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| Field | Value |
|---|---|
| Gene ID | LotjaGi4g1v0272000 |
| Transcript ID | LotjaGi4g1v0272000.1 |
| Lotus japonicus genome version | Gifu v1.2 |
| Description | Non-specific serine/threonine protein kinase; TAIR: AT5G35410.1 Protein kinase superfamily protein; Swiss-Prot: sp|Q9LDI3|CIPKO_ARATH CBL-interacting serine/threonine-protein kinase 24; TrEMBL-Plants: tr|Q53UK3|Q53UK3_LOTJA Non-specific serine/threonine protein kinase; Found in the gene: LotjaGi4g1v0272000 |
| Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr4:63866615..63876738) extracted from Lotus japonicus Gifu genome v1.2.
GGTGGCTGTTAATGTTAGAAATTTAATTTAATTATAGTAAAATCCCTACCAAGCTTAATCGCAAACGTCGTGTTCTTAAA AAGGACGCTTTCTAAACTACTTTCTGCTATCTGTCTCTTGTTCATATTCCAAATTCGTAAACTTGAACGACCGAACTCGT GCTTCCACTTTGGAGAATCGGGTTCCAGAATATTATATTCCTTCCTCTTCTTCACCAACTGCGCGACTTGAATTCATTGA TTTCTAAGAATTCTTGTTTGTTTCGATTTTCACGACTCAGCTCGTGCTTCAATTCTAGGTCAATTTCTGAATTGGGGAAT TTGAAGCTGTGAATGAGTGTTGAGGAAGAATGAAGAAGGTGAGGAGAAGGATCGGGAAATATGAAGTGGGTAGAACAATC GGTGAAGGTACATTCGCCAAGGTTAAATTCGCTAAAAATTCTGAGACTGGGGAAAGTGTTGCTATTAAAATCATGGATAA AACCACCATTCTCAAGCACAGAATGGTTGAACAGGTTTCGTTTTATTTCCCCCTTTCTATACATATGAATGAAATTTATA ACTTTCTTTATTTTTAACTCATGCTTGGTACTCAATATTCATGCAAATTCATACTGTTTATTACATGATTGATGTCAAAC TTGTGTTGAGAGCTTAGTAGCTAACCGAGCATGAATAGCTTCTGATAATCTGTGTTTTGTTAATCGCGGTGAGCCCTCAG AGCCGCTCGCTATAACCACTATTTAACAACATTAGAGTTGGAATGAATTGTATTATGTTTGACTGATGTTTACTGGCTAT CTATGCTTATAGGCACTAACAGTCCTATTTCTTTGGAGTACTAAGAATGCAAAAATAAGATAAGATGTGTTCTATACTTA TAGGCTCTGAGCTTTATCTTCTATGGGTTGGTGTTGCCAAGTCTTTTGATCTTATTGTTCTGTTAATTTTTAGTCAAGCA GTAAAGCCATTCCTTTTCTTTTCTCTATTTCCTTATTATGGGTTCCTAACAGGTTCAAAGTGTAATTTAAGACGGGTTTC TTGTTCACTGATCTATGCCAAGCTATTTTGAGTGATCTCTAGTGTATTAATGCTTCTACGAACATGGTTACAAGTCTTTA CGGAGATACAAGTTGACATTGAAATTCACAAGTCTTTAGATGTTCTACAACAATTATGTCTCTACTCTCTTTTGCTCCAA TGTTATCAGAAAAGTATTCTGATGTTTATGTAGCCTGTTGGTGGATCTTATTTTGTACCTCTGCAGTTAAATTCCTCCTT CTATCTCTATGCGCCTGACTGTGCATTTGTGAAGAATAAGGATGTAGTTTGTTATAATGAATACCTATCATTATTCTTTC CATCTCTCTGCTATTTGCTTTTCTAACTTAATCTTGTTACAGATTAAAAGAGAGATATCCATTATGAAGATTGTCAGACA