Your browser is unable to support new features implemented in HTML5 and CSS3 to render this site as intended. Your experience may suffer from functionality degradation but the site should remain usable. We strongly recommend the latest version of Google Chrome, OS X Safari or Mozilla Firefox. As Safari is bundled with OS X, if you are unable to upgrade to a newer version of OS X, we recommend using an open source browser. Dismiss message
Field | Value |
---|---|
Gene ID | LotjaGi5g1v0156800 |
Transcript ID | LotjaGi5g1v0156800.3 |
Related isoforms 3 | |
Lotus japonicus genome version | Gifu v1.2 |
Description | Kinase family protein; TAIR: AT2G20470.3 AGC (cAMP-dependent, cGMP-dependent and protein kinase C) kinase family protein; Swiss-Prot: sp|Q6TGC6|CBK1_PNECA Serine/threonine-protein kinase CBK1; TrEMBL-Plants: tr|A0A072VLK6|A0A072VLK6_MEDTR AGC kinase; Found in the gene: LotjaGi5g1v0156800 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr5:40554814..40565997) extracted from Lotus japonicus Gifu genome v1.2.
ATGGATTCTGCAAGGAGCTGGCTTCAGAAGTTCCAGCCTCGAGATAAAATGAAGTCAAAGAAGAAGGATGAGGATGGTGG TGGTGGGGATCGAGATTTGAGTGCACCCGTGGATGAAGCGTCTCTTTCGAGTGACACGAAGCAGAAGGTTGCAGCGGCAA AGCAGTATATTGAAAATCATTACAAGGAGCAGATGAAGAACCTTCAGGAGAGGAAGGAGCGGTATATGATTCATTGTACC TATGCTCTTAAAGTTTTTAATTTTTGTACATCAGAAAACATCATCAAGTCATCTCACTCACTACTCATTAGTCTCCAAAG CCAAACCACTTGTATATAGATTTTTGTGAGCAGTTTCTCTGAGATTCCCTATTTCTTAGAGGTCATGAGGAGGGGGAAAA TCTATTAGGTTTGGAGATTTGAGAACCAATAGATCAGAAAAACTGCAGCAATATTTCATTTTTCTTCTTTTTTATGAAGT TCTTTTGTTAAGTATGTGAAGAGAACTAACTTTGTCGATATTTGTTTCATGTTTTTACATCATTTTGGACTTAGCTCTAT AAATATTCTGATATTTTCCTTCTGGTGTTACCGTTGCACTTTTCTATTACCACATCATGATTCACATAAGTACAACTGCA AGAGATGTTAAACTTGGCACCAGACAGTAGAGGTTAACCGAGTGCGACTTTGAAAAATAAAGATCCCTTATGCCTCATTT TGAGTTCAGTTTTCTGAGAACATTTTTCTTGTAACTCAAATTTGGGTGGGCCCTGTTATTATATCTTCCTCCATAAGTTT TGTAACCCAAATTTGCATTTTTTAAAATAAAAAACTATCTAGTAATGTGCACATTCATTTACTGGGATTAATAATAACAC TCTATTTTGTTCTTAAAAGGAGGGAGGATTCATGAATCCTAGGTCATTGGCTCATAATATCACAGCTCTTGTACTATGGA