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Field | Value |
---|---|
Gene ID | LotjaGi1g1v0442000 |
Transcript ID | LotjaGi1g1v0442000.1 |
Lotus japonicus genome version | Gifu v1.2 |
Description | Calcium-dependent protein kinase, putative; TAIR: AT3G51850.1 calcium-dependent protein kinase 13; Swiss-Prot: sp|Q8W4I7|CDPKD_ARATH Calcium-dependent protein kinase 13; TrEMBL-Plants: tr|V7B5Z3|V7B5Z3_PHAVU Uncharacterized protein; Found in the gene: LotjaGi1g1v0442000 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr1:93907718..93917540) extracted from Lotus japonicus Gifu genome v1.2.
CTTATATCATATTTAATCCAATCACCCACAAAATATGTTGAGTGCATGGAAAAAATTATTAACTTATACTTTTTTTAGAA TTAACAAAATTTATTAGCAATATTTAATTAATATTAATATAATAAATTAAAATCTAAAAAAACACGAGGCTCCAGGCACC TAAAAAACCGCATCCCCATAGCCGTTACCGTACACCCTTTCACACTCCCACTGATTTCTTTCTTTCTTTCACTGTCTCTT TCGCTCTTCCATCACTCCCATCGCTTCCTCCTTCGTCACCTTTCAATTTCACTGTCCCTCTCTGTTTCTAAATTGAACCC TTTCTTCTTCTAGGGTTAGGGTTTCTGCATTGTCATGTGAAACCCTAGCTCCTCCTCCTCTTCCTAACCCTCAAACCTTC CCCTTTCCCGATCCACCTCCGCCATGGGCAATTGCTGCAGATCCCCAGCCGCCGTTGCCCGAGAAGATGTCAAATCGAGC TTCTCCAACCACGATCACGCCAAGCGAGCCGCCGACGGAGCCACCGCCGGAAACAAGAAGCATCCGCCGGCGCCGGTGGC AGTTCTCGCCGGCGTAGCGAAAGAGAATATGGAGGACCGTTACTTAGTTGACCGCGAGCTCGGCCGCGGCGAATTCGGCG TGACGTACCTGTGTATTGATCGGGACACCAGGGAGCTGCTGGCGTGCAAGAGCATCTCCAAGCGGAAGCTGAGGACCGCC GTTGACGTCGACGATGTTCGCCGCGAGGTTGCTATTATGCGCCACCTGCCGCGGAGCCCTTCCATTGTGTCGCTCAGGGA GGCTTGTGAAGACGATAATGCTGTTCATCTTGTTATGGAGCTTTGTGAGGGTGGAGAGCTTTTTGACCGGATTGTCGCTC GCGGCCACTATACCGAACGGGCTGCCGCGGCTGTTGTGAGGACCATTGTCGAGGTTGTGCAGCTCTGCCACAAGCACGGG GTCATCCACCGTGACCTTAAGCCGGAGAATTTCTTGTTTGCGAATAAGAAGGAGAATTCGCCTCTCAAGGCCATTGATTT TGGGCTCTCCATATTCTTCAAGCCAGGTATAGACCCTTTAGTGGATGATGAATTCAATTGTGAACAGTTTGGATATGCAA CCACAGAAACTGTTATATTGCGTTTGTAATTAGAAGTTAGCCCAAATAGGAAATTCTTAATTGGGGTTAGTTCTGTTGGT AGGTAATGAGACCTCGAATTGTTTCTTAATTGGGTGCTCGATTGCCGGTGATGCCTTTCTAGTCTAGCATACTTTATTCG ATTTAGTTATGTACAGTCTAAATTTTGCATCTGCTGCATAAAAGGTGAAGCGAGAGCAGTTGTCGGTACTTTGAGGAGCT TAAATTTTCTTGAGTTTTGAAATCTCAAATTCTGAACACCATTTGTGTTGATTGGAATGCTTCTACCTACTCTATTGTAA