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| Field | Value |
|---|---|
| Gene ID | LotjaGi1g1v0208400 |
| Transcript ID | LotjaGi1g1v0208400.2 |
| Related isoforms 3 | |
| Lotus japonicus genome version | Gifu v1.2 |
| Description | signal peptide peptidase; TAIR: AT1G73990.1 signal peptide peptidase; Swiss-Prot: sp|Q9C9C0|SPPA1_ARATH Serine protease SPPA, chloroplastic; TrEMBL-Plants: tr|A0A151RJH4|A0A151RJH4_CAJCA Protease 4 isogeny; Found in the gene: LotjaGi1g1v0208400 |
| Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr1:45730330..45747384) extracted from Lotus japonicus Gifu genome v1.2.
ATGTCGACACTGCTTCTTCTACCCACTCCTCCCTTCACCTCCATACACCGCCGCAGCAACACCACATTATCATCATCATC CTCTGCTTCCCTTTCTCTTCTTCCCTCTCATCACCACCCTCTCACTCTCCCACGCTTCCATTCCACCGCGCGCAGAGGTA ACCTTTCCCTTCTTCGTCGTGCCGTCGATTCTTCCTCCTTCTCCGACCCTAAAACCGAAGAAGCAGCAGAACAAGATGAA GGTTCCGTCAACAGTGAAACTGTTCGGCTCGCCGACGAGGATTATCCCAGTGGCGAGTTCGAATTCGAAGCCATTACTGG ATGGAGAAACTTCCTCGTTAAGGTTAAGATGCTCTTCGCCTACCCCTGGGAGCGTGTTCGCAAAGGCAGCGTCCTCACCA TGAAGCTTCGTGGCCAGGTTTTCCATTGATCGAGTTTCCAATCCTCATGTTTTGTTTCAGTATATGATGATATATGTGTT GGTTGATGTGTTGACTTGGATGTTTTCAATTTTCATGTTGATTGATTGATTGATTGATGTATTCAGATATCTGATCAAGT GAAGAGTAGATTCTCTCCGGGACTTTCTCTGCCCCAAATCTGTGAGAATTTCGTGAAAGCAGCCTACGATCCTCGAATTT CCGGAATATATCTTCATATAGAGAGTTTGAACTGTGGCTGGGGTAAAGTTGAAGAAATTCGAAGACACATTTTGAATTTC AAAAAATCAGGTAAAAATCTGGACTTAGTTGCAACTTTATATGTGGAAGAAAGAGGAACGTTGAAACATGTGGTATCAAA GCTGAAACAATTGTCCATGGTATAATGCTGTTTGTAGTAGAAACTTGTATTAGGGTCAAATAAACTGGTCAGGAATTCAC CAAGAAATTACATATCCAAGTTATGTGCAAATGTAGTAACTGATGGGTTCCATGGTTATACCCCTTGAAAATGCCTAGTT AGTTACATGTGCTTCTTGGTCACTTTGGTTACATGGCTGCCAGTGCAGTAAACCATAAAGTTTCAGTGCTTTTTTCTCTT ATATCTTGTAGGCAACATTCAAGAGAAATATTAATCGAATATGGTTTTGCATCTGTATTAAGAATTAAGATGACCTGTTG CAGCAGGCTTCTTTTGCTGAAGTCAATGTATCTTCTCTTGTTATTAGAGGAGCACTGTTGCATGTAATTTCCTGAGCTTG TGATGTGACATATAATGTTCCTCTTCTTCACATATATGTTGTCCTATATTGATGGCCTGTCTGTTCTACTTATGAATGAC ATGCTTTGATAGTTGATTGTGCTTGTAGGAAAATTTGTTGTGGCTTATGTCCCTCTTTGTCAAGAAAAAGAATATTACCT TGCGTGTGCATGTGAAGAGATATATGCCCCTCCAAGTGCTTACTTTTCTTTGTTCGGATTGTCTGTTCAAGCCTCATTTC TCAGAGGTGAGCTGATTTTTCTCTTGCAATTTTATGCATTTTCCTGACAGTAGTTGTCCTATAATTTATTTATTTTCCGG TTTGGTTGTAAATCTTCAATTAGGTCTCTCAAACATATGTTCAACGTCACATCAGTCCTACATTTATCAGCAATGTCATA TTGGTCCTCAATGATGATCAATGTCATTAGTTTCATTTAATCTTCTTGTCATATTTTTTCATCCGATTGGTTATTAAAGT AACGTCAAATTGGCGCTTAAAAAGACAAAATTGATGGCATTAGTTATTGGCTATTAAATGGAGAATAAGTCACATTTTTG GAGGACCACTGGACATTCTCTCTTTTTTCAGAGGCGAACTGGGGATTCGGGGGGGGGGGGGGGCTATAGAAGGGGAATTA AACCTCCAAGAAAGTATAAGGTGGTTTTTCTAGTTGCAGTTCCTTTAGATATGCAGATCGATACTTGTAAGATACTTACA TAACACCTGAATTATTGTCTGGTACTGATACACCTTTCCAGTATATCAATGGAGATATATGTTAATTTCTCAGATATTAT TCTTATGCTAATGTGTTAAATCAGTGCCAAACTTTTTCTGGGAAAGTCTTGAGTCATTCTCAGATGTTACTTTACCGATG AATGTCAGGAATTTATTGAATGGCTATAAATATACCTACAATGTTTTTGACATCATTTATTAATCCATTTCAGGAGTTTT