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| Field | Value |
|---|---|
| Gene ID | LotjaGi1g1v0547400 |
| Transcript ID | LotjaGi1g1v0547400.3 |
| Related isoforms 3 | |
| Lotus japonicus genome version | Gifu v1.2 |
| Description | Protein kinase family protein; TAIR: AT1G66880.3 Protein kinase superfamily protein; Swiss-Prot: sp|F4HQ17|LRL14_ARATH LEAF RUST 10 DISEASE-RESISTANCE LOCUS RECEPTOR-LIKE PROTEIN KINASE-like 1.4; TrEMBL-Plants: tr|G7KV62|G7KV62_MEDTR Wall associated kinase-like protein; Found in the gene: LotjaGi1g1v0547400 |
| Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr1:107729872..107739945) extracted from Lotus japonicus Gifu genome v1.2.
CTAAAACAAAAGTGTGATATATTTTATTAATGAATTGATTGGCACCAAAAATCAGATCTGCGGCCAAAAAACGCTTACAG CCCAATGTTCTAGTCCAGTATTTATTAAGAAGAGATAAAGGTTCAAAAAAAAAGGGAGAGATAACACTAAACATAATATA ACGAACAAGGCCCATATGGGCCTCCATTTCATATATAATACTCAATGCAACCCTAGTTCATAGCATTAGGAGTTCACAGC CGCAATAAGAGAGAGGGATAAGGTTTCCTGGTTCTGAAATTACTATTCATTGTCATCTCTCCCAAGTCCCATCTTATTTT TTTTTTTCACTTCTCCTTTTCTTTCTATTTCATTTGAAGTCATCAACTAGGATTTTCCTTTCTCAAGAAGAGATGAATTG AAGAAAATAAAGAGTAGGACTGTAGGAGTGAGAGGAAACATAGAGGAAACATGGATCCCGTTCTCAACTCAACAGTGAAG AAAATCAGCGTGCTCTGCTCCATAAAAAAAACCGCTGTTTAACAAAAAATTTCTGTTAAAAAAAACACAATTTGATTGAC TCCCGGTCGAACCGAGTCAGGCCGAGTCACCGGTTTTTTTACTAAACCGGACGAGTCAAAGCGGTCCATACCGAGTCAGA TGCATGGCCGATCCGACGTGTGGCTCGAACCGGTCAGGGGTCCGGTTTCCGGTTTAACCGGTCGAACCGGCCGGTTCGAG CCGAGTTTAATAACACTGGCTTCAACTTCTAGGTAAAAAGCTATGCTATATGTCTTAATATTCTTTTCGGAATAGTTTCT TATATTATTTTTCCAATTTACTGAGCTCTGAATTATTTTTTATACTCAGATTTTAATATCTATGCATTGTATTATAATGA TTTATATCATTTAAGAAATAAGAAGTCGTTATCTAGACTTGTTCATAACCTAACCCCTTTCACAGAAATCAAGTCTTTGA ATAAGGCTAGATTTTTTTTAGTTTTAGTCAATAGAATTGAAAAGTGTAACTTATTTTTGTGAAGGAAAGTATAGTCCATA AGATATTAATTTGCTTGCATCACTTGATTGCATGTTTATCTTTGAATGTTGGGCCCTTTTTATTTTCTTTATTTATCATG TTTGAATTGTTCCCAAGTAAAATAAAAATAGTATTATTGTTTTGCTTGAGCCTTGAAGTAGTCCTTTGCTGTCTTTATTA TTTTCCTTATTTTTTTTTCTTTTAACACTCCCTAAGTGGCCATTCTCAAAATTCTTACTTGAATATTGTTATTCTTACAA ATTAGTATACTTCCCTGTGTTTATGAAAAAAATGTGAAATGCATTTCTATAAAAAAACTATTGTTGCTAATTGCATAAAA