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| Field | Value |
|---|---|
| Gene ID | LotjaGi1g1v0491500 |
| Transcript ID | LotjaGi1g1v0491500.1 |
| Related isoforms 2 | |
| Lotus japonicus genome version | Gifu v1.2 |
| Description | Protein phosphatase 2c, putative; TAIR: AT4G38520.1 Protein phosphatase 2C family protein; Swiss-Prot: sp|Q5PNS9|P2C64_ARATH Probable protein phosphatase 2C 64; TrEMBL-Plants: tr|B9S5K3|B9S5K3_RICCO Protein phosphatase 2c, putative; Found in the gene: LotjaGi1g1v0491500 |
| Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr1:100492891..100502506) extracted from Lotus japonicus Gifu genome v1.2.
GGCACTTAGAGTATCTTGTTTGTTGATTGAACATATGAGAGCTACTAGAGTAAAAAACCTTTGACATAAAGGTCATTGTT GAGGTTATGAAGTGCAATTTGAAGCATGGTGTGAAATGTCTTCTGACTCTGCAGTTTGTCTGCTACGTTCACCCTTCACT CGAGTCATCATGGTAAGAACAAGACACGTGTACCATCAAGACAGCTGAGTGAGAGAGAGAGAGCAGTCACATGCAGTTAA AACCACCACAAACGCCACGTGTCCTAATCTGAACCCGTTTTCAAGGAATGCCCATAAACAACAACATTAACCTAACAACA ACAACAACTACAACTTTTATCACTGCCCATGTTACATGCTCCCATTGACTCACTCTCTCTACTTTCTCTCTCTAGCACCA CCTCTTTCTCTCTCTAGCATGCTTGTGTGGACCTCTGCTTTGCTGGCTCTGAGTTCACCACTGTTGGGCTTTTATGTGGC TTGTCTGCTGAGCTGAGAAGAAAGGAAAAGGAAAGAAAGGCTCTTTCTTCTTTCAGTTTTTGCCTAATCTATATCATCAA AACAGCAACAAATCTTTCACATTTTTGAAGGGAGAGAAAAAGCAAACAAAACAAAACAACTAACTCCAATTTCCATGTTC AGTTCTAGATCCATAGATCCATAGATTTGGTTTCACCACACACTCTTCACTTCCCTCTTGTTTCCAGATCATTCTCTTTT ATTTTTTTCAACTGGGTCATCACCATCATCATCATCATCCAAGTCCAACTTAGCTTCTTCCAATTGTTGGGTGAGATCTC TATCTCTGTCCTTTTTTTCCTAGTTCTTATTGGTTTTGATATACAACATCATGTATACGTATGCTTGGTACAAAAAAGCT AGCTTTTTGAGATGGGGGGTTTCAATTTTTCAGTGTCAGTGTGTGAAATTTTCAATGAGCTGACCTAAGCTTGTCGGAGG AAAAAGTTAGTTTGACTTCTTCTTCTTCTTCTGAAAATCAAGAGAAAAAAAGTATATATTTTTACCTCTCTCTCTCTCTC TGTAGTTTTCTTTAGGTAGGGGGCTTTACTTGGTCATGGTTCTTGTTGTGATTTAAAAAGCAACAAGGACAAAGAGTTTT GATTGGAGAAGCTGATTTCTGATTTTCTATTTCTGGGTATAGTTCATCCATTAGAAAACGGTAATAGGTGGTTTGTTTTA TTGGAAAAAATTGAACTTTACTTTGGTGTTGTAATCAATAGTTCATTCATGCTGTTGTAGTTTGTGCTTTTGGCTTGTTT