAAAACCTACCAAGTTGTCTCACTCATCTCCTCAGATGCAAATACCATCCAAGTTGCCTTGAGTGAGAAGGTTTGTC AGCAATTATGCCTTTCCCACTTAGGATGAAACTATGATCATAAATTATATTTCATTGAGGAGGCTGTGATTTTTTTGAGG TGAAAGTTATAGACCTATGTTAATGAATTCACAAGATGCAAATGCTCAGATTATAATGGCTTAACTTCAACTTAGTCCTT CTGTTATAGGCATGTGTGATTTTGACCACCTCAATAACTTTTTGGCTCAAATTTAGTTCATTAATCTTTTTTAATTGCTA CAATTAAGTTCTTGTTTCGGTTTTCCTATCTGTAAAACCTTCAAATCCTTGTTTTAATAATCTTAATTTTGAGGTTTGTG ATTGATAAGGGATATGAAATGAATTGAAAAGTTCAAAAGTCAGATATTTGGGAGACATCTAATAAATTTTGAAAGGTCTA CAGAAAGAAGAGTTTCTGGTTCTGAAGATGGGGAATTTGGGATTTTATATTTTTAAATTGCATTTAATATAATTTTAATT AGTGAACTGAATTTAATTTGGTATAACCAATTCAGTTTGAGAGGCTGTGTGTATAAAATAAGGATTTGAGGTAGAGAGAA ATTGACAGATGGACTTCATTATAACAATAAAAGAATTATAGTAATTAAAACATAATATTATTGAGAGATCAAAATCTTGC ATATTAGAGGGATTAAAAGTTCATTTAAGTCAATTATAATTCTTCAAACAAGAAGGATCCTTTCGGTGATGTAACCCAAA AAGTGGATAGGCCTTCAGGTAATAGACTAGTGCCTATTCAGTTTATGTGCATCAGTGACATACTTATTTATACACTTATA TATCATTAGTATGTGTTTGTTAGGACTTAGGAAGGGAACCAATGGATCTGAAAATTGCATGAATTTGAAAGCTTATTAAT TCTGTAACCTGATAAACATATGGATTTCAATATCTAACAAAAGAATTTTTTTTATGCTTTACTAATTTACACCTTCTTCT GAATGTAGATACCTGACTGCCTGGCTTACATGTCAACATTCTTATTCTGCCACATCTTTGCATTTGTACTTTCATGGAGA CTTACACTGGCAGCTATACCACTCTCTTTCATGTTCATTGTTCCAGCACTTATGTTTGGAAAGATTATGCTGGATGTCAC AATGAAAATGATTGAGTCTTATGGGGTTGCTGGTGGCATTGCAGAACAAGCAATATCTTCAATAAGAACAGTTTATTCTT ATGTTGGGGAGAACCAAACACTGATCAGGTTCAGCAGTGCACTTCAAAAAACTTTGGAATTTGGAATAAAGCAAGGTTTT GCCAAGGGCTTGATGTTAGGAAGCATGGGAGTTATTTATATAAGTTGGGGGTTTCAGGCTTGGGTTGGAACTTATCTGAT CACTGAAAAAGGAGAACAAGGTGGCCATGTGTTTGTAGCTGGCTTCAATGTCCTCATGGGAGGACTGTAAGTAATTTTAT CATTATTTACTGGATTTAATTTATATGCATGGACATTGTGAATAGTTTTACACCAACATCCAATCATATATTGACATCTT TCTTTTTTGGTATTTTCTGATGGTGTAAAGATTATTGAATAAAAAACTGTTTCTCCCTCACTTTGCAATCTGATTGGTTT TTAACATTGTAAATTGTACCTTTTTCTCATTTTCTTATTTTGATTTATTAATGATGTGACAAAATAGTTAATCCCGATTG GACGTTTGTTTAAAACTTTTTTACACTGTCAGTACATAGTTATTAAACTCTTATTGATTATGGTTCACATTTCTAATGTT GAATGGTTTTACTAATATGTTCAACATCATGAATTTCAGGAGCATTTTAAGTGCCCTTCCAAATTTGACAGCCATCACAG AGGCAACTTCTGCCATCACTCGCCTCTATGAAATGATTGATAGGGTGCCAGATATAGATTCTGAAGACAAGAAAGGAAAG GCTTTATCACATGTGAGAGGAGAAATTGTATTTAAAGACATCTATTTCTGCTACCCATCTAGGCCAGATTCACCAGTCTT GCAAGGATTTAATCTCACTGTTCCAGCAGGCAAGAGTATAGGCCTTGTGGGGGGTAGTGGTTCAGGAAAATCCACTACAA TTGCACTGCTTGAAAGGTTTTATGACCCTGTTGAAGGAGAAATACTCTTGGATGGCCACAAGATTAATAGACTTCAATTG AAATGGTTGAGATCCCATTTTGGCTTAGTAAATCAAGAGCCAGTTCTTTTTGCCACATCAATAATGGAGAATATAATGTT TGGAAAAGAAGGAGCTTCAATGGAAAGTGTAATAGATGCAGCTAAAGCAGCAAATGCACATGATTTCATCGTCAAGTTAC