CTACTTACTACAACTTTTAAGTGATTTAGAATATATACCATAAAGCAAGAGAGATTGTTGTTGCCCAGCTCGCTTCTTAA CTTTGAGGTCCGAGATTTAATCACCACTCACATAAATGAAACACATTTCATGATCAACAATTTATTATTTAATACGAGCA CTAGTGATGAGAGGAGATGGTGGACACCATCCGTTAAATTATATATCTATCGTTAAATTATATATATATATATATATATA TAAATGCATTAGGGTTGGTCATAGGAAGTGCCCTAAGATTTAAAAGTCCATGAAAATCTATGAAGCAAACACCTGGTGTA TCCTGCAATAATGAAAAAGGTGGTCAACAATTAGCTACTCTTCTGGAAGTATAGAACTTTGAAATCAGACAAAAACAGGA AATGTAGAACTCTATATAGTGTGTATGCAAGCAACATGCATAATAAGCCTATACAACCAAACAATATAAAATTGGGCGTT TTCTCTCTTAGCTTCCTCAAAACATCAAACAAAGAAAACTCTAGCTCATTGAAAATATGAAACACGAATTGACTACGCTC TCAGTTCCCAATTTAATCTTCTACGCGTAGTGAGTTTCATTCTTATTCACTCTCTATCTTCTCCCTTCAACAACCAACCC TTCTCTTTTCACTTCTCTGTTTTTTCCCCTTCCCCTGTTTTTCCCATTCCCCTATTTTTCACTTTCCCCTGTTTTTTCCC CTGTTTCAAGAATGAAACCTCTGCTTCATCCATCTTCCATTTTAACTTTCTGGTTCACCCTTTTCATAATCTCAATCAAT ATTCAAACACCCCTCTGTGCTGATAATGATAGCAAGTACTACACGAACTGCTATGAAGCTTTTTCCTGCGATGGTAGCAG TGTTGGGAACCTCAAGTACCCATTCTGGGGAGGAAACAGAACTGAGTACTGTGGTCAATCTCAGTTGGAGCTCGTTTGTG AAGACCGTGCAGCGAAGATCACAATCAATTCAATCACATACCGTGTTGTTAAATGGGAGGATTCAACACAGAAGCTCACG GTGGCTAGAGATGACTTCTGGGGTGGTGTCTGTGCTGTGAGTGATTACCAGAACAGTTCATTTGATAACTCTCCCTTTCA ATATGATTTCAGTGGTGATAATAACGTGACGTTGTTATACAATTGCGGTTCTATCGATCCTCCGAGTGGGTTTTATAGGA GTTCCTGCGATGGTGGTAGTAGAGTTGTGTACTATATTGTAGGAGTAGGACCTTTATCCTTTGCCTCTGCTTGCACGAGT GTTGTGGTTCCAGTTTTGGCATCCCAAGTTTCAGCACTTGCATCTACTGCTGGTAACATAGACGAGGTATTGAATGAAGG TTTTGGGTTGAGATGGAGTGGTAATTATCAAGAGTGCACAGGATGTCTTGATACTAGAGGAGCGTGTGGGTTTGATGGAA AATTCAGGTGTTTCTGCGAGGATGGACCTCATCAATCTTCATGCATTTCAGATAGGGCCCCAGCTCCAGGTATGATGTCC AATACTCATATCTTATTTGCATGTCAAAATCTGATTTTTAAACACAACCGTAGAAGTATTTCATGTGGTACATGATTCAT CCTCCTAAAGTGAAGTGTTGATTGGAAGTCTTGTATATCGGAAAAAGTTCACCTTGAGCGAATACTCCCACCATGATATG TTTATAACTCGAACTAATTTGTCTATACCTATAATACTCAAAAATGAAACACAGGCACAAGAGCAGGGACCCTACATACA TCTCATGTTTCACTTTTATTTTATTTCAATTTCAATATTCATTTTGCTCATCATTAATTTTTCACTTAATTTTGGATTTC ACAACACAAAACTCTTTTTAATTTTTCACCGCCTAACGCTTTATTGTATTTTTAGACCAACTTCTCTTTCTTCAGAATAA ATTGACACCAGAAAATTCTCCTCTTCCTAGCATTATTTTTGGTTTTACAATTCAATTGTTGAATTGAATGATTCCAAATG