GGATTGAAATATTTTTGCCCAAAATCAAATCAATTCTGAAACCAGAAGCTAGTCACATAAGCTTCTTCCCAGAATTGATT CTAGCAGTAGAATTAATTATAATATAATTCTCAAACATGCACTTTGTAGTGGATTAATCATTGTGTTGATTGGTGTGGTA CAGGACTATTATATCCATTTGTGACTGAGAAATTCTTGTGGTGAAGTTGTTCTTGGCTGGCTGATAGATGTGGAAATTTG TGAAGGTTGTGGAGTGAGATGAGGGATGTTACCAGAGTTGATGAACTTTCTGACGGCGTGCTTTCAACCGCGTTTGGATC GATATGCACGCAGTGGTTCAGATGCTGGAGGTAAACAAGATGGGCTCTTGTGGTACAAGGACTCGGGGAAGCACTTGAAT GGCGAGTTTTCAATGGCTGTGGTCCAAGCCAACAACTTGCTGGAGGATCAGAGCTATCTTGAATCAGGTAGCTTGAGCAC CAGTGATTCTGGGCCTTATGGCACTTTTGTTGGTGTCTATGATGGGCATGGAGGGCCTGAGACATCGCGTTATATCAATG AACACCTAGTTCGCCATCTCAAGAGTAAGTGACATCAAGACGAGTGAATTGAATTCAATTTTTTTTTGCTTTCTTGGGAT AGATTGTACTTGTTAATTTGTTGTATTTCTCTCTACCTCGAGTACCTTCCAATTCTAAGAATATGTGGTTAAAATTTGTT TTTGACTCTGACCAAAAACATAAAGGGAACTATGGAGTGTTGGAAAAATTTGCTAGCTTTTGTGCATCTGGTAAATACCA GAAGGAGCTGTTTAATCTTGGGGAGTGTTCGGAAATAAGCAGAGCTAGGATTGTACCCCGTGTGATGCACGACAAAACGG TTCTACTTGTTTAAATTGTTATTTTGACCACTATATGAAGAGTTTAATGATTATGCACTATCGTTGTAAAACATTTTTAC ACTGATAACTGAATGTCACGTATTCAAAAACAATTGCTTTCTTTTTTATTTTGATGAAATTAAAAACTTATATTCTGATT TGGGGACCCATTATTAGATGTCTGTGTAAAAAATGTTTACACTCACAGTCAATTACCATTAAATCCCTACATAACTGTGT GTTAATCAATTTAATACACACACACACACATATATAAATATTACATTTAACATCCATATATAAGCTTGTTTTAGTGTTTT AGTGTTAAACATACTTGGATTCAAACTGGATACATGGAGGCCCACAATCTAATCTAATTTCAATAAACTGGGCCAATGTT AGTTGTGCCAAACAAAAAAAAAAGAGGCATTCTGAAATGAACAGTGAAAACAGTAAACTTTGAAACTGGCAAATTATATG TAGGAGATAAAACTCTTTGAGAACAGCTTGTGAATTAATCTATTTCTTGTTGTTTGCCTGTTTATCAAAGAGACGAGATT TTTGACTTGTGAACCGAAATATATGTCAATAAGGGATTTTTCCCCATTCTTTCTTTTGTTTCTGTTCCTAGCTGAATAAA TTGTTAGAGCCATCACAAGTGACTTGGTAAAGTTTGTTTCTTTCGTGTCAAGATATGTGGCAAAGGGATGGTTTATATTC GTTTTACATTTTTTCCCTCAATCATCATATCAATTATGCATCAATCATAGAGTAAAAAGTTAAAGATATATCATATATGC TGAGTTGAAACTACATAAATTGTGATTTCACTTTTCAATACCTCGTTTGTTGCATGTATGTCAGTCAAATTTAGCCGTCT TTTGAATTGTTGTTCTATGCATGATTGTCAATTAAAAGTGTTCATGCTCAGGGTTTGCTGCAGAACAACAGTCAATGTCG GTGGATGTAATTCGGAAGGCAATCCAAGCAACAGAAGATGGATTTATGTCACTTGTTGCCAAACAGTGGTCAATGAAACC ACAAATTGCAGCTGTTGGATCATGCTGTCTTATTGGCGTGATTTGTAATGGAACACTGTACATCGCAAATCTTGGCGATT