CGGATGGATATGAAACTCAAGTAAGTTGACCTCAACTCTTTTGCTCAGATAAAAATTTGGAAACTAACTAAAATTAGATA TGAAGGACAAAAGAAGAAAACAAGGCACTTAAATTCTATAAATATGTTCATGTTTGAGACGATTTTCTAAGTAGCTTGGA ATTTTAAAATTTATTAATCACATCTGAAGCTCTCAAATGATTTGTAGCACATGAGTGTATCAAAGTAGTTTGACCATTAA CATAACATTAAAAGTGTTAGAAATACAATACAAAACCATTCATCTGCCATTTACCCAACACCTTAAAGGCTTAAACTTTT ATGATAGTGTTGGGAACCCCCCAACCACACAACACGCAATTAACAGAGAAAAGAGTTGAAAAGCAATTGATTGTTTATTG ATGACAAAGGGAATTACAGAGAAGGGAATGGACCCAAATTCTGACACAGAGCAGTGCTCCTATAAGAAGCTTAGAGCTTC TTACTCATGACTCAATTTAGCTAAGAATCTAGATACCTCTCAACCTCCTCTCATCACCCTTATATTGTTAGGTGGAATTA CAATCAGTATCTCTCTCTCTCTATTCCGTTAGAGCCTAATTAGTCTTGCCCACTTTGCCCCTTCTAGAATACACCCTCCA CAGCTTGGGCCCTTGTGAGTGTTGATTGACCAGAGGCTCCGCATTTGGGCTTTGCTGACTTATGGCCCCATCAATGCCTC CTCCTGAGAAAGCAACCTTGTCCTCAAGGTTGAAGGAGGGAAATTGGCTTTGAATGGTGATGATGTCTTCCCAAGTTGCC TCGTCCACAGATTTCCCCTGCCACTGAATCAATGCTTGAGGAATCGTTGCCCCTTGTCGAGTCACAGCACGAGTGGCAAT CACAGAGACAGGTTGTAATGTATTCAAGTCCTCACCTTCCATGTCTCCCGGTAACTCAGGTTCAACAGCATAGTCCCCGA TGGCTTTCTTCAACATGGATACATGGAATACAGGGTGAACACGAGCCCCTTCTGGAAGTTGCAAGCGATAAGCTACTGCA CCAATGCGAGCCACGATGGGGTATGGTCCATAGTATCTTGCTGCCAGTTTGGGAAAGACTCTGGTGACCACAGACTGCTG TCGGTGAGCTCTAAGCTTCACAAAGACCCATTCGCCGACTTTGTAGGATTTGTCCACACGTTTAGAATTCGCGTAGGTAG TCATGCGATCCTGAGCCCGAGTCAGGTGACTCTTCAATTGGCGCAATGTTTCATCCCTATCCATCAAATCTCCCTGTACA GATGCCACTCTGGTTTCCCCAATGCCCCACCTAGTTAAGGTTGGAGGTGGCCTACCATACACAGTTTCGAAAGGCGTAAG CTGTGTGGCAGAATGGAAAGTGGTATTAAACTAGTATTCTGCCCAATGCAACCACAATGCCCAAGTCTTTGGTTGATCAG CCGAAAAGCACCGCAAATAAGTCTCAAGACAACGATTCACCACCTCCGTTTGACCATCGGATTCAGGGTGATATGCAGAG CTCATTCTCAAGTGCGTTCCTTGGAGGCGGAAAAGTTCCTTCCAAAAATGACTGACAAAGATTGGGTCCCTGTCACTTAC TATGGAAGATGGAACTCCGTGTAACCTGATGACCTCCTTAGCAAACACTTCCGCGATACTTCGAGCTGAATATGGATGAC GGAGGGGGATGAAGTGAGAATATTTGGATAAGCGGTCCACCACCACTAGAATGGCATCAAACCCCTTCGATTTGGGCAGC CCCGTGATGAAGTCCATTGAAAGGTCTTCCCAAATCCTCTCAGGGATTGGCAGTGGTTGAAGAAGGCCCGCAGGAGACGA GGCTACATACTTCTGGCGCTGACACACATCACAATTTTGCACATATGTTTGAACAGTGCTCTTCATGCCCTGCCAGTACA CATTAGCTGCCAGTCGTCGGTAAGTTCGAAGGAATCCGGAGTGTCCTCCTTGAAGAGAAGAATGATACTCATCCAATAAT TTGGGAATTAGAGATGAATTGCGTGGTAGAACCAACCTGGTATTGTATGTTAACACCCCATGTGTGTATTGATACCTAGG ATGTGATTGTGCATCCTCTTGCAGGTCTGCAATGAGCTTGGTCAGCTTGTCATCTGCCTTAATTTCCTGTTCCAGTAGCT GATGATCTTCCCAGATTGGAAAAGAAACCAGAGCCATAAGAGTATGGTTTTCATAAATGCGAGACAAGGCATCAGCGCCA CGATTTTGTGGCCCAGGTTTATATATAATGTCGAAATTATACCCCAATAGCTTTGCGGCCCAATTTTGTTGGTCCCCTGT CACGATTTTCTGATGTAAGAACTCTTTCAAACTCTTCTGATCTGTGGATACCGTGAAACGTCTGCCCAGCAAATATGGTC TCCAATGTTGTATAGCCAGGGCTACTGCCATGAGCTCCTTCTCATAAGCGGATTTTGCCAAGTTGCGTGTTCCCAAAGCC