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 | LotjaGi3g1v0183500 |
Transcript ID | LotjaGi3g1v0183500.2 |
Related isoforms 6 | |
Lotus japonicus genome version | Gifu v1.2 |
Description | Serine/threonine-protein phosphatase; TAIR: AT1G08420.1 BRI1 suppressor 1 (BSU1)-like 2; Swiss-Prot: sp|Q9SJF0|BSL2_ARATH Serine/threonine-protein phosphatase BSL2; TrEMBL-Plants: tr|A0A061GVT6|A0A061GVT6_THECC Serine/threonine-protein phosphatase; Found in the gene: LotjaGi3g1v0183500 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr3:25705832..25716336) extracted from Lotus japonicus Gifu genome v1.2.
TTCTTGCAAATTGTTTCCTCCCAAGCTCCACTGATATTTTTACTACTTATGTTGCAGCCATTGGCTAGTGCATATGGACT TGCTAAGCATAGAGATGGTCGTTGGGAATGGGCTATTGCTCCAGGTGTCTCACCATCTCCAAGATATCAACATGCAGCGG TTTGATTCAGTTTCTTTTATTTTTTTCTCCATTTTTTCATAGTTGGGTATATGTTCAAGATTATGCTTAATTTAATGATT TTAGGTATTTGTGAATGCAAGACTCCATGTGTCTGGTGGGGCTCTTGGTGGAGGACGGATGGTCGAGGACTCATCAAGTG TTGCAGGTACTCAATCAGTGTTGCTTAATTATTTTTTGTTTGGTGACTGCTGCTCTGGGTTTCCTTGCAAAAATCTGGAT TGCATGTAATATAAGCTATTGTTCTTTATGCCTAACTCTGTATCTTCTGCCCCCACTCTAATGTGTTTATACATTTTTCA TTCGTCTACTGAAGAATGATTTTTTATTTGTGAAATAAAGAAAAAATTTCTCCCCCATCTTTTGGTGCTGTAACTTATTT TTACCAGTGGTCATGTTCTTGTATTAGTTTGTTTGTATGTAGAGGGAATATTTAGTCTTATTCCAAATAATGCTGTATTT TTTGTATTTTACCCATTTGTAGTATTGGACACTGCTGCTGGTGTTTGGTGTGATGCAAAATCTGTTGTAACCAGTCCAAG GACTGGTAGATACAGCGCTGATGCAGCTGGAGGAGACGCTGCAGTTGAGTTGACTCGGCGTTGTAGGCATGCTGCGGCTG CTGTTGGTGATCTAATTTTTATTTATGGTGGTTTACGTGGGGGTAAGTCATACATATAACATCTTATTGGTTCGTATTCT TGAATCTTGATATCATCAGATATTCTTATCAATCTATTTATGGCTATTCAGATAATTACCTCATGCTCCTTACATCAAAG CTTGAAATTCTTTTGTTATATTTGATTTACATGTTCGCATAATAATTTAGGTTGAATTTGTTTCTCTCTGTGTTTTATTT GGTTTGGGTGGCTTGAAGCAATAGGAATATTTGAGTCCTGGCTGTGATTTCGGTATTTAATTATTTAGACTTGTGCAAAT GGTAGAATGTGTTTTTGTCTGTAATTGATTGTATTGTACAAGTATCAGGATATAGAAACTGATTATGAAATGACCCAGTT AGTATGATAGCCTTGGCTCTGATGCTGTTGAGCAGATGCGTGTTTAGCAAGATGTTTTAGGAGCAATAGAGTTTGGCTTG