ATTAACTTAGTTAGCACCCGAACAAGACAGGGTCAGAGATTGCTTGCTAACAACTCTTCGTGATAATGTTCGACTTTCGG GATACTTAGAAGATTTCAACCTCCTTTTAAGTTCTCTCCCCTTGACCATTTCATATGTAGTTTTCACCAAACCATTAGGT TTTTTAATCTCATCCTAGAGTCACGCTCACGCCTCATCTATGTCATCCACAAGTTTTAATATCATGGAAGGTCCTAGATT TTTTATGGGTCCAAGCCAAAACCTTAGTAATTCCTTGATTTATAGTGTGTTTGATGTTTTAGGAAGCCTCACTTCTCAGG AGAAGCAACATAATATATAATTTATAGAATTAACCTGTTTTAGATTGTGTGTCACCATGATTCCAAACTCACTATTAGAA TATGTGGCCTAATTTTTGGCACCATACATAGCAAAGAATCTCCTTTGCTTTAAATCCAGGAATTGGTAATTATTTTATTT TCTAACTAATCATTGGTGTATCATACACAATAATGATGTATGCTAGACAAAATTCTGTAATTTTTTTCAGTTTATTCTTG GTTAAAAGTTGAAACATGTCATACCTAGTTGACTTTTGATGCATTCAACCCTTAAATTTCTTAAGTGCCTATCAAGGTTA GGTAATGATGCTGATTTCCAAAAGATTAATAGGTTACCTAAATTTGTTTTTGCATCAACTTTTCTGGTGCACTTCAAAGC TCACCTACCACATGTTAATTAACCTCACTATAAGAAGCCAATGGCATTTGGTATCTGACTCTTCTATTTCTCTATTCAGT GTCAAAAGCCTCTCTTTCTCCACCATCTATTTTTCTGAAGATGCATTTTCTTTATCCTAGTATCTTCCTCTCATTCTTGA TCACAACTATCATCATAAATCAAATCCCAAGATCATCTTGTGCTGATGTTATGCAGTCTCCAAAGTGCACTTCCTTTGAT AATGGTTCAGATTCTAGGAACTTGACTCTCTACTATGATTGCCCTTCCCTTCCATTTCCTCTACCAGATAGCTTTTCTAC TCAATTCAATTGCAGCATAAATGGAACTCGAATGGTTAACTATTTTGTGATGGAAAATGCTGAGACTTCGGTCTCATTGA GTGAGATAACGGGAACATGCCAATCTAGAGCCATTGTTCCAATTTTTGAGTCAGAAGAAGCTAAAGTGGTAGAGACAAAT TCAACAGTGGGAAATATGAAGGCTGCTCTTGAGGATGGTTTTGGAGTGGGGTGGAATGCAAATGATACTTTGTGTGATGT GTGCCTAAATTCTGGGGGGCAGTGTGGTTTTGACCCAATTTCAATGAAATTCACTTGCTATTGCAAGGATGGATCCTTTC CATCTTCATGTAGATCAGGTCAGTACCCTTAGTGCACTCTCCTTAGTTAATGTTATTAGGTTTTAGGAATCCACTGTTGC TTTGGTCTATAGCAACCAAGATTTATTAATATCTCAAGCTGTCATGGATCATTTTCTATACGAAATTGATCTGTCCGGGT CTGCTTGTACAATTGACTTGGCTTCTAGGTGAAGTTGATTGGCTGATATCATCATTTGATTCCTTGGAAGGGGGGTCACC TGCAAAACACATCAGTTTAGGACTTGAATAGAGTAGCTGAACATAAAAGTGCGTATACTTTAACCGTGGCCAACTCCATT TTTATAGTTCAGGTTGGTTCAGGTTGTTAACTTGATGGTTAATTCTCTCTACTTGCACAGTCCTAGATATATGGTGAGAA ATTATAGGTGATGAAATCCTTATCTATTAATTTGGGATACCATCCATTATGTGTGAGCCAACTCAACCCGGATCATGCTT GTCCGCGAAGCTGGCCGATTGAGCCGAGCTAACTAGGCCAAGTCAGCCGCTGACTTGGTTTGGGCTTAATGTGAACTGGA CCAATGCAGAATAAAGCATGAATCCGGTACATAAGAAATACAAAAGAGATAATCATGCAGGTGATAGATTGTCTAAATTA