TTGCTAAAGTATGCTATTGGATGCTTCCTCTGCTGAAGGATTGCCCCGAGACCATGCCCTGATGCATCACATTCTATGAC AAATTCCTCATCAAAATTGGGTAATGCTAGGACTGGTGCTTCAATCAGTTTTTGCTTGAGTTGAACAAAAGCAGCTTGAG CTTCAGCACCCCATACATAAGCGTTTTTCTTGGTGAGCTCGGTTAATGGTTTTGCGATCTTGCCGTAGTCCTTAATAAAT TTGCGGTAGTACCCTGTCAATCCAAGGAAACCGCGCACCCCCTTCACATTAACCGGGACTGGCCAATTCATCACGCTGGA AATTTTATTGGGATCAACTGCGACCCCTGCCTCTGAAATTTGATGCCCCAGGTACTCAACCGTGGTCTGTGCGAAATGAC ACTTTTTGCGATTCGCTGTAAGGCTCTGTTCTGCTAGAATTTGAAGGACCTGTTCCAGCTGACGTAAATGTACAACCCAA GTTGCGCTGTAAACCAGGATATCGTCAAAAAAAACCAACACTCCCTTACGCAACATGCTTTTGAAAACTTCATTCATCAA GCTCTGAAAAGTTGAAGGGGCGTTCATCAGACCGAAAGGCATTACGAGGTATTCGTAATGGCCTTCATGCGTTCTAAATG CAGTTTTGTGTACATCTCCTGCCCGCATCAAGACTTGGTGATACCCTGACTTAAGATCCAATTTGGAGAAGTATTTGGCC CCGTGGAGTTCATCCAAAAGCTCTTCGATTACCGGGATTGGGAATTTATCAGGGATAGTGACTTTGTTCAGAGCTCTGTA ATCGAAGCACATTCGCCAGGATTGATCTTTCTTTTTCACCAAGATCACTGGACTGGAATAAGCACTCGAACTGGCCCTTA TGATCCCGGCTTCCAACATCTCCTTTACTTGCTTTTCGATCTCATCCTTGTGTAGATGGGGATATCTGTAGGGTCGCACA TTCACTGGCCCTTGTCCCTCTTTGATGTTGATTTGATGCTCTCTTCCTCGACTTGGAGGAAGGCCCTGTTTTGTCTCAAA CACGACACTATAACGCTGAAGCAGTGCCTCCAATTCCTTCTGTTGTGTACTCGTGATTCCTGCTTTGGATTCTCCTGTAC TGCCAGCATTTTCAGAAATCCACCCTGTACCAATTTCTCCCTGTCTAACCGGGTGCACCAAACTCTGTAATGCCATGAGT GAATCCTTACTTGATTCCACCCCTTGGAGTTGTATCCATTGTTGATTGCTCCAAAAACTCATGTGTTGTTTCTGCCAATT GATGATTGTGTCCCCCAGAGTCTTAAGCCACTCCATTCCTAGCACCAAATCAGGTCCCCCAAGGTCAAACAATTGGGGTG AGCACTGAACTTGGTACTGACCCAAGGTAATGGTGAGAGGCTGACAGCGTCCCTGTGCGCGCGCCCTGAATCCATCCCCA AGCTTCACCGTCATTCCCGGCGTAGCATCCACCGTCCAACCCATTCGCTGCACGAGGTGTTGATCGATGAAATTATGTGT TGCTCCAGAATCAATCAACACCAGTACAGGAACTCCGGCGATAGTGCCCAAGAGTCGCATAGTACGGGGTTGGTCCTTTT TTTCCCTATCCAAGTTGTAAAGGCTCATCAAGCTGAGTTCCCCCTCAGAGTCTTCTTCATGCTCATTGACCTCCATGGCC AACACCTTGCCTTCTTCCATGTCGTCGTCACTCTCCTCCACTACCAAGACCCGTAAGTGCTTGTCGGGGCATTGGTGCAT AGGGTGAAATGGGCCTCCGCACTTGAAGCAGAGACCTTTTTGCTTTCGCTCCATCAGTTGAGGGTATGTGAGGTGATTAA ATCCCCTATCCCTTGGCCCATTGCGTCTGGCCTCATTCGGTCTTTCACTCCTTGGGCCGTTTAGCCCATTTGTGTTCGTC ACTGGGGGTCGGGTTGTTTGAGTCGGGTCTTTACTACTCTTGACCCAAACCCAGTCCGCTCCACCCGGTCTCGTTGAGCT TCCACTGTTGGGCCTGTAACCCGAACCCCCATAACGGTTGCTCCGGCTCTGACCCGCACCGTTCTCGCCCCGCACCTCCT TCTCTACAGCTCTCGCAACTAACAACAGCTTAGATCTGGAAATTTCTCCCATGGCGACGAGACTCCGCACTTTCCCCCGA ATTTCCTCCTTCAAACCATGGAGGAAATACCCCAGATGCTGCTTATCGGGCAATTTTGGGATCTGGGCAGTGAGATATTC GAACTCGGTGATGTATTCTTCCACCGTTCCTCGTTGCCGGAGTTCTGTCAACTGCTCATAAACATCGCCTTCTCCGTGTC CTCCATACCTCTCCAAGAGAGCTTCTCTCAGCTTCTCCCATGTCAGCTCTTCCTCTGCTTCCAGGAGTGAGTTGTAGAAA