ATGCTGTTCAGCAGATGCATGTTTAGCAAGATGTTTTAAGGAAATATAGAGTTGACCAGAGAACACTATACTCTTAAAAT GAACTTGGTATACCAGTCAACTAGGTCATTGTTGAGTATTGACTGCTATTGTATCGAATGAACAATCATGAGAGAGATTC CATTTGTCGTGTGTGTATATGTATATATATGGTACATTTTCACTTTGGGATTTCATACTGTGATCTCAAAATATGGATTT TGTCTTTAATTTACATTTCAAAGCTTACCAACTCCAAACACCATAAAAGTTGTTGGTGAGTTGTACAATGCATAGAAATT AAAGCACCAAAACTAACTAATAAATAATTATGTTCTAATTCTAGAATCCAGTTTCTCAATATATAACAAATATGCCTTAG AAAACTCTCGAAACAGAGAAGGAAGAAACAAACAAGGAAGTATCAGTGAATGGAGAACTCGCTGGAGAATCGAGACTCGT GAACAGAAGATACATCCTTGGAGACTTGCCAATGGAGCACGAGGAATGTGGTAAACTGTCCCACTCACAGGAGAATCATT CGGGTTGAAGTAGAAACAACCGCTTGAAGTTTTAGGGTTAGGGTATTAGTGAAATTGGGTAAAAAAGGGACACATTTAAA AAACTCAATTCAAATTTGGGTTTCTTATAAATCATTAATCAGGATTTTGCTGCAACTTTTGGGATTAAAATCGCCATTTC AGTGGGATTAAGCTGGATTGGGAATTTGGGATTAATCATACGGTCTAAATCGCAGGCCACCTACTCATCGCATGAGCATA AGAATTTGGGATTAATTTTTATTACCATACTCTGACCGATTCATCACTTCCATAGCTGGACTGACTTGAATGTATTGTGT TTTTGTTGCAGGAATCTTGCTTGATGACCTACTTGTTGCTGAAGATCTTGCTGCTGCTGAAACAACATCTGCTGCTTCAC ATGCTGCTGCTGCAGCAGCTGCATCTAATGTACAAGCAGGACACTTGCCTGGACGAAATGGCTTTGTTGATGATAGAACG AGACAAGCGATGCCTGAAGCGGCTGCTGATGGTTCTGTTGTATTAGGCAATCCAGTTGCTCCCCCAATGAATGGTGACAT TTATACGGATATCAGCACTGAAAATGCCATGCTTCAGGGACCTCGGTATGAGAGATGTTTTTATTCTCAGTGTGAAGTAT TTATTGTTACTTCTATGGATTCATTCATTTGAAATACTTTGAATAGGCAAACTGCCAAAGGAGTTGAGTATCTGGTTGAA GCATCTGCAGCAGAAGCTGAAGCTATCAGTGCCGCACTGGCTGCTGCAAAGGCACGACAAGAGAATGGACTCAATGGAGA AGTTGAATTGCCTGACAGAGACCGTGGGGCGGAGGCTACCCCAAGTGGGAAACACACATCTTCCTTGATTAAGCCTGATT CTGTTGGGTCAAATAACATTGCTTCTGGTGGAGTTCGGCTGCATCACAGAGCTGTGAGTAACATATTTTAATTACCAAAG AAAAACTATGGTATCTATAAATTTCCATAAAATATTTAGGCTTAAATGCTCAATTGGCCCCTGTAATTGTAAAGGGAATC AACCCTGGTCCCTGTAAAATTTTCGCATCAAATTGAGTCCCAAATATTTTTTTTTAATCCAATTAAGGACAAAGGGTGCC AGACGGTGATGTGGCTTGATTTTTAGCCTACTCAGCTTTTCCACGTGGCATTTTAATTTTTTTTAATTGAATAATTCCAA AACTTAATTTTGTAATTCCAAGTCATAAATTAAAAATAAAATAAAATCTTAATACAAAACCTAAACTAATTCCATTCCAT AAAACAATCAAACACTGATCATCAAACGAACACTAATCAATAATCATCAAATAATAGGTTCCAAAATGAAAAGTACCAAT