AGATAACATAGGAATTGAACCTCAAGTGGAAAGGATTGGCAAATACAAAAGTGCAGGAGATCAACTAGCTCGAAGAAGCA TATCTGAAGAAAATTATGAGATGTTGACTGCATTGCTTGATAACATCTATACAAATTGGCTGGATAAAGTCTCTTCTGTC AAAGGTACACTTGCATTTCAAGTTTTAGTTGATACTTGAATCAACAAAATTACTTCAGGTCTTCTGCAAATTCACTGAAG GAAAGAGGAGAGAAGATATTGAGAGCTTCATAAATGAAGGTGTTTATCAAGTTGACAAGCTCAAAGAAGAGGGCCTCATA TCAAATGTAATTTATGATGATGAGGTATATAATTACTTGCCAGTGTTATATGAAATACTAGATGCATGCGTAGTTTGTCA ACTTTATTAATAAAATCATATCGACAGTAAGAAGGAATCTCCAGTAGTGGCTAGGTGGATGTGTTTGAATGGAAAATTCC TGGTATAGAAATTTGTCCTGCTCAAAAAGAGTGCTGTTTCTGTTGCTTCTTCATTTAACTAAATTGTGTACTCTATTCTT CACAGTAGGTTTTTTTTTGAAATTTCACAGTAGGTTGTATTCATGTGTATAATACTATAATTGATTGTTTTGAAGATGTA AATACATTGCAACCAAAGAGGGTTAAAGGATAAGAAACATTAAATGTTTTGCAGGTTATAGCCATGTTGAAGGAGAGACT TGGAGTGAAAACAGATAAAGATCTGCCTATGGTAGATTACAGGTAGAAATTTATTCTTGAGGCTTTTAAGATAGTTATAT GGTTTTTACTAATTATTTAGAGTAGATAAAAGTCAACTCTAGAAATGTCTAACTAGGGAAATTCTCAAATCCGTTGTCTC ATAAAACTACCCATCTATCTGCTTAAAGTTTAGATCCCAATCTTTATTTAATGTTTGTTAAATGAGTAAACAACAAGAGG CATTGGGACTGAATTCGCTTATCAAAAAATGGGACTGAATTCGTTTGTCTCAACTACACAATGGGGTGCATTATATATAA TAGGCATCATAAATTCATAATATCCTAGTTTCCCTATTTACATGACAACGTTACCTAATGGCAATAAGTACAAGATTAGT CTCCCCCTCAAACTGGAGCATATATGTCAGATGCACCAAGCTTGTTACAAATATAATTGACTCAGGGACCTCTCAAAGAC ATAGTGAAGTCATCAGCCAATTGATCATTTGAATTGACAAATCTAGTGTTGATATCTCTAGATAAAATCTTCTCCCTAAT AAAATGGCACTCAATCTGAATATGGTTGGTCCTCTCATGGGACACTGGATTTGAGGCAATATGTAAGGCTGCTGCCTGGT TGTAACAAATAAGTGTCCTATGTGAAACATCCCCAAATCTCAGGTCTTGAAGCAACTGTTTGAGCCATGTAAGTTCACAA GTAGCTTTATCCATGACTAGATATTCTGCTTCTTCACTTGATCTTGCCACTACACTTTGTTTCTTAATCTTCCAATAGAT TAAGTTATCACCAAGGAAAACACAATACTGTTAAGATTTAGTTTATTATTAGTCTTATCTCATTGAGATATAGTTTAGAT TTGTTTCTCTATCTTAGATTAGTATATCTTAGATTAGTATCTATTTAAATAGAGATGATATCTATTTAAATAGAGATAGG TTTAGATAGATTTAGTTTCTTCTTATCTCTTTGTTAGTCTATATATATTGTAGTTTTTGAGTCAAGTATTATCAATGAAA TACAAGTAATATTTTATCAAATTCAAGTTGGTATCAGAGCAAGTTTCGATCCTACAGCTGTGAGGGGGCTCCTCCCCCGT GAGCCCCCTCATGGTGACTTTTCCAAATCTCTTTGGATTTAATTTTCCCTGTACTTTGCTTCCGCGCTTGTTAGTTCTAG CCGTTTTCTTACGGCCTCGTTTCCCTCGTTTCGTTATGGTCCCCTTTGCCTTGGAACCCTAGTAATGTTCAACCATCAAA TCAACGTCCTTCCACGTGCTGCCTTCCCAGCCGTCGTTCGTGACGCTGCTTCCACATAAAGGTTTGTCATGTTCTCTTGG TTCTTGCGTTCTTATCAGCCACACTCACTGTGATTTTGTCTGTTTCACCGCCCTTGCCCAGATTCAGAATATTGTTAGAT GTTTTTGGAGCCCCTTGCTCTTTAGCGTGTGATTTCAGGTTATCTCTTTTGTTACTTCTTCAAATAAAATTGAAGAAAAA GCTGGAGAAGGAAAATATTCTAGTTATTCCCGTGATGAAGTTGCCTCAATGATATGCAGCACCATATCACTGTATGGAGT TAAGGTTACTAACGTTTTTCAAGATCTAGAAGAATCAAATGTACTCCGGCCCTACATGAGTAATGCCATTGAAGATATAT TTAAAGCATGTGTGGCTTCTGAATTGAAAGAAGTTGCACCTCAGATTTCTGTTTCTGCTCTCCGATTACTGCAATTAGAG TTGTACGTTTGTTCGTCTTGCTTGGTGCTGTTTTTCTGCTCTTATTTGAGCCCCTGGTTGTTGTCCTTGTTTGTTGGGTT GGAATGTGTGATTTCAGATGCTGAATTTTCGGTGTGGAAACCACAAAACGATCCTTACATCTGTGGTGATTTCTCAAAAT CAGTTTTCCATAATTCATGTGTTCACATTGATGAAGTATTCGACCAGAGTAAGCGGTGAAGGGCAATTTCAAGTATCTAC