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| Field | Value |
|---|---|
| Gene ID | LotjaGi4g1v0067400 |
| Transcript ID | LotjaGi4g1v0067400.4 |
| Related isoforms 4 | |
| Lotus japonicus genome version | Gifu v1.2 |
| Description | Mitogen-activated protein kinase; TAIR: AT2G43790.1 MAP kinase 6; Swiss-Prot: sp|Q07176|MMK1_MEDSA Mitogen-activated protein kinase homolog MMK1; TrEMBL-Plants: tr|G7JNP9|G7JNP9_MEDTR Mitogen-activated protein kinase; Found in the gene: LotjaGi4g1v0067400 |
| Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr4:8443888..8456018) extracted from Lotus japonicus Gifu genome v1.2.
AGCAACTCTCTCTCTCTCTCTCTCTCATTGAAGAAACCAACCCATTGAAGAAGAGAAGGGAGAATGGAAGGAGGAGGAGG TGCACCGCTTGCTGATACCGACATGTCTGATGCGGCACCGCCGCCGCAGCCTGACCCACATCATCAGCAGCCGGCGGTGG CGATGGGGATCGAGAATATTCCGGCGACTCTCAGCCATGGTGGCAGGTTCATCCAATACAACATATTCGGTAACATATTT GAAGTCACCGCCAAATACAAGCCACCCATCATGCCCATCGGCAAAGGAGCTTACGGCATCGTCTGGTACATCATTCCCCT TCAACCCTTTTTCTCTTTCTCGCTTTGGATATCAAATCAACATCAAAGTTTGTTTTTTTATGTTTTCTTGATGAGAAAAA TTGATTCTTTTTTTTTTGTTGGTGTTGGGATTGGAAAATGGAATTTTCTTTTGGTTTTGTTGTTTGTGTGAATAGTTCTG CTTTGAACTCGGAGACAAATGAGCATGTTGCTATCAAGAAGATTGCCAATGCATTTGACAACAAGATTGATGCCAAGAGG ACTCTCCGTGAGATCAAGCTGCTTCGCCACATGGATCATGAAAACGTTAGTGAGTGGTGATTGCTTTTTTGTTTATTTGT GTCTCATTTTGTCTTTTGTATGGATTGGATATGCTTTGTCCTGTGTAATCTTTCCATACAGGTTTGAGATTCACCTGTTA ATTGGATCCGGATTTGTGTGATTGTTTGCTTCAATGTCAATTAACCATTTTTCCATAAAATGTGGTTGTTTTCAGCTATG AAACATTCTCTGTTTGGAAGCTATTGAAAGATTAATATTTGGTCAATAGTGGGGTGTGTATACATCTTAGGGGACACTTA GACCAAAATGCACCTGTTAGTTTTACATATCATGGTTACGTGGCTGAATTTAAGCTTACCAGGTGTACAATCTTTGCTAG TAACGGTAATTTGAAAATGCCGAGATGTAGTCAATCTTGAATTTAACGACTAACGTTTTTAAGCGAATGACATGAATGTG TCCAAAAGTAAAATCAATGATGAATGCCTGTTTTGATATCCTTGCAATCATTGATTTCTTATTGCCTATTAATGAATCTT CAACGTAACGGCTAACGTTTCTAAGAAAACGACAAACAAGACTGTGTGCAATTTAACGACTAATGGTTCTAAGTAAACGA CAAGACTGGGTCCAAACGTGCAATCTTAAATTTAAACAGGGTTTTAAATTGCGGTCTGCAACAGCATTGTAAAAGGTTTT GAAGTCCCCGCAGCGGCATCGCGACCGTTTCAACTCCCGCATTTTTCCGCAATTCTGCAACCGCCACAATTTAAAACCCT GAATTTAACTAATAAGCAACCGACAAGACTGTTCAAAAGGAAAATCATGATGAATGCCTGTTTCTGTTTGATATCCTTGC