AATATAATTGGTAATGTGGAGTCTGCCTTTGATCTGGGTTTGTTCTGATCGTGAAAGATCAGCAAACTCTAATTTGGAGG TAGTTGCCCTGTTTCTTTGTTTGTCCAAATGTTGAAATCCTTTTTACTTTCCCTTCCCTTCAAACTCTTGCCAAATGTAG CATAAGACGTAGTCATTGTTGCAAGTTTGCAACTGTGCTAGGCATTGACAGTTGACACATTTAAATTTGATCAGCAATAA TAAGATTTGCAGTAATGTGATATTTTAATGTGGTCTTTTATGCTTCCGTACTCTTGATACTGAAATATTTTGAATAGTTG ATTAATTTAGAAGTAGAATATTCATAGATTAGGTTTCTTGAGGTTACCTAATCAACTACAAAGTCTAAACTATAAAATCT TATCCTAATATATCATAAGTTATAACAGAACAATATATCTTATCCTAACAATATCTATTATTGTAATCTATAATAAAAGA ACAATATATCGTATCCTAATCTGTCATAATAGAACCTTAATATCTCTTCATGCACAAACAACAGAGATAATTTTTTGTTA TGTTTTGACGATTGCTGTTGGTGTATATGTTAAGGTTATTGGTAGTGGGCTTGCACCAGTAGGAATAATTGACCTAATTA GTAATATTTGAGTCTGTTGGAGGCAAGCTGTGTCAATGGTGTGTGAGGAAACTAGTCATTTCTGACTGCATCTGGGTGAC CAGTATTTTTCTTTCAACCAGGGTGGCAACACTTAAGGACTTCCTTTTGACAGTGTGTCACAATGTTTGGTCAGGGACTT AGCCCCAAATTATGTTACTAGGTGGTGTGATACCTGACTTAGTGTTTTGGAGATCAATTTGGAGGTTGAGGGGGCTGCTG AGGAGAAAGGTTGAATGCTACAATAACTATCTTATTTGATTTGGGTGTGTCGCTAGGTGAAGTTTGGAAATATCTTCTAA GCACATTGCCAATTTTTATGATTCAGTGGGAGTACTGGTTTCGTGTTATTTGCTTTTAGTTTATGCATTTATTACTTGTA TTAAACTTAATGCTTATTAAGTTGTAGCTTGAGGGTAAGTGTTGAAATATATTAGGCCTATTGGTGGTGGTCTTTGGTTT GTGATAGTAGGACTTGTACATTACTAATTTGGTGGAATAAATAGATACATTAGGTTATTGAGTAATTCCCTCCATCCTGT TAATGATATTGTATGTTATTTTTGTTATTCTCACTTATCCTTTTTCTGTAACTTTAAACCTATAATTCTTTAATAGTTAT AAAGTGAAAAAGGATGTAGCACAAAAACCATATAGCATTTTTATTTCATGTGATGCATGATCTGCATGTCACATTAAGAA ATAAAATTGTTTAGTAGTTTTAGGATACTAAATAAAATGGTCAAGTATTTTTTACAATTGAGAGGATCCATTTTCTACTA CTTCATGGTTGGATACAAAATAGTGGGATCATGTGCTCCAGTAACTAAGGGGGTCTGTGATTTGTCATTTGTTTTCTTGT TCTCATTTTTCTTTATAATTTCCTAAATATATCAATGTTTTCATTTTGATTCTGGTTTTCAAAATTTTATGAAGGAGCTG CTGAAAACAACAACTATTGGGCTCTGTTTGGCTACAGTTGTTGAAATAAACTTTTCCATTGTTAACAATAAATAAACAGA TAGGTTTATTTGGATAATATTTTTTACTATCAGTTCTAAAGATTATTCTCAAAACCTCAGTTTTGAATTCAATGAAAAAC AAAATTTCTTACCGTTCTTCCGGAAACACTAAAACGTAAAAATAGGCAGTGGCAATTGTTAAATGAAAGATTTCATCAAT TGCATTATTTTAATAGTAGCAACCTGTTATTTTTTTTCCCATTTTTGTTCTCTGCAGCAAGAAACTTCTCTTCTATTAGC CAGAGGCCCACCCCTTTCCATGCTTCCTCCATTTCCTTTTTCATATGACGGAAGCTCTGCCTGAAGTTTACCTTCATGGA TTTGTGCAACTACTGTGGTGCTACAGTGTATTCGAATATCTTTTAGACCTTTCTTCCAATGATGATTGGTGCAAGAATGC