AACTATGAAGTTATAATATTTTAGTAGTTTGGGAATGTATTATTGTGGAAGATGGATTCCTCTCAATATTCTGTTCAGTG CATTAGTGATGATTTCATATTGATTATTACTTATTCCTCTCATAGGTTGAGTGTGAAGCATGTAAAAATTGCTGGAACTG AGTGTCATCTTTGCTTGATTTTCAGTATATACTATCTAAGTTGCTTTGACAAACATGTGAATTTTTTTATGACACCTCAC TTGCTTATAACAGGCGAACCTTCTTGGAAAAGAAGTTGGCTGATGCTGATGTCTCTGAAGAGGATCAAAACAACCTGCTT AAGTTTTTAGAGAAAAAGGAAACTGAATATATGCGCCTTCAGAGGCACAAGATGGGGGTTGAGGATTTTGAGTTATTGAC TATGATTGGAAGAGGTGCATTTGGGGAGGTAAGTAGATGATTTTATGTATAATGAGAAATTTGACATGACTTATTATGCT TTCTTCTTCTGACTTATGATTATTTTATCGTATGTGTAAATTGAAATATAATGGTGGATTATGTTACACTGTCTGCATCA AATTAAAAATTGATTTGTTTTTCCATGGGCTTCTTTGGTTAAAATATGCATACTTTTGTACTTTAAATCAATATATGTGC GTATTACCATTCAAGTGATTTTGAAGGGATATACCAATCACAGAGTAAAATATTGCAATGGGAAATGTGGGCAAATAGAA AAAAGCATAAAGGCATTTGTAATGTTTATAATAATAATAATAATAATAATAATAATTATAATAATAATAATAATAATTTC TTGGGATATCATTATTTTTTCTTCATAATAGCTTGGAATATATTACAGTATTATATCATGTGTATAATTTGGGACAGTTG GCATTACCCCTTCGTAGATGGCTAAGATACCAATATCCTATTGCTAGTCAAAATTTTCAATTGGATTTCACATTTTACTC TACAATTAATATTGCATCCCCCTCTCACAATATAACCTTGCTACTTTGTTGGAATGTGATTACAATATAAATGAAAGAAG TTATTTTCTCCTCTCTCTCTGATAAGAACCTCGAGAGAACCATACCACAAAAACCAGTTGTTGTAGTTGGAGAGCCCAAG GCCTTATAAAATCCCACACCCGGTTCCCATACTTCCATTGTGGGACTCAAGTCCCACAACTTGTAATTAGGTCCTAACAT CCAATCACACTTGGCAGCCTCGGCACCCATGTGGGCTGGTTGCGCACTAACCCATGGTGGAAGACTCTAATATTAATTGA TAAAAACCTTGACCGAACCGTACTACAAAAGCTAGCTGTGGTGGGTGGAGAATCTATGGCCTTATAAATCCCACACCAGA ATTCCATGCTTTTGATGTGGGACTCAAGTCCCATTCCTTGCAATTGCATCCTAACACATAACACTCCCAAAGAAACTCCA AATTCAACTAGCTCAGTTGTGCTGAAGAGGCCTATGTTTACATATATGAGGACTAATTTCGACATGGAAAAACATGTAGT TTTCAAGATTGCATGTGCTGAAATACCTACTCTTGTTTTTGTTCTAGTAGTGAACCTGACAGAATCACCCAACTGATATT TTTCCTTTGTGTGTCTTTGTCTGTAAACAGTTTGATTCTACCTAAAATTTGAATTTGTTGCAGGTCAGAGTCTGTAGGGA GAAGACGACTGGTAATGTATATGCAATGAAAAAGCTAAAGAAATCAGAGATGCTTCGCCGAGGCCAGGTATACCGTCATC TGCCTTGCTAGATCATGTTATTCCAAAGATTATCAGTTTTATGCCTAAGGTTGATAAAGTCATCATGATTCATAGTTGTT CCCTGTTTTGTAATTTTTTTTTCAGGTTGAACATGTCAAAGCGGAAAGGAATCTCCTTGCAGAGGTTGACAGCAATTGCA TAGTCAAACTTTATTGTTCTTTCCAGGATGATGAGTATCTGTATCTTATCATGGAGTATCTACCGGGTGGAGATATGATG