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| Field | Value |
|---|---|
| Gene ID | LotjaGi5g1v0238000 |
| Transcript ID | LotjaGi5g1v0238000.2 |
| Related isoforms 1 | |
| Lotus japonicus genome version | Gifu v1.2 |
| Description | Protein translocase subunit SecA; TAIR: AT4G01800.1 Albino or Glassy Yellow 1; Swiss-Prot: sp|Q41062|SECA_PEA Protein translocase subunit SecA, chloroplastic; TrEMBL-Plants: tr|G7IBQ7|G7IBQ7_MEDTR Protein translocase subunit SecA; Found in the gene: LotjaGi5g1v0238000 |
| Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr5:54599848..54611608) extracted from Lotus japonicus Gifu genome v1.2.
ATAAATCCACAATTTCTTCAAATCCCCTTCTCAATTCTAATTATGGCAGCGTCCTCACTCTCTTCCTCCTTCACCTCCAC AACTTTCAACCCCCACACTCACCCTCGCCACAAAACCCTAACCCTACCTGCTTCCTCGTTTCTCCGCCGGAGCCTCCCTC CGCCGTCAGTTTCCAAATCACGCCGGAGCCGGAGGCGCCGGTCCGGCGCGGTCGCCTCGCTCGGTGGTTTGTTAGGCGGC ATCTTCAAAGGTAACGATACTGGAGAAGCTACCAGGCAGCAGTATGCTGCCACTGTTAACCTCATCAATCGGTTGGAGCC GGAGATTTCTGCATTGTCCGATTCGGAACTGAGGGATAAGACCTTTGCGCTGCGAGAACGCGCGCAGCGGGGCGAGGCTT TGGATTCTCTATTGCCTGTGAGTGTGAATTTTTTTGAATTTTGTTGTTTTGAAGTTTGTATTGTAAAGAGTTGATTCAAG TGAAGTTGCTCCTGATTGTGACCAATGGAACTGTGTGTGTATTGCAGGAGGCGTTTGCTGTTGTCAGAGAAGCTTCCAAG AGGGTTCTCGGCCTTCGTCCCTTCGACGTCCAGCTTATAGGTAAGTTTTTCATTCTATTGTTGATCCAAAGTGTGATTGT ATTTCTGTCAGCGCACATTCCAAGACAATTTGAATGTGCTTTTGGCCGACCGATGTCTCTCGTGTCATTGAAGTGAATCT GTTTTTGCCAACTTGAATGTAAATACAAACACACATGAATTGTCTGTTCCGTCAATATATTATACTAAATATTGTAATGT AGCTAGTTCTTGCCTTTTTGTGTGTGACTGTGTATATGTATGTGATTGTGGGGATAATTTATCAATTTTGTTATTTCGGA TTTTGTAGGGGGTATGGTTCTTCACAAGGGAGAAATAGCAGAAATGAGGACTGGAGAAGGGAAGACTCTGGTTGCCATTT TGCCGGCTTATTTGAACGCATTAAGTGGGAAGGGAGTTCATGTTGTTACTGTCAATGATTATCTGGCTCGCCGTGATTGT GAATGGGTTGGTCAGGTTCCTCGCTTTCTTGGATTGAAGGTTGGCCTCATCCAGCGTATGTCTCTCTCATGCTTCATTTC TTCGCTTTTCTCCTTTGTTTTTGGATTCTGTTTCTACATCTTCTGTTAGTCAGTTGGAGTGTAATTGTTTTTGAAGCTTC TGTCTTGCTTCTTTGTCATCTGCCTCTGTATTCATTTTCCGGTCCATGTCATCTAGTGGGAACAATCTTTGTTGTTGCTA CCGTTCTTCTTCTTGTTATTAACTTAGCTTCTTTAATATGCATCATGTTTTGCGTCTTCTAATTGATAATGCATCTGTTG GCAGAGAATATGACAAGTGAGCAAAGAAGGGAAAATTACTTATGTGACATAACATATGTCACTAATAGTGAGCTTGGTTT