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Field | Value |
---|---|
Gene ID | LotjaGi4g1v0169800 |
Transcript ID | LotjaGi4g1v0169800.2 |
Related isoforms 1 | |
Lotus japonicus genome version | Gifu v1.2 |
Description | GPI-anchored wall transfer protein 1; TAIR: AT4G17910.4 transferases, transferring acyl groups; Swiss-Prot: sp|B3H6K1|Y4791_ARATH Uncharacterized protein At4g17910; TrEMBL-Plants: tr|K7L971|K7L971_SOYBN Uncharacterized protein; Found in the gene: LotjaGi4g1v0169800 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr4:32803457..32816367) extracted from Lotus japonicus Gifu genome v1.2.
ATCCAAACATAGTGTAAATTTCAAATTAATTTGAAATGTGACTTTCTTCCTTCACTTTCTTCTTTCTTTTTCTTCTTTCT TCTTCTCTCCTCTCACTCTCAGAAACCCGTCCAAGTTCCACCACCTGCTTTCTCCTTGTTTCTCCTCACAAGCTCATCTT GCTCATGACGGGCTTCGGTGTCGCAAAGGAAACACCATCGCCACCATCAGGAGTAGCGATCAACTCCCCCCACTCCATCA CTGCCTAATCACGACATGCAAGTTTTCTTTTCCATCATCCATAGCTTTGGCGGGTGAGATTTGAGACTCAACCTCACCAT CATGCAATATTGGTATGCTGTGCACTCTCTTCTCGTTTCTAGCTTGAACTAACACAGATCTGAGTCCAACCCGTCCCAAT CCGCCCGCTAACCCGTTCCACCCGGACCCTACATACCCGAAGCCAAACACGGTCGGAGTCGGCCTTGAATATGTTTGATT GAAATCCGCCCAAACCCGACATCTTTCACCCGAGCCCGCCCGAAACCGACCCATGCTCAGCCCACTTCTGCGCTTCTATG CTCAATTTCGTCGACAGCTCCAGATTTTAGCCGAAGTTGACCGTTGCATCACTCCCATGGATCCTCCTCTGCATAAACCC TCCTTCAACCCGAACAAGCATCTCAAAGAACAGTTACATTCTTCTTTCCTATCTTTTTTTCTTCCACATATGATGATGAT AATAATAACTATTCTCAAATTCTCATCACTGAGCCCCATTTCCCCTTTGACCTAATTTCACAGATTCGTGAGCAATTTAA GTGGATCCTCTATGCTCGAAATCGCGGCGCTTACGATCTCTATCCCCGTGAGTTACCCCACATTTTGCACGCTACTTAGC ATCACAGTATCATACTTCAATGTGATGTTATTTTCTGTTTTCTCTTACAGATTCTGGTCATTATTCGTCATTCCATCACC TCCATTTCCACCAATGGTTAGATCCTTACGGATTTTCAGTTTCGCACTATCAAATCTAGTGATTGTTGATTTTTCTTTTG AAATTATTTTGGTTGGTTTAATGGCACTCAAACCCTTTATGCTCCATTGCAATATTTCCTTATAATTCTGGTAGGGCTGT TTTTAGTAATTATTATTGTTTGATTACATTTGGTCTGTGATTAAATATATGTTTTATTTCTTGATAACAAACTAAGCATC ATACATGGCATTTTTGTTTGGTCTGAACTTCTTTTGTTCTTTAACTTGTTTTTAATTCCGTTTTATTGATTGTAGGTGCC TCGCTTAGGAAGAAAAACGATGATGCACTGTCTGAGAATAGGACTTTCAAAGCATATCTAGCTACATTGTCTCTCGATTT TCTTATCATTGTTGTTCCCATGCTCTTATTTTTCACTGTAAGTGTTACCCAGTAGCATCAAAAGTTTTGGGCTTGGGAGT AGCTTAATTTTATTTTTTAAATTTTTTTCCAGGGTGGGTGGAGTACATAACATAGCTTGCTTAAACGAAGCTATGTTGAT