CCCGGGCTGTTCTGGGAAGAGCGGTCAAGGCAACTGGGGAGGTTTTAGCGATGCAATTGTCAGCAGAGCATAATGCAGCA ATAGAGTCTGTAAGACATGAGCTGCAATCTTTGCATCCTGATGATTCAAACATTGTTGTTTTGAAGCATAATGTATGGCG CGTGAAGGGCCTAATACAAGTAAGTCAGATATAGTTCTATAATTAAGAAATCAGTTGTAATTCTGCCAGAAATTGTTTGT CTAACTGCTCCAAACTCATGTGGACACTTTATCCTTTAACTCTAATAACATCGCATCCTCATAGCGTCTTAAAATTTTAA ATTTCAGTGTTGGATCATGGATGTATATAGTTCAGTTTTAAGAATGTAATATTATGTTTATCTTTAAGAAAAAGAATGTA ACATTCAGATGTAAGAATGACTTAATACTATAGTTAATACTTAATAGTTAATAGTATAGGTACAATGCTCATGTAAAAAG GGTAGGGAATGGAGTGCACTAGTGCAGGCTGACTGGGTGAGGGAGGAGCATGAGAGAGTTAGAGGACAGAAAAAACCTTG GGGTCAAGTTTATTTGTAGAAGGTCCTGATTATATCTCTAAACTTCATTGCAATTTTTTATGCAATATATTTTAATTGCA TTAATGTTATAGTTAATTAATGATGTCTTATGCCTTCATATTACCAGAAAACTTCATTTGCTTAGAATAGTGAAGAACCA TGACATAATTTGTGCTTAATTTATTTTGTATCTCTAGATGCTGTGTTAAATGTTGTGAAGTTTTTCTTACAATTTAATTT AAAACTTCCGAACTCCCGAAGTTATAAATGTAGAAAGATTCAAATTCCCTCAATTTCACGTAATTCTGTGCTAACAACTT CTTTTGCTTGTAATTTAATTTGATAAAACTTCAATTTAATGCAGTTGAATGGTCATATTTAGTTGTCCATTATATGCAGT CAAAGCTTGCAAATATTGCTTTTTTATCTATTCCTTTCATGAAACTTGGACCTTAAGATTATGACATCGAGTTCTTTTGT TGATCCTTACTCATAATCCTTCTCTTTAGCTTTATAAACATTGCAACTTTTTTTTTTTGAATGTCAGAACTTCTTAAATC TCTTCATACCTCTCTGTCTATCTACAGTCTACTCTACCCACTTATCCATGTTAGAGCATTTGAACTTTTACAGAATGAAA AATCAGCTTTAGTTGTCATGTTGTGTCTTGTCAGCACCAACATATCCTTACTAGGAGCATCCCCCTTTTTTTGTTGCATG AATTAACATCTAAAACCTTTTGGTGTTTCAGATCTCTAGATCTATTGGTGATGTATATCTTAAAAAGGCCGAGTTCAATA GAGAACCACTATATGCTAAGTTTAGACTTCGTGAGCCGATCAAGAGGCCGATATTGAGCTCAGAACCAGCAATATCAGTG CACCAGTTGCAGCCACATGATCAGTTTATTATATTTGCATCTGATGGATTGTGGGAGCACTTTACCAATCAAGATGCTGT TGATATAGTTCAAAATCATCCCCACAATGTAAGATATATATATTTTCATACACCTTACTAGATGCTTTATATGCTGGTGA AATTGACATACTGTTGAATGCGATCATGGTTTATTGCATCTATGTGTCACAGATGTGCTTATTCAGAAATTGTTTTCTTC CTTTCTTTTTTGGGGTTGTATTAGGGCTGGAAACCCCTAACAGCCAAACAGGGACGTAGATGTCATTTTCTGAATTAAAA TAACTATTATTAAATCTGGAGTGGTATTAGTACAAATCCCTTCCTGGCTGTTGTGTTATTAGAATCTTAGCCTTCCCTTG ACTTAGATAACTCCTGCACAATAAATAATCTGTTCTTAAATTGGAGAACTATTTGCTGATGTTAAACTTTTAATGCAATT