TGATTACTTGAGAGACAATCTTGCCACGGAAAGTAATTCTTCCTTTACATATTTCGTGCATTTGATATATGCTTTGTAAA TAGTTAACTTTTATTCTTTAATATCATACTGAACTCCAAACTGCGGAATTTACAGAGTGTCGAGGAGCTTGTCATAAGGG GTTTCAATTATTGTGTCATTGATGAGGTAGATTCAATCCTTATCGATGAAGCTAGAACTCCACTCATTATATCAGGACCA GCAGAGAAACCCAGTGATCAATATTATAAGGCTGCAAAGATAGCAGAAGCGTTCGAACGAGAAATACATTACACAGTAAG TTTGCTAGGCAATGTTTGCATTTTGAAAGAAAAAGAGGAAACTTGATATAGAATGTATACAGTAAATTTGATGTCTAGTC TAGTTCAGTGGTCTGCTTGGTGATGCTAATGAACTTCTGTTATTCACTTGTGAGTTGTGACTAACAGATGGGTGGTGGAT AGTTTTCAGATATGATATCAAAAACAGAAAACAAAAAAAGTAAATATATTTATAGAAGTTTTGTTTCCATGCATCGTGAA TGGTCAATGGTTTTAAAATTTCCATCATGTGATAACTTGTTTTATATCAGCCGACAGGCGTAGATGCATACTTTATTTTC AATCCTAGTCTTATTGATGTTGTCATGGCAGGTGGACGAAAAGCAAAAAACAGTTTTACTTTCAGAACAAGGTTATGAAG ATGCTGAAGATATTTTAGCTGTCAAAGATTTATATGATCCACGAGAACAGTGGGCTTCATATATCCTAAATGCAATTAAA GCGAAAGAACTATTTCTTCGAGACGTGAACTACATAATTCGTGGAAAAGAGGTTCTAATTGTCGATGAGTTTACTGGTCG AGTTATGCAGGTATTTAGAGACTCTACTTGACTAGTTGACCTTATAGCATAAACAATTTATCTGGAAAAGCAAATGAGAA TATGTATGGTATCACCAATAGAAGTTTCTTGGGCAGAATTGGATTTTACTATTTTAAAAATTATATTCTTTGCCTTTTCC ATGTCCTCATTTTTACCGTCAGGAAGTTTATTTACATTACGGTAGATCTTTTTGGATTATGGCTGACAATAATATTAAAT TATAACTAAATGCATGGTCCTCTATGCAGTTCTTCAGCAATTGAATCATAATCATTTAATTATTAATAATGCAAGTGGTT CTAATTGAAATTCACTAGATTTAGGTTGAAGCTTCAATGAACAAACTATTTATATTAGTCTATAGTACACACCTAGAGTT TACCTTTCACCCAAAAAAATGGTGTTAATAAAGACAGTAAGATACTAGCCCAAAATTGTAAGCTTAGGTGAAAACACATG AATGGTTCTATATCTAACACTGCCCTTATCTTTAAATAGCATGTGGTGCCTTGGCGCTTACATTTTTAGCTAGTTGTAGT GCCTGTCTAGCCAATATCAAAACACTTACCACCACTTATACCTAGAGAGCAATAAAAATGAAACTTTGGTGAAGTATATT TTGTTGATATCTGAAGGCACAAGTGATTTTTATTTTCTTTTTAATTTCTACTGTTAGGGGAGAAGGTGGAGTGATGGACT TCACCAAGCCGTTGAAGCAAAGGAAGGGTTGCCCATTCAAAATGAAACCGTGACACTGGCTTCTATTAGTTACCAGAATT TTTTTCTGCAGGTTGGAAATGTTATATCTGACCTGTTTGAGTGAATCATCATTTCATAATGTATTTTCCTTAGAAGCTAA CTTGATGCTTTTATATATGCATTTTCACAGTTCCCAAAACTTTGTGGCATGACTGGCACTGCAGCAACGGAAAGCACAGA ATTTGAGAGCATTTACAAGCTTAAAGTTACAATTGTGCCTACAAACAAACCTATGATAAGAAAGGTTTCTTCTTCCTTGT CATTCATATGCAACACTTGAGTGAATGATGATTACTTTGCTATGTGAAATCTGTAGTTCTGTTCCTTAATGGGAAGATTG