CAAATTTTGTATGGATTTGTCAAGGGCTGCTTCACTTTTTTCACTCTAGTAGAGCCATCAATGAAGATGGAGAGTTTTGC CCTCTTCCTTTCATTTTCCCATAACTTTAGAGTTTTGCCCTCTTTCCTTGTATGATTTTTTCGATGTTACTTTCTATTCC ATACATGCATCATTTTACATGTGTTAAGTTGTTAGGAAAACATATATTTTTATGACCAGTTTCCCAGCAATTTATTTTTT TAAAAATTAAAATCTATTATTTTCTTAAATAACCCATACATATATTTTCTAAATTTCAATTTTAAAAATTATTTCTAAGT TCCGTTGCAAACCATTTTTGAACACGGAAGAACAAATTGAACAGAAGAGCCCCATTGTTTTCTCTACTTCCTTTATACCA GTTTGAAAACAGGAATTAAAGTGAAACCTAGATGGCATTTATTTAATTATGGTGAGGACTTATCAATTGAAAATAGAAAC AGAAAACAATCCAAGCACCCTCTAATGTTGACTTATCTTATTTGTTAGTGTCTTAGATACTAATCTCTAGGTTGAGCACA TATCATCCCTTGTTGACGGTTTGGCATCTATTAGCTCTGTATTTGCTTGTATACTCTTGTTTCAAGTTCAACATTATATT TCACTCTTTTTTTATTCCTTATAGTATCTGATTTGTTTTCCATGCCGTTGTCTTATGGATAATATTCAAATGTCCAGGTG AGAGGTTCTCAGAAATTGTTGGAAGTCCATATTATATGGCTCCGGAGGTGCTAAAGCGGAGCTATGGACCTGAAATAGAT ATATGGAGTGCGGGAGTAATTCTCTATATCTTACTCTGCGGTGTTCCCCCATTTTGGGCTGGTAAATAACTTCATACAAT GCTAATTCCTTAAATTCCCACGGTGCTCTTTATGGATGCCATCCTCGACATGTGCATGAGCATCTTTGGACATTCTTGTG TGCCCCTGCTTTCTTTACTAATGCTAGCATAGTTGTATTTCTTATATTTTTAAGTTTGAGTGAAAGCTGACACTTAGAAA TGTTTGTGGACATGGCCATGTGATAGGTACTCACATATTTGGTAGTTGGTTAGAGGGTATTAATAAGGCATGTTGCCTTT AAATAAGGGAAGTTAGTGAACATTAGGGGTATCTTGGTATTCAGTTAGGAATTGGGTTAGAGAGAGAAGTGGTTCTCTCT TAGGCTTGGAAGGGTGTTTGGTATCCCTTTCTCTTGTATCTCTCCCTAGTTTCCAATTGGGAATTAGGGTTTTCTATCAA TAAAAATCAGGTTCTATCATTGGTATCAGAGCACCGATCTTGGTGCCTGAACCACAAATCTGCGCATGGAAGAGACAAAG AGCAAGCTGAGAATTTCAGAGGAAATTCAAATTTTTGGTGGAGATGAAGCTCTGGAATGGATACAGCGTTTGGAGGTTGT GCTGCGAGGAGTTTCAGAAGAAGAGAAGTTGCAGGCTTCAATGGAGGCTTTAGAAGGAAGAGCTCTTACTTGGTCTCGAT GGTGGATGAGTTGTAATCCCAATCCATCATGGGAAGGGTTCAAGATTGCAGTGGTGAGGAGGTTTCAGCCTTCCAAGTCT CAGAATCCATTTGAGTTGCTTCTTTCTCTGAAACAGAATGGAACAGTGAAGGATTATGTGGTTGAATTCGAGAAGTACGT CGGAGCTTTGAGAGGAATTGATCCCGAGTTTGTCACAGGTATCTTCTTGAAAGGATTGAGTGAGGAAATACAAGTGGAAG TGCGATCGGATGAATTTCACTCTCTTTCGGAGGTTGTTCAGAAAGCAATTCTGATTGAACAAGAAAGGAGAGAATCGGAG GCTGCAATCGAAGCGGAGCGAACAGCGGCGGCGGCATCGCCGAGAGGAATGGAGACCGCAGCGGAAGAAGAGCAAGTCGC AGCGGTGGCTGGGCAAGCATTTGAGGAAGAGGAAGACTCAACCTCTGCGATTCAAAACCTCAATCTTGAAACAGAGGTTA