TGGATCGTAGCTCCTTCCATGCTCAGTTGAGCCAGACCCACCTTCACCTCCGGCGAAGTATCCTGAACTCTGAAATACAC TTCAGCCCTCGAGATCCATCCAGCAGGATCTCTTCCATCGAACATTGGCAACTCCACCTTCCTGACCGATTGTCTGAACT CGGTAAGAACATCTCCTTGCAACGACGGTTGTCGATGTGTGCTCTCCTTGTCCCCGATTGGTTCCGGCGATAGATTTACG CCTCCGCTTCCGTCGTCTTCACCGGGAATCTTCTTCCCCATTGCACGCTCCATCATCAGCGCCAACGACGCCGGCAGATC CTTCACCGCGAGTGTGACCGCAGCTAGGGAAGTGCGCATTTCTGCGATTTCGCCTTCCAACGCGTCTACCTTCGCCTCCA TCTGGTGTTTGTTTTGCTTGACCTTCTTAGGTGGCATTCACTGGCTCTGGAAAGAATAATCCGGTAGGTCGGACCAAATT GTTGGGAACCCCCCAACCACACAACACGCAATTAACAGAGAAAAGAGTTGAAAAGCAATTGATTGTTTATTGATGACAAA GGGAATTACAGAGAAGGGAATGGACCCAAATTCTGACACAGAGCAGTGCTCCTATAAGAAGCTTAGAGCTTCTTACTCAT GACTCAATTTAGCTAAGAATCTAGATACCTCTCAACCTCCTCTCATCACCCTTATATTGTTAGGTGGAATTACAATCAGT ATCTCTCTCTCTCTATTCCGTTAGAGCCTAATTAGTCTTGCCCACTTTGCCCCTTCTAGAATACACCCTCCACAGCTTGG GCCCTTGTGAGTGTTGATTGACCAGAGGCTCCGCATTTGGGCTTTGCTGACTTATGGCCCCATCAGATAGTTGGTTCATG ACATGGTATTGAAGCTAATCCCAATTTGAATTTGAAATTAGATATCTCATGATGGGGATAAGGGCATTGACCTACCCGGT CAATAGATATCCCATGATGGGGATATGTGCATTTTGATGAATATGAAGTTTGTTATCTCCACGCTCCAGATGTCAAGTCT TGGGCGTGAAGAGGTGTTAAGTTTCACTTATAAGTGGGGAACAATCCTCACGTCTAAGATAGATTTTGGGTAGAATTAGA TCCACCCAAAATTTTAATAAAAAGGAACAAGAAATTTTAGTTTTTTTTTCAAAACTTAGCTCTTCTCATTATGATAGCAG CTTTGGCTGAAGCCTTATTATTGAAAACTACAATTGTTTTGCTAGGTGGGACAGTTTGGGTTTCAATTGTCTGGTGGGCA GAAGCAGAGGATTGCAATAGCAAGAGCTTTAATTAGGGATCCAAAGGTTCTCCTACTTGATGAAGCAACCAGTGCATTGG ATTCTCAGTCTGAAAGAGTGGTACAGGCAGCTCTTGATCAAGCTTCAAAAGGAAGGACAACAATCATCATCGCTCACCGC TTGTCGACAATAAGATCAGCCAACCTCATTGCAGTCCTTCAAGCAGGAAGAGTGATTGAATCAGGCACTCATAATGAGCT CATGGAAATGAATGGTGGGGAGTATGCTAGAATGGTAGAGTTGCAGCAAGGAACAGCAACTCAAAATGATGAATCCAAAC TTTCCAATCTTCAAATAGAAGGAAACAAGAGCTTCCACTCTCACAGGATGAGCATTCCTCAAAGTCCAGGAGTGAGTTTC AGATCAAGTGCAACAATAGGCACTCCAATGTTATATCCCTTCAGCCAGGGATTTTCCATGGGGACACCTTACTCCTACTC CATCCAATATGACCCTGATGATGATAGTTTTGAAGATAACAACATGAAAAGATCAAATTATCCAGCTCCTTCGCAGTGGC GTTTAATGAAAATGAATGCACCTGAATGGGGAAGAGCTGTGCTAGGACTCTTGGGAGCATTAGGCTCAGGAGCAGTACAA CCTGTGAATGCATACTGTGTGGGAATACTAATATCAGTTTATTTTAACCCTGATAGCTCTGAGATGAAGTCTAAAGCTAG AACCTTAGCCCTCATTTTTTTAGTAATTGGTGTTTTCAACTTCTTCACTAGTATACTCCAACACTACAATTTTGCAGTGA TGGGAGAGAGGTTGACTAAAAGAATAAGAGAGAAAATACTTGCAAAATTGATGACTTTTGAGATAGGATGGTTTGATGAT GAAGAGAACACAAGTGCATCCATTTGTGCAAGGTTATCCTCTGAAGCCAACTTGGTTCGCTCCCTTGTCGGCGACCGGAT GTCTTTGCTTGCGCAAGCAGTATTTGGATCTGTATTTGCCTACACTGTTGGAATTGTTCTCACATGGAGGCTTTCCCTTG TCATGATTTCAGTGCAGCCGCTAGTCATTGGAAGCTTTTACTCAAGAAGTGTCTTGATGAAGACCATGGCAGAGAAAACG