ACTCTACTTATGAGAAAGGATACCTTGACTGAAGATGAAGCCAGATTTTATGTAGCAGAAACAATTCTGGCTATTGAATC TATACACATACACAATTATATACATAGGTATATACATTTTTCAGAGTAATAATGTTTCATCAGTTAGAATATATATAACT ACTTTTTGTGGGGTTTGCTTCTAATGGAGCCTAGTGCAGCCACATTAACTTACTGTTAATATTATAAGTCTTATCATGGT TGCTACAAAAATATTTTCAAAAGGATCCAATGCTGAAAAGTGTTTGAACTTTGATGTATGAAGTCTTGTTTATCTGACTG TATGCGCTTGTGTTTGAAACTAAAGCAACCTTAGTCAGTTGTACAATATAAATTTATTTTCAATATTTTGTGTTTCAGGG ATATCAAGCCTGACAACTTATTACTTGATAAATACGGGCACTTGAAACTGTCAGATTTTGGACTTTGTAAACCATTAGAT TGTAGTACACTTGAAGAAAAGGATTTTTCCGGGGGTCCGAATGTGAATGGATCTACACAGAATAATGAGAGTTCAGCTCC AAAACGTACACAACAGGAACAACTGCAAAACTGGCAAAAAAACAGGAGGACACTTGTAAGTTCACTGCTATTACATTTTG GTCTCTTTTTATTTATTGTGACAATGCATGTAATTGTAAAACTTGGCCTGGTATCTAGTGAAATATTAAAGTCATGTACT GATAAATTGTACCTGTTAAAATTCCCCTCCGCCTGCCCAAGCAAAAATGAGAAAAGAAACAAAATAATGGCCGGATTCTA CTGTTGAGAGTATCTGTATGGAAGATAACTTTCTGGTAGCATACCTTCTACTACACTTTTCTTTCTATGCTTCTAATTGT GAATGTATAAATGTTGCAGGCTTATTCCACAGTGGGTACACCAGATTATATTGCTCCAGAAGTTCTTTTGAAGAAAGGTT ATGGAATGGAGTGTGATTGGTGAGTTTGGTGCATGTGAAGTTAACATGTTATCTGATATTGATTTCTCTCTGCTCTTATG ATGCATGTATATCATGGTACGAAAGTTGGTTCTTTTCATTCATTCGAGTGATCTTTTCTATAAGTTTCAATGTGGGTTGA CATTCAAATTTCTTACTTCTTTACTCGGAATGCTGTTTGGGACACTTTCATCTGTTTTATATTTCCCATTTAAATGTTCT GAGAAATGAGAACACATTGGTTTTAACCGTTAACTTTATTTATCTGGATTTTGTGAATAAACTCCAAAAGATCAGGTTTT ACATATTTTATTCTGACACAACAATGGTTGCTATTAAATTTACAGGTGGTCACTTGGAGCTATTATGTATGAAATGTTGG TGGGATATCCACCTTTTTATTCTGATGAGCCAATGGCAACATGTAGAAAGGTAACCTTTCTGATAGAAATGTTTCTTGCG ACTGACATTTTTTTGACATTCATTGTTATTCTATAACCCTCTGCAGTATACTTTTACCATTCATGATGACCTCTGCAGCT TTGCATTTGATTTGTAAATTTCAGTTAAGCCATTTGTCCCTTTTCTTATATTTTCAATCAAATTCTATCATTTTAACATT GAATCTGTCTAGATTGTTTATACTCCTTGATAAGTACTGATTGATATATCCGATTTTTATTTGAATCAAACTCTTGACAT GTTTGGACTTTGGCGTTCTTAACTTCTTTGGATAGGATTTACGTAATACCTAGGATTATACGCAGACAGAAAGTTCTCGT GTTGTGATCAGTGCTACTTGAATGAAATATTCGGGTTTATTATTCTATGGAACAGTACAATGTATATACAAGAGTAATCC CATAAGTTTAGGGATAACAATCAACTAAAGTAAGCAAATAATTTATCTACCCTAAATAAGGAAATAAAGATATAAATCAT TTACAAAAACATAATCATATCCCCTAAATATATTTACAGTATCTCAACACTCCCCTCAAGCTGGAGCATATAAATTGTTT