AATTTCTGATTACCGCATTGCATTGTGTGGCAGTAGCTTCTCTTCTCGAGTTAATTATATTTGTTACAAGCTATGCATAT GATATATATGCTCTAGCTTGAGGGGAAGTGTTATTAGAGACTACGGTCAGCCACCACCGTCGGATTTCAAGCCACGCGCC CTCACGTGCCTCCCATCTCTCTGCATGTGAAGTCCACGCACGGCTCTCTCCGCTGCTTTGTTCTATCTGGCCCACTCTCT AGTTGAGAGTTATTGGTTCTGGTTTTAGGGCTTCAGCTGCGAGTTGCGCTGGCCCACTCTCTAATGTTTGAGAGTTGTCT GTGTCAAAGTTGACACCATTGTTTGTCTTAGAAGCCATCAATCGATCGACCTCAAGTATGTTTTATTTCTGTGTGGTTGT TGTTGGTGAGTTGTTGCTTCAGCCTTGTTTTGTTTTCGGGTGTATTGTTGCTGGTTTTTCGCCCTTGTTTGCTGGCTCAG CTACCCTACGACACTCCAGAAGAATTGGTTTTTGCCGCCATGGATTTACTAGAAGTTTGAAAGGTTATTCAATTCAGAGA TTCGCCAAGACTGTCATTATCAAGGGATATCTATTAAGATAATTTTCTTCTTGGGTTAGATTTGTTACAAGCTTAAAGCT AAGTAAGCTTTAGCTTGAGGGGGAGTGTTGAATATCTGTTAAGATTTAGTTTATTATTAGTCTTATCTCATTGAGATATA GTTTAGATTTGTTTCTCTATCTTAGATTAGTATATCTTAGATTAGTATCTATTTAAATAGAGATGATATCTATTTAAATA GAGATAAGTTTAGATAGATTTAGTTTCTTCTTATCTCTTTGTTAGTCTATATATATTGTAGTTTTTGAGTCAAGTATTAT CAATGAAATACAAGTAATATTTTATCAAATTCAAGTATAATTAACTCAGGGACCTCTCAAAGACATAGTGAAGTCATCAG CCAATTGATCATTTGAATTGACAAATCTAGTGTTGATATCTCTAGATAAAATCTTCTCCCTATAAAATGGCACTCAATCT GAATATGGTTGGTCCTCTCATGGGACACTGGATTTGAGGCAATATGTAAGGCTGCTGCCTGGTTGTAACAAATAAGTGTC CTATGTGAAACATCCCCAAATCTCAGGTCTTGAAGCAGCTGTTTGAGCCATGTAAGTTCACAAGTAGCTTTATCCATGAC TCGATATTCTGCTTCTTCACTTGATCTTGCCACTACACTTTGTTTCTTAATCTTCCAATAGATTAAGTTATCACCAAGGA AAACACAATACCTGAAGTGGATCTCCTATCAGAGGGAGAACCTACCCAATCTGCATCTGAGTACCCTACAACTCATGTAT GACCTTGTCTTCATACAGTAAACCTTTTCCTGGAGCTCATTTAATATATTTCAGTAGTTGAATCACAGCATCCCAATGCC CTTCACACAGAGAATTAAGAAATTGACTTACCACAATAACAGAAAAATAAATATCTTGCCACTAACTTTTGTAAGGCCCT TTTCCTTTGTTCAGTGTTTTGCCTTGGGCCTTATGATCTAACAGTTAGAACTGGTATTTCAATTTCTCACAAAAACACTG TACAATTGACTCAAAGCTCTCAACCAGTAACAATGGTGATTCTGGTTTTGAGAGAGAACAGATAACAGAGAATGACAAGA AACTTCTGGAAGAAGAAAACCCTAACTGATTCCACAATCGGTTCTAACCAACCTCTAGCTACCAGAATCATTCTAACTGA GGAGTTAATCCTCTTGTTTATAGTGTATCCTAACTCTAACTGTCAAGTGCAGTTAGCTAATCCCTTGTATTTAACACTAA CTGTCAACTGCGGTTAGTTAACCACACTAGTGCCAGCTTGGCGCCTCACATACACATGCTTAATAGGAGGTTTCTCTGGC CTTGATAAAGTAGCAGCTCTATCAATACTCCCCCCTATGGGAGCTAACTTGTCCTCAAGTGGAAACTAGGAAAACTTTCT TGAAGTTGAGCAGCAAACTCCCATGAGTCTTCACAAGTAGGAAGCTTGTCCCAGTGTACCAAAACCTCCAAGTTACCCTT CTGATCTTCCCTCCACTGCAAGATGGCCGCTGGTGTGACTTGCAATTCCAATTCCTCACTCAGCATTGGAGGCAGAGGCT GTGGTTGGACATGAGGCTTGAGAGCTTTCTTCAGTAAAGAAACATGGAAAACAGGGTGGCTGCTAGAAGTGGCAGGTAAA TCCAACTGATACCTCTCCTATCTTCTCCAGCACTTGATATGGGCCATAATATCAGGCAGAATGTGTTGCTGGATTAAGTA GCAGGTCTTGAATGACTTGTTGCCACTTAGGATCTGCCTGGACCTCCTGAAGCCAGTCTTCCCCATCTGCCAAATTCACT ATAGAGAGGGCAAAATACATTTCTCTCCTTGAGAGGGCATCTGCCACTGAATTTTCCTTGCCAGGTTTGAATTGAATCTC AAAATCTAAGCCATTCAACTTGACAGCCCACTTAAATTGTTCCTCACTGAATAGTCCTTGATCAGTCAAGAATATAAGAC TCTTTTGATCTGTTTTGATAATGAAGTGATGTCCCATCAAATAATGCTTCCACCTTTGCACAGCTTGCACTAATGCCATT AATTCCCTCTCATAAACTGATTTTTGTTGAGCCCTTTGAGATAGACCTTGACTCCAATAAGCTAGGGGTCTCCCATCTTG CATCAATATTGCCCCCAGCCCTTTACTTGAAGCATCAGTCTCTATTACAAAAACCTTATAGAAATCAGGTACTGCCAACA