CGAAAAGCGCAAAGGGAAGGAAGCCAGCTTGCAAGTGAAGCTGTCATAAACCACAGAACCATAACTGCCTTCAGTTCTCA GAAAAGAATGCAGGCACTCTTCAAATCCACAATGGTAGGACCTAAAATGGAAAATATCAGGCAGTCATGGATTTCAGGCT TTGGTCTTTTCAGCTCCCAATTTTTCAACACTGCATCATCAGCATTGGCTTTCTGGTATGGTGGGAGGCTCCTTGTAGAA GGGCTTATAGAACCAAAGGAACTCTTCCAAGCATTTCTAATATTGCTCTTCACTGCATACATCATTGCAGAAGCTGGAAG CATGACTTCTGACATATCTAAAGGAAGCAATGCAGTTGGATCAGTTTTCGCTATCTTGGACAGGAAAAGTGAGATTGATC CTGAGACTGCTTGGGGAGGAGATAAGAGAAGGAAGATAAGAGGCAGGGTGGAGCTGAAAAGTGTGTTCTTTTCTTATCCA ACTAGACCTGACCAAATGATATTCCAGGGTCTGAATCTCAAGGTTGAGGCTGGGATAACAGTGGCACTGGTGGGGCACAG TGGTTGTGGTAAATCAACCATCATTGGTCTAATTGAAAGGTTTTATGATCCTTTGAAGGGAACGGTATGCATAGATGAAC AAGACGTCAAGTCCTATAATTTGAGAATGCTGAGGACACACATTGCATTGGTGAGTCAGGAGCCAACACTTTTCAGTGGA ACCATTAGAGAAAACATTGCCTATGGGAAAGAAAATGCAACTGAATCTGAGATTAAAAGGGCTGCAACTCTGGCTAATGC TCATGAATTCATAAGGTAAGAGAACTATGCTAGGAAAAAAATATGAAATTTTTGACAATGGTGATTTTTAAACAACATGG ATCCTCTGCAGGTTGATTCATAAAAGATTAAAGGTTAAATTGGTTAAAACTTTTATATACTTCTCAGGATCGAGTGTACT TTTAAATTGGTTAACACTTTTTTTCTAATGTTGGTGAATGACTTACCATAAAACTTTTACATACTTTTATATCGAGTGTA CATCTCCTTGTTGATCACCAAAATGCAAATTTCACTAACATTCTCTTTTGTCTTCTTGGTGTTTGTGATGGCAGTGGAAT GAATGATGGATATGACACATACTGTGGAGAAAGAGGAGTTCAACTTTCAGGAGGTCAGAAACAAAGAATAGCCATAGCTC GAGCCATACTGAAGAATCCTGCAATTCTTCTTCTCGATGAGGCAACAAGTGCACTTGACAGTGCCTCAGAGATCTTGGTC CAAGAAGCACTTGAGAAGATAATGGTTGGAAGAACATGCATAGCAGTGGCACACAGGCTATCCACAATACAGAAATCAAA CTCCATTGCTGTGATTAAGAATGGGAAGGTTGTGGAACAAGGTTCACATAATGAATTGATTTCCCTTGGACGTAATGGAG CATATCATTCTCTTGTTAAACTTCAACATGGTAGCTCCCCCCCTAGATGAACTCAAGTAGTTGTAATATATGGTAGACTA TTTTATCTTTTTTGCTTTGTAAGGATAATAACGTACCAAATGTAATCATAAAGTCTAGGTTGCTCTATATGATATTTGAG TGTGCATCTTCAAGTTTGTAATATTGTATGCTTGAAAAGTGGTATAGATTATAGACGAGAAAAATATGTTTTTGCTCTGT GTATTAACATCAGGGTCTATCAGCTTTAATTACTAGAAATTTTATTTTATATATTTGAGTCCCTATAAAATAAAAAATAT AGTTCAACGACAGTTGATAGATAGTTAGGCTTCTTAAGCATATACAGGTTTGATCCGTAGACGGTGTGTATGAAGAATGA TTTTTTAGGAGAGA
CDS sequence (LotjaGi3g1v0150300.1) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGGGGAGCAATAGCATGTTTCGCTATGCTGATGGGGTGGATAAGTTATTGATGTTTTTTGGGACCCTGGGAAGCCTTGG AGATGGACTGCAGAACCCTCTCATGATGTATGTTCTCAGTGATGTGATCAACGCCTATGGAGACAAGAATAGCATTTTGA CAAAGCATATTGTAAACGAGTATGCATTCAGGCTTTTATGTGTTGCAGTTGGAGTTGGGATTTCTGCTTTTATAGAAGGA GTATGTTGGACAAGAACAGCAGAGAGACAGGCTTCCAAAATGAGAATGGAATACCTAAAATCAGTCCTAAGACAAGAAGT TGGTTACTTTGACACCCAGACTGATGGTTCTTCAAAAACCTACCAAGTTGTCTCACTCATCTCCTCAGATGCAAATACCA TCCAAGTTGCCTTGAGTGAGAAGATACCTGACTGCCTGGCTTACATGTCAACATTCTTATTCTGCCACATCTTTGCATTT