GCATCAACTTGTCACATATATGTTTCTAGGACCCAGTAAGGACTTGGTAAAAATGTTAGCCAGCTAGTCTTTAAAGCATA AAAAAGAAGTCTTGATAGTAGCACAAAGAATCGTCTCCCCGATGAAGTGGCAGTCAGGCGGTGGAGCAGCTGCTACAAAG TAAGGTTTGCAACTAAAGAATGTAACATCTGCGGAAATGTAGAACCGATGTGTGGTAGGAGAGTAACACCTATCCCGCTT TTGGACATGAGAGTAACCTAAAAAGACACATTTTATAGCCTTGTGATACATCTTATCATGACCTGGTGAAAGATCATGAA CAAAACTAACTGAAGACACGAGGAGGAACACAGAAGGGAGATTCCCTAGGATGAAAGATGGAATGAGGAATCCGATTTTC CAAAACAGATGATGACATCCGATTTAACAAATATCCGACATTAAGAACAGCTTCACCCCTTTATCAATAAAGTACGATCA ATATCCACAATATGTGTATGTTTTCTTTCCGCTTCCCCATTTTGTTGGGGTGTATGTGGACAACTTGATTGATATATGAT GCCATGAGACTTCATAAAAAAGAATCAGAAAAATATTCCGTACCATAATCACTCCGCAAAACATGGATTTTCTTATCAAA CTGGGTTTCAATTTCATACAAATTTTTTGAAAGACACTTAACAACTTGGACCTATCTTTCATTAAACATATCATAGTACA CTGAGAAAAATCATCAATGAAAGTGACATAATTCCTATATCCGATAGAAGGAACACAACTTGGACCCCTAACATCAGATT GAATGACATCAAACGAACATAAAACCCTCTTATTGACACTACTAGGAAAGGATGGCCTAACATGCATCCCAAGCTCACAT GACTCGCACTCCAAAGACTCCAACTGGGATAAGTAAAACACCATCTTCAATTTATCCAAGCTTGGGTGTCTCAGACGACA TTGAAGGAAGCCCAGAGACTTAGGGACAACACATATTGGAGAAAACAATTGTTGTAAATGATAGAGATCATGACTCCAAT CGTCCGTTATTTAGGTAAGAGGATAAATCAAGATCATTCATCTGACGTGTTGCCAGGTTATGCACTGACTCATATAATAT AACCTCTGGATATCATTAGCATAGTTGTTATTAGCCTTCTTTCACACATCATAACATTTCTGATAGGGATGAAAGTGAAC CATTAGTCTGTGTTCAATTGCCTACCGTAATAAAGAAACAATTTGATAACTAGCCCTCTGCCATTCATCCTTTTCAGAAG CATCAATATCAGCACCCTTTTTTGTAAGGTGCTCTGACAATCCTTGGCCCAAAATAATTAGCCCCATTCAAGTTTTCAGA AGTGATAACAGGAGACCCATAAAAAAGCAAACAAGATGAAACTCTTCTTGTCACCCTAAGGAGGATTATTCTTCGAGGAA TCAGCCATGAGTAAGATCAGAAATGAGAAAACAGCCCCAAACACAAAGGACTGTAAACCAAACAACAGAAAACAACCTGC AAACAGAGGACCCACTGACAAAAGTGGGCCAAAACAGAACCGCAAGGAGCGACGATCACAGCGGTGAACAAAACGGCGTC TGGCAGGGTGGCGCAGGCAAGGGGGAGAAATGGCGGCGTCAGTAGTCTTCACTGATTGAATGTAACAATACTTTTATTTT AAGGAATGAAACTCGCATTCTTATAGGTCATGCGGCATAAATTTTAGTGCATATTGTTTGTCATTAGTTGATATCAAGAG CATGGTAATTGGAAAAGGCTGTTGAAATGACAAAGTACACCTGGAAGCTAACCATTTCATTCAATATTTTCTATTCATGT GTTAATAGTCAAGTTTTTTCTTTCCCTTTTGGATTTAGCATGGTATTTTTTTACGTTTCAGCTGGTGTATTTATTAATTG CAAAATTGGATTAGGATTCTCTAAAATTCTAAGCACACTTTCTGTAAAGTGGATAGTGGATCATCATTGGTATTAAAATG