TTTTTCCTATCATCTAGGAAAAATAAGATCGACCTCAAGAAAGAAAAAAAATCAACGTAAACGAATGAATTGGGGCACAA AATTACAACTTTTTTCACCTTCATCGATAATAAATTAACCTCAACAGAGATTCTAATAGCATAAGCATATTTTTGAGTTT GAGAACTGAATCCCTCCCGTTTTAAAACCCACGAGAACCTCCATTAACAGGTGCTACAGAGAGAGTGAGAGAGTGGCGAT GCTGAAGGAGACAGCGAAGGAGGAGGTTCCGCTCTTCCACCTCGATCTCCTCACTCCACGGTGACGGAAGGCTTTTCCAC GAACTCCACCCTATCCTCTTAGCGCTCACCTTGCTCCGCCAGCTTCGCCCGGTACACGAACTCTTCAACTGGTGAGTGAG TGCCATTTAAGCATCAATGCCAGATCCAACCCCACCCATCGCAACCGAACCAAAATCCAGAAACCCAGAACCGCCACCGC TCACAACCCCCAGCCCCACCGCCGCAACCAGAAGCGGACCTTTTTGAGGACATAGGGGAGCTACAGCTCCCCCAATATAT TTGATATAATCTTGGGTATACATATTACATAACACAATATATTATATATAATTGATTACTGAAATAATATCTTAATATAT GTAATAGGTGCTTGATAAAGGCGAGCAAGAAATGTATGATGAAAGCTTAATTTACATGACATGACAATCTTTTCCAAAAA TAAAAAAACTATTTTTTGAAGAAAAAATTAAAAGTTACTTTACCTTTAAATTTTCCATTTTCATCTCTTGCACCTTGACA TTCACGACAAGTCTCTAAATTTTACTCTTTCTAGACTTTTCTTCTATAGTTTAGCGAGTTTAAATGAAGATTGTGTACTG TGACACTTTAAGTTTTTTGTTAATTTAAATCAATGTTATGTTTTTTCTTGACAGTATGTTATGTTTCTTTTTAATTAGGT GTGAGTGTAGTTAATAAATAAGAATATGTCATTCGTTGTCATTGGGTATTGTCGTATCGTATTGGTTTATAAATCAAAAC ACTGGCATATTTAAACAAAAATACTTTTTTGTGTACTAAATGACTCTCACAGTTTTGACTTAATTTTTCGTAAACTAATT TTTGCATATATAAAAAATTGAATTTATAAGTTTAAAAATATTTAGCCCCTTCAAGACTTTTGTTGAAGTTCCGCCACTGG CCGCAACCCTCATCCAACCCCACCCATCGCAACCCAACCAAAACCCAGAAACCCTCACCCACCGAAGATGATGATGATGA AGAGATTGAGGCTTACCAAACAAAAGGCTCCAATTTTGTATCAGACCCCTTCATCTGCATGGCTTCGATCTAAGGTGATT CATCTTCTCTATGGGGTTTTGAGTGGTGGAGGTTCTGGACCTGGGAAATCTGAGTTCTTAGGGGTTTTGGTTCAATCTAA AGATGGATGGTGAAGAAGAGGAGATGGATGATGAAGAAGAAGAGAGGATGAAGATGCTGAACGGATGCAGAACAAACAAA CAAAAATAAGGCCAGCTGAAGAGTTCGTGTACGAATGCAGAACAAACAGAAGATGATTAGATTAGGTTTTATTTAATTAG ATTAAGGTTTTGTTTTTAAAGTAATGAGTTGGAATTTAAAAAATAGGATTTGGAATTAATTATATTAAAAAAATGAAAAA GCCACGTGGAAAAGCTGAGTCAGATTAAAATCAAGCCACATCAGACCCAAACACACTTTGGACTTAATTAGATTAAAAAA AACATTTAGGGACCCAATTTGATGGAAAATTTTTACAAGGACCAGGGTTGATTCCCTTTACAATTACAGGGGCCAATTGA GCATTTAAGCCAAATATTTATGCTCAATTCTAATACTGTGGTGAATTTTCTCCAGGTAGTTGTTGCTGCCGAGACTGGTG