AATCATTGATGCAGTACCCCCCTCCCCCAAATTTATGCCCTGTTTTTTAACACCTGTATTTTGTTGATCTCGTAATCCTT AGCCGCTCCTGTTTTGTTGCATAGTATTGCAGTTTATGTAACAGTTGTTGTGGATTCTTAAGAGGCAAAAATAGCGGCCG TTAGAGTGTTATTTCAACGATAACCCAAAAATGACCTAGGGAGGTTAATGTTAGCGCATTGTTGGGGTTTTTCTTCAGAA ACTTAATCAAAATGGTCTGGTTTGAAGAGGATGTGGAGGAAGAGATCTACAACTATAATAGTAGTGAAAGTGATAAAAGA GGAAGACTAGAACCTAGAAGAGGATAATTGATGAGTCCTATTTATGAAACTTTCATTTGAAATTTATGTTTTAGACAGAA CAGTTTAAGCCTCTAGCACTTAAACTTCTTGGTTGTTTTTACTTTTGTTGGTATTTAAATGTTTTGTTTAAGACACCTAT GACTTTGTCTTGTTAATTATGAATGTCATCATAGTACTTTTTTTTCATTTTGAACATTTAAATATGTATATGCTATATAG TATTAATCCTCAAAAAAAATATGTATACTATGTAGTATTAATTATTTAAACTGCATAGAAAATCCTACATAGCAACCATC CTGCTATGTGCTATACTGCTGTAATTATAAAATATCCTGTCTTACATTTAGGGGGGTGGAGGTGGCGAGAGAGGGTGTTC TGTTAACTTTGTGATGGGCAATGCTAAATCCGAGCATTTGGAATTTTTCTCACATTTGCTAATTTGGTTTACTGATTGTT ATCATTGTGTAGGTTGTCGCAATCAGGGATATTGTGCCACCACCTCAAAGGGAGGTATTCAATGATGTTTACATTGCATA TGAATTGATGGACACTGACCTTCACCAAATCATTAGATCAAACCAAGGATTATCAGAGGAGCACTGTCAGGTATGCATTT AAATATACACCTTTTAGTTTATGCTTGTGTTTGTATTAACTGTATATCTATGTTTTCACATTATCACGTGTTATATATTC ATGCATGTACTGTTATACAGCCTTAAATGAAGATATAAATTTAGAATGCCATAGGAGAATTGTTTCTTCTTGTTCCTTCA CCCCCATTTTATATTCTGTCACGAACTTCCACAGCACATTTTTCCACATCCTTTCACTGTAGTAATGCCAAATGCCAACT TGATACTTCGTTATACTTATAGAGGACATTTTGGGCATCATGACTTGAGGAATATATTAGAAGATTTTCACCTTATTTAT TTTTCTTGCTTTAGTTAATCTTGACCATGAAACCATTATAAACTTTTTCTTTTCTGGTGCAGTATTTTCTGTATCAAATC CTCCGTGGGTTGAAGTACATACATTCTGCGAATGTTCTGCACAGGGACTTGAAACCTAGCAACCTTCTCCTGAACGCCAA CTGTGACCTGAAAATATGTGATTTTGGACTGGCAAGGGTCACCTCTGAAACTGATTTTATGACTGAATATGTTGTCACAA GATGGTACCGTGCACCAGAGCTTCTGTTAAACTCTTCTGATTACACAGCAGCAATTGATGTGTGGTCTGTTGGTTGTATT TTCATGGAACTCATGGATCGAAAGCCTTTGTTTCCTGGCAGAGATCATGTTCATCAGTTGCGACTACTTATGGAGGTAAC TTAATTAGCAGCCTTCAGTGTTTGAATAAGTTCAAGAATGATTGATTTATATTTGTTTTTATGGTTGAAATGATTAACCT GCTAGATTTGGAAATAATAAATTATTAAAGCAAATTGAAACTCAATTGTTGTATCGTCTTGAAGTACAATTCAAGTTACG TTTAATTTTATTGAGTATAGTCAGATCCTTTAATCAAAGTGGTGAAATTGATGCCAAAATCTGCATTTGCTTTGTTGTAT TAAAAAAATAGCAACTTATGACCTATGTAGTTCACCTTTGACAACAGTCTGCGTTGAAATCAGTGTATTAGTATAACTGA TAATCTTCATATTTTACAGTTGATTGGCACCCCATCAGAAGATGATTTGGGGTTTCTGAATGAAAATGCTAAGAGATACA