GCTCCCAGGGTTAACTTTAGCTCTGAATTTTTCCAAGTCAATAAATTTTAATTGCAAGTCTTGTTTATACAAAAATTTCT GCATGGGATTATTTCCACCCCAATATAGTCTTTGGTCATGAAGGGTTTTTAGTGGGCTGTAGTAAAGTTTTTTTGGTGGG TTTGTTGAAACTCTTGGATTATAAACAAAATTTGTCCACTTTATTTTCCAATTAGGTGATCTAAACATGATATAAATGAT TTAGTCTTATAATAAAATATTGAATTTAAGTAGATGGGTGTGCCTTGTAATTGACCTAACTGTTTAAGCTTTAAAGCTTT TAAATTATTGTTTCTTGAGAAAAGCCATCTCCTATTAGATCTATCCACATGCATGTCCAACTAAACCCCCTGTCTCATTC TCTCTATAAAAAAAAACACAGAAACACTTCCACAGTCTGAACCCGCAGAAACATCCAAAACCATGTGTTCCTTTGATTAA TACCTTTCCAGTCATGGTTCTAGATTTTGAACAGCCTCCATTCAACCAGATGAGTACTCTTTTGACCATAAAAAAAATAG TAACCCCTCAATTTTATATTCATATATCTTTGACCATAAAATAATAACCGCGTTTATTATCATAAGCGTTTAATTAAGTT ATTTAACCAACAAGAAAAATAGTTTCCAACCACTTGTTTTAAACAAATCAAACAAAGGAAAATTAAATACACATTTGGCG GCCAATCAAAACTCTCAGTTTATAATATTCTATTCTTTTTTCAAATGAAATCAAAGTCCAAGTCAACTAAGTTCATCTTC ATGTTTTCTTTTCTTCTTCTTTTCTCATTATAGTTATAGTTATAGTTCATACTAAAACTAAAACCAACGACCCTTTTATG CTCACAACTCTTAGACAGACAGACACAACCATAACATACGAACGAACAACAAACTATGTTGTCCCTCTCTTCTCCAACCA TCATCATCATCATCATCACCATCTTCATCTTCTCTCTTCACCAAACGACGTCGCTATCTCCCAACGCAGCACTCTCCAGC TGCCACAACACCACCTTCAACTGCGGCACCATCACCAACCTCTCCTACCCTTTCACCGGCGGCGACCGCCCCTCCTTCTG TGGACCACCCCAGTTCCATCTAACCTGCAACGACGGCGTTCCCGAGTTCAACATCTCCTCAGTGAGTTACCGAGTCCTTC AAGTCAACTCAGTCAGCACCCTTACCTTAGCTAGATTAGACCTCTGGAACGAGACGTGCACCCATTACTATGTTAACTCA ACTTTCGATGGTGAAATCTTCAGCTACGGTTCTGGCAACAGGGACCTCACTCTGTTTTATGGCTGCAAACCCGTTACTGG ATTGAACAGATCGTTAGAAAACTTGTTTGAATGTCAGGGTAATGGGAATGATGGTAGGAGTGATTCTTATTCTTTGCTGG GTCCGTTGCCTTTGGACCCGGTTCTTAGCGTTGTTGAGTGTGACCATTATGTTGGGGTGCAGATTCTAGAAATGGAAGCT GATAGGCTTGTAAAAACACGTTCTTTGCTTAGGGAGATTTTGATGAAGGGGTTTCATGTGAATTTTAGAAATCCTTATGA GGATGAATGCTCTGAGTGTCTTCGTTCTGGTGGTCAGCAATGTGGGTTTGATTCTGAACCCATTTGTATTTGTGGTGATC GGTTGTGTTCATTTCCAGGTATGAATCCCAGCTTTTCTTTTGCTAAATTATGGTGTAGGAAAATGATTCGTGGACATCTG CATAGTGCAGAGACATGGAGAGTGAAAAATAATAGATGTGAAAAGAAGACAAACATAGAGAGAAAAATATAGTGTATGTG GTGTGTCTAACTGTTTGGATGTCAAAGTATCATTACTGACCAAACGAATTTTCTGATTGTGATTCTTATTTCATGCATAT TTAATGGTTTTAAGGGATGATTTGTTTGTATCACTAGAAGTTAATAGGTTGTGATGTTGTGTATGCTAGTGCTAGTAGTT