GAGCCTTAGGTGGTATGGTTAGACAACTTTCAATTGATCAATTTGAAAATGAAGGCAGGCGTGTCAGTTATGGGACTCCG GAAAATGCAACTGCTGCTAGAAAATTGTTAGATCGGCAGATGTCAATCAATAGTGTGCCCAAAAAGGTCATTTTTATGGA TCATTTTATTGCCACCATCTTGCATCACAATTTTCTGCTTTTTTTTGGGTGTTTCTGTCTTGTATTTGACTCAGTGTACA ATTGCATATGCAGTCTCATGTTTGCTTTATCATACCTCTTGAAATAAAGGGAAGAAATTTTAATATTATTTTTTGATGAA AAATACATAGGATGTTAGCAATATATAGACTGCCTAATTAAGTGATTACAAGGAAATAATATCTAATATAATAAGTACAA ATCAAATCTGTCCTAATTACAGGAAATTGCGGAAACAAATATACACAAAATAAAGAGAATCAAATCCTAATATTTATGGT AATTATGCCGTACAACAATACATTTTCTGTTGCATTACAAATCGTGCGTTTTCTCTTATATTGAGATTTGTTTCTTATGG AGTTTCCTCACCACCTTTGTAGGTCATAGCACACCTCTTAAAGCCTCGTGGATGGAAACCACCAGTACGCCGACAGTTTT TCTTAGATTGTAATGAAATTGCTGATCTCTGTGATAGTGCTGAGCGGATATTTTCAACAGAACCAAGTGTCTTACAACTT AGTGCTCCGATTAAAATATTTGGTGATTTACATGGGCAGTTTGGGGATCTCATGCGCCTTTTTGACGAGTATGGTGCACC GTCCACTGCCGGTGATATTGCGTAAGTTCCATGGCTCCTATTGATGATTTTATTTGTCATTAATGGATATTATTATCATG TCTCCCTACTGGTGTGTTGTTGACTATTTTTAATTGGTGTTAGCTTGTAGGTCAAAACTTTATATATGTATTTAAGCATG ATTTTTTTTATAAGATGTCAAATCATCTGCCAAAATCAGCTTTCTTTATTTAGGCCCATTTTTTGGCTGTTTTAGTTTTT ATACTGTTGGTGCTTTGTTGAGATCTTATCTCTGAACAAAATTTGGATTGATTATCCAACATGTACTCTTTATAGTCTCC TTTGCATTTTCATTGTTTTGGTGGTACGATTTCTTCAACCAGTTACCCCAGCCTGATCTATCATATGAAAATGGTTCTTA TCTTTGCATTTGCTTTGCTAGCACCGCATATTCCTTATTTTTTAAAGCAGTCCGATGCACAAAGCTCCCGCTCCGGTAAG GGGTCCGACTATTTGGTCTATGGTACACAGCCTTACCTCGTTTTTTGAAGAGGCTGTTTCAGAACTTGAACCCGTGACCT CAGTCACATGGAAACAACTTTTTATGGTTGCGCCAAGGCTCCCCCTTCCACATATTCCTTATTGATGTCGTATAATGCAA ATTTATTTTATATTTTATATCCTTTGAATTGGATTTGTTCTGGCATTTTTGCGTTGTGTACCCTAGCTTACTAGGTTTGT TGTGTTAATGTGGATAAACAAATATACTGTTATGTTGATCTGAGGGTTTCTTGTTACAATTGGAACAGAAAGCGTTGATA AAGAATCTGACGAGTGAGGATTATTTTTAAAATTGACAGAGTTCTTGTGATGGTTGATTCATTGATTGTAAAGATGATGC TGCACTGGAATCAAATTTAAGCTGGAGGAATATTGAGAAATATTATTCATTACCATGTAACTAGGATTTAGGAAAATTTT CTTTGATTAGTGCACATGCACTTGTAGTCCATAAGTTTATAGTTGTCTTTTACTCTTTTTATGGCCATACTAATAATAGA TAAAGGTGTTAGATTAGTATCTGTAACCATAATTCAATCTCATTAGGAAAATATATTTTCTTGTGTTAGTTAACCCTAAG