ATGAGTTCAATAGCCATCATTTTATTTCTAATTACTTCACTGAACTTGGTGACAGGTACTTGCTGACTGGACTTATATTA TCGCCAGTTTGTTTGCAATCTTGACATTACTTTATATTGCAGCAAAGGGGTAATTGTTCAGTTTTGTTTAACTATCTTCC TGAAGGAACATTGAGTTTTATGAAATAATTAACAGTCAAAACTCAAATGTTTCACATGATCCACAATTTTGAAGCGAGTT ATGACTGACTTCCATACCCTTTAATTACAGGTCTGGCGGTTCATCTCTTGTTTTAAGAGAGCCCAATTCTCTTCGGGCTT ATGTTACTTCATACAGGGTTATTGTGGTATGAAGTGCGACTCTAGAATTCTCTGTTCCATTATACTTATCATACTATGTT ATAATCTTGATGAAATTATCTGTGCAGATGATTATAACAGTCTTGTGCATCTTGGCTGTTGACTTTAGAATATTTCCAAG AAGATATGCAAAGACTGAAACTTATGGAACTAGTTTGGTATGATTCTTTAGCAATTCTGAATACAGAAAAAAAAAATAGA CATCACATAAAATGCTCTATTTAGTTCCTCATCCATCACTTTCCCTCAAGCAATGTCGTTGATTACCTTTTGATGCAGTT TTGTGAGTCAAATTCCTATATCATGAATGTACTGTAAGTTCAGAAAACAAAATAATTTCAGACAAGTACTCCTGGAGTAT AGAAAAAGTAGAGAACATAGAAAGGAAATTTTCTATCTGAATATTATGAATCGATTTCTCAATGAATGACCATACAAAAC ACTACTAATGCTATATAGCAGTCATATATCTCTTAACTGCATCTAACACTTAGTATGTTGTAACTAAATGCAACTAATTA CAATTGATTGCTGACAAAATTTTATGAGCGAAGTTACAAAGTTTTGTTCCTATGATAGAGATGCGACATCCAATAGCTGG CTAACTAATACAATTAATAGTTTAATACTATATGCATATAAATACCATAAAATGTCAAATATTGCCTAAAATTCATAACA TACATAATAGCGATAAAAGTCATAAGTCTTTAACAATAACACAACTAAAAACCACTCAAAGCAAGGTAAAAAGGTTAGGC TTGGTCTTACACGGACTCGACCTTCAAATCGTTCAAAGACAAGATGGTCTTACAGTTAAAATTTAGGCTTGGTCTTGCTC TACCCCCAAAAACTAGCTTAGGGGTGAGGATAACTCTGCCCTGTATGAGAATTTATTTGGCCATAGGAACGTGGAATTGC AGGTCACCCATGTATGCGTGGTCTCCAATGGACAAATATAGAATAGACGCTAAAGATCTTAGAATATGGGCTAGGCCTAA CTCTAACCCAAAAGCTAGCTTAGGAGTGAGGATTTCTGGATTGCTTAACCATATGTAGAACTTCTCAACACAATTTGAAA CGGCAACTCCAATTGAAATTAAGGTGTTCACTATAGTCTTGATTCGCTTCAGGTAGTTAGAGAAAGATTGGTCAGAAAGA TTCTTCGGCGGAATAATTGGATTAACGACGAACCTCTGAAATTTGTGTGCATGAACCACTCCTTCATTCTGTTGTCGTCA ATAGACAATGTTACTTCCATTGAGTTTGATAGTGTGATGGAATGAAAAAAAGAAAGTGGGTGCCTTATTTGACTTGGGAA GATGTGTTGTACTTCATTATAGTATGCTTCTTTTGATGAACGTTTATACTATATATATTTTACTTCTGACTTCGGTGATA TTCAAGTAGAGGAAATGGGTCTTATTTTTTAGCTTGAAGAACTCGGCTTGGTCTTTTTGATTCAACTTTTAAATAACTGC TCTTCTATCATTGATTACATGACACTACAAATTTGATCTCTGTCTCTACCTCTTCAACTATTTCTTTCATTCTCATTTGT ACTTATTTTCTTATTGCATCAATTTTAGGTTGTTACATTGCTAACAAGCAGTGCATTCAATAATATGATTGTTCAATTGT GATTTGAGATTACTTTTGCATTTTAGATGGATCTTGGAGTTGGAGCATTTGTTTTAGCAAATTCACTAGTTTCTCGGCAA GCACGAAATATTACATCTGTGTGAGTTCTTCAAGCTACCCTATCTTGTGTCTTCATACTTGAATGTGATTCTTAGCTCAC AAAATGAACTCTTGAAAATTAATGTTTTCGTATATTTACCATAATACAAGATTTTATATTTGCTTAGATGCACAACCCTT