GACCTAAAGCTATGCAACAACTATTAGATAACATTAATGCTTAAGTGTATATTTCGGAACGTTACCTTAAAGTAGATTCA TGTTTTATAAATGAACCTGTTGAATATCTATTAAGATTTAGTTTATAATTAGTCTTGTCTCATTGAGATATAGTTTAGAT TTGTTTCTCTATCTTAGATTAGTATATCTTAGATTAGTATCTATTTAAATAGAGATGATATCTATTTAAATAGAGATAGG TTTAGATAGATTTAATTTCTTTTTATCTCTTTGTTAGTCTATATATATTGTAGTTTTCAGTCAAGTATTAATCAATGAAA TACAAGTATTATTTTATCAAATTCAAGTTGGTATCAGAGCAAGTTTCGATCCTACCGCTGTGAGGGGGCTCCTCCCCATG AGCCCCCTCATGGTGACTTTCCAAATCTCTTTGGATTTAATTTTCCTTGTACTTCGCTTCCGCGCTTGTTAGTTCTAGCC GTTTTCTTACGGCTTTGTTTCTTTCTGATCATGGTTCCCTTTCTCTTGGAACCCTAGTGATCCTTGTCACGTTCTTGACA GTCATTATTGACGTTCAACACTGTCAACACTGTCAACGTCTTTCCACCGCCGTTTTCCGAAGTTGCTCAGAACGGATCAG AGAATCCTCCATCTTTTCCGCCGCCTGTATCTTGAACAAGGTTGGTCCTTGAGCGGGCGATACTCATTGGTTAGTGAACA AGTAATGGAATACGAATTGTTAGTATGGCGTGGTCAATGGCTGGTATTATTTTAATGGAAGCAAGCTGCAGAGTTTGATT AAAGTCTCCCGTGGTGCAGCACCTTTGAATGCAGCGGTTATTTATTACTTTGTCCAAACTTTCCCTAATGTTGATTTCAT ACAAGATACGTGAATAATGAGGAAGCCACAATTTCAACAATAGATAAAGATGGTTATTGGAGATGTTGTTTATTTCGATC AGGATGAGTATATACATATATCTGATCGCTATCTGATCGCTTGAAAGGTATTATCAAATACAAAGGCTTTCAGATTGCTC CTGCTGATTTAGAAGTTGTGTTAATTTTGCATCCTGAAGTAGTTGATGTTGCTGTTACAACTACCATGGATGAAGAAACT AAAGAGATACAAGGTGGCTCTTTGGTCCAGTCAAATTCTCAAATAGTGTGTTGGGTTACTCCGGTAATATTTCTTCTGTT GAATGGATGTATGCATCTGATGTGCACTGCAACTCTTTCTTAGAGTCTAATATTGAGGCTACTATTGTTTGAAAGGGCAA AGTCTTTACCTACTCGTTGGGAGTAGGCGGTGAAGGGAAATTTCAAGTCTCTACAATTTCTGATTACCACATTGCATTGT GTGCTCCGTTTGTGTGTGAATTTCTCTCTCCGGCAGCAACGATTTCTCGAGTTAATTATATTTGTTACAAGCTATGCATA TGATATATATGCTCTAGCTTGAGGGTAAGTGTTGTGTGAATTTCTCTCTCCGGCAGCAGCGGCTTCTCGAGTTAATAATA TTTGTTACAAGCTATGCATATGATATATATGATCTAGCTTGAGGGGGGAAAGTGTTAGATATTGTTAAATATCTTAGAGA CTACAGTCAGCCACCGCCGCCGGATTCCAAGCCATGCGCCTCCCATCTCTCTGCGTGTGAAGTCCACGCGCCTCTATCTC CGCTGCTTTGTTCTCGCTGGTTCTCTTTGTGTATCAGCCAGGTTGCGCCGCTCTCTCCGCTGCTTTGTTCTCGCTGGTCC TCTTTGTGTATCAGCCAGGTTTGGTTTTAAGGATCCTCTGTTTTGACGTGTGTTGTGCCATCTCTCATTGTTGGCCAAGT TTGGTTTGGTTTGGTTTGGTTTGGTTTGGTTTGGTTTGGTTTGGTTTGGTTTAGTTTGGTTTGGTTTGGTTTAGAGTTTT