CCAAAAATTTCAACAATGCTATTAGAACACTAGTGATATAGGCATTTGATTTTCTCTATTGCTAATTTTGTATAAATGAC TATCAGATATATCGATTATCTATTCCTAGGAGATTATGTTGATAGGGGACAGCACAGCCTGGAAACTATATCCCTTCTTC TTTCTCTGAAGGTACTTATGATTATTTAGGTTGGCTTTCTGTGTTGTAGGTTTTATGGCATCAGACTTATGCATGGTTTT GTGAATATTGGTGCAGGTTGAGTATCCCAACAATGTACATTTAATACGTGGAAATCATGAAGCTGCAGATATTAATGCTC TTTTTGGTTTTCGAATTGAGTGCATTGAGAGGATGGTAAGAAATTTAATGTCCGGATATTGTTTCTTATTTATGTTGGGT GCACCAACTAACCATTTAAGTTGTTGATCAGGGTGAGAGAGATGGAATTTGGACATGGCATCGAATGAACCGGTTATTTA ATTGGCTTCCTCTGGCGGCTTTAATTGAAAAAAAAATTATTTGCATGCATGGTGGGATCGGTCGTTCAATAAGTCATGTG GAGCAGATTGAGAATATTCAGCGTCCAATTCCGATGGAAGCAGGGTCAATTGTGCTCATGGATCTATTATGGTTAGAGCA TTTGTTTGTTGTTATTGCTTGTTTGAGGCTGTACTTCATGTCCTTCTGCATACTAAAAGCATGGGCTTTTTCCTCTAGGT CTGATCCTACAGAGAATGACAGTGTGGAAGGACTGCGGCCAAATGCTAGAGGTCCTGGATTAGTTACTTTTGGTGTGAGT ACTCCTTAGTCCTTACCTGTCATTTTTCTAAATAAGAAACATTCAGTGTGCTTATTTGCATAGAAATATGTAGTTATTTG GTAATTCTGTTTTTTATAGATCATACTATACATGCCTAGACACTGAACTACTGATATTAGTTAATGGAGCAGAATTTAAA TAGTTTAGAATGCTTGTAATGGAGCGATGCTTTGTGTGTTATTTAGAACTTCAAATGTGGATACACTCGAGTGAATCAAT TGAAATAGTGGAGATCACGATTAGGAGGAGCATTGATGTGGCTACAAGAAACTAAGTGGGTATGAGAAAAGGCATAACTG TTAAGTATTGGAAGAAAAATGTTAGTGTATGTCAAAATGTTAGGAGACAGGGTCATAGTTCTAAACACACTTCCAATACT CCTGATAGAAGACTGGAGATAAACTGAATAATTGTACTAACAAACACGGAAAATCATTCTCAATACAGCAATAAACGTGC TGTCCTAGAGCCAAAGTCTCCTACAGAGAGTATTCTTTGTCCACAATACAGAATAACAACCTAATATACATTGTTCCACA CCATATAATCAAGTATGCTCCAAGAAAAATAACTACCATTTAGTTGTTTTGCCTCCAAGTACTTCCTAATTGTTGGCAGT TACTCCTGCCTCGACTCGGACACTAGACACGATACAATACGGCTAACATCCAAAAAGTAGGACAGTGAGAGGAGTGGTTT ATGGTGAGAAGTGAGAGCATTTAATAATAACCCTTTGATCAAAATAAGCGGTTATGCCCTGGGCCAATGAGCTTCAAAAA AAAAAAAACTAAGACTCATTTTACAAAGTTAGTACTTTCTCCCAAAAGAAAGAGCTAATCTATCTAACGGCTTTCCCTCC TTCTTGATATCATCATTGTAAAAATAGATTCAAACTCCGGTTCACCAGATGATAAAATAGCAACTTGAAGAATTTACATT TCAGTAAGTGATCCAAACTCATCTCCCCCTATATCCCACAGGGTAATTTAAAGTATAAAAGATATTTTATTGTTTGACTT AAAATAGCTAATATCAATGTTCCACAAGTGTCCGACCAACAAGAGGTATCGGCTTCAATTGTCCCACAAGTGTCTAGCCA