TCAATACTTTATATATCGTTACCGGTGATGGAGGCTGGTAGGAAGCTGGGTTGCGATGCGATAGGATCCCGTTTGGTTGA ATTTGCCGCTATATCTTGAATCCCGGTGTAGATTGATGAGGCTACGGTTGCTTCCCGGCCTAGCGGTTTGCTTTTCTGTT TTGGTTTTGCTGAGTTTTTCTCGCGTCCAGCATCTGTTGCCTTTGTTTGGTGGTGGAAGCTGGGTCGCTTGAGGCGGCGG TTGTTTTCCGGCCTCAACGATGAGTTGTTTGGAAAAGCTGTAGGTATTGGTTGATTGGTGATGGTTATTGTGGCTGGTTT ACTGTTTTAAGGATTATGGGATGATTTGTTTTTGGCTTGGGTCTGATTTCTGTTTTGGCTTGTATCTGGTTTTGGTTTTT GATTTTATTTGGGATAGATCTTTTCTTGTTTCTTTGTGGTCTTTGTTGGATTTTTTCGGAATTGTCCATGTTGAGAGGAC TTGTTCTCAACACTCTTTAATATCAATGAATTTTGCTTATCGACAAAAATAAAGTAGAACCAACCTCATGCAATTCATGG GTTTTCAGAAACTAGCTCCTTTGATTTTCTCATCAATGGCTATCCATAGGAAAGTGAAACCTGCTCGCTAGACTAGCCAA ATCCTACAAACAATAATTTTGGGGGTTTTTGCAAACTTTATAAAGTATGACAATTTTATCTTGGTTTCTCTTTGTCACAG ATAGTGAACTGGAGATCTTACTTGAAATTTCCTGAAGAAGCTATGCTATCCCCAAAAGCTAAAGGGCTTATTAGTAGACT TTTGTGTAATGTCAACCAGAGGCTGGGGTCAAAAGGTGCTGATGAAATAAAGGTGTTGTACGGTGTGTCCTTTTCTAAAT TCTTTGATTTGTTATATCATATATTTGGATATTGAGTTTACCTTTGTGGTGGATTTCTCTTCAGGCTCATGCCTTCTTCG AAGGTGTTGAATGGGATAAGCTGTATCAAATGGAAGCTGCATTTATTCCTGAGGTCAATGATGAGTTAGATACTCAGAAT TTCGAAAAGTTTGATGAGGTCTCTGAACCTATCATTTTCTCTCTTATTTTGTGTACTTACTTGTCTTCCATTTTCCATAT TGAAATTTTCTCATTTTACCTTTTGCATCTGCAGACTGACAACCAAAGTCAATCATCAAGAAGAGCTGGTCCATGGAGGA AGGTAATCTCAGGCATTCCTTTCTCTGTTAGAAGTTGTCACCAAGTTATTTGTAGAGTTGATGTCTGCATAACCTTTTGT TGGTTGATATAGTGATGACATAGTATGTTGTTTCTGTTCAACTCATAAGATTTTGCAATGTCAGGAAGAGCAGAGAAAAT CATTTAGTTATTGTTGTATTTTTGAGTTACTGCCTAATATGCTATGTCTCTGGTGCTTTGAACGTTAGTTCTCTTTGACT TTCATTAATTCGCTGTGAGTAGGCTGTTGATATTCCGTCTAGTTGTTATGAGTTAAATTGGTGTTTGAGAAGGTATAAAC CATAGGTTGGGCCATGGTAATAGGAAATATCTTGCAAAGTATTGGACTGGATTGGGGTTCCCATGTGAAAAGTTTAAGGC TTAATCACACTTTTGGTCCCCCACGAAAGCGATATGTGCCATCGGGGTCCCTAAACTTCAAAAATCACATTATGCATCCC CAACGTTAATCTCCGTTAACAACTTTGGTCCCTCCCCTCCTTTCCGTTAAAAACTAACGTTTTTTTTGCTGATGTGGCTT TTTTAATTTAAATTTGAAATGAATTTTTTTTTTATATTAATTCCTCCTCCTCCTGCAACATGTTCTTCACCATCTTCATC TTTTCTTCATCAGAACCCAGAACCCAGAAACATTATCTTCAATACTGTTCTGATTTTTGTTCAATTACCGACAGCCCAAA