ATGGTAGTTCAGTCATTGCTCTCTTCAAATGCAGAAAAGCTTCAGTGGCCTCTTCAGTCCAATGAAAGCCATCTTTTTTT AACAACTCAGTTAGAGGTTTGGCTATTTTGCCATACCCTTGGACAAACCTTCAGTAATATCCCGTGAGTCCTAGAAATCC TCTCAATCCTTGGATTTCCTTTGGCATAGGCCAAGTGCTCATTAATGAAAGTAACAATTTCCTGTTAATTACTAACATGC CAAATACATAAATGTAGTTAACTTAATAACTCAAGTTTCACATAAATACAAAGTATTAACTATATTGATTAATTTTAATG TTAAACTTTTGAACACAAATATCGGTTATTTTATGCAAACATAAGAGGCAACTTCAACGAATATGTAATGTATTACAGAT TATTATTTGATTTATTTTTTGTTTTAAATCTCTCCCCTCACTGTTGTTGTCATGGATCTTTATGTGGCTTATGTACATGA ATTAAGTTTTCACATGACTTACTATTGCTTCCTTTTTACCTGACTTTTATTTCTAACATGTGCAAAAGAATCCATATTAA AAATATCAAGATATTTTCTTTCATTGATTAAATACAGGAAATACTCTCGTGTTAGGAAATGGACAGTTGGTATTTCAGGT GGTAAAGATCTGATAGCCATCATCCGAGCCTCAGGAAGCATTAGTCGTGTTGAGAGTCAATTTAGTGCCTCTAGCTCAGG CATCGTTGCAGAGAAGTTCATTGAGCAGATTCGTAAAGTCAGAGGTACACTTGATCTTCAGTTTCCGTTTTAAATTTATA TGTAGACCATCAAAAATAAAAGATAAACTCCTTAAATAAAAAGATAGACTTCTAAAATAAAAGATAGACACTTAAGCTAA AAGATAGAAATAAAATAAATCTAAACCCCTAATATTTAGAACCCTAACAACGCTACCCTCAAAAAACTGACCTTGTCCTC AAGGTTGGAAGCTAATAAAATTTGGCACGCTTCATTGTGGACAAAATAATCTCTTCAGGATCCCATTGTAGGCGGAAAAC AGGGTAAATGCTCAACTCAGCAAATGCACAAGTGTTCATGCCCGGCGACATTGGAGGAGGTCTCTTGGGCAACATGGTAA AGGCCCATAGCATCATCCTCGCTAACATGGTAAAATCCAAGTTCATGGCCGAACCCAAGTCTACATGGACGAACACATCA ACACATCAAATCCTACTCCTAACGGACTTAACCTAATGACCAAGCTTTTATTTGTAATAAACTAATCCTAATAAAGATAG ACTTAACCCCTAAGAAATAAAGATAAACTACCAAGAATAAAAGTTAAACTACTTAAATAAAAGATAGATTCCTATAATAA TAGATAGAATCTTAAATGAAAGATAGAAATAAAATAAACCTAAACCCCTATTATTTAGAACCCTAACAGAGTCAATTGTA GAGTTAGTTGTAAAGCATTACAGTTCTTTAGTATAGAATAAATACATGAGAGGAAGTAAGTGAGAGGCATCACTTGTACT GAATGGGAATTGAGGAGAGCTTCTATGTCTCTTGGACACTCAACCATTTCTTGTATCATCGAGGGTTGTCTGAGGCTACT TGCACTGGGTATGTGCCGAGATATTTCCATCGAAGGAACAAAACAAATCTCTCTTTTTTCCGGTGCCAGTTCTGTCAACA TATGACTTGCTGAATTCATGTATTCCAGGATGTAAATAGAAGGGATTAATTTGGCTATGTATGTAACGACAAGATAACTT TTCTATTCACTTTTCAGAACATAGCAGAGACATATTTGTATGTTCATCTATGTTGCTGTTTGCCAAACCTGCTACCTTGA CACTTTTATTGATTACTATTTTGATTCACTTGTTATATTTATGTCAGTTTGTTTACTGACCACAATGGTTTTGTTTCTCC AGAGTCAAAAAAATTTAAGGCTGCTATCATCAGAATTGACAGTCCTGGAGGTGATGCTCTTGCTTCTGATCTGTAAGTTC TGGTAATTTTCTGTCTGTGAATTAAATGCTTAAAAATACAAGGGTTAAATATGTTTTTCGTCCCTGAACTTTGGCCGGAT TCCGGTTTTCGTCCCTCGCCGATGTAACTTCCGGATTAGGGCCTCAGACTATGGCCGTCGTTTGGTTTTCGTCCCTCTCG GAGGGGTGGCGCTGACCACCGTGCTTGTGTGTCATAGCAACGCCTACATGGCAGTGCCACATCATTTAATGAAGACATGT GGAATTTTTCTCTTTTCCCTTTTATTTTTTTCAATTCCATATAAACAAATTATTAATTATTAAAAATTAAAATAATAAGA AATATTAATTTATAATCTCTCGTCTTCATCTTCACCATCTTAATCTTCATCCTCCAAGAACAACCAAAATCCAGATTTTC TTTTATTCATCATCATCATCCTCATCATACTTCCATGAAAACCACAAGCTCCAAGCACCATAACCACAAAACCACACATA CCACAATAATGGAGTAATGAAAATCACAGAACATGGTCGCCACAGAGCCTTCCACCATGTCTCTCAGCTGCAAACGAGCG GCGCGGGTGGTGACGCCGGCATTGCAGTGTTCGCCCGGGACTAGTCAAAGGGCTAGTGCACAGCCATTTTGCATGGGTGC CGGGGTTGCGAAGCATGGTGGGATGTTAGGGTCCCAATTGCAAGGTATGGGACTTGAGTCCCAAATTGGAAGTATGAGAT