ACAGGTGTCGGCTTCAGGTGTTGCATAAAGGTGCGTCGTATGGGTGTCATGCAACATAACTCTTGCTGTTTCCAATGTTG CCTACTCTACACCTTTGAAATGGGGGGCTTGATTAGTTTATAGGCCAATGGATTAGATCCTTGAGCAATATACACACAAT GCAGATTATTAGAAAGATAAAGGGAATAAAAAAGGCCTGCATGGTTTTCATCAATTTGGAAAAGGCATATGATAGTGTAC CATGGGAGGTATTGCAAGAGCCAAGAAGCTCGGGAAAAGAAGTTTGTATTGCCTATATTTTTGAGCAATTAAAGATATGT ACCGAGGATTATGACCTATGTGAAAACATACGGAAGATTTTTGGCAACTTTTAGCCCTTGTAATTCTTACTTACTTTTGG CAACATAAGTGATTAAGAATGAATGCATTTGAGAGGAAGTTAGGGTATTGCCTATTTGGAACAGATATTAGATCTCTCCT TAGGTGGGCTAGGCTTGTATAAGGAAGTTGCATTAAGGGTAATCCAGTAGTTACAAATAGAGACCATAAAAAACTTTTGG TCAAACAATTTAGAAGAATTTAGATTTAAATGGTCGGTGCCTTGGTGGTCATTAGACATGATTGATGATAGGATATTATG GTGTCATTGATCCAAGTAACTGACCACACCCTTGGTGATGATGCACTTCAACTATTAGATTTTCTTGCATTTTGTTGAAG TTTGATATATTGAAAGGTAGGCTAAACTGTGTAGATTCTTATTTATCACTGTGCCCTATGCTGATGTTATTACCAATGCA TGAGTGTGGGCACATCATTTAAATTTAAATTTTGTCGTCATGACGGGTGTTATTTGAATTATAAATCATAGGCATAGTTG CCTTGTTGGATGGTGTGTGCTCTTTATGTGCTCCTCGTGCTCATTTTAACGGGGTTTGGTATTTCAGCCTGATCGGGTTG TGGAATTTTGCAACAACAATGATCTTCAGCTAATTGTTCGTGCACATGAATGTGTGATGGATGGATTTGAGCGTTTTGCC CAGGGACATCTTATCACGCTTTTCTCAGCTACAAATTATTGTGGTATATGTTGCTGACTTCTGCATTGCATTTTCATCCT TAAATCATGTTATCTTATATATTTTGGCGCTTGTTCAAATAGGTACCGCAAATAATGCTGGGGCAATATTAGTTTTGGGC AGAGACCTTGTTGTGGTTCCTAAGCTGATTCATCCATTACCACCTGCAATTTCTTCACCAGAAACGTCACCTGAACGTCA TATTGAAGATACATGGATGCAGGTATTCCAAATATTTTCCATTAAATCATGGTGCTGTGTTATATAATGTGTTACAGCCA TCAAATGTACAGGAGCACATCTGTGTGAAGTTATAGCTGATTTCATTTCAAAGCATTATGGTGCTTTTATTTAAAAATAA ACACTGTTATTATATGTGCAGGAGTTGAATGCTAACAGACCGGCGACACCAACTAGAGGCCGTCCCCAAGTAACAAATGA CCGAGGCTCGCTCGCTTGGATGTAG
CDS sequence (LotjaGi3g1v0183500.2) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGTTGCAGCCATTGGCTAGTGCATATGGACTTGCTAAGCATAGAGATGGTCGTTGGGAATGGGCTATTGCTCCAGGTGT CTCACCATCTCCAAGATATCAACATGCAGCGGTATTTGTGAATGCAAGACTCCATGTGTCTGGTGGGGCTCTTGGTGGAG GACGGATGGTCGAGGACTCATCAAGTGTTGCAGTATTGGACACTGCTGCTGGTGTTTGGTGTGATGCAAAATCTGTTGTA ACCAGTCCAAGGACTGGTAGATACAGCGCTGATGCAGCTGGAGGAGACGCTGCAGTTGAGTTGACTCGGCGTTGTAGGCA