TTTTCTTGACAGCAAAAGATATATATTATTAGATAGGTAAATTTCATGAGAACAACCCTCTCACAAATAGGACAAATCAA CAAAACCCAACCAAACAAAACCACCCCAAAGACCACACCTAGTGAACGTGCCTCATTAAAACCTTCCTAGGAAAAACCCA TTGGGATAAAAACCTAGTGAAGGAAAAAGTGTACAACTTCCCCAAGAAGTGCCTTTTTGTTCACTTGATTTTGATAAATT GTTATATTAGTGGACAATAGTTTTGGGTAGTTTAGCCCAATATGCCCACATGTCAGGATGTATATATTTTCCTTACTCTA ATGATTGGGTACTTAAGAATTTTTACATCACCTCTTTCTTTTTCGAACATGATATCTGAGCAAAAACTCTCGGTTAGATG TCATTTACTTTTCTGGTTGGTGCCCAAGTTCTGGTGGCTGAATCTTTGTAAACTAATGACATATAGCATTTATATTTGGT TGATGATAAGCTGATAATTCTTCACCACTAACACGTGATGGTTCCTAAGTTTGTGCGTTTGTCAAATGTTGTCTATGAAG GTTGAGTTAAATGCTCTTTTCCTGTCAGTAAACTGCAATAAGGATCTAGCATATGAGATAAATCTCTTATGGTTTAAACT TTGGCTGCATTGAGTCTTGATTTTGCTTCTGTTTGCGATCAAAGTCTTGACAGCCCAACTAGTCTTACCTTAGAGGAGAT TTTTTCATCTTTTCCTTGTGACTAACATTCTTCCAGCGAGGTCAGCTACATGCAATGCGATAGTTCTGCATTGGTTTTCT TCTCATGTCCACTGTCTCCTTAGGAGGAATAGGGTCGCGAATGTGAAGGCAATTGCGGTGCACTTATTGTCGTGGATGGG GACATATTAAAGATAAGCATTATAAGTTACATGGTCACCCTTGTGTAAGTCTAGTTCACACAAGTGAGATTATGCCCAAT AGCCAACCTTCCCTCTATTGCAGCATTTATCGCTCTTACGGGCATTGATCCAGAAGGAGTTAATTTTATTTTCAATTAGT ATGCAGCGTGCAAAATTTTACTTGCTTCCAACCTTGAGGACAATGTTGAATTTTTGGAGGGTAGTATTGTTAGGGTTGTA AATATTATTGGGCTTGCTTAGGCCAGTGCTTGGGTTTGGTATGTGGACCTTGGGCATGTGTCAGGGTTGTTTCATTCTAT TAGCTAGTCCTTTTAGGCCTGTTTGGCAGTACTTTTATTTGTAAGTAGAGTTGGGCCATTTTATTAGGTTAGTTGGGTTA AATTACTATAAAAAGGAGTTTCCTGTTTAGGTTTGGATTTTTTGAGTATCAGAGTTTGTAAAAAGATTCTCCCTTGGTAG AAGGTTCTCCTTCTTGGTTAATAAAATAAAAATCAGGATTCATTTTTGTACCCTCTTCTCTTTTATTGTTGCCGTTGGGT TATAAAAATAACCTAATAGGATCCAACTAGTTTCAAGGAGCAGATTGATATAATCTCGGAAGGTCTTCCCTCAGAATATG AAGGTTTAGTTAATTGGCTGAATATCAGTGGAAAGTTTCAGTCATTAACCATTGATGAAATATAAGATTTTCTTTCTCAA GAAGTTAGCGTTGAGAAGAACAAGAAAACTATATCTAGAGTTTTCAGTTAATTTAAATCAGTCTACTTCTACTCCTACAA CAACTCAGTCACAGCAAGTTAACACTGCTTCAGGCTCTTCTACTCAGATTTGGTTATCAGTTAAAAGATGGTGGTCGTTT CTTCTACTCAGAGTCTCAGATTTGGTTATCAGTTAAAAGATGGTGGTTGTAATAGTAGGGTTCGAGGCCATGTATGTGGA AGCCGTGGAAGTGGTCGTTTCAATGTTCACAGTCAAGTGATCCTCAAATATGGTCATTGATAAGTATAGACCTTTAATTA GGAAGGTCTATGTATGTTAGGACGAAGAGAGGAGTAGCAGGGAATAATAACCTTGTAACTAACTCCAGTGAGCTTAGGAA GTTTCAAGTCATCGTGGACCTGAAGGGAATAATAACTCTGTAACTAACTCCAAAGAGGCTTAATATTCTGTTAGCAAATT GTAACTGTTTACTACCTACTATAAAGGTTGGTTAGCAGGGTAGTTAGAGTTAGTTTTGGGTTGTTGAGAGTTGTGGAGAG