AACTCTGTTTTGACGCTCAGATCCGCATTGGTTTTTGAGACTTGAGTTGTTGTTTGCGTCTCATTGTTCGAGATGCTCTT ATTATATTGATCTTGGCTGATTTTATGCAATTTGGTTTTAAAGGTGACAATGTCACCTTCGTTTGTTTTGTCTCGATTGT TTGGTTTTCTAGTTGTTTGGTTTTCTGGTTTTAGGGCTTCAGCTGCGGGTTGCGCTGGCCCACTCTCTAATGTTTGAGAG TTGTCTGTGTCAAAGTTGACACCATTGTTTGTCTTAGAAGCCATCAATCGATCGACCTCAAGTGTGTTTTATTTCTGTGT GGTTGTTGTTGGGGAGTTGTTGCTTCAGCCTTTGTTTTCTGGCGTATTGTTGCTGGTTTTTCGCCCTTATTTGCTGGCTC AGCTACCCTACGACACTTCAGAAGAATTGGTTTTTGTCTTGCATCAATTTCAGCCAGATCAAGTATGAGAAGTTATCTCT TGCCTGCCCGTGAATTTTGCAGAAGTTCGAAAGATTATTCAATTTGAAGTATGAGAAGTTGTCTTTTGCCGCCATGGATT TACTAGAAGTTTAAAAAGTTATTCAATTCAGAGATTCGCCAAGACCGTCATTGTTAAGGGATATCTATTAAGATAATTTT CTTTTTGGGTTTGATTTGTTACAAGCTTAAAGCTAAGTAAGCTTTAGCTTGAGGGGGAGTGTTGAATATCTATTAAGATT TAGTTTATAATTAGTCTTGTCTCATTGAGATATAGTTTAGATTTGTTTCTCTATCTTAGATTAGTATATCTTAGATTAGT ATCTATTTAAAGAGAGATGATATCTATTTAAATAGAGATAGGTTTAGATAGATTTAATTTCTTTTTATCTCTTTGTTAGT CTATATATATTGTAGTTTTCAGTCAAGTATTAATCAATGAAATACAAGTATTATTTTATCAAATTCAAGTGAACCCAAAA TGCTGGATTCATGTTTTTGTCCTTTTTCCTCATTGGAAACCATGAGCTCACATTCCCAAACATGAAACGGAGTGAAGCGT GGGGCGGAATGGCAATCCAAACGTGTCATAATTTGCTTTATGATGTGCTGTCTAAAATATTTATCCAGATTTATGCATGA CTTGGGAGCAACTTAAAGCTATCTCTTTGGGATTAGATAAGTTCCTTAATCATTGCAGACAACACTCACGATAAAGAATG AATATATGGTTTATCTTGTGTCTTTTTCTCAGGGAATTGCAAAGAGGCTGGTGAAAATGGCCCTTCAGGAAGCAGCAAAG AAGAGAGAAATGAGATATTCTGACCTGAAAAAAATTGACCGCGGGGTTCGTCGGCATTTCCACGATGATATCACAGTGAT TGTTGTGTTTCTTGACTCCAATCTTGTGAGCAGGGCAAGCTCTGGCAAGTTTACCAATATCTCTGTTAGAGGGGCTGGCA TCAACCTGCCCCCTAACATACTGGCACCTTGTACTACACCAACAGAGGCTGGTTCTACCTAAGTCTTCAAGTTGTATCTT TACTTTTTTGTCTTTCTTGTATGATTTTCTTGTGTGAATACCAGGTACCTTCAAATAGAGACAATGAGAGGAGGAGCACT CCAATTCTTTAAATGTGAACTGTAACTTTCTAGAATACTAATACTCATGTTCAGGTTCTTTCCCACAAATTGAAAGAACA GAAGAGATATTCTGATGACCATTATAAAAGTTGCCTTGGCACCTTTTTACCATGTTCACCATTTTCCCTTTTTGTTTTGG TAACCTTGTCTTGGTTGTGTATGATTTGAGTTTCAATGTAAACCATGATCTGTGTTATTTGCATGTAATTAGGAAGTTCT TTTGAGCTGTATATATATCATGTTACTTACTGAATTTTTCTCCAGAATTGACTTTGCCTTTAAAGTTAATTGTATAAGAA TTTCCACACATTTTAATATTTCTTTGGTATATCCATTATGGGAGAGGTGCATCTGAGAGTAAGATCATTTTCAGAGGTAA