GTACTTTCATGGAGACTTACACTGGCAGCTATACCACTCTCTTTCATGTTCATTGTTCCAGCACTTATGTTTGGAAAGAT TATGCTGGATGTCACAATGAAAATGATTGAGTCTTATGGGGTTGCTGGTGGCATTGCAGAACAAGCAATATCTTCAATAA GAACAGTTTATTCTTATGTTGGGGAGAACCAAACACTGATCAGGTTCAGCAGTGCACTTCAAAAAACTTTGGAATTTGGA ATAAAGCAAGGTTTTGCCAAGGGCTTGATGTTAGGAAGCATGGGAGTTATTTATATAAGTTGGGGGTTTCAGGCTTGGGT TGGAACTTATCTGATCACTGAAAAAGGAGAACAAGGTGGCCATGTGTTTGTAGCTGGCTTCAATGTCCTCATGGGAGGAC TGAGCATTTTAAGTGCCCTTCCAAATTTGACAGCCATCACAGAGGCAACTTCTGCCATCACTCGCCTCTATGAAATGATT GATAGGGTGCCAGATATAGATTCTGAAGACAAGAAAGGAAAGGCTTTATCACATGTGAGAGGAGAAATTGTATTTAAAGA CATCTATTTCTGCTACCCATCTAGGCCAGATTCACCAGTCTTGCAAGGATTTAATCTCACTGTTCCAGCAGGCAAGAGTA TAGGCCTTGTGGGGGGTAGTGGTTCAGGAAAATCCACTACAATTGCACTGCTTGAAAGGTTTTATGACCCTGTTGAAGGA GAAATACTCTTGGATGGCCACAAGATTAATAGACTTCAATTGAAATGGTTGAGATCCCATTTTGGCTTAGTAAATCAAGA GCCAGTTCTTTTTGCCACATCAATAATGGAGAATATAATGTTTGGAAAAGAAGGAGCTTCAATGGAAAGTGTAATAGATG CAGCTAAAGCAGCAAATGCACATGATTTCATCGTCAAGTTACCGGATGGATATGAAACTCAAGTGGGACAGTTTGGGTTT CAATTGTCTGGTGGGCAGAAGCAGAGGATTGCAATAGCAAGAGCTTTAATTAGGGATCCAAAGGTTCTCCTACTTGATGA AGCAACCAGTGCATTGGATTCTCAGTCTGAAAGAGTGGTACAGGCAGCTCTTGATCAAGCTTCAAAAGGAAGGACAACAA TCATCATCGCTCACCGCTTGTCGACAATAAGATCAGCCAACCTCATTGCAGTCCTTCAAGCAGGAAGAGTGATTGAATCA GGCACTCATAATGAGCTCATGGAAATGAATGGTGGGGAGTATGCTAGAATGGTAGAGTTGCAGCAAGGAACAGCAACTCA AAATGATGAATCCAAACTTTCCAATCTTCAAATAGAAGGAAACAAGAGCTTCCACTCTCACAGGATGAGCATTCCTCAAA GTCCAGGAGTGAGTTTCAGATCAAGTGCAACAATAGGCACTCCAATGTTATATCCCTTCAGCCAGGGATTTTCCATGGGG ACACCTTACTCCTACTCCATCCAATATGACCCTGATGATGATAGTTTTGAAGATAACAACATGAAAAGATCAAATTATCC AGCTCCTTCGCAGTGGCGTTTAATGAAAATGAATGCACCTGAATGGGGAAGAGCTGTGCTAGGACTCTTGGGAGCATTAG GCTCAGGAGCAGTACAACCTGTGAATGCATACTGTGTGGGAATACTAATATCAGTTTATTTTAACCCTGATAGCTCTGAG ATGAAGTCTAAAGCTAGAACCTTAGCCCTCATTTTTTTAGTAATTGGTGTTTTCAACTTCTTCACTAGTATACTCCAACA CTACAATTTTGCAGTGATGGGAGAGAGGTTGACTAAAAGAATAAGAGAGAAAATACTTGCAAAATTGATGACTTTTGAGA TAGGATGGTTTGATGATGAAGAGAACACAAGTGCATCCATTTGTGCAAGGTTATCCTCTGAAGCCAACTTGGTTCGCTCC CTTGTCGGCGACCGGATGTCTTTGCTTGCGCAAGCAGTATTTGGATCTGTATTTGCCTACACTGTTGGAATTGTTCTCAC ATGGAGGCTTTCCCTTGTCATGATTTCAGTGCAGCCGCTAGTCATTGGAAGCTTTTACTCAAGAAGTGTCTTGATGAAGA CCATGGCAGAGAAAACGCGAAAAGCGCAAAGGGAAGGAAGCCAGCTTGCAAGTGAAGCTGTCATAAACCACAGAACCATA ACTGCCTTCAGTTCTCAGAAAAGAATGCAGGCACTCTTCAAATCCACAATGGTAGGACCTAAAATGGAAAATATCAGGCA GTCATGGATTTCAGGCTTTGGTCTTTTCAGCTCCCAATTTTTCAACACTGCATCATCAGCATTGGCTTTCTGGTATGGTG GGAGGCTCCTTGTAGAAGGGCTTATAGAACCAAAGGAACTCTTCCAAGCATTTCTAATATTGCTCTTCACTGCATACATC ATTGCAGAAGCTGGAAGCATGACTTCTGACATATCTAAAGGAAGCAATGCAGTTGGATCAGTTTTCGCTATCTTGGACAG