TCCTAATATAGTAAGGCTGCATGAGGTATGTGTATATATCCCAATACTTCAAGAGCTTCACTGTACATCTTTCTCTCCAT ATTACATTTCTCACATTGTTTACAAATTTTAGGTTTTGTCCAGCCAGACCAAGATCTACATAATCCTCGAGTTTGTAATG GGAGGAGAATTGTATGATAGAATTGTAAGAATTTTTATGTTTATATGTTATGGAATGATTTAGAGGTTAATTCTTCTACA CTTACTAATTCCCAAGTCTGACCTTTTAAGTAGGTTAGCATTGCTGAGATGCTTACAAACTACTGTTAATTATTTGATTA GGTTTCTTATGAAGATATCGGATTTTGTTATTTTATATTTAATGTTACATGGTTTCTGCGTTCATAGGTTCAGCGGGGAA AGCTTTCTGAAGATGAATCTAGGCGCTACTTTCAACAACTTATAGATGCTGTTGCTCATTGTCATAAAAAGGGTGTGTAC CATAGAGACTTGAAGGTGAAAGACAAAATATTATATTTGGGGTTAGTTATGTTCTTGTCATAACTATTGTAACCAATTTA TATTTTTTCTTGATCAATTTGTTTCTTTTTCTTTTATAGCCTGAAAACCTTCTCCTTGATGCTTTTGGAAATTTGAAGGT TTCTGACTTTGGATTGAGTGCATTGACTAAGCAGGTAAGAATGTACACTTATAAAAGGAGATTATAGAACATTCTCTCTC TCTCCGAAAATATTATATTGGTTTTATTCCCCCGGGCATCTAAGTGTTGCTTTATCTTTGAAGAATGACTTTTGGAGATA GTAGAAGCTGCAGAACTAATGTCTCTCGTCCTTTTCTCCCTGGCTGTTTATGTCTTATAGGGTGTTGACCTGCTTCACAC CACATGTGGAACCCCAAGTTATGTTGCTCCTGAGGTAAAATTGATTATACACAACTGTAATGCCATTCTTAAATTACTCC GTTAACCCGTTACTCCTTTTCCTATGGATGGTTAGCTACTTAGATTAATGGTTTGATATAATTCTCCATATCAATTTTAG TTATGAACAAATCATTGACGATGAAATAGAAGATAGATCAATACTATTGGAGTGTATGCGCATTGCACAGTTTTTTTCTA CATACAGCTAGAATTCAATGGAAGTATAAATTAAAAGAAAAAGATATTGAAACTGAAAGAAGGATATGCTATGCACAATT AGATTAAATATATAGTAGAGAAATTGAGAAGGGCACATGTCTTTTAGTGGGCGAGAGTCAAATAAGAAATTAGCGCACTC TCGAGTAAAGGTATTCTAATGTGACATCTGAGAATATATATGATGTGTTGATAGTCATTACCGGTAAACCTTTATCTTGG AACAAGAGTCATCTTCAGCTCAGTTCATTATTTATACATTTAATGTTCGAGTTGATATTTATTGTGTTTTTCTCATCCAT GACATTGTTCTATTCAGTTTATATTTTATATGCATAAGGCATGATAAGTCACTTAAGGTAGTAGTTTTTTTTGGAAATAT TACATGTTTCTTCGAAGTCATGAGCCGATTTGGATGCGGATTAAAGAACAATTGTCCGAGCTTATCTAGTGCAATTTTTA ATCATTAGTTACTATAAATTTGGCTTTTTCTAAAGTGCAATGATGTTTTCTTACCGTCATTTGCTCCAAATTTCTTACTA AAATGACATCATGCAGGTGCTCAGTAATCAAGGTTATGATGGTGCAGCTGCTGATGTTTGGTCATGTGGAGTCATCCTAT ATGTTCTAAAGGCCGGATATCTTCCTTTTGAGGAGGCAGACCTTTCAACATTGTACCGAAGGGTAATATCTGCCTTTCCC TTATAAACTTAAAATGAAGACTTAAAAGAGCTTAAAAGAGGAGGGGAAATGTAAGTAATGAATGTAATATAAATGAAGAC CATTGAAACAAAAAATTTCAATACATCAATCCATTGTATCACCCACCATTTTTTAACTACTCTCTACTCGGAGCTTTATT TACTTCTTTTTATTTATCCTGAACTGATCTTAATCATAGAAAAACAATCTCTAAAATTAATTAGAAACAATGACAATAAC