TGTGAAATTATTTATATGAATGATATATTTAGGTGATGCTATAGATACCACAAATTGCGTAAATCAATTGGTTTGGAGTT GTTTCAGTTCAAATAGAGGTCTCTAGTTTGAGTTATAGATTTAGGAAACCTGCAGTATTTTTGGGGGTGAGAGATATTTC ACCATGAATCCATCCCCAAGAATCACTTCCAAGTTAATCCATTAACTCATTATTAACACAACCATGCTCTTATTGCTCTA TGAATGTTACCCTACTTAAAGAAACACTACATGCCAAGCTTTAAAGTTTGGTTCAATCACATTTCCGTAATGAATTGAAA ACTTGAAATCAGATAATTAAAAATAAATGTTCAAGTCTGAACAAAACATACATTTTATAATTCAATAGCTAATTTCATAT CCTATTTAAGTTGTAGAAGTGAAAATCACATAGGAAAGACTTGAAGTTTTCTATTTTTCTGTTTTTATCTTAAACACTTC CTATGAATCATTGAAC
CDS sequence (LotjaGi1g1v0491500.1) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGTTACCAGAGTTGATGAACTTTCTGACGGCGTGCTTTCAACCGCGTTTGGATCGATATGCACGCAGTGGTTCAGATGC TGGAGGTAAACAAGATGGGCTCTTGTGGTACAAGGACTCGGGGAAGCACTTGAATGGCGAGTTTTCAATGGCTGTGGTCC AAGCCAACAACTTGCTGGAGGATCAGAGCTATCTTGAATCAGGTAGCTTGAGCACCAGTGATTCTGGGCCTTATGGCACT TTTGTTGGTGTCTATGATGGGCATGGAGGGCCTGAGACATCGCGTTATATCAATGAACACCTAGTTCGCCATCTCAAGAG GTTTGCTGCAGAACAACAGTCAATGTCGGTGGATGTAATTCGGAAGGCAATCCAAGCAACAGAAGATGGATTTATGTCAC TTGTTGCCAAACAGTGGTCAATGAAACCACAAATTGCAGCTGTTGGATCATGCTGTCTTATTGGCGTGATTTGTAATGGA ACACTGTACATCGCAAATCTTGGCGATTCCCGGGCTGTTCTGGGAAGAGCGGTCAAGGCAACTGGGGAGGTTTTAGCGAT GCAATTGTCAGCAGAGCATAATGCAGCAATAGAGTCTGTAAGACATGAGCTGCAATCTTTGCATCCTGATGATTCAAACA TTGTTGTTTTGAAGCATAATGTATGGCGCGTGAAGGGCCTAATACAAATCTCTAGATCTATTGGTGATGTATATCTTAAA AAGGCCGAGTTCAATAGAGAACCACTATATGCTAAGTTTAGACTTCGTGAGCCGATCAAGAGGCCGATATTGAGCTCAGA ACCAGCAATATCAGTGCACCAGTTGCAGCCACATGATCAGTTTATTATATTTGCATCTGATGGATTGTGGGAGCACTTTA CCAATCAAGATGCTGTTGATATAGTTCAAAATCATCCCCACAATGGAATTGCAAAGAGGCTGGTGAAAATGGCCCTTCAG GAAGCAGCAAAGAAGAGAGAAATGAGATATTCTGACCTGAAAAAAATTGACCGCGGGGTTCGTCGGCATTTCCACGATGA TATCACAGTGATTGTTGTGTTTCTTGACTCCAATCTTGTGAGCAGGGCAAGCTCTGGCAAGTTTACCAATATCTCTGTTA GAGGGGCTGGCATCAACCTGCCCCCTAACATACTGGCACCTTGTACTACACCAACAGAGGCTGGTTCTACCTAA
Protein sequence (LotjaGi1g1v0491500.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