ATTAATATATTTACTGTGACTATATGGGGAAAGGCAATGTATGGGGTAACTTATTATAGTTCCACAAGAGGTGGTGCTGG TAGATTATTTCCATCAAAAGCAAAGTTTGGAAGCCTTACTGTTAATTTTAATAGGTTTATTTTGTACACGATAAAACAAT ATTTATAAATTATGTGATGTTTGTCTAGTTTCTTATTGTGTCTTCAATTTCGTTTCCCAGGATGACTCTGACGTAGTTTT CAGGGCAACTACTGGGAAATGGCGCGCAGTTGTAGTGGAAATCTCAAGAATGCATAAAACTGGTCGCCCAGTGCTTGTTG GCACAACCAGTGTTGAGCAGAGTGATTCTTTGTCGGAACAATTAAAAGAAGTTGGGATTCCACATGAGGTAAAGTCTCTC GTCCTAATGGGAATAGAATATGAGAGCAGTAGAGCACAGTATTTTCTTAATGATACCTGTTTCAAATAATTTTTGTTTTT TAAAAAGGATAGCCTATTCTTAACCTAGATCACCTAGATCAAGTGCTACTAAAACTGAGCTACTTCTCTTCTGTTTGAAA GGAGGAGAATAAATCTTTATCTAATACCGATTTGTGTTTAATTTGTTTTTTTAGTATAAGTATATTGAAATGTGTATTGT TTGAAGGTTCTCAATGCAAAACCCGAAAATGTTGAGAGGGAGGCAGAGATTGTCACACAGAGTGGTCGTCTTGGGGCTGT GACAATTGCTACCAATATGGCTGGTCGTGGGACAGATATAATCCTCGGTGGTAATGCTGAATTTATGGCACGGTTGAAGC TTCGTGAGATACTGATGCCAAGGTATTATTGAGCTTTAATTGACAAGTTTTATCTATGGAAACTTTGCCCTTCCAAGAAA TTTTTCCCTTTTATGTGCTTTTGTGTATTATTTAAATGGTCTTTTATCTTTGTTCCTTTAGAGGAAAGGTTAGATGAGGA TGCTCAAAAAGAGATACTGATATGAGTGGGTTTTTAATGAGGTATGCTGCTTGCATGTTAGAGAATAATGCTTCAACGAG AGTGTCCCTTGTGTCATGTGTTTAGGCCTGTGTATAAGAAAGTAAGAGAATTTATTCGGCCGAAGGGAAACAGTGTAGTT ATAGTGGAGTATGCTTTAGCTTTCAGGTTTTCAACTGGTCCTCAGTGAGTGAGTGAGTGAGTGAGTGAGTGTGAGAGATA GAGGGGGTGGGGGACTATAGATGTTAAGGTCCTACATTGACAATTTGACAATAGATATGACTAAAATAAGACCTTATAAA GGGTAAAATAATCCTCACCCCTGGGACTACACATTCTATTTTTAGCGCTGTGATCTGCCGCAATTACCTGCAATTTTGGC CGTGATTCGTGCCGCTCCTGCTGCAATCGTCATCTGGGACGCGATGAACACCCCATAGCGGCAAGAGGCTGTGACGCTCC GCCACGTCGCTATAGCGCTCTTTTTTCTTCTTCTGGATAAGCGTTATAGCAGCTTGGTTTAGGCTATAGTGCGCTATTGA ATACTAAGTACAGAACACTTTAGGAATTAGAGGTTTAAAGTTGTTGGTTACCTTGACTTTTGTTGCCATAAATTTTGAGT ATTTTTTACCCTTTATATGTATATAGTTCTGCCATACAAACTATACAAAAAAAACAGCGTAGCTGTAGCGGCCATCCAGC TATGCACTATACCGCTACGCGCCACTGTCCAAGATTGGCTACACTGTCCCAAATAAATAAATAGTCTTATTCCTTAAGCT ACCAGTTTTGTTGTTACAATAAGTTCATATACAGAGCATGTGGTTTAGTGTATCATAATTTCCATGTTTATATCCTAGGT CTGATATTTCTTTCTGCTATTATGTGTCCGTGTGTGGGAGTTGTCTTTGTTTAGAAGGTACAACCTATTATAAATTGTAA CTTCATATGCATGTTCCTTGCTTGCACAATCTTCCTATCTCCAGGATTCATTTGTCACTATAAAACCTTCATGGAGAAAC GTCTTTTAGTTAATTCCTTTTTTTAGACCCTGTCATGTATTTAACTAAAAATTCCAATATAAGCAACTCGCAAATTGTTG