Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi1g1v0063000
Transcript ID	LotjaGi1g1v0063000.1
Lotus japonicus genome version	Gifu v1.2
Description	Serine/threonine protein phosphatase 2A regulatory subunit B; TAIR: AT4G15415.1 Protein phosphatase 2A regulatory B subunit family protein; Swiss-Prot: sp\|Q8RW96\|2A5G_ARATH Serine/threonine protein phosphatase 2A 59 kDa regulatory subunit B' gamma isoform; TrEMBL-Plants: tr\|A0A0L9UV59\|A0A0L9UV59_PHAAN Uncharacterized protein; Found in the gene: LotjaGi1g1v0063000
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr1:8764823..8774389) extracted from Lotus japonicus Gifu genome v1.2.

CATATCAATATACTCATAAACTTCAACTCATCTATAAAATTAACAAAATAATATCACTCTACATTACTCTCTGATTTTCT TGCATTTTCTCTCACTTGAGTGGGATCTTCTTCTCCACCTTACTCTCTCACTGTAAGTGCTCTTCACTTCTTCATGCTGT CTGTCACTCTGATTTTCACTCAGATTTTTTTTTGTTCTGATTAAGGTTTCTGGGCATGCTTAAACCTTAACTTCTCAAAT GTTTCACTCTTTGATTTCGATAATGTTATTAGTCAAAGGTTGAAACTTTGATTCATTTCTTGAATACCCATGTTGTTTTT TTCTTGTTCTGGTTTCTGGGGCGTTCTGTATATGATAAAAATGTGATTTATCAATGGTGTTTTATCACTGAACTCATCTT AAGGCTTCAATTCCATTACCCCCTTGAAACCAATCCAATTCAGTTTCTTCAAAATCTTCAGATTGTGGTTTATTTGGGTT TTTGTTCTGGGAATGAAAGTAATTGTGTTACACAAAACCAATCAAGCTAAGAAATCAGCTTCTGCAATGGCTTCAGCAGT TTATGAGGCTTTGCCAAGTTTTAGGAATGTTCCCATCTCAGAAAAGCATAATCTTTTTATTAGGAAGTTGAACATGTGTT GTGTTCTGTTTGATTTCAATGATCCTTCCAAGAATCTCAAGAAGAAGGACATCAAGCGGCAGACTTTACTCGAGCTTATT GATTATGTTTCGTCCGTGAATTCGAAGTTCAATGAGTTAGCATTGCAGGAGATGACTAAGATGGTGGCGGTGAATTTGTT TCGTGCTCTGCCGTCTTCCAATCGTGATGGCGAGTTTGTGGAAATTGGTGAGCCTGAGGAAAAGGAACCTGTTATGGAGC CTGCGTGGCCTCATCTGCAGTTTGTGTATGAGTTTCTCTTTAGAGTTGTGGCTTCACCAGAGGTAGATGGTAAGCTTGCT AAAAAATACATTGATCATTCATTTGTGTTGAGGCTGCTTGACCTTTTTGAGTCAGAGGACCCCAGAGAGAGGGATTACCT GAAGAAGATTCTCCACCGAATTTACGGGAAGTTCATGGTGCATCGGCCGTTCATTCGAAAAGCGATCAACAATATCTTTT ACAGTTTCATATTTGAGACACAGAAACACAGTGGGATTGTAGAGTTGCTAGAGATATTAGGCAGCATAATTAATGGATTT GCTTTGCCTTTAAAGGAAGAGCATAAGCTGTTCCTTGCCCGCGCACTGGTCCCCCTTCACAAGCCGAAGTGTGTTCCTTT TTATCACCAGCAACTTGCTTTTTGCATTGCTCAGTTTCTTGAGAAAGATGTCAAGCTGGCTGACACTGTGGTAAGAGGCC TTTTGAAATATTGGCCAATAACTAATAGTGCAAAGCAGGTTATGTTCCTTGGTGAGTTGGAGGAAGTTTTAGAGGCAACT CAAGCAGCGGAATTTCAGCGATGCATGATCCCATTATTTCGTCAAATTAGAAGATGCCTGAACAGCTTACACTTTCAGGT GCTTACAAAGTTCCCCCACATAATTTTTTTTACATGATGTCTACATTCATTTAATTAGCATTTGCCAACATCAGTGACCA GTCATCTCTGCTTCTTTTTACTTTTAGATTCTTTTCATTCTCTGATATTTGGATGTTAGTCAGTTTTAAGAACACTATTT CATTTGCTCTCTCTTTCTAGATGTTTTTGGTTCATGATTATGTTGTGGACAAATTTGTTGGTCTGTTCAACCTTGAATTT