ACTCATCGTAATTAAAGTATTAATGACAATATCCGAAGAAAATAACCTCAATAATATACATAATATATAAAAATGAATTT CTTAGTCAACACAAAGTTCCATTGGTGACAGAAAAATTTCTAAAATTGAAGAAGTATTTCTGCAACCTTAATCTTTCTTT GTTGTATAATTCATTCTTTGGTAGTTACTTGCAAGCTGTAATATATATTATGAAACGGTAAGATACGTTGTTCTTATGTT AATGCTTCTTTATATTAGATACCTAGAGTTGCCTTTCTTAAGCGTGTGAATTTTCATGTTAGGAGCATTTAGTGCTGTAG TTCAATAACCAGCTGTTAGCTTTTGTTGTTGTTGTTGTTGTTGATTTTTCCTTTTTTATTTAAACTTGTAGACCAGTGCT GCTGAATTTGTTTGTCCATCCTGGTTTTCCACTGGCACTACGACATTGATACATAAAATTCTGGATCCTAATCCTAAAAC AGTGAGTACATTGATTCTATTTTTACCATTTAATATATAGACCAACTATGCAATATGCATGCTTAAAGGGGTATAATATT ATAATATCTATATATATATATGTAAAGGAGACTTGAGGTTTTGCATGTATTAAATGCATTAAACCATAAAGCTCCAATAC ATTTATATTAAATACATTAAAAAATAACGAAAAATATTAAATATATTAAAAATTGAAAAAAATTATTTAATAAAAAAACT ATTCAACTACTTATATTAAATAACAACATTCATAAACTTAAAATTGACTTGAGCTTTGCATTTGACAAATATTAAAAATT AAAATTAATAATAAATAATATTTATTATTAAATAATTTAAATAAAATACTTTTAAATCTATCTATCTTCTATATATATAA ATCACACTTGCGTTTTAGTATTAAATACATAAGCAAAACTTAAGTGTTGCATTGTATTAAAAGAATCCAAACAAAACAAA AAAGTTGTAATAAATATATTAAAAATAATAAAGTTAAAATTGAAAAAATTTATATTGTCAAAAACTATTCAACTACTTAC ATTAAATAACAACATTCATAAGCTTAAATCTATATATATATGTAAAGGAGACTTGCGGTTTTGCATGTATTAAATGCATT AAACCATAAAGCTCCAATACATTTATATTAAATACATTAAAAAATAACGAAAAATATTAAATATATTAAAAATTGAAAAA AATTATTTAATAAAAAAACTATTCAACTACTTATATTAAATAACAACATTCATAAACTTAAAATTGACTTGAGCTTTGCA TTTGACAAATATTAAAAATTAAAATTAATAATAAATAATATTTATTATTAAATAATTTAAATAAAATACTTTTAAATCTA TCTATCTTCTATATATATATATAAATCACACTTGCGTTTTAGTATTAAATACATAAGCAAAACTTAAGTGTTGCATTGTA TTAAAAGAATCCAAACAAAACAAAAAAGTTGTAATAAATATATTAAAAATAATAAAGTTAAAATTGAAAAAATTTATATT GTCAAAAACTATTCAACTACTTACATTAAATAACAACATTCATAAGCTTAAAATTTACTTGAGTTTTGCATTTGACAAAT ATTAAAAATTAAAATTAATAATAAAATAATACTTACTAATAAATAATTTAGATAAAATAGTTTTAAAATTAAAAAAGATA TTTATATGTAAAGGAGACTTGAGCTTTACATTAAATACTTTAAATCATAAAACTCTCATACCTTGGTATTAAAATACATT AAGAAATAATAAATTTTCTTTGTAATAATATATGAAAAAATAATAAAAACTGAAAAAAATTGTATTATCAAAAAATATTC AACTACTTACATTAAATAACAACATTCAACAACTTAAAAAAACATGAAATTATCTTTAGTTTTTCATTTGACAAATATTA AAAATAAAAATTATTTGATAATAAATAATATGGATAAAAAAATTTAAATTGAAAAACAAATGCCGCTAAAAGGTATTTAA