GAAAAGTGAGATTGATCCTGAGACTGCTTGGGGAGGAGATAAGAGAAGGAAGATAAGAGGCAGGGTGGAGCTGAAAAGTG TGTTCTTTTCTTATCCAACTAGACCTGACCAAATGATATTCCAGGGTCTGAATCTCAAGGTTGAGGCTGGGATAACAGTG GCACTGGTGGGGCACAGTGGTTGTGGTAAATCAACCATCATTGGTCTAATTGAAAGGTTTTATGATCCTTTGAAGGGAAC GGTATGCATAGATGAACAAGACGTCAAGTCCTATAATTTGAGAATGCTGAGGACACACATTGCATTGGTGAGTCAGGAGC CAACACTTTTCAGTGGAACCATTAGAGAAAACATTGCCTATGGGAAAGAAAATGCAACTGAATCTGAGATTAAAAGGGCT GCAACTCTGGCTAATGCTCATGAATTCATAAGTGGAATGAATGATGGATATGACACATACTGTGGAGAAAGAGGAGTTCA ACTTTCAGGAGGTCAGAAACAAAGAATAGCCATAGCTCGAGCCATACTGAAGAATCCTGCAATTCTTCTTCTCGATGAGG CAACAAGTGCACTTGACAGTGCCTCAGAGATCTTGGTCCAAGAAGCACTTGAGAAGATAATGGTTGGAAGAACATGCATA GCAGTGGCACACAGGCTATCCACAATACAGAAATCAAACTCCATTGCTGTGATTAAGAATGGGAAGGTTGTGGAACAAGG TTCACATAATGAATTGATTTCCCTTGGACGTAATGGAGCATATCATTCTCTTGTTAAACTTCAACATGGTAGCTCCCCCC CTAGATGA
Protein sequence (LotjaGi3g1v0150300.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
MGSNSMFRYADGVDKLLMFFGTLGSLGDGLQNPLMMYVLSDVINAYGDKNSILTKHIVNEYAFRLLCVAVGVGISAFIEG VCWTRTAERQASKMRMEYLKSVLRQEVGYFDTQTDGSSKTYQVVSLISSDANTIQVALSEKIPDCLAYMSTFLFCHIFAF VLSWRLTLAAIPLSFMFIVPALMFGKIMLDVTMKMIESYGVAGGIAEQAISSIRTVYSYVGENQTLIRFSSALQKTLEFG IKQGFAKGLMLGSMGVIYISWGFQAWVGTYLITEKGEQGGHVFVAGFNVLMGGLSILSALPNLTAITEATSAITRLYEMI DRVPDIDSEDKKGKALSHVRGEIVFKDIYFCYPSRPDSPVLQGFNLTVPAGKSIGLVGGSGSGKSTTIALLERFYDPVEG EILLDGHKINRLQLKWLRSHFGLVNQEPVLFATSIMENIMFGKEGASMESVIDAAKAANAHDFIVKLPDGYETQVGQFGF QLSGGQKQRIAIARALIRDPKVLLLDEATSALDSQSERVVQAALDQASKGRTTIIIAHRLSTIRSANLIAVLQAGRVIES GTHNELMEMNGGEYARMVELQQGTATQNDESKLSNLQIEGNKSFHSHRMSIPQSPGVSFRSSATIGTPMLYPFSQGFSMG TPYSYSIQYDPDDDSFEDNNMKRSNYPAPSQWRLMKMNAPEWGRAVLGLLGALGSGAVQPVNAYCVGILISVYFNPDSSE MKSKARTLALIFLVIGVFNFFTSILQHYNFAVMGERLTKRIREKILAKLMTFEIGWFDDEENTSASICARLSSEANLVRS LVGDRMSLLAQAVFGSVFAYTVGIVLTWRLSLVMISVQPLVIGSFYSRSVLMKTMAEKTRKAQREGSQLASEAVINHRTI TAFSSQKRMQALFKSTMVGPKMENIRQSWISGFGLFSSQFFNTASSALAFWYGGRLLVEGLIEPKELFQAFLILLFTAYI IAEAGSMTSDISKGSNAVGSVFAILDRKSEIDPETAWGGDKRRKIRGRVELKSVFFSYPTRPDQMIFQGLNLKVEAGITV ALVGHSGCGKSTIIGLIERFYDPLKGTVCIDEQDVKSYNLRMLRTHIALVSQEPTLFSGTIRENIAYGKENATESEIKRA ATLANAHEFISGMNDGYDTYCGERGVQLSGGQKQRIAIARAILKNPAILLLDEATSALDSASEILVQEALEKIMVGRTCI AVAHRLSTIQKSNSIAVIKNGKVVEQGSHNELISLGRNGAYHSLVKLQHGSSPPR
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 | 15 | 15 | - | – | |
Phobius | 1 | 45 | 45 | - | – | |
Gene3D | 2 | 347 | 346 | 1.4E-91 | ||
PANTHER | 6 | 1252 | 1247 | 0.0 | – | |
PANTHER | 6 | 1252 | 1247 | 0.0 | ||