MLPELMNFLTACFQPRLDRYARSGSDAGGKQDGLLWYKDSGKHLNGEFSMAVVQANNLLEDQSYLESGSLSTSDSGPYGT FVGVYDGHGGPETSRYINEHLVRHLKRFAAEQQSMSVDVIRKAIQATEDGFMSLVAKQWSMKPQIAAVGSCCLIGVICNG TLYIANLGDSRAVLGRAVKATGEVLAMQLSAEHNAAIESVRHELQSLHPDDSNIVVLKHNVWRVKGLIQISRSIGDVYLK KAEFNREPLYAKFRLREPIKRPILSSEPAISVHQLQPHDQFIIFASDGLWEHFTNQDAVDIVQNHPHNGIAKRLVKMALQ EAAKKREMRYSDLKKIDRGVRRHFHDDITVIVVFLDSNLVSRASSGKFTNISVRGAGINLPPNILAPCTTPTEAGST
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 | 17 | 383 | 367 | 9.9E-187 | – | |
| PANTHER | 17 | 383 | 367 | 9.9E-187 | ||
| Gene3D | 36 | 365 | 330 | 9.0E-81 | ||
| SMART | 39 | 353 | 315 | 5.1E-80 | ||
| CDD | 48 | 355 | 308 | 6.67455E-65 | ||
| SUPERFAMILY | 56 | 356 | 301 | 1.44E-56 | ||
| ProSiteProfiles | 66 | 355 | 290 | 41.263 | ||
| Pfam | 78 | 324 | 247 | 2.1E-40 | ||
| ProSitePatterns | 81 | 89 | 9 | - |
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 | Catalytic activity | Catalysis of a biochemical reaction at physiological temperatures. In biologically catalyzed reactions, the reactants are known as substrates, and the catalysts are naturally occurring macromolecular substances known as enzymes. Enzymes possess specific binding sites for substrates, and are usually composed wholly or largely of protein, but RNA that has catalytic activity (ribozyme) is often also regarded as enzymatic. | ||
| Molecular function | Protein serine/threonine phosphatase activity | Catalysis of the reaction: protein serine phosphate + H2O = protein serine + phosphate, and protein threonine phosphate + H2O = protein threonine + phosphate. | ||
| Biological process | Protein dephosphorylation | The process of removing one or more phosphoric residues from a protein. | ||
| Molecular function | Cation binding | Interacting selectively and non-covalently with cations, charged atoms or groups of atoms with a net positive charge. |
Expression pattern of LotjaGi1g1v0491500.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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