TATTAACTATAACATGTTTATGCATTATTAAAAAAAATATTTTCTATCTATGATATATTAGTAAAAATTACTCGAGAAAG CATAATAGAGAAAAATAATAATGACTAAAGTTGAATAAATGTTTGTTGTGAGAGGTCTGTCCTATTCACTTAACGTGATC GTATAGGCTCAAGGGATTAGTATCATGACTATTGGCTGTGAGAAAACATTCACAAACCAAATAAGCTGAAAAAAATTAAA TTCATAAGATAATATTTTAGGCTATTTTTTTATAAAAAAAGACTATTTAAGTTATCACTTATTGGTCTTGGCATGTCAAA GTAAATGATTTTCCAGGTAAAAAATATAAAAAATGATATTAAAACTTATTTAATGACATTAAACATTTATTACTTAACAT TTCTTACGAAATTTAAATATTTCAAATTAAATTAATTATTTTTCATATTATTAAATAAATAAAAAACTTAATTGTTAAAA TGATTTCTATGCTAATAGTTAAATTTGAGTAATATTAATTATTTATACAAAAGAAATTATATTATTATTACAATATAGAT GTACATGAGAACAACCCTCTCTTGAAAAATAGGGGCTAAATCAATACAAGAATGTCCCGTGCATCCTTGCCAATTCATTA AACATTTTGGTGCTTAAAACAACTTATGCTTGAGCCTCATTAAAACATTCCTAGGAAAAACTCAGTGGGAAAAACCCTAG GGAAGGAAAAAGAGTACTCAAAACACAAACAACAACCAAAATGTCAATAACAACAACAAATACATAACCTCAGGCTGCCA TAAAATACTTAACACATTTTTTTTATTTATAATTAAAAAATATTTTAATTTTAATTTAGTTAAACTATAATAATTTTTAT ATAATGTTAAAAAATATAGTAAGTAAACCCGTGCAACGCACGGGTATAATATCTAGTATGAAGTGAATTTCTCACTGATT ACCTTGACATGTTTTTATTACTGTACTTAAGACTGTGTAGTCCTGCTACTTAATGTAATTTACTGTGACTAGTTATAATC AATTTCCTTGTTTTAATTATTTTTTTCCATTCTTTCTTTCTTTTTTTGCTATTTTTTGGGAACTTAAAATTGCAAATAGT AAAACAATAGATAAGCATCAAATTTCTTCTTATTAAAGGATGTCAGTTTATGATATATTACTTAGTTTTATGGTGTTTCT ATTAGGGCACATGATTTTTGCTGAAGTAAAATATTTGCATTTCCTCATTCCCAGATTTCTATTTAACATGTACATGTGTT TCTGCCTGTGTATATTACCTGCTGTTCAATTAAGTTTGGTTGTATCAGGATTCACACTTTTGTAAAATTTTACACTGATT GTTTGCAAATATTTAATAATTTAACTATCCTTAATTAATTTCTGATATATTTATATTAATGCAGCGGGTGAAAATAGGAG AAATAAGGAAAGATCCTTGGTTTCAAAGAAACTATTTGCCCCTCAAGCTCAATGAAGATGAACAAGTGAATTTGGATGAT GTTCAGGCTGTGTTTGATGATATTGAGGTCTGCTATTATTTTTTGTTCTGTTATTTTAACTAATAAAAGAAAAATATATA GTTGTAAATATATGATGTTTGTGTTTAGTCCTCTCCCTACATATACAATGTGTGTTCAACATATGAGACGTGAACTAACA TGTGAAGGACGTGGAAATATGTGGTTGTGGATAAAAGTTTCATGAAGGCTTCTAATTGCAGATGGAGGATAATAAGTTGT GTAAAATCAATATTATTGGTTAGGCAAAAAAATGAATCAGTCCTTTCCCTTTTTACCAAAAATGTAATATCTGCATCTGG TTATGGGAAATTATTTTGCTATAAAATTGCTTTTGATTATGGGAAGAACATCTATACAAAAGGAACACTCGTCATGAGCA TTTACATATTTTTATTCAGTTAAAATATGTCAAATTTTAAGTGCTTTTAAAAACTCACTTTCTTATGGACAAGTATCAAA ACTCTGTAGCGAATTTTATGTCCAGTTATACAGTTATTTAGAGTTTGAAGGAACATCAACTACTTCTGGGATTTTGTTTC