TCTAATGCGGGGTTTATAAGACCCTGGGCTCTCCAACTACAATAGCTAGGTTTTGTGGTGTGGTTCTCCCAAGGTTCTTA TCATTTACCATTCATGATTTAGCCTCTCCAAATCTTTTATTCATCAGCTAATGCAAGGTGACCCATAATCTCACTCCCAT GGTCGGTCTAAGTTGTTTCATATGCCACTCTCAAATGGGTGGCTATGGTACCGGTTAGTGGGTGGTTGTGGTTGCAGCTG AGTTGGGTGGTGGCTATTGGCATACTTTGATGAAGCCAAGACAGGTCAGAGGCAAGGAGGAAGGCAAGAGAAGTGAGAGG CATATTTCATTAATGAAGTTTGCTTTCAAAAAAAAAGGATATAAGTTTAAATTGTGTGGCATGATTAATCTCGTGTGATA ATATAATTTGAGCATTGTTGTAAATATATCACCCAACAGCCACCACAATCCACTTCACAAATTTGGAAACACCCTTAAGT GCTGAAACTGTAATGTGATTGCAATAGTGACTGCAATTTAGAATCTTGTCATTGATTTATCCATAAGTGAAGCATTTTTT TAAGATTATTCTTTAAGACTTGAGAGGACTGAATCATATCCTTTATGGTCTAGGTAAGTTTGATTACATCATAATTGTTG TGATGGATGGAATTGTAATGCGTATTTTGGTGAGTTTGCATGTTTACCTGATCACTTTCTGGTATCATGAATCATGGTCA TTATCTGATGTCATGCTCATGGTCTGCAGGATGTGGAGAGAAATTCGACTTTTGGCTGCGTCAAAACCAGTCATTGCTTC AATGGCTGACGTGGCAGCAAGTGGAGGATACTACATGGCAATGGGAGCTCAAGCTATTGTCGCTGAAAGTCTTACCTTAA CTGGTTCAATTGGAGTTGTCACAGGTAAACCAAGGTGTTTTACTTTTTCATTAGGCGAAAAGAGGAGAGCATGTGGATAC GATAATATATCTGAAACTAAAAATATAGATTTATTGATAACAAGAATGCACATGTTGGAATATTTGAAACAGCTGTTCTC ATCTGTTCCATGTGCCAATCTAATTGGTAGTGCTCAATTCAATAATTAGGAAACTCCTAAGCAGGCCCCCAAGCAAAAAA TGACAGAACTAGCATAGACTTAGAGTAGAGTTTGATAGAATAAGGTAAGAAACTTGTATTAGTGAATCGTTAATTCCCAA TGCCCTTGGTAGAAATTTCAAAAATTTCTGAAATTAAGGACATGATTTCTAAAACTCAATTAGTTATGCGACACATGAAA AATTCATATATAACTTCCTCTCGAGTTCAAAATTTTATTTGAGCTCATTGAAATTCATAATCTCAAAGAAACGACACAAT GGAGTTAATTCTAGTGAAATTGTTATATAACACAAAAGTCGATAGGCGTAAATGGAATTATTTTACTACTTTTACTCTAA TTTTCAACATAATACTATAGTATTTTGAAGTTGTTATGATGAAGAAAGATATAACAGTGTATGACTTTGTGTTATAGATT AAATGGGAAATTGTATGCAATCAAAGGAAATTGTAGCTGAAATCAAAATTATTTATTATAGTTGAAATAATTAGGCAAGA CATTAACCGTGAACCGTCGGTTCTTAATGTTTTGTTCTTCGATTTTGTAGTTTGTTAATTTATAACATAACATCTCTTCT TGTAGGAAAATTTAACCTAGAGAAACTGTATGAGAAGATTGGCTTTAACAAAGAAATCATATCAAGAGGAAGATATGCTG AGGTTCTTGCTGCTGAACAACGCCCTTTTAGGTAATACTATTTCTTTATTTTCAGGTATAAAGATTCTAGTAGATCAAGA GAGAATATTAGGCAGTGTAGTATGCCAATGAATATCTCAGTTTCTAGGCACTCCCTTTTTAGAAAGAAGGCATTGCTGTC ACTTTCTAACTAGTAAGTTTCGTGCAATGCATGCCTTTTTTTTAAAGCAAAAGTTGAATTATTATTCAAAGAAGCTGGGG ACAAATCCCCAGATGAGAGATCAAAAGACACAACCTCACCTGATTACAAAACGGAGCACCAGAAAACCACCCCAGAAAGA ACCAACCAGCAAAAAAGTACCAGATAACAAACAGGATCAGAGAAAAAGACAAGTCCCACCAAGATATAATACAAAAGGGA ACCAAAAACCAAAAAGCAGACAAAACAAACCAACTTTCTAAAATTACCCCCAAGAAATATCACCACAAAACTCCATCCCA CAAATAACTCATGATGCTAGCAGGTAAAAGCCTCCCTAAATTCTTCCTCCAACCCATGAATAGCTTCTAAATCTAATATG CCCCAAGATGATTAAAGGGCTGAAAGGAATCGTCTAGGAATTGGTCTTTGCTAGAAAAACTCAGTAAAGAAAGGAAGGTG TTGGTCCTGAAACATGCTAAGGCTGGAATTGGAAAGGAAGGTGTAGGTCTTGATGAAATGGAAGGTGAAGACGTCACACA AAAGAGATGACAATCCTTTGTAAATCAGTTTTCTTGAATCACTCAAGAACCAAGAGAATCACTCTCAAGAATTGAATTTG AAAACTCAGAAAAACTATTATTTATAAACTGATTATTACAATGGTCACATTTGCCTTTTACAGGAGAATTTCCAGCCTAG AGCAAAATATGATTAAGTCTTACAAAGAGAGAATCCTAGGCTGTGTTAACACAAAATAAAAGAAAATTATGGCCCTTTGA CCAGCTCTTGGACGTGTGGAGGCTGAAAGCTTTCCATGTTGAATGTTCTTCATGACTAGGGAACCACACTCTTCATGCCC