ACTCCAATTCCAGAACCCAAAATTCCCAGGTTCCTCCCACCTCTCCAATCCCTCCTCACCCAAATCACCGTGAAGCTTCT CGCTTCTCCAAGACGCAGAACAAGCAAAACAGAGACACGAGGTTCTTTGCTCTCCAACGCCGTTTGAGTCCTGACCACCT CCACCGCCGCGTCAAGGCCCAGGTCTTCCGCAAGCTCCACCGCAAGAGAAGAACCCAGATCAGACCCCAATACTGTTCTG ATTTTTGTTCAATTACCGACAGCCCAAAACTCCAATTCCAGAACCCAAAATTCCCAGGTTCCTCCCACCTCTCCAATCCC TCCTCACCCAAATCACCGTGAAGCTTCTCGCTTCTCCAAGACGCAGAACAAGCAAAACAGAGACACGAGGTTCTTTGCTC TCCAACGCCGTTTGAGTCCTGACCACCTCCACCGCCGCGTCAAGGCCCAGGTCTTCCGCAAGCTCCACCGCAAGAGAAGA ACCCAGATCAGACCCCAAAACCCAGATTCGAAACCCAGATTTGCTAACCCCTGAACCAGATTCATGGTGGTTGGGTGATG GTTTTGCTGTTTTTTTATCTAAAGAGGTTTGGGGGAAGCGAACGAAATGCAAGGCGAGGAATGCAACCATCACCATCTTG ACCCCTGAACCAGATTCATGGTGGTTTGGTGGTTGGGTGATGGTTTTGCTGTTTTTTTATCTAAAGAGGTTTGGGGGAAG CGAACGAAATGCAAGGCGAGGAATGCAACCATCACCATCTTGACCCATAAACTGAACAGCATCAGAGGCAGTGCAAGCAG TAGAAGAAGACATGAGAGAAGTGCAAGGCGAAGAAGAAGACAAATCAGACGAATCCATATCCATCGAAGTACAGCCCTCT GAAATCAGCAACTGCGAGTTAGCACCGAGCAGTGGAATCAAATCGAACGGGGAACTAAGGGGTTTTGTTCCTTCAGCAAT AAAACCCGATCAGAAGGTGGCTGGGCATTCGGATCCAAAGCGAAACTCTCTGATCGGCGGCGGCGGAGGCGATGGAAGGA TGGATCTTCTTCTTCAACAGAGAACCGCGACATCTCTTCCTTCTTCTCGAAACAGAGCATTGGAGAACGGTGAGGATAAT TAGGGTTGGGTTTGGGGGCGAAGATGAGGGTGTGGGAGATTTGAGGATTTTTAAACATAGAACACCACCTTCTACTGGAA CAATTGACCCAAAGCATTAATTTTCTTGTTCAGATCTAAGGTAGAGGGGTTGATGAAGGAGATGGGCATGATGAATTTTC TGGGTTCTTATTTGTTTTTTTATTTTTTAATTACTTTTTTTGGTTAATTACATATTTGTCCTTAGAAACGTTAGTTTTTT GACGGAAAACTGTCCGGGGACCAAAGTTGCTAACAGAGATTAACGTTGGGGATGCATAATGGGATTTGAAGTTTAGGGAC CCCGATGGCACATATCCATTTCGTGGGGGACCAAAAGTGCGATTAAGCCAAAGTTTAATTGGTTGTCCTTTTCACTTATC TCTTCTTCAGGCTCTTGATTTGAATCATGTCTTGGTACTGCATTTACAATTTCTAAGTTCTAACTACAATTATACTCTAA AAAACAAGAGAGCACTTTTGTCTGAATTCTTAGGAAGCTTAGTTATGACTTGGCTAGAAGCCTAGAAGTGTGTATTGTTG GGAATTTTTATTGGAGGGAATACTTTTCACCCCTTAATTAAAAACTTGGTATGTTTAACTATCTGTTATTAGTGGCCAAC AGATACATCTTCCTCAAGTTGCAATCGTCGGTTATCTTGTAACCGACACATGTAACAAATTGTTTAAAATATTTTTTCTT GTTTTAGTATAATTCCGAATCTTCACATTTCGATGTTACTTGCAGCTGTTCACCACACCTATGCATTTCCTATATTTTAT TCTACCTTTTTAATTTGTTGGGATGTTACAGATGCTTTCGTCCAAGGACTTGAATTTTGTTGGATACACGTACAAGAACT TCGAAATTGTCAATGATTACCAAGTTCCTGGGATGGGTATATATCTCTTTTCTCCTTATTTATGCATAATATTTTATGTT TATGCTCCAAGGTTCCATTTTAACTATGAGTGGCTGTTATGCTTTTTTGACTTATATGTCTTTTATTATAAGATGGATAT TTATAATCAATTTTTAGAGAATTACTATTAAGGAATTCCTCTTGAAGATGTTTCCTACGAACATTAGCCGAAAAAAGTTA TTGTTGTCAGTAAATGATTAATGCACTAAAATATTAACATGGTTATGTACCAAGAGTTCCTTGA