TGCTGCGGCTGCTGTTGGTGATCTAATTTTTATTTATGGTGGTTTACGTGGGGGAATCTTGCTTGATGACCTACTTGTTG CTGAAGATCTTGCTGCTGCTGAAACAACATCTGCTGCTTCACATGCTGCTGCTGCAGCAGCTGCATCTAATGTACAAGCA GGACACTTGCCTGGACGAAATGGCTTTGTTGATGATAGAACGAGACAAGCGATGCCTGAAGCGGCTGCTGATGGTTCTGT TGTATTAGGCAATCCAGTTGCTCCCCCAATGAATGGTGACATTTATACGGATATCAGCACTGAAAATGCCATGCTTCAGG GACCTCGGCAAACTGCCAAAGGAGTTGAGTATCTGGTTGAAGCATCTGCAGCAGAAGCTGAAGCTATCAGTGCCGCACTG GCTGCTGCAAAGGCACGACAAGAGAATGGACTCAATGGAGAAGTTGAATTGCCTGACAGAGACCGTGGGGCGGAGGCTAC CCCAAGTGGGAAACACACATCTTCCTTGATTAAGCCTGATTCTGTTGGGTCAAATAACATTGCTTCTGGTGGAGTTCGGC TGCATCACAGAGCTGTAGTTGTTGCTGCCGAGACTGGTGGAGCCTTAGGTGGTATGGTTAGACAACTTTCAATTGATCAA TTTGAAAATGAAGGCAGGCGTGTCAGTTATGGGACTCCGGAAAATGCAACTGCTGCTAGAAAATTGTTAGATCGGCAGAT GTCAATCAATAGTGTGCCCAAAAAGGTCATAGCACACCTCTTAAAGCCTCGTGGATGGAAACCACCAGTACGCCGACAGT TTTTCTTAGATTGTAATGAAATTGCTGATCTCTGTGATAGTGCTGAGCGGATATTTTCAACAGAACCAAGTGTCTTACAA CTTAGTGCTCCGATTAAAATATTTGGTGATTTACATGGGCAGTTTGGGGATCTCATGCGCCTTTTTGACGAGTATGGTGC ACCGTCCACTGCCGGTGATATTGCATATATCGATTATCTATTCCTAGGAGATTATGTTGATAGGGGACAGCACAGCCTGG AAACTATATCCCTTCTTCTTTCTCTGAAGGTTGAGTATCCCAACAATGTACATTTAATACGTGGAAATCATGAAGCTGCA GATATTAATGCTCTTTTTGGTTTTCGAATTGAGTGCATTGAGAGGATGGGTGAGAGAGATGGAATTTGGACATGGCATCG AATGAACCGGTTATTTAATTGGCTTCCTCTGGCGGCTTTAATTGAAAAAAAAATTATTTGCATGCATGGTGGGATCGGTC GTTCAATAAGTCATGTGGAGCAGATTGAGAATATTCAGCGTCCAATTCCGATGGAAGCAGGGTCAATTGTGCTCATGGAT CTATTATGGTCTGATCCTACAGAGAATGACAGTGTGGAAGGACTGCGGCCAAATGCTAGAGGTCCTGGATTAGTTACTTT TGGTCCTGATCGGGTTGTGGAATTTTGCAACAACAATGATCTTCAGCTAATTGTTCGTGCACATGAATGTGTGATGGATG GATTTGAGCGTTTTGCCCAGGGACATCTTATCACGCTTTTCTCAGCTACAAATTATTGTGGTACCGCAAATAATGCTGGG GCAATATTAGTTTTGGGCAGAGACCTTGTTGTGGTTCCTAAGCTGATTCATCCATTACCACCTGCAATTTCTTCACCAGA AACGTCACCTGAACGTCATATTGAAGATACATGGATGCAGGAGTTGAATGCTAACAGACCGGCGACACCAACTAGAGGCC GTCCCCAAGTAACAAATGACCGAGGCTCGCTCGCTTGGATGTAG
Protein sequence (LotjaGi3g1v0183500.2) extracted from Lotus japonicus Gifu v1.2 Proteins.