CCTTGCATAAATGAAATTTTGTTGGAGACAAAATTTTAAAAACATGTAAGCATATAAAATGCATCTTGGCAGTTGGCGTG CTTGAGTGCATTTCAAGAGGTTATGTATGTTACTAGTTATCCAACAGTAGCATGCATCTCATTTGCTAACTGAGATAGAC TGGCAAACTTCTCTGTTTTACAGGACCAATATGTTCCTGTACAGTCAGAAATCACCGAGGGAGGTCCTTTGGTAATGAAT GCATTTGAGATGATTACCTTATCACAAGGGTTGAATCTTTCACCATTATTTGACAGGCATCAGGTATTGTATCAATTCCA TCTTCAAGCCCTAAAATCTCATGGTCATTTTTGTGTCTATGGTTTCCATGTAAATTTATTGTGCTTCAACTGGCCTTGAT GTGGGTGGGTATTACAGGGTATCTGATTTCTAGTTGGTTTTCAGTTTTTAGTGGTGTAACATTTTTTTTTTATAAGCTTT AGTGGTGTAACATGAACACAATATGTTAAAGATTTTCATACATGGCTTTCTTGAAAGTCCAGATTCCGTTTGCATTGCCC CATTGTCACTTTTCTGCTTGTCTAACAGGATTATGTAAAGCGGCAAACTCGTTTCGTTTCCCGCAAACCAGCAAAAGTTA TAATCTCATCTATTAAAGTTGTTGCAGAGTCAATGGGTCTAAAACTCCAGAGTCGCAATTACAAGGTATCACTCAGCATG TCTACTTTCCACAATAAATGTTGAATTATGCTTAGGCCCAGGACGCTTAAGCTGATAGTAACTGGTACTGTGGCACACAA GGAACTTTTCACATTATCCAGAGCGGACTAGTACTGTAATCCTTTTGTCATCAGATGCCAATGCAATCTTTGTTGCTTGT AGCTGTTCCCGTTCCATTATAGCAATTGTTAAATTACTCTGCATTATCTGTTATGGCATATTAGCCTACTTACATATGAA ATGATTTGTATCCCAGTAACACTTTGGCCATTAAGGAGGCAGGCTCTAGTAGGGATTGCCTATTTAGCCAACTGATTGTT GGATGGTCTAATCTTTTAGGATAGAGATTTTTTAAGGAAATTTATGGAATATCTGGCTTTCAATTTTTCCCTAATGGATC CCTAAAAATAATTTTCTGGCAGATGAGGATTGAAGGACTTTCTGCGAATAAGGCTGGACAATTTGCAGTGGTCTTGGAGG TAACTTGTTTTTACTTTTGTAGTATTTACTATTTTTTGCTTGAAAACTTTGTTTCTGTATGATTATGAATCATGTTTAAA ATCATCTCTGTATCTTGTCAAAAGGTGTATGAAGTCGCACCGTGCCTTTACATGGTAGATGTTAGAAAGGCAGCTGGGGA TACTCTTGACTATCACAAGGTTAGCTGCATTTTCCAATAGCCAGGAGTGTATTTTCCAATCACCTTCTTCTCAAATGTGT GTACTTAAAAACGTTTGTAAATACAGTGTCAAATGCATTTTGCATATATATATTTGTATGTGCTTGCTTATAAATTGACA GTGACACTTTTTATATTCCTTTGCAGTTTTACAAGAATCTTTGTGCCAAACTAGAAAATATCATTTGGAGGCCGACAGAG ACTATGCCAGATTCTGGGTTGCTTCGACAAATGACCTTGTGATCAAGCTCTTGCGGCTGTGGCTGTGATGCATATCTAAA ATCAACACGACTGAAAGCCTTCGAGCTTACAAAATACTGGCATGCTTTCCAGCCATCATACTGCAATGTGCATTTTGTAT GAAACGCGTTGAGAACGTGGCTTGATGTCTTAGGGGAAGTAAGCATAAAACATATCGCAATGCATCCTACAACGAACCTA TGCCGCAATGGCTTGCAAAATCAATAGACATTTTGTTAGGGCAGAAATAGTGTAGTGTATAAATGTAAACAACGGATCGA TCCCTTCCTGAGCTCTGTCTTGTAAGGTGAATAAGAAAACTGTGGAGTTGAACTGTGATTGAGCATTTTTCTTTTTTTGT TCAGAGTAGCTTGATAAAAAATTGTAAAGAGAAGTCGTTTACATCCAAAAGAGTACTAGACTCCAAAGAGAATAATATAG