ACTGGTCTCCCGAATAACCAGTGGTTTGTTCTGTAATCTTGTGAGTTTCCTCTGTTTCTTCTCGGATTCAGAGAGAATCA ATAAAATTCTTCTCAGTTTTCTCTCTGGTTTATCAGTCATCAATCACGCTTCACTCAGCTGTCACCTTCACTTCTGCTTT CAACAATCAGTGGCATCAACCACAAGCTCGACCATCACATCTTACTCAACGTTTCCCTGCACCTTCGGGTCCATCTTTTC AGACTACTACACCCTCACCATATCAGGCTTCTCAGAAGTTTCATCAATCTCCTCCACCTAATACAACTCCACAAGCTATA GTTATTAATACACCAGCTGATTTTACTGCTGCAGCCTGGTCCCCAGATTTAGGCTCTTCACATCATGTGACACCTCATGC ACAAAATATTCAGCAATTACAGCCTTTTGAGGCTCCTGAACAGATATACATTGGTAATAGTCAGGGACACTATTAACTCT CAATGTTCCACATTTTTTTCCTCACCTTTCAATTCTTCAATTTCCTTTACTGCAAGTAATTTCCTTCATTTTCCCAAAAT TACAAAGAATCTTTTAAGTATTATCCAATTTTCCGAAGACAACGATGTTTTCTTTGAATTTCACCCATCTTTTTAATCCT TGAATTATAGAGAGAATTTGGTTTCCGTCCCTATACTAAAATTTTGGTGGCTTATGTCCCTTAACTTGATAAACCTGTCG GTTTTCTTCCTTTGACCATTTTGACCACTTAGGTGGCATGCCAGCGTGTAGGCGTGTAGGTAAACACTGACGTGTTATTC AAGGACTACAAAAAGATATAATTCAACATACTTAATTACTATTATAGGGACGGAAACCAATTTCTTGTTATAATTCAACT TACTTAATTACTAAATTTAGTTAAGTAATGGGTAGACTCTTAATTGTAGTTAAATAATAGAACCGAGAAATTATGGAATG TATTATGTATTATTATAAAGAAACCCTAATTTTCAAATAGGAATTATGGAAAAGATATAAGGAAGGGATACCAAACACCC TAAACCCTAGAGAGATCCAACGCTCTAACCCAATTTCCAAAGTAAATACAAAGAAGATCCTGATGCTCTCTAACCTCCCT TATCTATAGGCTACAAGCCAACCATCAAACTACTAACCCCTAACTAACCTATACATGTAAGCACTACAAAGATGATCCTA ATGCTCTCTAACCTCCCTTATTAGGCTACAAGCCAACCATCAAACTACTAACCCTTAACCGTAAGCACCTATCAATATTT GGGTACTTATCATTAAATAAGGAAACTAATTAAGACTCATAGTCTTTTTTAAATAAGAATATAAATCAATATAAATATGA AAGTAAAGAAACCAATCAGAATAATCTAAATTACCTTAATTACTTTATGATCAAGATATTATATGATGTATTTTTTTCAA ATTCTAATATATACATATATACACACACATACATATATGTTGGATTAACTTATACGAGTTTACATGTCGAGTCTGTGAAC GCTCCACGAGTTCATATAGACTCTAGAGTTTAAGAGAAAAACTTGGGGACTTCTATGACAAGCTTATACCATGGGTAATA AGCAATATTAACAACATGAAATCCTGACGGCCTTTTGAAAATTAAATATGCTCCTTTGCTAATTGCCTAATTCTATTTAC ATGCTCTATAATGACGTTGGTGTCTTTTTGAATGAACTTGAACAGATATACTGCATTCTGCATTCCTCTGATGATATCAT TTTTTTCTCATGCTTCAGAAACTGGAAGACTGCAATAGTTTCAATTAGTCCACTGCTAATCTTAGGATTTTTTCGGCTTA TTACAACAACTGGTGTGGATTATCAGGTGCGACTATGTACTTTGGGATTCTTAGAAATTTCTATGTAGAAACAACATGTG GATACAGGTTCACAAATACTGCACCAGTTGGTTTTTTAACAAGGAGAGGGGCATATATTTTTGAAACTTGGAAGTAGTAT CACCTGGTTTCAGGAAGACTACAGTCACAGATAATTCTGACCTCCATGGTCTTTATAAGCCTAAAAGCTTTGATCCCATG CGTGTTTGGGTGATTTAGGCTTATTTTGCGAAAGCCATTCACTTGGCATCTGAATGGAATTTGGTCTTGATTGTACTCTG