TTAGGCAACTACCTCCTTACCGCCGCCAATCTTTCCAAGAGAAGTTTCCGCAAGTCCACCCTGAAGCTATAGATCTTGTT GAAAAAATGTTGACTTTTGATCCTAGAAAAAGGATTACTGGTATGTTTTCTTTGTCTGAGGCTTTGTATTCCATGGTTAG AGATATAATAGTGTCAATGTGCATACTTTATACTTTGCATGCTTTTTGGTGTTGTCAGTACATGTTAAAAGTCTTTTGGG ATGTGTTTAGAAGAGTTTATTTGAGCTTATCTGATGCATAAAGCAGTTGAAGTCTTAGACATGTGGTTGATCAAGCTTTT AAAAGTAGTGTGTGTATTTAGATTAGTTTCTCACATTAGCTCTGCCTACATATAATCTCTTCTAAGTTGATTTCAATAAA CTTATCAAATAAGCTTATTAATAAGTGCTTATGTATGAGCACTTAATTGACATAAATAGTTTCACCTAACGCACCTCTCA TCGATCACATGATAAATTGCATCTAAAGGTTGCACCATAAATGCTTAGTTTTGCTTCTGGGTTGCCAGATTTGTACTGAT TTATATATCCTTCAGAAATTGATCATGCATGATTTCATCTGTTGGACATATTCTATCCATGTGCCACATTGCAAACCATA TTGCTTAATGCTTTGCTTACCTCTCGCTAAAATCGATTAACATGGCTCAAGTTTTGTTTAGTTAATTTGGCTTTGTGTAG TTATCTTTGCATGCTCTGAACTTACAAACTCTTATTGTGTCTCAATATGTAGTAGCTGTTTATCTTAGAATGAGGGTGCT GAGCTCCTTATTATAGATAAGAAAATTACACCGCAAAACAGAGTGCTATTAGGAAATTAAAGTATAAACCCGGGAGTCGG GACTGTCAATAAGGAAGTGCAGTGATGGATATTAGGAAGCTAACAAGTAATGAAGATGAAATGAAGGAATAGAAATGCAA TTGTATTGATTGAAGTGGACAATTACAGAAGATATTGTGATAAGGTGTGCTGTTAGAAAAACTCTAACAACCCAGAGAAG CTCTAGAGCGTTCTCTCCGAGGGAGATGCTACTCTCTCTCTATAACAGAATTATCAATCCAGCATAATCTTATTCCCTTT TCCTTGGTTACTTTATACTAACACCTAATTCTGTTGAGCCAATGCCACCTCAGCAGCCTTGCCCCGTTTCCTCCTATAGA CTTGCCAAACCTTGGGCCTGTTCTCTTCTTGGCCCACTGAAGCATTTACCACTAAGCCCACCTCTTCATTCAGATTTCTA TCAATTCCTCCCTCCATTGGAACAGCCTTGTCCTCAAGGCAGAATTCAGGAAACTGACCAGCTAGAACGACATTGTCTTC CCAGGTGACTTCCTCCATTGACTTATGCTTCCACTTGACTAAGCTCTGATGCACTTCACTGTCCCCGAGCCTGACAGTCC TAGTGCCCACTATGACTTCAGGGTAAATATCAGTGGTGTCATCAACCCCCAAATCCGCTGGCAACTGACCCTGCACTTGA TAGTTTCCCACAGCCTTCTTTAACAGAGAAATGTGAAAAACTGGGTGGATTTTGGACTCTGCAGGCAACTTCAGCCTATA AGCAACTGCTCCTACCTTGGCCTCTATCTGAAAAGGTCCATAAAACCTGGCAGCAAGCTTCTGATTGATCCTCTTCACCA CAGAATGCTGCCTGTGGGGTCTCAGTTTGAGAAATACCCACTCTCCTACTGCAAAGGACAAATCCCTCCGCTTCTTATTT GCATAAATAGCCATTTGTTCTTGAGCCTTCTGTAAATGACCCCTTAGCTGTCGCAGGGCTTCATCTCTTTCACTTAGCTC TAGGGCCACAGCGGCTACCTTAGTCTCATTGGATAAGAACTTGACAATAGGGGGTGCTTGTCTTCCATAGACTACCTCAA AGGGTGTCTGTCCAATTGAGCTATGAAAAGTAGTATTGTACCAAAATTCTGCCCAGGAAATCCAATGTGACCAAGACTTG GGATGATCAGAAGCAAAACACCTCAGGTAGCTTTCCAAACACCTGTTTATGACCTCTGTTTGTCCATCAGTTTCCGGATG