AAGCAAAGACAGGGCAAGAACGTGATTTCATGGGTGAACCATCAAATCTTGGATTTCCGTTGATGGTGATGGGCTCGTTT CAACGGCTGTCACCGACACCACCTGATGACGCAGTGCGATTGTTGCATGCGTCAGGGTTGTTGGGTCCATACCCTTGTAG GTCGCCGGAGGAGAAACAAACCACCGCCGGATTTATCGGTTGGCTGCAGTGAGGTCTTTTCGTTGCTGTTTGTTCAAGCT ATGAGGGAAGAGAAACCGAACAGAAGGCTGGGATGGAGAAGCACAGAGAGGGCAGAGGTCAAGGGTTGGATTTACAATCC AATTGGGCCAAGCCCAAATCTCAGATTGGAGAAATTGGGCCATACAGATGATTGGGTCCAGAGTAGTGGAGGAATACATG GTTATAATCATGAAGCTGGATACCAGATGACTTGGGCCAAGGAGTGTGAAGGCCATGTATGCTGGAAGTTTTCATCAGAA TTGTTTTTGAGAAGGGAAAGAGAGACATCAACCCTTCATACATGACTGAGGCTATTTGCTTCATGCTATGGGATCCAGGT GGAGGTTGTGCTTGCCATATTTGGATTGCTTGGATAGTTGTTCCATGCAAGGTAGTCAAATCGAGATACGTATCGTGTAT CGCTAGACCCTAATTCTGTGTCGCGTATCGTATGTAATGTGTATCGTAAGATACGGACACAAAAAAAATTAAGTCATAAA TTAAATAATATACTAATATATCATATGAATATAGTTCAAAATAATCAAAGATCCAAGTCATAAGTAGAAAAATAGTCTCA CAAAGTTCAAGTTCAACCTAATTTCGAGCCATAAGCCAAACTAAAGTACTAAACATCAATAAAATGACTAAATGCAAACA ATTAAAATATAATTCAAATTTCAAAGTTCAAACTAGTTAAATCAATCAATCATCCCCTAGGTCAACATCACAGGAGCAGC AAGGTAGCAATCTTGATTCATGAAACAGAGAAACAAGAAAACAACTCTGTGAATGGGTAGCAAGCGTGAAACAGAGGACA GAACAGGGGCAGCAAGCAAAAAAACGTGAATGGGCTGCGTTAGCAACTTAGCATCACTTTTTAGGTTAATATTTAATGAA ATTAAATGACCCACTTCCTAATTTCTAGGAGAAAAAAGATGAAACAGCATTTTTATCTGTTTTTTTTTTAAAAAAACTGA AAAAAAGCCTGAAACACGTTCAAAATTCAAACCGGGCCGCAGGATCCGACCCGGATCCAAGTTGTGTTCGTATCGCGCGA TTCAGTCCAAGAAACGATTCCGGCGATACATGTGCGATACCGGCAATACTAGGAGCGATACGAACACAAAAAGATACATG TATGGGATACACACACGATACTTGCGATACTGACTACCATGGTTTCATGTTGTAGCTTGTATTTTGTCCTTCACCTTGAG GACAAGGTGAATTTTCAGAGGGGGAGTATTGATAGGTACTCACATATTAGGTAGTTAGTTAGAGGGTATTAATAAGGCAT GTTGCCTATAAATAAGGGAAGTTAGTGAACATTAGGGGTATCTTGGTATTCAGTTAGGAATTGGGTTAGAGAGAGAAGTG GTTCTCTCTTAGGCTTGGAAGGGTGTTTGGTATCCCTTTCTCTTGTATCTCTCCCTAGTTTCCAATTGGGAACTAGGGGT AAGATACATGAGAGAGATACCAAACACCCTCTCTAACCCTAGAAAGAGAACCACTTCTCTCTCTAAACCCAATTCCTAAC TGAATACCAAGATACCCCTAATGTTCACTAACGACCCTTATTTATAGGCAACCCACCTTATTACTACCTTCTAACTAACT ACCCAATATGTGAGTACCTATCAATACTGACATGCTAGCAAGGTTATCATCTGACGATTTGTGTTTTCTTTTGATTCCTT TGTATTAAATGTTTTGTGCTCTTGAACTTAGGTCTTTATATAATTCCATCAGCCCATATGAAATCTTTTTATTATTACTT AGATGTTAATTCTGATGCATAATCTTTAATACTTTTTTCATTAATTTTGATGCAGAATCTGAGCAAGGAGTTGCCCAGGC