CTAGACTACTAGCCCTAGTAAACTTCAATAGTGTTCGTAGAATCTGCTCCCTATAACCAAAATGAGTAACATGAGAGCAG GCATTAAAGAAAGTATTGATGCAGCTATTCTCATGATTGCTTTTATTTACAATGGTCACCACAATCCTTGTTTGCCCATC TATCGAACTGATGTTTCCAGTAGTCTAATTTCTCAGTTAAGACACTATTAAGGAAGTCAGTTATCTTTTCTCCTTCTCAT TTTTTTTATGACCATGGTAATTGGTCACTGCAATGCAATTTTGACGTTCTCAACGTAGCCAACTTTTTCTTCTTCTTTTA GGTACATGTGAGTGAATATGGTTTGCATTGGAATTTCTTCTTCACACTTGCTGCTGTGTCAATCCTTACTTCCTTTATTA GTACTCCCCCTCAATATTCTGGAGTCTTTGGTTCACTTGTCCTAGTAGGTACATTTTTGTTTGTGTCTTATCCTTGTGTC TTGCATTTCAAAATCTGATTTTCTTATAAAATTAAATTTGTTTTCCAAGGTTACCAGTTCTGGTTGATGCATGGTTTAAA TCATTACTTGCTTTCCAATGAGAGAGGAACGGATATCATAAGTCAAAACAAGGAGGGGATTTTTAGCATATTTGGTAAGA ATTGCACCCTGCATTGTTTAACTTTTGATGCTATCCCTGTAATTTCACTAACTTATTTCTTACCAATTTACTTGTCATTA TATAATATTTGCTACTAACAGTAACAATCTTATTTCGTCTTCAGGATACTGGGGCATGTACCTTGTGGGTGTAAACTTAG GAAACTATCTTATCTTTGGAACCCAATCCTCTGCATATAGAAGTAGCAGATGGGTTCGAACGAGGGTTTGGGTCCTAGCA ATCCTATTCTGGTAAAGCTTGATCCAAAACTTGTTTTCTCGTCTTGAATGAAGTCCACAGATTGAACTTGTCCTATTTTG ATGATGTCCGTCTCAGGTTATTGACTGTACTTCTAGACCGCTATGTGGAAAGAATTTCACGGAGAACGGTATGTCACACT ATCTTCTAGTTTCGTACTTCAGAGAGAGTTCGTTTGGCATCATTCACTGAAAACTAATTAGTGATACTTTGTGCAGTGCA ACCTGCCGTATGTGACTATGGTAGTGGCTGACAACCTACAGGTTATTCTCACTTCATTTCATGGGATCATTGTCTATCAT AGTGTGATGGAGCATGTTTAATTTGTAGCTTGTATTGGTCAATGCATTTTAGGATTCTTTTATTGTCTCAATCTTGGTTA GCGCATAAACTTATATTTGTGCAATTGAATATTTTTAAACTAATCTTGACACTGCCTTTCGATAGAACATTTCAGCATAT TTTCATTATGGAGACTATTTAATGTTAAAACAAAGTTATCCACATGCCGTTTGATTTGAAAACGTAATGGGTACTGTCAA ACCACCAATTATCCCAAAAGCTCAAGTTATTGGGTAAGGGTCACAATAACTGTTTTGCATTATTACTTCTAATTCTAACA CGCCCCCTCACGCAAGAGCCCGTTTGGGCTTGAAGCGTGGAGAATGCACAGGCCCACCTACCATGTGCTTTAATTCTTTA TTTTTATTAGAAGAATTGGGGGCAGCAAGGAACGAACTCTAGACCGCTTGGTCATTGAGGCTCTGATATCATTTTAAAAA ACCAACTATCCTGTAAGTTTAAGTGCATGTTTAATTGCAATTCTACCACCACTAGATGTGGATGCATCTTTCCAAAAAAA ACTATTTATTGCCTCACCTAGAAGTGGATCACACCTAGATGTGGATCCATTTGTATTTTCCAAACACACACTAAGTTGTT GGGCAAGTGCCGTACTTCTACGGATTGCTATCTTAACAAAAAAGCATGACATTCTTTAATTGTTGCTGACATTGTTATTG CTTATGTGGAATCTGTTTTTTGGTTTGGTTTCAATACTTATTCTGGAAGTCACTTATTTTTCAGCTGTTGTCAATTCTAA TGCTGGCTGATCTCATTCCTGGATGTAAAACTTCTTTACTTGAAGAAGCATTTAATCGGAACTTGCTGGCTACATTTCTT CTGGTGAACAAGCTATTCTTATTGATTATCATTGTATGCTTTCTCTCTAAATTTCTGTTATAAGCTAATCTCCTCTAATA