GTAAGCCGAGCTCATTTTCAGTTTGGTCCCCTGCAGCTTAAAGAGTTCAGACCAGAAATGGCTAACAAAAATAGGATCCC TATCACTTATGACTGAATTAGGAATCCCATGGAGGCGCACCACCTCTCTTACAAACACTTCTGCAATAGACTTGGCTGTA TAGGGATGCTTGAGCAGAATAAAATGACTGTATTTTGACAGCCTGTCCACAACCACCAGTACTGCTTCAAAGCCCTTGGA TTTGGGTAGACCTGTAATGAAGTCAAGAGACAAGTCTTCCCACACAGCATTAGGGATTGGAAGAGGTTGTAACAAGCCTC CAGGGCTTAAGGCGCTGTATTTGTGTCTTTGACAAACATCACAAGCTCTGACATAGTCTCTGACCCTCTTTTGCATTCCT ACCCAATACAATGTTGTTGCCAAGCGTCTATAGGTCCTCAGGAAGCCAGAGTGACCCCCAGAAGGTGAGCCATGAAACTC CTCAAGTAGCCATGGGATGGAAGGAGAGGTAGGAGATAAGACTAGCCTTCCATGATATAGTAAAACTCCATGTTGTACTG CAAATCCAGGTTTGCTTGCAGGATCTTTCTGTACTGCAGATTGCAAGTCCTGGATGTAGGGATCTTGGGTAATCTCCTCC AAGAGTCTCTTTCGGTCATTCCAGAGAGGAAATGAGATCAGAGAATGCAGCTCCACCTCATCATAGCGCCTGGACAAGGC ATCAGCAGCCTTATTTTCCAAGCCGGGTTTGTATTTGACTTGAAATTGGTAACCCAGTAATTTTGCTAACCAACACTGTT GGTCTGGTGAAGAAACTTTCTGCTGCAGGAAAGGCTTAAGGCTTTTGTGATCAGTATAGACTATGAACTCTTTCCCCAAT AGGTAGTGCCTCCAATGTTGAATGCTTAAAACCAAGGCCATTAATTCTTTTTCATACACTGACTTAGCCAAGTTTCCAGC TGATAAAGCTTTACTAAAGAAAGCTAGAGGTTGTCTTTGTTGCATTAAGACAGCTCCAATCCCTCTCCCTGCAGCATCAC ACTCTACTTCAAAGGGAAGAGTGAAATTGGGTAGTATCAAGACAGGAGGAGATGTCATTACCCTCTTTAATTGAAGAAAA GCCCTATCTGCCTCTGGTCCCCAAGAAAAACTGTCCTTCTTAGTCAACTCAGTGAGAGGATTAGCCATTTTCCCATAATC TTTGATGAATTTCCTGTAGTATCCGGTCAGCCCCAAGAATCCCCTCACTCCCTTAACATTCTTGGGCACAGGCCAATCCA TAATGCATTTTACTTTCTCTGGATCTACTGCCACGCCAGCTCCCGAGATGATATGACCCAAATAATCAATTGAAGCACAT CCAAATTTGCATTTGGTCTGATTAGCCACAAAACAATTAGCTAACAAGACAGATAGTACCAACTTCAAATGAGTGAGGTG TTCAGGTAAGTCTTTACTATAGATTAGTATATCATCAAAAAAGACCAACACGAATTTCCGTAAGTAAGGTCTGAAAATAT CATTCATTACTGCTTGAAATGTAGCTGGAGCATTCATCAGCCCAAATGGCATCACTAAGTATTCATAATGTCCATTATGG GTTCTAAATGCAGTTTTTTCTATGTCATCCTCATGCACCCTGATTTGATGATAGCCAGATTTCAGGTCTATTTTAGAGAA AATTGAAGCTCCATTTAATTCATCCAGCAGCTCATCAACTATCGGAATTGGATACTTATCTGGAATGGTGGCCTTATTTA AAGCTCTGTAGTCAACACACATCCTCCAGCTCTTGTCTTTCTTCTTTACCAAGATCACAGGACTTGAATAAGCACTCATG CTAGGTCTGATGATTCCTGCCTCCATTAACTCTGCCACTTGCCTCTCAATCTCTTCTTTTTGATGGTGAGGATACCTATA AGGCCTCACATTGATGGTCTCCTGCTCAGGGAAAAGCTTTATCTGATGCACCTTAGACCTCTCTGGTGGCAGTTGAATCT TGCTCCTAAATACCTCTTGAAACTCTTCCAGTGTCTCCATAAGCTCTCTTGGTGTTTCTACCTCAGTATTGGTGACTTCT