SUPERFAMILY | 7 | 325 | 319 | 2.35E-45 | ||
Phobius | 16 | 27 | 12 | - | – | |
Pfam | 18 | 293 | 276 | 4.7E-43 | ||
CDD | 18 | 316 | 299 | 3.93566E-89 | – | |
ProSiteProfiles | 19 | 308 | 290 | 35.176 | ||
Phobius | 28 | 45 | 18 | - | – | |
Phobius | 46 | 60 | 15 | - | – | |
TMHMM | 61 | 83 | 23 | - | – | |
Phobius | 61 | 84 | 24 | - | – | |
Phobius | 85 | 144 | 60 | - | – | |
Phobius | 145 | 164 | 20 | - | – | |
TMHMM | 145 | 162 | 18 | - | – | |
Phobius | 165 | 169 | 5 | - | – | |
TMHMM | 167 | 189 | 23 | - | – | |
Phobius | 170 | 189 | 20 | - | – | |
Phobius | 190 | 247 | 58 | - | – | |
TMHMM | 245 | 267 | 23 | - | – | |
Phobius | 248 | 267 | 20 | - | – | |
Phobius | 268 | 278 | 11 | - | – | |
Phobius | 279 | 300 | 22 | - | – | |
TMHMM | 282 | 304 | 23 | - | – | |
Phobius | 301 | 684 | 384 | - | – | |
SUPERFAMILY | 334 | 581 | 248 | 1.49E-88 | ||
CDD | 343 | 581 | 239 | 1.52141E-145 | – | |
ProSiteProfiles | 343 | 579 | 237 | 24.837 | ||
Gene3D | 348 | 585 | 238 | 3.2E-87 | – | |
Pfam | 361 | 510 | 150 | 6.2E-33 | ||
SMART | 370 | 562 | 193 | 9.9E-18 | ||
ProSitePatterns | 482 | 496 | 15 | - | ||
Gene3D | 628 | 996 | 369 | 2.4E-94 | ||
SUPERFAMILY | 672 | 992 | 321 | 8.37E-55 | ||
CDD | 675 | 991 | 317 | 1.75442E-98 | – | |
TMHMM | 685 | 714 | 30 | - | – | |
Phobius | 685 | 710 | 26 | - | – | |
ProSiteProfiles | 686 | 973 | 288 | 41.11 | ||
Pfam | 687 | 958 | 272 | 5.3E-47 | ||
Phobius | 711 | 729 | 19 | - | – | |
TMHMM | 729 | 751 | 23 | - | – | |
Phobius | 730 | 752 | 23 | - | – | |
Phobius | 753 | 807 | 55 | - | – | |
TMHMM | 806 | 828 | 23 | - | – | |
Phobius | 808 | 826 | 19 | - | – | |
Phobius | 827 | 831 | 5 | - | – | |
TMHMM | 832 | 851 | 20 | - | – | |
Phobius | 832 | 851 | 20 | - | – | |
Phobius | 852 | 908 | 57 | - | – | |
Phobius | 909 | 932 | 24 | - | – | |
TMHMM | 910 | 932 | 23 | - | – | |
Phobius | 933 | 946 | 14 | - | – | |
TMHMM | 947 | 966 | 20 | - | – | |
Phobius | 947 | 965 | 19 | - | – | |
Phobius | 966 | 1255 | 290 | - | – | |
Gene3D | 999 | 1252 | 254 | 1.3E-90 | – | |
SUPERFAMILY | 1004 | 1248 | 245 | 8.27E-87 | ||
ProSiteProfiles | 1009 | 1245 | 237 | 24.31 | ||
CDD | 1009 | 1248 | 240 | 2.64936E-140 | – | |
Pfam | 1028 | 1176 | 149 | 1.8E-34 | ||
SMART | 1036 | 1228 | 193 | 9.2E-14 | ||
ProSitePatterns | 1148 | 1162 | 15 | - |
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 LotjaGi3g1v0150300.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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