AAGCCATCATATCAAACATGCATTACAGTCTTTTTCGGAACATATGGTTGCAGAGTTGTTAAACCAGCTGAAGGAGAATT TGTATCAGTAAAGAAACCTCCTCCCAGTAAGTTTTGGAAGGTATGGTGTTTTTCTTATACTATTGCTTCATGTAAACAAA GTTGTGGTGTGTGGTGTGTTATAGAAATAGGATATTATCTACACCTCCTTTTAGAACAAATATCTCGTGTATTCTTTATT GTCTCTAAAAAGGGAAAGTAAATAAAGATATCTATGACATCTTACTTGCCTCCTTTTCTGATTCTGTCTTTCTCTTCCTA CTTAGTCTTATCATCTCTTTAAATACACTGTAATTAGGAGAGAAGGATTCCACTTATTGAAAAACAAAAAAGAGCATAGG TGTGCAGTTCTTGGATATAATGAATCGATGGTTAATAAAAGTGCCTCACTTGGAACTTGGAAGTGTTGGATTGGACATCA ATTAATAGACATTACTTAACCCACCTAGTATGTTTGCATCCTCCCAGCATTATCAGTTTATAATACTGAACAGTATACAT AGGAAAGTATTCGGGCTTTGAACCAGTGAGAAAATCTGCCAATCATGAAAGAGGGAAGAATATGAGTTCACATTATATAA TAGAATTAAGTTGTGAATTTGAATCTTTTTGCCAATAGAGAAAGGACGGTGAAGAGGGAGCGAGGTCTGGACGTCTGATA AAAAAGAAAGCTGGATCCAAGAATTTATTTCAAAATTTCAAAAGCACCTACACATTTGTGTTACTCGAAAAAATGTTTTT TAGCTCTGGATTTTGTGTTTAAATCCATACTTTTTACAATTACTGTTTTGAAACTCCACATATATCGTTATCCAGGTGAA TGAGAAGCTGTTTCCATGCCAACTATCAAAGATAAATGCTGAATTGGCTGAGAAGGCTGTGGAATTAGCTGTTAAAACTT GGGGCAAGAGATCATTAACTGAGCTTGAAGCAGAGGAGCGCCTATCTTATTCTTGTGAAAAGGTTACATTTTGTTGATAA TGAACTTTTTTAATGTATTCAATGCTTGAAGTCAGTGTAATTATCTTACATTAAAACCTTTACACAGGTGATGTTTATCT TCTTTAATACTTCACTTTGTCTATTTTGGTCCTGTTTTATCAAATTGTCATAATGGATTTATATGTAGGGCCCTGCCCAA GATGAAGTCATTGCTGAGCTGAGAAATGCATTTCTGGAAATCAGCAAGGAATATAAAGTCTTCACTGAAGAAGAGAGGAA GAAGGTTAATTTGTTTCTTGGTCACTACTTTCCTTGGTCTGTTGTTGATACATTTTTGACAATAATTATGGTTGCAGGTC GTGGCAGCTGGTGGACTACATGTAGTGGGTACAGAGCGTCATGAATCTAGGCGAATTGATAATCAGGTTTTCTTTGCTTC TCTCCATTGCCTTTCTGGGTTGAAAGGTGGAGGGGTGGGGGCTGGAATAGTTTGTGGCCTTACGCATCCACATATTCCCT ACCTTTTATTATTCTCACTGTTATCATATACCCCTGTCTACCACTCCTTCTTCCCTTCTGAAAAAAACACTATTGTCAAA TAAGTATTTAAACTCGAAACTCAATTCTTTTCCATGAAGCTGCGTGGTCGAAGTGGCAGGCAAGGGGACCCTGGAAGCTC ACGCTTTTTCTTAAGTCTTGAAGATAATATTTTTCGGATATTTGGTGGGGACCAAATTCAGGTAATGTGTTTGTTGTGTT ACTGCTGCCCCTGGAATTTTATTTCCCAAAACATGGTTGATATTTTTTTATGTGTAGGGCTTAATGCGAGCTTTCAGAGT GGAAGACCTACCTATTGAGTCCAAGATGTTGACCAAAGCATTAGATGAAGCCCAAAGGAAAGTAGAGAACTATTTCTTTG ACATTCGGAAGCAACTATTTGAGTTTGATGAAGTACTTAACAGCCAAAGAGATCGTGTTTATACAGAGAGAAGACGAGCC CTTGAATCTGACAATCTTCAGTCTCTTCTTATTGAATATGCTGAATTGACGATGGATGACATTTTAGAGGTAAGTCTTAT