CDS sequence (LotjaGi5g1v0156800.3) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGGATTCTGCAAGGAGCTGGCTTCAGAAGTTCCAGCCTCGAGATAAAATGAAGTCAAAGAAGAAGGATGAGGATGGTGG TGGTGGGGATCGAGATTTGAGTGCACCCGTGGATGAAGCGTCTCTTTCGAGTGACACGAAGCAGAAGGTTGCAGCGGCAA AGCAGTATATTGAAAATCATTACAAGGAGCAGATGAAGAACCTTCAGGAGAGGAAGGAGCGGCGAACCTTCTTGGAAAAG AAGTTGGCTGATGCTGATGTCTCTGAAGAGGATCAAAACAACCTGCTTAAGTTTTTAGAGAAAAAGGAAACTGAATATAT GCGCCTTCAGAGGCACAAGATGGGGGTTGAGGATTTTGAGTTATTGACTATGATTGGAAGAGGTGCATTTGGGGAGGTCA GAGTCTGTAGGGAGAAGACGACTGGTAATGTATATGCAATGAAAAAGCTAAAGAAATCAGAGATGCTTCGCCGAGGCCAG GTTGAACATGTCAAAGCGGAAAGGAATCTCCTTGCAGAGGTTGACAGCAATTGCATAGTCAAACTTTATTGTTCTTTCCA GGATGATGAGTATCTGTATCTTATCATGGAGTATCTACCGGGTGGAGATATGATGACTCTACTTATGAGAAAGGATACCT TGACTGAAGATGAAGCCAGATTTTATGTAGCAGAAACAATTCTGGCTATTGAATCTATACACATACACAATTATATACAT AGGGATATCAAGCCTGACAACTTATTACTTGATAAATACGGGCACTTGAAACTGTCAGATTTTGGACTTTGTAAACCATT AGATTGTAGTACACTTGAAGAAAAGGATTTTTCCGGGGGTCCGAATGTGAATGGATCTACACAGAATAATGAGAGTTCAG CTCCAAAACGTACACAACAGGAACAACTGCAAAACTGGCAAAAAAACAGGAGGACACTTGCTTATTCCACAGTGGGTACA CCAGATTATATTGCTCCAGAAGTTCTTTTGAAGAAAGGTTATGGAATGGAGTGTGATTGGTGGTCACTTGGAGCTATTAT GTATGAAATGTTGGTGGGATATCCACCTTTTTATTCTGATGAGCCAATGGCAACATGTAGAAAGATAGTGAACTGGAGAT CTTACTTGAAATTTCCTGAAGAAGCTATGCTATCCCCAAAAGCTAAAGGGCTTATTAGTAGACTTTTGTGTAATGTCAAC CAGAGGCTGGGGTCAAAAGGTGCTGATGAAATAAAGGCTCATGCCTTCTTCGAAGGTGTTGAATGGGATAAGCTGTATCA AATGGAAGCTGCATTTATTCCTGAGGTCAATGATGAGTTAGATACTCAGAATTTCGAAAAGTTTGATGAGACTGACAACC AAAGTCAATCATCAAGAAGAGCTGGTCCATGGAGGAAGATGCTTTCGTCCAAGGACTTGAATTTTGTTGGATACACGTAC AAGAACTTCGAAATTGTCAATGATTACCAAGTTCCTGGGATGGGTTCCATTTTAACTATGAGTGAGAATTACTATTAA
Protein sequence (LotjaGi5g1v0156800.3) extracted from Lotus japonicus Gifu v1.2 Proteins.