CATTCTTCGAGGGCTAATAGATTTCAAACGTGAACCGTGGCCCAGTATTTCTGAAAGTGCTAAAAGTCTTGTTAAGCAAA TGTTAGAACCAGACCCTAAGCTTCGATTAACTGCCAAACAAGTGCTTGGTATGTTTATCTCCTTCCATGTTTATTACATT TTACTCTATGGAGCTTTTTGAATAGTCTGTTGAATACTGAAAATTTCAGCATTGAAATAATTGTGTTGTTTATTGTATAT TCTCCTAAAGAAAATGAAGTGAATAAGTGGATGAAACTATCCCCTTTCTGGTTTTAATAATTAAAGTATCTCCTTAACTT GGACTTGGACATGACTATGTGATTTTTTGCTGTACTTATTTTGAATCCCTATAAACTTCTTTCCTTATAGCTTTCATTTC ATGAACAAAAATGTAAAAAGGGAAATGAAGTAGATGTTTGAAGGAGATGGAGTTATGTAGTTTGTACAGACATTATAGTA ATGAATTGTTCTTAGTGATTTCTATTAGAAATTATTTAAGGTAATTATGATAGTGAATTGTCAGAATCAATGCATGAGTT TTTTGTTTCTCTTGTCTTGCAGAGCATCCCTGGCTCCAAAATGCTAAGAAAGCTCCTAATGTTCCTCTTGGAGATGTTGT CAAGTCAAGGCTTAAGCAATTTTCAGTGATGAATAGATTCAAAAGAAAAGCCCTTAGGGTCAGTTCTCTGCATCTGGTGA TGTCTTTAGCAAGTGCTTTTACTGTATATTAGAGCTAAGATTGTTCATTTCAAAACAGGTCATGGCTGATTTCTTATCCA ATGAAGAAGTTGGGGACATCAAAGATATGTTCAAGCAGATGGATAGTGATAATGATGGTGTTGTTTCCATTGAAGATCTA AAAGCTGGATCTCGTAACTTAGGGTCCCAACTTGCTGAATCTGAAGTTCAGATGCTTATTGAAGCTGTAAGAATTTATCA AGTTTCCCTTGTTCCTCTATTTTATTGCGTCTAGATTCTAAAGTTGTCACGTGCGACATCTCATAATTCTTCATATTATT GACCTACAAAAGTTGATATCTCATGCATACGAACATGTAAATGTGAGTTTAAATGCATGGGGCTCTGATATATTTTCTAG TTATCATTCAGAATGATCTTGTTCACTTATATCATTCTAAAACCAGTGCCTTTTTTTGTTCTTTATCACACTCTTGATTT TTCTTTTCCTTTCTTCCATGTTATTTGTCAAGCCATTGTTTGAGTGGTATACTAAAATATAATATTCCACCACCTTGAAT TTTTTGTCTTGTCTGTCATTCATTTTTTGTTGAATGGTGACAACAGGTAGATAATAATGGTAAGGGAACAGTAGACTACG GAGAATTTGCTGCTGTTACTCTTCATTTGAAAAAGATGGCTAATGATGAGCATCTCCGCAAGGCCTTCTCCTATTTTGAC AAGGATGGGAATGGATATATTGAACCAGATGAGTTACGGAATGCCTTGATGGAAGATGGAACTGATGACTGTACAGATGT AGCAAATGACATTTTCCAAGAAGTGGACACAGATAAGGTGAAGATCTGATAGTACTTTCATTACAAATAAGTCTTTATTA GGGAACTATACCTTCTAAAATTCTTGAACAATCACAGGATGGACGGATAAGCTATGATGAATTTGTGGCTATGATGAAAA CGGGAACGGATTGGAGAAAAGCATCTAGGCATTACTCTCGTGGAAGATTCAATAGCTTGAGCTTGAAGTTGATGAAAGAT GGTTCTTTAAACTTAGGAAATGAATAGTTGTTAATTAAGTGTTTGCCTATATTTGATCTGTCCCTCCAAATAGTGTAATA TCATCCTACATTCTGGACTTGGCTTCTTTGTGATGATTATTTGGTTCTTTGTTAGATAGGGTCTTTTCCCCTGGTGCGGT GTGAGTCACGAAGAAATGAGTACGCCAAAATATACATGCACTTGTTACTTCTGTTAAACATGGTGTTATGGAGCCAATGG TGTGACGTGTATGATTCTACTCGTTTTTACCTGTTGTATCAAAACTTTTTAGTGCAGTCAGAATGTGTATTAGAGTGAAT ATCTTGTAGCTTATCAAAAAATTTAAATCATGAATCCTTTTGATTCATCGATGACAAGGTATGCTGTAAATGGAAGTTGC TATATTTGATATCTCTGTACTATTCTCTGTTTTTTAAAATTGGGCTTATGCTTCCTTCCTTTG