MLQPLASAYGLAKHRDGRWEWAIAPGVSPSPRYQHAAVFVNARLHVSGGALGGGRMVEDSSSVAVLDTAAGVWCDAKSVV TSPRTGRYSADAAGGDAAVELTRRCRHAAAAVGDLIFIYGGLRGGILLDDLLVAEDLAAAETTSAASHAAAAAAASNVQA GHLPGRNGFVDDRTRQAMPEAAADGSVVLGNPVAPPMNGDIYTDISTENAMLQGPRQTAKGVEYLVEASAAEAEAISAAL AAAKARQENGLNGEVELPDRDRGAEATPSGKHTSSLIKPDSVGSNNIASGGVRLHHRAVVVAAETGGALGGMVRQLSIDQ FENEGRRVSYGTPENATAARKLLDRQMSINSVPKKVIAHLLKPRGWKPPVRRQFFLDCNEIADLCDSAERIFSTEPSVLQ LSAPIKIFGDLHGQFGDLMRLFDEYGAPSTAGDIAYIDYLFLGDYVDRGQHSLETISLLLSLKVEYPNNVHLIRGNHEAA DINALFGFRIECIERMGERDGIWTWHRMNRLFNWLPLAALIEKKIICMHGGIGRSISHVEQIENIQRPIPMEAGSIVLMD LLWSDPTENDSVEGLRPNARGPGLVTFGPDRVVEFCNNNDLQLIVRAHECVMDGFERFAQGHLITLFSATNYCGTANNAG AILVLGRDLVVVPKLIHPLPPAISSPETSPERHIEDTWMQELNANRPATPTRGRPQVTNDRGSLAWM
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 |
---|---|---|---|---|---|---|
PIRSF | 2 | 707 | 706 | 0.0 | ||
PANTHER | 4 | 707 | 704 | 0.0 | – | |
PANTHER | 4 | 707 | 704 | 0.0 | – | |
Gene3D | 14 | 160 | 147 | 2.3E-8 | ||
SUPERFAMILY | 17 | 131 | 115 | 3.27E-11 | ||
Pfam | 31 | 76 | 46 | 1.8E-5 | ||
MobiDBLite | 251 | 282 | 32 | - | – | |
MobiDBLite | 253 | 267 | 15 | - | – | |
MobiDBLite | 268 | 282 | 15 | - | – | |
Gene3D | 336 | 682 | 347 | 1.2E-109 | ||
CDD | 356 | 658 | 303 | 0.0 | ||
SUPERFAMILY | 361 | 667 | 307 | 6.94E-95 | – | |
SMART | 376 | 660 | 285 | 2.0E-104 | ||
Pfam | 404 | 611 | 208 | 4.4E-33 | ||
PRINTS | 404 | 431 | 28 | 4.2E-60 | ||
PRINTS | 439 | 466 | 28 | 4.2E-60 | ||
PRINTS | 472 | 496 | 25 | 4.2E-60 | ||
ProSitePatterns | 473 | 478 | 6 | - | ||
PRINTS | 510 | 536 | 27 | 4.2E-60 | ||
PRINTS | 600 | 620 | 21 | 4.2E-60 | ||
PRINTS | 622 | 638 | 17 | 4.2E-60 | ||
MobiDBLite | 684 | 698 | 15 | - | – | |
MobiDBLite | 684 | 707 | 24 | - | – |
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 | Phosphoprotein phosphatase activity | Catalysis of the reaction: a phosphoprotein + H2O = a protein + phosphate. Together with protein kinases, these enzymes control the state of phosphorylation of cell proteins and thereby provide an important mechanism for regulating cellular activity. | ||
Molecular function | Protein binding | Interacting selectively and non-covalently with any protein or protein complex (a complex of two or more proteins that may include other nonprotein molecules). | ||
Biological process | Brassinosteroid mediated signaling pathway | A series of molecular signals mediated by the detection of brassinosteroid. | ||
Molecular function | Hydrolase activity | Catalysis of the hydrolysis of various bonds, e.g. C-O, C-N, C-C, phosphoric anhydride bonds, etc. Hydrolase is the systematic name for any enzyme of EC class 3. |
Expression pattern of LotjaGi3g1v0183500.2, 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…