GTTATTCCCTTTGTCTCTTGTAACTCCTCCTTTAGCCTTGAAAGCTCTTATTTCCTTTGTCTATTGTTGATTCAAATTCA AACCTTCAGCAGTTGTTCACCTTCAATCCTTCTTGGCGGTCATTGTTGACTAATTCAAACCACACAAAGAGTTTTTAGTG AGAAATGGGCCCCCCTTGGCTCTTATGCTCCCCAAACACCACTAGAGTATATTAAACACACCAAAAGAAAAACAATTCAG AAACTTAGTGCTTTTGGACCCAACTAAATCCATTGGTCACCTGCACTTTTATTCAGTTCAAATAAACTGAAAATACGAGG GCTAGAACCAAAAAGCCCAAAAGGCCCTTTAGCGAGTGCTGGCAACAATTCTTGAAGTTGGAGTCAATTTGGAAGATGTG ACGGTACCAAAGCCCATGATGATCATTCAAGCACAAGAATGGGCCCCAACCCCATTCAACGTCTAAGGGCTTCCATGTTT TTTAGTTTATTTGAATTGAATAAAAGTGCAGGTGACCAATTGATTTAGCTGGGTTCAAAAGCACTAAGTTTCTGAATTGT TTTTCTTTTGGTGTGTTTAATTCACTTTAAGTGGTTTTTGGGGCGCATAAAAGCCAAGGGGTCATTCCTCTCTAAAAACT CTTGGGGTTTGAATAAATCAACAATGGCTGCCAAGAAGGATTGAAGCTGAACAATTGCTGAAAGGTTGAATTTGAATCAG CAATAGACAAAGGAAATAAGAGCTTTTAAGGCTAAAGGAGGAGTTACAAGAGACAAAGGGAATAAAGGGCATGGAGAGCA TTAAATGTGTGGTTCCCTAGTCATGAAGAGCATTCAACATGAAAAGCTTTCAGCCTCCACACACCCAAGAGCTTGCCAAT GGGCCATAATTTTCTTTTATTTTGTGTTAATAACACAGCCTAGGATTCTCTCTTTGTGAGACTCAGTCATATTTTGCTCT AGGCTGGAAATTCTGCTTTAAATGGCACATGTGACCGTTGTTCATGAATAATATTGTTTTTCTGAGTTTTCAAATTCAAT TCTTGAGAGTAATTTTCTTGGTTCTTGAGTGATTCAAGAAAACTGACTTAGCAAAGGATTGCCATCTCTTGTGTGACAGC TATACCTTCCATTTCATCAAGACCTACACCTTCCTTTCCAATTCCAGCAGTAGCACGTTTCAGGACCAAAAGCTTCCTTT CTTTTCTGAGTTTTTCTGGCAAAGACCAATTCCTAGACGATCCCTTTCAGCCCTTTAATCATCATGGCGCATACTCAAGT CCCAAAAACTTATCAACTAGCCAAGCCTTTTTAGCTCTAGTAAAATAGCCACAGTGGAATCCACACCTGTAAGCAATGGA GTGGCCACAGACGGAGCACTCCCCTCCTCCGGCATACCCAAATAAGAATGGTATCACAATATCGTTCCAGCCAGTTAATT TACTAACCAGAAACAAAAACTTCAAGAAAACTCAGAAATCATGCAACATATTCCACAATATGATACAAATGCTATAGAAC AAGTACTATGTACCAATTACCCCAATTCAATAAAAAGCCCCAAATTGATCAAACCCTAAAACAGGAACATGCAAGAATAT AAGAGATAGGGTTGAAGAAGATCACGCCAGAGATTTATACTGGTTCACCTCCAACAGTTTGGTAGGAGGCTACATCCAGT CCCTGTCATGGCGGTTAGAGTTCACTATGATAAGAATTCAAATACACAGCTCACACCGAGTACTCTTGAATTTCCTAACC CAATACAAACCATGCAAGAACCCTACTTACACCACTCACCACACCCTTTGGTGAACCCAATTCCACGAATTGAATCAAGA TGAAGAATAATTTTCGCAGCAAAGGTGATCTAATTCCCAAAAACTTGAGAGTAGAAAACCATATGAAAAAATACATAGAC TCATGATAACTCTTGCTCTCAATCTGAAAATAAAAGTTTGTATATTGTTTTGCTCTTTGCACTAGTGGAAAACCTTCTAA AGAGTGTTAGAAAGCCCATGAAATTTGAGATCAAAGACCCAAGTTTGAGAAAAAACATACAAACAACCCTTTCGCGCACA AGTGCTGAAAACACATGTTTTAAGAACACAGCAGTATGGGTAAATTGATTCACAGCCCGTGTTAATCGATTTACTAAAGT TGAGTTAACAGGATACCAGAACCTGTTAATCTATTAACCAAACTTGCTGTCTTTTCTATGAAAAAACCTTTAAAACTCAA TTTTTAAAGCATTTTTCCTAAGGGTTTCTAATTCTTTTAAGTTTGAAAACATTCCACTATATTAAGAGACACTTAAATAG AGATTAGAGAGCTATTACCATGAAATTTTGATGTGTTCTATGCTAAATGAAAACCTATGCTAGAAAGCATAAAATTGCAA GAATTAAACTAATTATTACAACTTCAAGCTTGAGATTCTTATTCCTTTTTCTTCTTTGTCGGTGTTATCATAAAAACTTA GCCAGAGTCCATGTTGGAGTACTTCTTCACAAATATCACTTAAAGTTCCTCAATATATGAAAGCTGACTGTGGCAAGTAA GTCCACTAAGCAATGAACAATGAACAATCTATTTGACCCTCTAGGAACCATAAGAATAACATAAGGAATCCCAGAGTTTC GGCACCCATCTATGCATTAAATCTTTCAGTAGTTGCCCTTTACAGGGTTGGTATCTATTGTCTCACACTATCCGTACATA