CDS sequence (LotjaGi1g1v0442000.1) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGGGCAATTGCTGCAGATCCCCAGCCGCCGTTGCCCGAGAAGATGTCAAATCGAGCTTCTCCAACCACGATCACGCCAA GCGAGCCGCCGACGGAGCCACCGCCGGAAACAAGAAGCATCCGCCGGCGCCGGTGGCAGTTCTCGCCGGCGTAGCGAAAG AGAATATGGAGGACCGTTACTTAGTTGACCGCGAGCTCGGCCGCGGCGAATTCGGCGTGACGTACCTGTGTATTGATCGG GACACCAGGGAGCTGCTGGCGTGCAAGAGCATCTCCAAGCGGAAGCTGAGGACCGCCGTTGACGTCGACGATGTTCGCCG CGAGGTTGCTATTATGCGCCACCTGCCGCGGAGCCCTTCCATTGTGTCGCTCAGGGAGGCTTGTGAAGACGATAATGCTG TTCATCTTGTTATGGAGCTTTGTGAGGGTGGAGAGCTTTTTGACCGGATTGTCGCTCGCGGCCACTATACCGAACGGGCT GCCGCGGCTGTTGTGAGGACCATTGTCGAGGTTGTGCAGCTCTGCCACAAGCACGGGGTCATCCACCGTGACCTTAAGCC GGAGAATTTCTTGTTTGCGAATAAGAAGGAGAATTCGCCTCTCAAGGCCATTGATTTTGGGCTCTCCATATTCTTCAAGC CAGGTGAGAGGTTCTCAGAAATTGTTGGAAGTCCATATTATATGGCTCCGGAGGTGCTAAAGCGGAGCTATGGACCTGAA ATAGATATATGGAGTGCGGGAGTAATTCTCTATATCTTACTCTGCGGTGTTCCCCCATTTTGGGCTGAATCTGAGCAAGG AGTTGCCCAGGCCATTCTTCGAGGGCTAATAGATTTCAAACGTGAACCGTGGCCCAGTATTTCTGAAAGTGCTAAAAGTC TTGTTAAGCAAATGTTAGAACCAGACCCTAAGCTTCGATTAACTGCCAAACAAGTGCTTGAGCATCCCTGGCTCCAAAAT GCTAAGAAAGCTCCTAATGTTCCTCTTGGAGATGTTGTCAAGTCAAGGCTTAAGCAATTTTCAGTGATGAATAGATTCAA AAGAAAAGCCCTTAGGGTCATGGCTGATTTCTTATCCAATGAAGAAGTTGGGGACATCAAAGATATGTTCAAGCAGATGG ATAGTGATAATGATGGTGTTGTTTCCATTGAAGATCTAAAAGCTGGATCTCGTAACTTAGGGTCCCAACTTGCTGAATCT GAAGTTCAGATGCTTATTGAAGCTGTAGATAATAATGGTAAGGGAACAGTAGACTACGGAGAATTTGCTGCTGTTACTCT TCATTTGAAAAAGATGGCTAATGATGAGCATCTCCGCAAGGCCTTCTCCTATTTTGACAAGGATGGGAATGGATATATTG AACCAGATGAGTTACGGAATGCCTTGATGGAAGATGGAACTGATGACTGTACAGATGTAGCAAATGACATTTTCCAAGAA GTGGACACAGATAAGGATGGACGGATAAGCTATGATGAATTTGTGGCTATGATGAAAACGGGAACGGATTGGAGAAAAGC ATCTAGGCATTACTCTCGTGGAAGATTCAATAGCTTGAGCTTGAAGTTGATGAAAGATGGTTCTTTAAACTTAGGAAATG AATAG
Protein sequence (LotjaGi1g1v0442000.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