TTAAATTATGCTTCTTTTTGTACCTTTGCTTTACCTTGCAATGTAAAAATGCGCGCTTGTGATGAATTAGGCAAACATTG GCTCTGATTCTACAAAAGACAGCTGGGATCTCGAGAAACTGATCGCCAAAATTCAGCAGTAAGTGAAATCTTTTGATCCT GTGCTTGATGCCTTGATCTGTTTAGTTATATGCAGAATCTTGATTGTATTCCTATTGTGCTTTCATGCTTGATCTCTATA TTCTCATTAAGTAGACACTTTTGAAACCTGGACCAGCCAGTCTCTTCAACTATGAACCAGTCACTTTTTTCAGTCTCCTT GATGTCTACCCAAATAGGACTTATCATGAACCAACTATCCTAAAAGCATAAGTTGTTGGGTAAAGGACATATGAGTAGGA TAATATAACATTTCTAACATGCTCCCTTGCACAAGAGCTCGTTACACTTGAAGCGTGGGCAATGCACATAGCTAAACGAG ACATGAGGGGTTTTATATTATATTTCTAACAACTGAATTTAATTGCCATGAATTGACGAAAACTAGGGTGGAATTTAATG AAGCTGGCTGAACTGATACTAGTTCGGTGGGATAACTGTCCTATGATTGCTTACTGGACACCAGTAACATGTTGTAATGG TCAACCAATAGAACCCATCAACTTCGCTGGTATAAAAAATTGCATTTATAAATGGCTTAAATACTCTGGAGGTCCCTGAA ATTGTATGGCGTATGAAAATAAGTCCCTGAAAAATATTTTTCCGATTTGGGATCCCTGAAAATATTTTTTTAATCAAATT GAGTCCCTACCCGTGTTTCAGGCTTATGTGACTCAATTTTTACACAATCAGCATTTCCACGTGGATTTCTTTTTTATTTA TAATGCTTAGGTGAAATTTTAAATTAATATATTTATTACATGTGTGTAATTAATAAATAATACTAAATTATTAATTAAAA AATTTCCTTATTATATCTTTAAATTATTAATTAAATCTCATAAATCCTAATTAAACTACTTTAAAACAAATTAGACTTTT CATCTTCAACTTCATCAAACTTCCAGAAATACATTTCTTCATCTTCATCAAAGACTTCATCAAATTTCTTTATCATCTTC TCATTCATACTCTTCCACCATCATCACTTGTAAACATACCCAGAACCTCAACTCCAACCTCTTTCTTCACTTATCTGTGC TAGCTCTGTCCATCAATAAAATACTAGAGGAACAAATTCAAGCAACACAATTTGTAACATAATTCTATATAATGCACATG TGAGTAACATGTGAAGCTTCAAGCTTTGAGAAACACTTCAAATTAATCACCGGAAAAATGAAAATGAATACAGCTTCATC CTTTAACCCCAAAACCCATAAACTAAAAAAAAAGTAATGGGGGAAGCTCCAAAGCAATTACAGTGGGGAAACGACATAGA AGGAAAACGGTGGTGGAATTGTTGATGGATGAATGGTATGGAACCCTCCTCCTCTGTACTGAAACAAAGCGAGACCAGAC TCAGATGCATGCACTTGGGTAACACCCAATTACTCAAAACTCAGATTTTCTTTCTCAGATCTGAAAACTCAGAAACTGAA TTCACCTCAAAGAGATCGGTGGTGCTGGGTTTGAAGAGAAAAAGGGGTATTTGGAGTAGCAGGTCGATTTAGGGTCCCTT GGGTTTGCTGGGGTTGGGAAAGAAGAAGAAGAAGAAGAAGAGGAGGAAGCTCTGCCTCTTCTCCTCAAGTGCGGCAGATC TCCTTTATGTGAAGGTTTGTGGCTGGGAAAAGAAGAGGTAGGAGGTGGGGGTTGGCTGGGAGGAAGAGGAAGAAGGTTGG TGGCTAGGGTTCTGGAGGAAGAAGATGATGGTTTTCTCACTCCTTGCTGAGAAAGAAGAACCAGAAGGAAATTGGATTGA GTAATTAAGTCCCTGAGTTGTAATTAAAATAATTATTTAATTATTATCTGACATGGAAAATAAAAAACCACGTGGAAATG