TTTGACTTGCGGGACAGACAAATGTGAATATTTTTTAATTTCTTTCTTCATTTTTGGATGTAGACCAGATGAAGCAGCAC TATTTGCCAAATCTGCACAACATGCTTATAAACAATTTCGAGACAAGGCAGCTTTATCCAGATCAATGGCTGTATGTTTT AAATTTTATATGCCAATTCCGTGCTTTTTGTTCATTCTTCTTGTAGATCTTTGTTACTTACGATCAAGGTTGTCAGACTC GTGAGTCTAAGCAGACTCGTTTTGGGTAGGTAGACTCGACTCGTAGACTCGACGAGACTCGAGTCTACCAGAAATGAAAA TTTACTAAGTATAACCTTGTCACATGAAGAATAAATACAAACATATAATCTAATTATAAGAGCATCCAAGATTTTTTGAA GCAAAGAAGCAAGAGGAACGCGATAGAGGTTGAAAATAGGTTTAGTTTTAGGGATTTTTAATAAATTTGGGATTTTTTAA CTTAAAAAAAAAAAAAACTTGACTCGGTCACCGAGTCAGACCGAGTCAGGCCGAGTCAGGCCGAGTCAGACCGAGTCAGA CCGAGTCAGGCCAGAAAACGAGTCTGACAGCGAGTCGACTCGTTTTTCCTATGTAGACTCGCGAGTCTAACAACCTTGCT TACGATTATTATTCTGTAACTAGGTTGATAAGATGGAGGAGGTGGCCCAAGGGAGGGTTTGGACTGGTAAAGATGCAGCT TCACATGGTTTGGTTGATGCTCTTGGTGGGCTTTCACGTGCTATTGCCATAGCGAAATTGAAGGCCAATATTCCTCAAGA CAGTCAGGTTTTTTTCTTAGATCACCTCTATTAGTTTGGCAATACCAATTTTGTTCTTGAGAAGTTCAGTTGTGAAATTA ATGACTGTGCTCGAGTTCTTCCAGGTCACTGTGGTGGAGATCTCCAGAACCAGCCCTTCCCTACCTGGGATTTTGTTAGG CGTAGGGAGTTCCCTCGTAGGAGTGGATAGAACATTGAAGGAATTGCTACAGGGCTTGACGTTTTCAGATGGAGTTCAAG CCCGAATGGATGGAATCATGTTTCAGACATTGGAAGGAAGTCCTTACACCAATCCCATTTTTTCCATAATAAAAGATTAC CTTAGTTCACTGTAG
CDS sequence (LotjaGi1g1v0208400.2) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGTCGACACTGCTTCTTCTACCCACTCCTCCCTTCACCTCCATACACCGCCGCAGCAACACCACATTATCATCATCATC CTCTGCTTCCCTTTCTCTTCTTCCCTCTCATCACCACCCTCTCACTCTCCCACGCTTCCATTCCACCGCGCGCAGAGGTA ACCTTTCCCTTCTTCGTCGTGCCGTCGATTCTTCCTCCTTCTCCGACCCTAAAACCGAAGAAGCAGCAGAACAAGATGAA GGTTCCGTCAACAGTGAAACTGTTCGGCTCGCCGACGAGGATTATCCCAGTGGCGAGTTCGAATTCGAAGCCATTACTGG ATGGAGAAACTTCCTCGTTAAGGTTAAGATGCTCTTCGCCTACCCCTGGGAGCGTGTTCGCAAAGGCAGCGTCCTCACCA TGAAGCTTCGTGGCCAGATATCTGATCAAGTGAAGAGTAGATTCTCTCCGGGACTTTCTCTGCCCCAAATCTGTGAGAAT TTCGTGAAAGCAGCCTACGATCCTCGAATTTCCGGAATATATCTTCATATAGAGAGTTTGAACTGTGGCTGGGGTAAAGT TGAAGAAATTCGAAGACACATTTTGAATTTCAAAAAATCAGGAAAATTTGTTGTGGCTTATGTCCCTCTTTGTCAAGAAA AAGAATATTACCTTGCGTGTGCATGTGAAGAGATATATGCCCCTCCAAGTGCTTACTTTTCTTTGTTCGGATTGTCTGTT CAAGCCTCATTTCTCAGAGGAGTTTTAGATAACATAGGAATTGAACCTCAAGTGGAAAGGATTGGCAAATACAAAAGTGC AGGAGATCAACTAGCTCGAAGAAGCATATCTGAAGAAAATTATGAGATGTTGACTGCATTGCTTGATAACATCTATACAA ATTGGCTGGATAAAGTCTCTTCTGTCAAAGGAAAGAGGAGAGAAGATATTGAGAGCTTCATAAATGAAGGTGTTTATCAA GTTGACAAGCTCAAAGAAGAGGGCCTCATATCAAATGTAATTTATGATGATGAGGTTATAGCCATGTTGAAGGAGAGACT TGGAGTGAAAACAGATAAAGATCTGCCTATGGTAGATTACAGGAAATACTCTCGTGTTAGGAAATGGACAGTTGGTATTT CAGGTGGTAAAGATCTGATAGCCATCATCCGAGCCTCAGGAAGCATTAGTCGTGTTGAGAGTCAATTTAGTGCCTCTAGC TCAGGCATCGTTGCAGAGAAGTTCATTGAGCAGATTCGTAAAGTCAGAGAGTCAAAAAAATTTAAGGCTGCTATCATCAG AATTGACAGTCCTGGAGGTGATGCTCTTGCTTCTGATCTGATGTGGAGAGAAATTCGACTTTTGGCTGCGTCAAAACCAG TCATTGCTTCAATGGCTGACGTGGCAGCAAGTGGAGGATACTACATGGCAATGGGAGCTCAAGCTATTGTCGCTGAAAGT CTTACCTTAACTGGTTCAATTGGAGTTGTCACAGGAAAATTTAACCTAGAGAAACTGTATGAGAAGATTGGCTTTAACAA