ACAATCTCAGTATTGTATGCTAATGATGCTTTATTCCAACCCAAACAACATTGACAGCTTCTATTTTTCTTTGGGGAAGG TAAAATCCTATGCCATTTGGCAACTAATGATGAATTGGTCAACTTTCATTCCGTAACTTTAAGAAGATTTATATATGTTT GAAATAGCTACTTCTTAGAATCAATTCTAGTTATCAAAAGCTACTCACGAAAGCTTTTCCCCATAATGGATTTTGGCTTT AGAATCAATTGGTGAAGGATTTCTAAATGGTTAACTTTCTCCAGCAACTAAAATTTTTGCAGTTAGAATGAAGTTACAAG TCCATTGTTAATCCAAGGATAAGGGTAATAAAAAAAAGTTGTGTGAATGAATTATCTTTGTAAGGAAGAGAAGATGAGGC TCATTAGTTTTTTGTTCATATCTGTAATTTGAACTTGAGTACTTTTTTCATGCCTTTCCCATCCTTTTCTTATTCCTTGT TCTGAAATTTTGCAGGTAAAGGCGGTTCTACCAAAGTAGGCGTTATAATAGGTAACTATCATTTTGTTGATAGAGGGATT AAATTTGGAAATAATATCTTACTTATGCCTATCATTATTTCCTTCAGGTGTTGCTGCAGGAGTTGCAGTCCTTGTTGGCC TTCTTTGCTGTGGGTTCTTTATGTTCCGACGAAAGAGAAAAATGGCTAAGCAATCAACAGGCAAGGACCTCCTCATGCCT ACTACTACTTCAAGGCCAAGCAGTTTCACTCTCACCTCTGCCACTAACTCTTCTCAAAGTGTCTCTTCTTACCCCTCTTC CACGTCTGGCACAGTGCCTCCCAAAAGTTTCTACTTTGGCGTCAAGGTGTTTACCTATGAAGAACTAGAGGAAGCTACAA ACGGTTTTCACACTTCCAGAGAACTTGGTGAAGGAGGTTTTGGCACAGTTTACAAAGGTAACAAAACAAAATAATCAGAG TCTGTTGGATTATTGCTTTGTAAAGTAGTTTTTAGTTTTCAAAAACAGAAAATGGAAAAAACTTGTTTGATACAAACTGT TTTAAAAAGTTGTTCTGAATTTGATTTGCTGTTTTTTAAAATTAAAATCTCAAAAAATCTCTGAGATGTTTTGGGGATTT TTTCTTAGTGTCCAAGTCACAAGTGTTTCAGCTTTGCAAAACATCTCGTTTAAACTTTTTTTCTTTTCTTTTCTTCTGAA AAAAAAGGTTTCAAAAACAGTTTTTGGAAACAGTTTATAAATTCAGAAAACTGAGAAGGGAATCAAACAAGTCCTCAGTT TCTGTGTGTTCCTACCAATTTCTTACATAAATATTTTCCCTGGTGTATGTTTCTGTTTTTTTTTAAACTCTGTATCTTCT GATTGTTAATCAGGTGAACTCCAAGATGGACGTGTGGTTGCCGTGAAACGCCATTATGAAAGCAATTTTAAACGTGTTGA GCAGTTCATAAATGAAGTTAGGATTCTAGCTACCTTACGGCACAAGAACCTGGTGACACTCTATGGATGCACCTCTAGAC ATAGCCGAGAGCTTCTCCTTGTCTATGAATTCATATCTAATGGAACAGTGGATGATCATCTTCACGGGAAACGGTCGAAG TCCGCTTTACTTCCTTGGCCTGTCCGATTGAACATTGCAGTAGAAACAGCTGAAGCACTAGCCTACCTCCATGCAAATGA TGTCATACACCGCGATGTTAAATCCAACAACATCCTCTTAGATGATAAATTTCATGTTAAGGTTGCTGATTTTGGTCTCT CGCGGTTGTTCCCCACTCATGTCACTCATGTGTCAACTGCTCCACAAGGAACACCTGGTTATGTTGACCCTGAGTATTAT CAGTGCTACCAACTCAATGATAAGAGTGATGTTTACAGCTTTGGGGTTGTCTTAGTTGAGCTCATATCATCATTACAAGC TGTGGACGTTAGCCGGCACCGCAGTGACGTGAACTTGGCGAACATGGCCATCAATAAAATTCAGAACCAAGAATTACATG