MDSARSWLQKFQPRDKMKSKKKDEDGGGGDRDLSAPVDEASLSSDTKQKVAAAKQYIENHYKEQMKNLQERKERRTFLEK KLADADVSEEDQNNLLKFLEKKETEYMRLQRHKMGVEDFELLTMIGRGAFGEVRVCREKTTGNVYAMKKLKKSEMLRRGQ VEHVKAERNLLAEVDSNCIVKLYCSFQDDEYLYLIMEYLPGGDMMTLLMRKDTLTEDEARFYVAETILAIESIHIHNYIH RDIKPDNLLLDKYGHLKLSDFGLCKPLDCSTLEEKDFSGGPNVNGSTQNNESSAPKRTQQEQLQNWQKNRRTLAYSTVGT PDYIAPEVLLKKGYGMECDWWSLGAIMYEMLVGYPPFYSDEPMATCRKIVNWRSYLKFPEEAMLSPKAKGLISRLLCNVN QRLGSKGADEIKAHAFFEGVEWDKLYQMEAAFIPEVNDELDTQNFEKFDETDNQSQSSRRAGPWRKMLSSKDLNFVGYTY KNFEIVNDYQVPGMGSILTMSENYY
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 | 48 | 48 | - | – | |
PANTHER | 2 | 495 | 494 | 0.0 | – | |
PANTHER | 2 | 495 | 494 | 0.0 | – | |
MobiDBLite | 9 | 32 | 24 | - | – | |
Coils | 61 | 81 | 21 | - | – | |
Gene3D | 90 | 202 | 113 | 9.1E-71 | – | |
SUPERFAMILY | 92 | 468 | 377 | 1.12E-85 | ||
CDD | 117 | 481 | 365 | 0.0 | – | |
SMART | 119 | 417 | 299 | 6.0E-103 | ||
ProSiteProfiles | 119 | 417 | 299 | 46.661 | ||
Pfam | 120 | 417 | 298 | 7.9E-62 | ||
ProSitePatterns | 125 | 148 | 24 | - | ||
Gene3D | 203 | 270 | 68 | 9.1E-71 | – | |
ProSitePatterns | 238 | 250 | 13 | - | ||
MobiDBLite | 276 | 305 | 30 | - | – | |
MobiDBLite | 280 | 305 | 26 | - | – | |
Gene3D | 309 | 435 | 127 | 6.5E-51 | – | |
SMART | 418 | 482 | 65 | 2.3E-7 | ||
ProSiteProfiles | 418 | 490 | 73 | 14.597 | ||
Gene3D | 436 | 480 | 45 | 6.5E-51 | – | |
Pfam | 436 | 480 | 45 | 2.9E-6 |
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 | Protein serine/threonine kinase activity | Catalysis of the reactions: ATP + protein serine = ADP + protein serine phosphate, and ATP + protein threonine = ADP + protein threonine phosphate. | ||
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 LotjaGi5g1v0156800.3, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
Loading expression data from ljgea-geneid. Please wait…