GCGGAATTCAGATGAGACCACCACCACTCCATACCACCTCTGTACTGCTTGTCCATGAGGAATGAGTGTAGAAAACTGTG ATTACTCCCTTTTCCTCCTAGCCCTTGCAACTTGACTACCTGATTTCCATGGACAAATTGCATAGTGAGTAGTTTCCAGT CCATTACCACTTTTCCAAGTGTGCTCAGCCAGGACACCCCCAATACCATGTCCAAACCTCCTAGTTCCAACACCAAGGCA TCAATCACCACCTCAATCTTCCCCAGCCTGGCCTTAATTCCCTTACACACTCCCTGTGTAACCACCCTGTGTCCATCCCC TAACCTGATGTGTCGGGAAGCTATAGGGGTGATAACCAAACCCAGAGCATTGGTGACTGCTGGGGAGATGAAGTTGTGGC TAGCTCCACTGTCAATAAGCACCAGTAAGTTCACATTGTCAACCTGCCCTTCAATCTTCATCGTATGATGCTCCTCCATA CGACCCAGAACCCCCATTAATTTGTACTCAACCACTGCCTCGTCCTCTTCACTCACTTCCGGTTCTCCCTCCAACATCAC AATCTCACCTTCTTCATCAACGGTTTCCCCGTCTCCAAGGATTAGAACACGCAGGGATCTCTCGGGGCACTTGTGCAGGG TAGGATGATACTTTCCCCCACACTTGAAGCACAAGCCCTTGGCTCTCCGCTCAGCGATTTCATCCACCTGGAAGCTGCGG ACCCCTTTCCACTTCTCCGATGATCCTGTACGGAGATCATTTTCTCCTTTTCGAGTTGAGGAACCCAGAGACGCGGCTGA ATTCGTCGTCGATCCTACTGAACTCATGGAGCGACTTGGAATTGACCCGCCTGGTTTAGAGAACCGGGTCACATCCCTAC TAAAAAGCCCAACCCGATTGGCGGATGACCCGGCCCAATTGCTTTGACCCGAGCGATCGAACCCGCTCCTCTTTACCATT TTCTTGCCATCGTCTTCGTCTTCTTCCTTTAGTTCCTCTTCCACGTCTTTCGCGATTCGCATCATCTCCATTCGAGTTCC TGGATTAAGTGTGCGCACTCGGCGTCTGATCGCAGGCTTCAGCCCACTCATGAAGTATCCTAGGTATTGGTCCTCCGGTA GCCTCCCTACCTGCGATGACAACAACTCAAAGGATTCGACGAATTCGTCTACACTTCGTTTCTGTCGTAATGTCGATAGC TCTTCGAAAGGGTTCTCCAATCTTCTTCCTCCGTAGCGTGCAATCAACGCACGTTTCAGCTTCTCCCAGGATAGATTATC CTCAGTCTCCATCAACAGATTGAACCAATGGATCGTCGATCCTTCCATACTTAATCGCGTTAACTTCACCCGCATCTCAT CCGGCGTATTCTGCACGTCGAAGTAGATCTCCGCTCTCGTGATCCAAGCCACAGGATCCTCTCCTTCGAACACCGGCAAC TTCACCTTCTTTCCGGCCAAGCGAGACTCACCGGGGTGTGAATCCGCTATCGGGGTATCTCCTTCGTGACCCGTTTCCTT TCGACCCATTTGCTTGCTCAGTTCAGTGAGAGTCAAGCTCTGCTGCTGCAGTTGGAGAGCGAGCTCTTGCAGCGCCGTCG TAACGCTTCCCATCTGGTTTTCCAGAGCTTCCATTCGATCGGTCATTTTCGGTGGCATCTACCAGCTTGTTGAGACTCCT TCCACGGTGTTGATCCGGTAGGTCGGACCAATTTGATGGATATTAGGAAGCTAACAAGTAATGAAGATGAAATGAAGGAA TAGAAATGCAATTGTATTGATTGAAGTGGACAATTACAGAAGATATTGTGATAAGGTGTGCTGTTAGAAAAACTCTAACA ACCCAGAGAAGCTCTAGAGCGTTCTCTCCGAGGGAGATGCTACTCTCTCTCTATAACAGAATTATCAATCCAGCATAATC TTATTCCCTTTTCCTTGGTTACTTTATACTAACACCTAATTCTGTTGAGCCAATGCCACCTCAGCAGCCTTGCCCCGTTT CCTCCTATAGACTTGCCAAACCTTGGGCCTGTTCTCTTCTTGGCCCACTGAAGCATTTACCACTAAGCCCACCTCTTCAT