MGNCCRSPAAVAREDVKSSFSNHDHAKRAADGATAGNKKHPPAPVAVLAGVAKENMEDRYLVDRELGRGEFGVTYLCIDR DTRELLACKSISKRKLRTAVDVDDVRREVAIMRHLPRSPSIVSLREACEDDNAVHLVMELCEGGELFDRIVARGHYTERA AAAVVRTIVEVVQLCHKHGVIHRDLKPENFLFANKKENSPLKAIDFGLSIFFKPGERFSEIVGSPYYMAPEVLKRSYGPE IDIWSAGVILYILLCGVPPFWAESEQGVAQAILRGLIDFKREPWPSISESAKSLVKQMLEPDPKLRLTAKQVLEHPWLQN AKKAPNVPLGDVVKSRLKQFSVMNRFKRKALRVMADFLSNEEVGDIKDMFKQMDSDNDGVVSIEDLKAGSRNLGSQLAES EVQMLIEAVDNNGKGTVDYGEFAAVTLHLKKMANDEHLRKAFSYFDKDGNGYIEPDELRNALMEDGTDDCTDVANDIFQE VDTDKDGRISYDEFVAMMKTGTDWRKASRHYSRGRFNSLSLKLMKDGSLNLGNE
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 | 521 | 521 | 0.0 | – | |
PANTHER | 1 | 521 | 521 | 0.0 | – | |
MobiDBLite | 15 | 42 | 28 | - | – | |
MobiDBLite | 17 | 34 | 18 | - | – | |
SUPERFAMILY | 51 | 343 | 293 | 2.02E-85 | ||
CDD | 59 | 317 | 259 | 6.51149E-135 | – | |
SMART | 60 | 318 | 259 | 3.6E-97 | ||
ProSiteProfiles | 60 | 318 | 259 | 47.41 | ||
Gene3D | 60 | 143 | 84 | 5.2E-158 | – | |
Pfam | 62 | 318 | 257 | 5.8E-74 | ||
ProSitePatterns | 66 | 89 | 24 | - | ||
Gene3D | 144 | 323 | 180 | 5.2E-158 | – | |
ProSitePatterns | 180 | 192 | 13 | - | ||
Gene3D | 324 | 497 | 174 | 5.2E-158 | – | |
SUPERFAMILY | 347 | 525 | 179 | 7.74E-45 | ||
ProSiteProfiles | 361 | 396 | 36 | 12.728 | ||
SMART | 365 | 393 | 29 | 0.0028 | ||
Pfam | 366 | 425 | 60 | 4.9E-9 | ||
ProSitePatterns | 374 | 386 | 13 | - | ||
ProSiteProfiles | 397 | 432 | 36 | 9.213 | ||
SMART | 401 | 429 | 29 | 0.75 | ||
ProSiteProfiles | 433 | 468 | 36 | 15.378 | ||
Pfam | 436 | 499 | 64 | 5.9E-15 | ||
CDD | 437 | 499 | 63 | 1.27245E-19 | ||
SMART | 437 | 465 | 29 | 1.3E-5 | ||
ProSitePatterns | 446 | 458 | 13 | - | ||
ProSiteProfiles | 469 | 504 | 36 | 14.151 | ||
SMART | 473 | 501 | 29 | 2.2E-6 | ||
ProSitePatterns | 482 | 494 | 13 | - |
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 | Calcium ion binding | Interacting selectively and non-covalently with calcium ions (Ca2+). | ||
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 LotjaGi1g1v0442000.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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