CTGATTGTGTAAAAATTGAGCCACATGAGCCTGAAACACGGGTAGGGACCCTTTTAGATTAAAAAAAATTCTCAGGGATC CCAAATCGGAAAAAAAAAATTCAGGGACTTATTTTCATATTTCATACAATTTCAGGGACCTCGAGAGTATTTAAGCCTTT ATAAATACTAGACTATTTATAAAAATCAAAACATTTCTATTTCATATAAGTGATTAATGCAATAAAACAATTCGCTATAA AAAAAGAATGTACTGCATCTTTATTTAATTTTTCTTCATTCATTAAAAAGTTGAATGGGTCAAACTGATCTAGTTTTCCT TTTTTTTTCTGTGGGGGGGGGGGGGGTGTGTGTGTGGTGGAGTGTTAGATGGGAAGGGAGATTTTTTTTTATCAAGGAAG ATAAAGTTTTTATGCGAGCAATCTGAAGATTTCTCCCTTCACATCATCTCGTGCATTGAGGGAAGTTAAAACCAGGCTTG TTAATAGCGCGCAATAGCGTAGCCCCCTGGGGGTTCACTGCTACTCCACTATTCACCGCTATAGCGCCACAATAGCGTTC GAAATAGCCTTTTTTGGGCTTGCCGCTACGCTACGCTATCCGCCATTAACAACCCTGGTTAAAACAACAATAAAAGGATA TCCCACTAAGTTAGGTCGACTTTATGGATCACACAATGCCATTGTGCTCGATCAAAAACCAAATTTTGTCAAATGTTATT GACAGTGAGATCGTTTTTAACAATCTTCCAATGTTCCTTTTGGCCTCTTTCTACCCCTCATCACTGGACTAAACCAATTT ATCAACTCTTCTCATGGGTGCCTCCAAAAGTATTTTCTTAAATCCTGACCAAAGTCCGTACAGGTTTCAGATTAATAATC ATTCGTTTTTAAACACTAGGGCAATCTCTTGGATATTTGATCTGGACTTTTACATGACTGATGATATGGTTGTCGATTAT TGTTGATGTGGTTTTCTTTTTGTAGTTGATATAAACCAGTGCATGTTGTCATTTAATCTAGATTTAACAAATTTGTTGAC AGAAGATATTTGATATTTCTTCAGATATTGCTACTTGTTGAATGATCTGACTCCTGATTTGCTGAGGAGCAAGTGCTCAG ATTATGGGGAATTGCAGAACTATCTCCAGCTTCGTGGTAAAGAAGCCTATCAGCAAAAAAGGGTCAGTAAGACTGTTACT TAATATTTGTAATCCTTTTATAGTTTTTTTGTTTTTTTTTTTTTTGTTTTTGGGTGTCAAAGATCAATCCTTTAAGGAAA TCATAAATATACTATAATGTAATGCTTGAGTTTTGCTTTAGAAAGTATTGGCATGTATGGAGAGTACTAGAAAAAGACCT GTTGAAGAGGATAGATAATATATCAAATGGAGGGCAAATAGAATAAGACTAATAAACAGATAGGTCAAACCATTATGGAG GACTTGGTTTTAAACACTATATAGTTTGTCATTAGATATTGTTATGATGCAATATTATTACATCTTATGATTCATATAAC TAACTTCACTTGGTGAGAAAGAGACTTTGTTCTTGCAATCTAATGCTCGGACTTATAGCACCTTGTGTGTCATATTTAAA CAACTCATACACTCAGTACACATTTTCTTTTCAATTTATTTCTTTTGATATTTTCTTACATGATTATAAATGCTGCCATA GGATATTGTGGAGCAACAAGCACCAGGATTGATGAAAGAAGCAGAGCGATTCCTGATCTTGAGCAATATTGATCGCCTGT GGAAAGAGCATCTACAAGCACTAAAATTTGTTCAACAAGCTGTGGGTTTACGAGGATATGCACAGCGGGATCCACTCATT GAATACAAGCTTGAGGGCTACAACCTTTTCTTGGAAATGATGGCACAAATAAGAAGAAATGTTATTTATTCTATATATCA GGTTTGCATCAAGTTAGATTTTTAGGCTCCTTATCCTTTTTTTTTCTTGGTGGCTTTATAACTCCCTTTCATAACCTTTG AACTTTTGGCAGTTTAAACCTGTGATGGTAAAGCAGGATCAGGATAAAACGGAGAATCCGAAATCAGGAAAACGTAACGC ACGCAATCAAGCCAATACCAACTCAGAACCAATTGGCACTGTTGAGCCTTCAAGTATATAACCGGAATCCCAACTTTTTG A