ATTTATATGCAGGCTAATGCACTTACTGGGTTGATAAACTTGTCAGTTGATACACTCTCTGCGTCATCAACCACAGCCCT TCTTATCTTGCTTGCCTATGCTTATGTTTTATCAGCAGTGATTGGAATTGCTCATTATTTTGGTATGAAATTAAAATTTT GGTGAAGCAGCCTTTTGTCATGCTGTAGTCTATTGTATTCATAGTTTATTATAAAATGATTTCTTTTCATTAATCATGAA TTTTGTTTTGGTCAATTAATCATCAATTGAGTTTCATACCCTGCGGCGGTGAGCATATCTTCGAATACATCTGGGTGGCG ATAAAATGATGTAGGGTGGACAAAGCTCATCTTTATGAAACCTAATGTTAAAGGTGGACATGAAAGGTTTGCTAACTCAG CAATATTGTTGAGCAAGTGCAACTTAAAACCCTCTATGTTGTCATCTGGTATGTAGATCTTCTAGGCATATTATTTATAT AGAATGGGAAATTATGATGAATTATGGGGATCTGAATGAAGGGTAGCATATAGTAACATGGTTAATCGAGTCAAACAGAG TCAAGCAGTCACATGTTCGACAGCTGTGTTCTTTCACTTGTCCTCATAGGTAAAAAAGGCTAAATCCTGGTCTTTGTAAT CTCCTTTTTTTTTTTCTTTGTTACATACATGTACACCTGGAGAAGCCAAGAAAAACACATTAAGGGTTTCTTTGATACTT GTATTTTCTTGGTGAAAAAAAGTGGAGAACTAGAGTGTGTTTAGGTACTTGACGTAGCCTCCAAGTTGACGGTGGACTGT TGCATTTTAAATACGCACGGAAAGAGCAAGTACTCTCCATTGCAAAAGTAATATTGGATTTAATTCTCGGTTATCAAACT CAAGGTACATGGATTACTAACTCTAAGAGATGGGGACATTGTTTATGCAATTCAAGAGTTGGAATATTGTGAGCATGCAA GAGAACAAAGATAATAAATAAAATATAAATTCAGAATTTGATCAGATGGATACAACATCAATAGATCTAGATTTCCCCAT ATTTACTATTGAATCCTATGATTGCCGATTATACCCCTAAGTTACCAAACTCAAAACAACCGATGACCATATAACAATCT TAACCAAACGCTCTATATCTATCAGTGACTGATGACAAACGTGTTAGAGTGGATAAGCATGAGGTGCTGAGAAGCTACCT AAGGGACATTTCATGGGGAAAGCTAAAAGTGACTCTCATTTACTCAATTCTCTCTTAGTTCCATAAATTCACATCCTCTT TGGAGGAGAGCTAAAGAGTTTTATTTTTATTTTTATAAGTAATGCAGTAAAAGGTAGCATAACCCCTTGTTATGTTTTTT TTAAGGCCAAAATAAATTAATAGGGAGCACAAGGGTACCCCAACCCAATACAATGTTAACAACTCCACAAAAAAGGAAGA ACAACAAATAGAAAAAGAGTAAGAGGTGTAGTCTAAAGAGTCACTCTAGAGCAAGGATGAGGCCAATACAGAAAGCAATT GGCTTTCACTGTATCAGTCCCAATAATGCTTCTCCAACTTAATTCGTAAGAACATCTCCAATTGTAGGAACTTATTTTGA GACTTAACTCAATTCTTGTGGGCCCAAATTGTCACATAGGATTTAAGACACTCATAAGATCTTCATGCACATTTCACTCT AGAGGTTGAGATCTTATTTTACTTTTGTCTGGACCCACAATACCCAATATACTTATATTATTTATTTTCCTCCCTAATTT TCACTTTGATTATGGTATTGAAGGAGAGAAAAAAAAATTATTTTATTTAAGATCTCACATTTGAGAGTACCTGAGCTAAG ACACGGATCTTAGCTTTAAGATCTCATGTCATGTAGGATAGCTCCAATGGTGGGATCTAATAAGATCCAGATCTTATTTT AAGGTCCCAAAATAAAGACTCCATTGGAGATGCTCTAACAGACCCTGTAACGTGAAGGCAAAGCCACGAGAGTATTCTAC CCCTTGTTATGTAGAGAGAAAAGTTGAAGAAAAAACGTAATCAGAGCCAATGATGAATAAAGTAGAAACTGAAAAGGAAA TGAAATCAGCCCCTCCCCAACATAATTAATCCGTTCAACTTGATTTGCATGTGAAAGCATGGTGACAGTGACACTTCCCC