AGAAATCATATCAAGAGGAAGATATGCTGAGGTTCTTGCTGCTGAACAACGCCCTTTTAGACCAGATGAAGCAGCACTAT TTGCCAAATCTGCACAACATGCTTATAAACAATTTCGAGACAAGGCAGCTTTATCCAGATCAATGGCTGTTGATAAGATG GAGGAGGTGGCCCAAGGGAGGGTTTGGACTGGTAAAGATGCAGCTTCACATGGTTTGGTTGATGCTCTTGGTGGGCTTTC ACGTGCTATTGCCATAGCGAAATTGAAGGCCAATATTCCTCAAGACAGTCAGGTCACTGTGGTGGAGATCTCCAGAACCA GCCCTTCCCTACCTGGGATTTTGTTAGGCGTAGGGAGTTCCCTCGTAGGAGTGGATAGAACATTGAAGGAATTGCTACAG GGCTTGACGTTTTCAGATGGAGTTCAAGCCCGAATGGATGGAATCATGTTTCAGACATTGGAAGGAAGTCCTTACACCAA TCCCATTTTTTCCATAATAAAAGATTACCTTAGTTCACTGTAG
Protein sequence (LotjaGi1g1v0208400.2) extracted from Lotus japonicus Gifu v1.2 Proteins.
MSTLLLLPTPPFTSIHRRSNTTLSSSSSASLSLLPSHHHPLTLPRFHSTARRGNLSLLRRAVDSSSFSDPKTEEAAEQDE GSVNSETVRLADEDYPSGEFEFEAITGWRNFLVKVKMLFAYPWERVRKGSVLTMKLRGQISDQVKSRFSPGLSLPQICEN FVKAAYDPRISGIYLHIESLNCGWGKVEEIRRHILNFKKSGKFVVAYVPLCQEKEYYLACACEEIYAPPSAYFSLFGLSV QASFLRGVLDNIGIEPQVERIGKYKSAGDQLARRSISEENYEMLTALLDNIYTNWLDKVSSVKGKRREDIESFINEGVYQ VDKLKEEGLISNVIYDDEVIAMLKERLGVKTDKDLPMVDYRKYSRVRKWTVGISGGKDLIAIIRASGSISRVESQFSASS SGIVAEKFIEQIRKVRESKKFKAAIIRIDSPGGDALASDLMWREIRLLAASKPVIASMADVAASGGYYMAMGAQAIVAES LTLTGSIGVVTGKFNLEKLYEKIGFNKEIISRGRYAEVLAAEQRPFRPDEAALFAKSAQHAYKQFRDKAALSRSMAVDKM EEVAQGRVWTGKDAASHGLVDALGGLSRAIAIAKLKANIPQDSQVTVVEISRTSPSLPGILLGVGSSLVGVDRTLKELLQ GLTFSDGVQARMDGIMFQTLEGSPYTNPIFSIIKDYLSSL
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 |
|---|---|---|---|---|---|---|
| MobiDBLite | 66 | 86 | 21 | - | – | |
| PIRSF | 72 | 679 | 608 | 1.2E-185 | ||
| PANTHER | 78 | 664 | 587 | 9.3E-248 | – | |
| SUPERFAMILY | 121 | 338 | 218 | 1.89E-20 | ||
| CDD | 132 | 345 | 214 | 8.6717E-71 | – | |
| Gene3D | 156 | 365 | 210 | 5.6E-136 | – | |
| Pfam | 197 | 349 | 153 | 4.9E-23 | ||
| Gene3D | 245 | 555 | 311 | 5.6E-136 | – | |
| Gene3D | 366 | 597 | 232 | 5.6E-136 | – | |
| SUPERFAMILY | 373 | 585 | 213 | 1.67E-31 | ||
| CDD | 380 | 594 | 215 | 2.73352E-81 | ||
| TIGRFAM | 380 | 593 | 214 | 1.3E-52 | ||
| Pfam | 448 | 598 | 151 | 1.9E-40 |
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 | Signal peptide processing | The proteolytic removal of a signal peptide from a protein during or after transport to a specific location in the cell. | ||
| Biological process | Proteolysis | The hydrolysis of proteins into smaller polypeptides and/or amino acids by cleavage of their peptide bonds. | ||
| Molecular function | Peptidase activity | Catalysis of the hydrolysis of a peptide bond. A peptide bond is a covalent bond formed when the carbon atom from the carboxyl group of one amino acid shares electrons with the nitrogen atom from the amino group of a second amino acid. | ||
| 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. |
Expression pattern of LotjaGi1g1v0208400.2, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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