TTATGCATCTTCAGATAAGTATGAGATTACAAGATACCTCTACTCAGATTGAAATATATTACTTTCTATTAGATTTTACC TTTTTTAAGGTTTATGAAGATATTAAAATAACCTTCATGGTCTTGAGCTCCCATGTAACACCATATGATTGATCTCTCAT CTTTTTTTTTTTTTTTCAAACAAATCTTGGATTTCCGAACAAATTTTCAGTATTCTTGTACTTCTGAAGACTCTGTACAT CTCTCTTAAACGAGACAATTATTCTCTATTTTTAATTTTAGAAAAAAAATTAAAGTTGGAAATAACTTCAGATGTCATGC TTTAAGATAATGTATACCACTATACCACTTTCAAAAAAAAAAAGATAATGTATACCACGATATTACAGAAAATAAATTCC TGGATTTTCTATGAATGAACAATTTAAAATTGGTCTGGAGATGC
CDS sequence (LotjaGi4g1v0272000.1) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGAAGAAGGTGAGGAGAAGGATCGGGAAATATGAAGTGGGTAGAACAATCGGTGAAGGTACATTCGCCAAGGTTAAATT CGCTAAAAATTCTGAGACTGGGGAAAGTGTTGCTATTAAAATCATGGATAAAACCACCATTCTCAAGCACAGAATGGTTG AACAGATTAAAAGAGAGATATCCATTATGAAGATTGTCAGACATCCTAATATAGTAAGGCTGCATGAGGTTTTGTCCAGC CAGACCAAGATCTACATAATCCTCGAGTTTGTAATGGGAGGAGAATTGTATGATAGAATTGTTCAGCGGGGAAAGCTTTC TGAAGATGAATCTAGGCGCTACTTTCAACAACTTATAGATGCTGTTGCTCATTGTCATAAAAAGGGTGTGTACCATAGAG ACTTGAAGCCTGAAAACCTTCTCCTTGATGCTTTTGGAAATTTGAAGGTTTCTGACTTTGGATTGAGTGCATTGACTAAG CAGGGTGTTGACCTGCTTCACACCACATGTGGAACCCCAAGTTATGTTGCTCCTGAGGTGCTCAGTAATCAAGGTTATGA TGGTGCAGCTGCTGATGTTTGGTCATGTGGAGTCATCCTATATGTTCTAAAGGCCGGATATCTTCCTTTTGAGGAGGCAG ACCTTTCAACATTGTACCGAAGGACCAGTGCTGCTGAATTTGTTTGTCCATCCTGGTTTTCCACTGGCACTACGACATTG ATACATAAAATTCTGGATCCTAATCCTAAAACACGGGTGAAAATAGGAGAAATAAGGAAAGATCCTTGGTTTCAAAGAAA CTATTTGCCCCTCAAGCTCAATGAAGATGAACAAGTGAATTTGGATGATGTTCAGGCTGTGTTTGATGATATTGAGGACC AATATGTTCCTGTACAGTCAGAAATCACCGAGGGAGGTCCTTTGGTAATGAATGCATTTGAGATGATTACCTTATCACAA GGGTTGAATCTTTCACCATTATTTGACAGGCATCAGGATTATGTAAAGCGGCAAACTCGTTTCGTTTCCCGCAAACCAGC AAAAGTTATAATCTCATCTATTAAAGTTGTTGCAGAGTCAATGGGTCTAAAACTCCAGAGTCGCAATTACAAGATGAGGA TTGAAGGACTTTCTGCGAATAAGGCTGGACAATTTGCAGTGGTCTTGGAGGTGTATGAAGTCGCACCGTGCCTTTACATG GTAGATGTTAGAAAGGCAGCTGGGGATACTCTTGACTATCACAAGTTTTACAAGAATCTTTGTGCCAAACTAGAAAATAT CATTTGGAGGCCGACAGAGACTATGCCAGATTCTGGGTTGCTTCGACAAATGACCTTGTGA
Protein sequence (LotjaGi4g1v0272000.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