TTCAAACCCAATAAACAACATGTTGATTGTTGAGTGTGCCCATCGTGTCATAGAGTGTTTCATATGTTCTGAGTTCCGAC CTACCTGCAAGGTGAAGACCAACGGTTGGATCAACTTGTGAGTACGTGTATTAATTGTGATGCCTGGAAAAAGGCTTTGC TGCAATATATAAAATACATATGAAAGTGACTTTCGATTGCTGCAATTAATTGAGTACAAAATAAAAACGAAAGAAAGAGT TTTGCTGCAACTGGTTTTTGGTTCTTGGATTGAAGCTAATAACAGCTAGATAGATAGCCATGGCCTTAATAGAAAACCAG CCTTTAATTGTTGAGGAGAACTCATCAAGCTCAGTAGTGAGTGGTGATTTGTCTTCGGACACAGTGGAAGAGATGCTTGG AAGCGAACAAATTTCAATACGAGGGTGGTTGAAGCTCATTGCATGGGAATCAAGGGTCTTGTGGTATTTGTCTGGGGCGT CTATCATTGTGTCGGTATTTAGTTTCATGTT
CDS sequence (LotjaGi4g1v0169800.2) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGCTCAGCCCACTTCTGCGCTTCTATGCTCAATTTCGTCGACAGCTCCAGATTTTAGCCGAAGTTGACCGTTGCATCAC TCCCATGGATCCTCCTCTGCATAAACCCTCCTTCAACCCGAACAAGCATCTCAAAGAACAATTCGTGAGCAATTTAAGTG GATCCTCTATGCTCGAAATCGCGGCGCTTACGATCTCTATCCCCATTCTGGTCATTATTCGTCATTCCATCACCTCCATT TCCACCAATGGTGCCTCGCTTAGGAAGAAAAACGATGATGCACTGTCTGAGAATAGGACTTTCAAAGCATATCTAGCTAC ATTGTCTCTCGATTTTCTTATCATTGTTGTTCCCATGCTCTTATTTTTCACTGTACTTGCTGACTGGACTTATATTATCG CCAGTTTGTTTGCAATCTTGACATTACTTTATATTGCAGCAAAGGGGTCTGGCGGTTCATCTCTTGTTTTAAGAGAGCCC AATTCTCTTCGGGCTTATGTTACTTCATACAGGGTTATTGTGATGATTATAACAGTCTTGTGCATCTTGGCTGTTGACTT TAGAATATTTCCAAGAAGATATGCAAAGACTGAAACTTATGGAACTAGTTTGATGGATCTTGGAGTTGGAGCATTTGTTT TAGCAAATTCACTAGTTTCTCGGCAAGCACGAAATATTACATCTGTAAACTGGAAGACTGCAATAGTTTCAATTAGTCCA CTGCTAATCTTAGGATTTTTTCGGCTTATTACAACAACTGGTGTGGATTATCAGGTACATGTGAGTGAATATGGTTTGCA TTGGAATTTCTTCTTCACACTTGCTGCTGTGTCAATCCTTACTTCCTTTATTAGTACTCCCCCTCAATATTCTGGAGTCT TTGGTTCACTTGTCCTAGTAGGTTACCAGTTCTGGTTGATGCATGGTTTAAATCATTACTTGCTTTCCAATGAGAGAGGA ACGGATATCATAAGTCAAAACAAGGAGGGGATTTTTAGCATATTTGGATACTGGGGCATGTACCTTGTGGGTGTAAACTT AGGAAACTATCTTATCTTTGGAACCCAATCCTCTGCATATAGAAGTAGCAGATGGGTTCGAACGAGGGTTTGGGTCCTAG CAATCCTATTCTGGTTATTGACTGTACTTCTAGACCGCTATGTGGAAAGAATTTCACGGAGAACGTGCAACCTGCCGTAT GTGACTATGGTAGTGGCTGACAACCTACAGCTGTTGTCAATTCTAATGCTGGCTGATCTCATTCCTGGATGTAAAACTTC TTTACTTGAAGAAGCATTTAATCGGAACTTGCTGGCTACATTTCTTCTGGCTAATGCACTTACTGGGTTGATAAACTTGT CAGTTGATACACTCTCTGCGTCATCAACCACAGCCCTTCTTATCTTGCTTGCCTATGCTTATGTTTTATCAGCAGTGATT GGAATTGCTCATTATTTTGGTATGAAATTAAAATTTTGGTGA
Protein sequence (LotjaGi4g1v0169800.2) extracted from Lotus japonicus Gifu v1.2 Proteins.