CDS sequence (LotjaGi5g1v0238000.2) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGAAAGAAGCAGAGCGATTCCTGATCTTGAGCAATATTGATCGCCTGTGGAAAGAGCATCTACAAGCACTAAAATTTGT TCAACAAGCTGTGGGTTTACGAGGATATGCACAGCGGGATCCACTCATTGAATACAAGCTTGAGGGCTACAACCTTTTCT TGGAAATGATGGCACAAATAAGAAGAAATGTTATTTATTCTATATATCAGTTTAAACCTGTGATGGTAAAGCAGGATCAG GATAAAACGGAGAATCCGAAATCAGGAAAACGTAACGCACGCAATCAAGCCAATACCAACTCAGAACCAATTGGCACTGT TGAGCCTTCAAGTATATAA
Protein sequence (LotjaGi5g1v0238000.2) extracted from Lotus japonicus Gifu v1.2 Proteins.
MKEAERFLILSNIDRLWKEHLQALKFVQQAVGLRGYAQRDPLIEYKLEGYNLFLEMMAQIRRNVIYSIYQFKPVMVKQDQ DKTENPKSGKRNARNQANTNSEPIGTVEPSSI
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 |
|---|---|---|---|---|---|---|
| PANTHER | 1 | 75 | 75 | 8.3E-32 | – | |
| Gene3D | 1 | 79 | 79 | 3.5E-27 | – | |
| PANTHER | 1 | 75 | 75 | 8.3E-32 | ||
| Pfam | 1 | 70 | 70 | 1.2E-23 | ||
| SUPERFAMILY | 1 | 79 | 79 | 3.14E-26 | ||
| MobiDBLite | 78 | 112 | 35 | - | – | |
| MobiDBLite | 90 | 112 | 23 | - | – |
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. | ||
| Biological process | Protein targeting | The process of targeting specific proteins to particular regions of the cell, typically membrane-bounded subcellular organelles. Usually requires an organelle specific protein sequence motif. | ||
| Biological process | Intracellular protein transport | The directed movement of proteins in a cell, including the movement of proteins between specific compartments or structures within a cell, such as organelles of a eukaryotic cell. | ||
| Cellular component | Membrane | A lipid bilayer along with all the proteins and protein complexes embedded in it an attached to it. | ||
| Biological process | Protein import | The targeting and directed movement of proteins into a cell or organelle. Not all import involves an initial targeting event. |
Expression pattern of LotjaGi5g1v0238000.2, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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