AGTTGGTGGATTTGGATCTTGGATTTGAAAAGGACGATGGTGTGAGGAGGATGATGACAGGAGTGGCGGAATTAGCCTTT CGATGTTTGCAACAGCAGAAAGAAATGAGGCCCAACATGGATGAGGCGGTGGAAATCTTGAGAGCAATCAAGAGTGATGA GCTTGACACAAGGGAAGCAAAAGTAGTGGATGTTGTGACAGATGAAGTTGTGCTTCTGAAGAAGGTTCCTTCACCAGTTT CACCAGATTCAGTTGCTGATAAATGGGTTAGCAGCTCTACTGCATCTAATTCCTTATAGATTCTAATACACTTCCTCTGT ATTGGTGCCAATGAGCTAGTACAAAGCTCATATTGGCCTTCACATTTCTTTTGTCTAAATGTTTCCATTTCAAGTTTACA TGTATGTTATCATGGCAATAGTAGTAGTAGCTTTGAGAGGTAGATTTCACTGTTGATCCAAAAACAAGGAATACACATAG GAGAGAGAATTTTCAAATATTTATGATGTAAATACTCCCATATATCTTAAGTATATATCTTTGATGTGTTTAAAAATGTA ACTGATATATACTTTGGATTCAGCGTATTTACACTGACATCCAATGATTGTTTGCCAAATCAGAACATTGACATCATGTT ACAGTTTAAGGTGATGTTAGCTAATAACCATTGAATGTCAGTGTAAAGAAGTTTTACATCCATGAAAATTAAAC
CDS sequence (LotjaGi1g1v0547400.3) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGTTCCGACGAAAGAGAAAAATGGCTAAGCAATCAACAGGCAAGGACCTCCTCATGCCTACTACTACTTCAAGGCCAAG CAGTTTCACTCTCACCTCTGCCACTAACTCTTCTCAAAGTGTCTCTTCTTACCCCTCTTCCACGTCTGGCACAGTGCCTC CCAAAAGTTTCTACTTTGGCGTCAAGGTGTTTACCTATGAAGAACTAGAGGAAGCTACAAACGGTTTTCACACTTCCAGA GAACTTGGTGAAGGAGGTTTTGGCACAGTTTACAAAGGTGAACTCCAAGATGGACGTGTGGTTGCCGTGAAACGCCATTA TGAAAGCAATTTTAAACGTGTTGAGCAGTTCATAAATGAAGTTAGGATTCTAGCTACCTTACGGCACAAGAACCTGGTGA CACTCTATGGATGCACCTCTAGACATAGCCGAGAGCTTCTCCTTGTCTATGAATTCATATCTAATGGAACAGTGGATGAT CATCTTCACGGGAAACGGTCGAAGTCCGCTTTACTTCCTTGGCCTGTCCGATTGAACATTGCAGTAGAAACAGCTGAAGC ACTAGCCTACCTCCATGCAAATGATGTCATACACCGCGATGTTAAATCCAACAACATCCTCTTAGATGATAAATTTCATG TTAAGGTTGCTGATTTTGGTCTCTCGCGGTTGTTCCCCACTCATGTCACTCATGTGTCAACTGCTCCACAAGGAACACCT GGTTATGTTGACCCTGAGTATTATCAGTGCTACCAACTCAATGATAAGAGTGATGTTTACAGCTTTGGGGTTGTCTTAGT TGAGCTCATATCATCATTACAAGCTGTGGACGTTAGCCGGCACCGCAGTGACGTGAACTTGGCGAACATGGCCATCAATA AAATTCAGAACCAAGAATTACATGAGTTGGTGGATTTGGATCTTGGATTTGAAAAGGACGATGGTGTGAGGAGGATGATG ACAGGAGTGGCGGAATTAGCCTTTCGATGTTTGCAACAGCAGAAAGAAATGAGGCCCAACATGGATGAGGCGGTGGAAAT CTTGAGAGCAATCAAGAGTGATGAGCTTGACACAAGGGAAGCAAAAGTAGTGGATGTTGTGACAGATGAAGTTGTGCTTC TGAAGAAGGTTCCTTCACCAGTTTCACCAGATTCAGTTGCTGATAAATGGGTTAGCAGCTCTACTGCATCTAATTCCTTA TAG