TCAGATTTCTATCATGCAGTCAACCCCCTATACCATCACCGGTTTTTCCATATCCCCCCTCCCCCCTCTTTGCTGCAATG TTCTCTCTATTCTCTCCCCTTGTCCCCTGACTCTCCTCACACCTTTCACCCATGTCACTGTCCCAATGTGGTAATTATAT TCTCTGCTAAATGAATTTTCCATCTCCTTCCCTCAGTTCTTCTTTTTCCTCTCATAAACCAAGAGGCCCTTGTTTTTCTT TCCTCCTCTATAGTGCTAAGGGCCTATCAACCCACAACAACAATAAAAATCAGTTCCACCTTGTCCTCAAGGAGGAAATC GGGAAATATCCTGTGTCATAATCAAGGGAGGTAATTCCATTTTACAAGGACTTCCTTGGAGCAATCTTGTAGTTTCAGCA TAGCCAGCACCTCGCTAGGTACAACCTGCAATTCCAATTCTTCAGTAAAAAAACTTAGGATTTGTTGGCTTGGAGTGTCA ACCAATGGTGCTCTCATATGGTTGGACACATGAATGACCAAATTGAGTCTTGTATCAGGGGGAAGCTCCAACCTGTATGC TACTAGTCCCACCTTCTCCTTAACTTCATAAGGGCCATTGAAGCGGGGGCTGAGCCTTTAAGTGCACCAATCTTCCAAAC AAACTGCTGCCACTGTCACCTTCTCGTCATCTGAAAATACTGCTCAGAGCTGTATAACCATCCATCTAGATCATTGTCAG AAGCGTCATCCTATACTCCCTTCAACCCACTTCTAGCCTCTATTCACCTGCGCCTCCGCTCCTTGTTACTCCCCAGTCCC ATTCCTTCATCTTCATAATCATACCCAGCCAAACGATCTCCAGTGAAATGTGCTAGACCCGCCCTTAGCTCTTGCATCAT GTCCTCCATCAATTGCTTATGTCTCCTGCCACTCTATCCATATCCTCCACCCTCCCTTCCAATACCTCAACTTCTTCTCC ATCCTTGTTGATACCATTCACTGGTCAAGACTAGGAGCTCTGATACCATTATGGTGGAAATGGTTAGATTCTGACTTTAT TATTTGAGAAACACTGCTTGTCAAATATCCGCCATGGCCCCATGATGGTGGAGTTCCAGCAAGCCGCCATGGTCGATAGC TATCAGTATTTGTCAAATATGGCCTGTTTTTGGCTTTCCACCATAACCCGCCATCTGCCATTAATAACACTGCTGAGAAT ATTACTTTCAAAAACAGAGTGCTATAGGAAAGAAAATAAAACCAAAACTGATACGAAAGAAGTGTAGTCAACCCCTATAC CATCACCCATTTTTCCATATTCCTCTCTCTCTCCCTCTCTCTTTTCCCCTTGATCTTGAATCTCCTTATGCAGTGTACCT ATGCTACCTATCCCAATTCGGCTATGATATTTTCTCCCTCTCACTGCTAGCGGAAATTTCCACCGCTTGCCCCTTTGTGT TATTCTTCTGTTTCCTCATAAACCAGCAGGCCTTTGTTATTGGGCGGTTGGGCCCATGTCTTCCCCATCTCCTATACACA TTAATAGCTGCATGAAGAGTTTTTGAAATAGCTAACTTATATAGTCATTTAGTCAATCGATCAATATCTTTTGTTCATAT ATTCTACTGAAAAATTTGTTTTCTCCTTCCCATAGAGAAGTTATTTCCTTTTTTTTTTCTTCTTGAGATCAGCTTATCAA TTATGCTTCCCAACAAAAAAATTCGGTGTTTTATATAGACATCTCTCTTGATCATGTGGGCTTCTGCCTCAACACTTTAT ATAGCCTAATGGATATTAAATTCTGTTATCCTTGCCAACCAAAAATGTACTTCATAGTTGCACCTTCAAGTCCATAATTA TTGTGATTTCCAATTATAATTGGCAAGTACACAGTATTTCAGAAAATGTCAAAAATAACCTGTAAACATGACATGTCAAC CCATATTGACTAGAAATAGGGTTAGCACTTAGCACTGCTTAGTTTCAATACTTTTGTTATTTGTTATTTACATGTTACCA TGCTTCAAACCAGTATCATAAGCATTGTTTTCTGCTTCAAATGTTGAATGCAAGTTTCTACCCATGGTTATTGAATCGAG ATTCGACTAATGGTATCTTTTTATGTATCCTGTGGTACAAAATTATTTAGTCATAGATTAACTCATAAGTTGAAATTCTA CCTAGTGCTTACATTCCTTCATGCTTTTTGTTTTGCAGTTGAAGAAGCACTGGCACACCCCTACCTAACATCCCTGCATG ACATCAGTGATGAACCTGTGTGCATGACTCCCTTCAGCTTTGATTTTGAACAGCATGCTCTGTCTGAGGAACAGATGAAA GAACTTATATACCGAGAGGCTCTAGCATTTAACCCTGAGTATCAGCAGTAG