MKKVRRRIGKYEVGRTIGEGTFAKVKFAKNSETGESVAIKIMDKTTILKHRMVEQIKREISIMKIVRHPNIVRLHEVLSS QTKIYIILEFVMGGELYDRIVQRGKLSEDESRRYFQQLIDAVAHCHKKGVYHRDLKPENLLLDAFGNLKVSDFGLSALTK QGVDLLHTTCGTPSYVAPEVLSNQGYDGAAADVWSCGVILYVLKAGYLPFEEADLSTLYRRTSAAEFVCPSWFSTGTTTL IHKILDPNPKTRVKIGEIRKDPWFQRNYLPLKLNEDEQVNLDDVQAVFDDIEDQYVPVQSEITEGGPLVMNAFEMITLSQ GLNLSPLFDRHQDYVKRQTRFVSRKPAKVIISSIKVVAESMGLKLQSRNYKMRIEGLSANKAGQFAVVLEVYEVAPCLYM VDVRKAAGDTLDYHKFYKNLCAKLENIIWRPTETMPDSGLLRQMTL
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 |
|---|---|---|---|---|---|---|
| Gene3D | 1 | 90 | 90 | 4.8E-33 | – | |
| PANTHER | 4 | 435 | 432 | 3.7E-235 | – | |
| PANTHER | 4 | 435 | 432 | 3.7E-235 | – | |
| SUPERFAMILY | 7 | 317 | 311 | 2.29E-88 | ||
| ProSiteProfiles | 11 | 264 | 254 | 50.93 | ||
| SMART | 11 | 264 | 254 | 8.6E-101 | ||
| Pfam | 11 | 264 | 254 | 1.7E-70 | ||
| ProSitePatterns | 17 | 49 | 33 | - | ||
| Gene3D | 91 | 272 | 182 | 1.4E-67 | – | |
| ProSitePatterns | 130 | 142 | 13 | - | ||
| Coils | 274 | 294 | 21 | - | – | |
| Gene3D | 304 | 430 | 127 | 5.5E-48 | – | |
| ProSiteProfiles | 305 | 329 | 25 | 11.753 | ||
| Pfam | 307 | 365 | 59 | 1.7E-18 | ||
| CDD | 311 | 426 | 116 | 3.41397E-46 | – |
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. | ||
| Biological process | Signal transduction | The cellular process in which a signal is conveyed to trigger a change in the activity or state of a cell. Signal transduction begins with reception of a signal (e.g. a ligand binding to a receptor or receptor activation by a stimulus such as light), or for signal transduction in the absence of ligand, signal-withdrawal or the activity of a constitutively active receptor. Signal transduction ends with regulation of a downstream cellular process, e.g. regulation of transcription or regulation of a metabolic process. Signal transduction covers signaling from receptors located on the surface of the cell and signaling via molecules located within the cell. For signaling between cells, signal transduction is restricted to events at and within the receiving cell. |
Expression pattern of LotjaGi4g1v0272000.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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