Protein sequence (LotjaGi1g1v0547400.3) extracted from Lotus japonicus Gifu v1.2 Proteins.
MFRRKRKMAKQSTGKDLLMPTTTSRPSSFTLTSATNSSQSVSSYPSSTSGTVPPKSFYFGVKVFTYEELEEATNGFHTSR ELGEGGFGTVYKGELQDGRVVAVKRHYESNFKRVEQFINEVRILATLRHKNLVTLYGCTSRHSRELLLVYEFISNGTVDD HLHGKRSKSALLPWPVRLNIAVETAEALAYLHANDVIHRDVKSNNILLDDKFHVKVADFGLSRLFPTHVTHVSTAPQGTP GYVDPEYYQCYQLNDKSDVYSFGVVLVELISSLQAVDVSRHRSDVNLANMAINKIQNQELHELVDLDLGFEKDDGVRRMM TGVAELAFRCLQQQKEMRPNMDEAVEILRAIKSDELDTREAKVVDVVTDEVVLLKKVPSPVSPDSVADKWVSSSTASNSL
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 | 1 | 51 | 51 | - | – | |
| SignalP_GRAM_POSITIVE | 1 | 15 | 15 | - | – | |
| Phobius | 1 | 43 | 43 | - | – | |
| Phobius | 1 | 26 | 26 | - | – | |
| PANTHER | 2 | 397 | 396 | 3.8E-219 | – | |
| PANTHER | 2 | 397 | 396 | 3.8E-219 | – | |
| MobiDBLite | 15 | 51 | 37 | - | – | |
| Phobius | 27 | 35 | 9 | - | – | |
| Phobius | 36 | 43 | 8 | - | – | |
| Phobius | 44 | 400 | 357 | - | – | |
| Gene3D | 53 | 152 | 100 | 2.8E-31 | – | |
| SUPERFAMILY | 55 | 354 | 300 | 2.43E-78 | ||
| ProSiteProfiles | 76 | 351 | 276 | 39.128 | ||
| SMART | 76 | 351 | 276 | 1.0E-45 | ||
| Pfam | 76 | 346 | 271 | 1.3E-49 | ||
| ProSitePatterns | 82 | 104 | 23 | - | ||
| Gene3D | 153 | 372 | 220 | 2.8E-54 | – | |
| ProSitePatterns | 196 | 208 | 13 | - | ||
| MobiDBLite | 380 | 400 | 21 | - | – | |
| MobiDBLite | 386 | 400 | 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 | Protein kinase activity | Catalysis of the phosphorylation of an amino acid residue in a protein, usually according to the reaction: a protein + ATP = a phosphoprotein + ADP. | ||
| Molecular function | ATP binding | Interacting selectively and non-covalently with ATP, adenosine 5'-triphosphate, a universally important coenzyme and enzyme regulator. | ||
| Biological process | Protein phosphorylation | The process of introducing a phosphate group on to a protein. |
Expression pattern of LotjaGi1g1v0547400.3, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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