CDS sequence (LotjaGi4g1v0067400.4) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGGACACTGACCTTCACCAAATCATTAGATCAAACCAAGGATTATCAGAGGAGCACTGTCAGTATTTTCTGTATCAAAT CCTCCGTGGGTTGAAGTACATACATTCTGCGAATGTTCTGCACAGGGACTTGAAACCTAGCAACCTTCTCCTGAACGCCA ACTGTGACCTGAAAATATGTGATTTTGGACTGGCAAGGGTCACCTCTGAAACTGATTTTATGACTGAATATGTTGTCACA AGATGGTACCGTGCACCAGAGCTTCTGTTAAACTCTTCTGATTACACAGCAGCAATTGATGTGTGGTCTGTTGGTTGTAT TTTCATGGAACTCATGGATCGAAAGCCTTTGTTTCCTGGCAGAGATCATGTTCATCAGTTGCGACTACTTATGGAGTTGA TTGGCACCCCATCAGAAGATGATTTGGGGTTTCTGAATGAAAATGCTAAGAGATACATTAGGCAACTACCTCCTTACCGC CGCCAATCTTTCCAAGAGAAGTTTCCGCAAGTCCACCCTGAAGCTATAGATCTTGTTGAAAAAATGTTGACTTTTGATCC TAGAAAAAGGATTACTGTTGAAGAAGCACTGGCACACCCCTACCTAACATCCCTGCATGACATCAGTGATGAACCTGTGT GCATGACTCCCTTCAGCTTTGATTTTGAACAGCATGCTCTGTCTGAGGAACAGATGAAAGAACTTATATACCGAGAGGCT CTAGCATTTAACCCTGAGTATCAGCAGTAG
Protein sequence (LotjaGi4g1v0067400.4) extracted from Lotus japonicus Gifu v1.2 Proteins.
MDTDLHQIIRSNQGLSEEHCQYFLYQILRGLKYIHSANVLHRDLKPSNLLLNANCDLKICDFGLARVTSETDFMTEYVVT RWYRAPELLLNSSDYTAAIDVWSVGCIFMELMDRKPLFPGRDHVHQLRLLMELIGTPSEDDLGFLNENAKRYIRQLPPYR RQSFQEKFPQVHPEAIDLVEKMLTFDPRKRITVEEALAHPYLTSLHDISDEPVCMTPFSFDFEQHALSEEQMKELIYREA LAFNPEYQQ
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 | 229 | 229 | 8.8E-133 | – | |
| PANTHER | 1 | 249 | 249 | 5.9E-175 | – | |
| PANTHER | 1 | 249 | 249 | 5.9E-175 | – | |
| ProSiteProfiles | 1 | 202 | 202 | 36.075 | ||
| SMART | 1 | 202 | 202 | 3.4E-44 | ||
| SUPERFAMILY | 1 | 210 | 210 | 6.84E-75 | ||
| Pfam | 3 | 202 | 200 | 1.9E-54 | ||
| ProSitePatterns | 39 | 51 | 13 | - | ||
| Gene3D | 230 | 246 | 17 | 8.8E-133 | – |
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 LotjaGi4g1v0067400.4, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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