MLSPLLRFYAQFRRQLQILAEVDRCITPMDPPLHKPSFNPNKHLKEQFVSNLSGSSMLEIAALTISIPILVIIRHSITSI STNGASLRKKNDDALSENRTFKAYLATLSLDFLIIVVPMLLFFTVLADWTYIIASLFAILTLLYIAAKGSGGSSLVLREP NSLRAYVTSYRVIVMIITVLCILAVDFRIFPRRYAKTETYGTSLMDLGVGAFVLANSLVSRQARNITSVNWKTAIVSISP LLILGFFRLITTTGVDYQVHVSEYGLHWNFFFTLAAVSILTSFISTPPQYSGVFGSLVLVGYQFWLMHGLNHYLLSNERG TDIISQNKEGIFSIFGYWGMYLVGVNLGNYLIFGTQSSAYRSSRWVRTRVWVLAILFWLLTVLLDRYVERISRRTCNLPY VTMVVADNLQLLSILMLADLIPGCKTSLLEEAFNRNLLATFLLANALTGLINLSVDTLSASSTTALLILLAYAYVLSAVI GIAHYFGMKLKFW
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 | 59 | 59 | - | – | |
PIRSF | 37 | 493 | 457 | 4.0E-153 | ||
PANTHER | 39 | 493 | 455 | 1.6E-173 | ||
Phobius | 60 | 82 | 23 | - | – | |
TMHMM | 60 | 82 | 23 | - | – | |
Phobius | 83 | 102 | 20 | - | – | |
TMHMM | 103 | 125 | 23 | - | – | |
Phobius | 103 | 123 | 21 | - | – | |
Phobius | 124 | 128 | 5 | - | – | |
Phobius | 129 | 147 | 19 | - | – | |
TMHMM | 129 | 146 | 18 | - | – | |
Phobius | 148 | 167 | 20 | - | – | |
TMHMM | 167 | 189 | 23 | - | – | |
Phobius | 168 | 187 | 20 | - | – | |
Phobius | 188 | 198 | 11 | - | – | |
TMHMM | 199 | 221 | 23 | - | – | |
Phobius | 199 | 219 | 21 | - | – | |
Phobius | 220 | 230 | 11 | - | – | |
TMHMM | 228 | 250 | 23 | - | – | |
Phobius | 231 | 251 | 21 | - | – | |
Phobius | 252 | 265 | 14 | - | – | |
TMHMM | 265 | 287 | 23 | - | – | |
Phobius | 266 | 285 | 20 | - | – | |
Phobius | 286 | 291 | 6 | - | – | |
Phobius | 292 | 310 | 19 | - | – | |
TMHMM | 294 | 316 | 23 | - | – | |
Phobius | 311 | 329 | 19 | - | – | |
Pfam | 326 | 452 | 127 | 1.7E-31 | ||
Phobius | 330 | 349 | 20 | - | – | |
TMHMM | 331 | 353 | 23 | - | – | |
Phobius | 350 | 369 | 20 | - | – | |
TMHMM | 365 | 384 | 20 | - | – | |
Phobius | 370 | 388 | 19 | - | – | |
Phobius | 389 | 399 | 11 | - | – | |
TMHMM | 399 | 421 | 23 | - | – | |
Phobius | 400 | 421 | 22 | - | – | |
Phobius | 422 | 432 | 11 | - | – | |
Phobius | 433 | 453 | 21 | - | – | |
TMHMM | 433 | 455 | 23 | - | – | |
Phobius | 454 | 464 | 11 | - | – | |
Phobius | 465 | 487 | 23 | - | – | |
TMHMM | 465 | 487 | 23 | - | – | |
Phobius | 488 | 493 | 6 | - | – |
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 | GPI anchor biosynthetic process | The chemical reactions and pathways resulting in the formation of a glycosylphosphatidylinositol (GPI) anchor that attaches some membrane proteins to the lipid bilayer of the cell membrane. The phosphatidylinositol group is linked via the C-6 hydroxyl residue of inositol to a carbohydrate chain which is itself linked to the protein via an ethanolamine phosphate group, its amino group forming an amide linkage with the C-terminal carboxyl of the protein. Some GPI anchors have variants on this canonical linkage. | ||
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 | Transferase activity, transferring acyl groups | Catalysis of the transfer of an acyl group from one compound (donor) to another (acceptor). |
Expression pattern of LotjaGi4g1v0169800.2, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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