ATCCTCTCATTTGTTTAGAAGTTATATGATATCAAGTTCATAACCTGTGAAAGGCTTGTTTGAACTGGGTAAATACTGTT GTTTTCAGATTTTTGATGACGAGTTGTATTGATACGTGAAAACCAAACAGTAGTATGTTCACATTGGCATTTTTATCTTT TTACCTAAACATGTGTGACTATCCTTTTTGTATCTCATGATCACCTCGGAGAGTATCTTATTAATTTATGCCTCTCTATA ATATAAATATAATAGTTCAGATCTCTATGATATCTGATCTTGATTCATGTGAATCATACTTCAATTTTGCTTGAAAGTTG AACTTGTGTTCCCCACAATATATATGGTTGGCTTTTTTACAATATAACTTGTACTTGGGACAATTATAGAATTTGTAGGA TTTTGTGTTGTGTTATGAGTTGCATTGTGATGCAATACTTAAGTACAAGTTTTTATTCTCAAGAATCAGTGCTCAAAGAT TCAAAGAAGCAATGGAAGTGTAACTATGGAAGCAATGATCAATTAGAATTTACCTGGGATTTTGTGAACTAAATTTGATG CTGACTTGGTTCTATTGGCAGGTAGCTGAACGGGCGCTGTTTCTGTGGAACAATGATCATATTCGAAATTTGATCTTACG AAACAGAAAAGTGATTCTGCCTATAATCTTCCCTGCTTTGGAGAGAAATGTAAGTGGCCATTGGAATCAAGCTATTCAGA GGTTGACGCTGAATGTGAGGAAAATATTCTATGATGCTGATCAGACACTATTTGATGAATGCTTGATGAGATTCCAAGAA GATGAAACCAAGGGTAGGGAGGAGCAGGAGAAGCGAGAATCCATATGGAAACATTTGGAAAGTGTTGCGGAAGCTAAAGC TTTAGGCAATGAGGCAGCCCTTGTGAGGTTTGTCTCATCTGTTACAGTGGGTACCAGTGCAAATCAACTAGCAGCTGCTA GTAGCTAAGAGCCATGGAAGATCCAAATTGCAAGTTCTGACCCCATGATGAGGAACTAAGGTGAATGGATTGCGTTGAAG TCTAACATGCTTTACTCCACTAAGAAATTAGATGGTGGTTTTGGCAGAAATTGCAAGATCTTGCTCCATCCTTTGTGGTC TTGAGAGCCATGGGGCATATATATACCATAATGGACTTGTTTATAACTGGCAATACTTGTTTATAATTCCAGGCTTTCTA GCCATTGAGATTATGCAGTGATAGAAAAGCAACCTACCTTTCTGTAATTTGTAACATTTGTAATTTCTGTTACTTTTAAG CCTCTACAGGTAAAGGTCTCAAGACATGTTTATACATACTCTTTTCTCTATCAGTTGCTAGTTGTCCCTTTGTTAGCTGA ACTGTTTGTCATAGTGGATCCATTTTTGTAGAGGGGCCATGACATGTTCAGAATTTGGTGCTTTTCATTGGACCTTTTCT TATTTATTACTTAAAAGTTGGTGTAGCTGAACTCATTGGCAAGTCTTGCCTTGCATAGAGACAAAAACATGGAAAACCAA ACAGCATTCAGGATTTTCTTTTAAATGACAGCAAACGATCATAAGTACTCATCAAATATATTGGTAGAATACATATAGAA CTGGAAACTCTGAAACTCAACTATTACATAGCTTTTTTTGTGTGGTCAAAATCTATTACATAGCTTTAAACAACCAAATA AGATGCACACATTTCATGACCATCATGCATCATCATCAATAGTCGTCACCATATGCTCGGAAACTATAGCGTTCTTGATA TGGACCATTGAACCAGAGGTCGGCCTCAAACCACTTTGGGTACCGGACTAGGTCTCCCGCCACAAATTGCATGAATCGCT TGCTCCCTTCAGGCACAACTCTCACTTCACCTTCTTCTACGTACACCAGTTGGTCTACCTGCCAGTCCCAAGCCAACTTG CATTTTCCAGTCTTCCACGCTGACCATTTTGAAATTCCAAGCTGCGCTAGTCTTTCAGGAGAAACTTTTCTTTCCACCTT CACATTGTACAATTCCTCCAAGGATTTCTCCAACTTCATTGCTTTTATGCAACACCCTCCTCCTCTAGAAGAGTTACCTG ACTTTCTGAAACCCCTTGAACCATTGACAGGAGAATAGGTGAAGGCTGATGCAGTGATCAAGCTTGCCATGCTTGTTCAC AGTTCACACTCAATGTGCTTCACTTGCTAAACAGCAGAAATCTGCAAGAAAATTTTAAGAAATTCAAAGACCTCCAACTT TAATGATGAGCATTGAATAAAAGTTCTAAAAGGAATCAACACATTTGAATTGCCTCCTCAATTCCAATGAGTAATCCCTG TTACTTTTTAACTGCCATATACCCACAAAAAAACTCACTATGACATAACCTTCTGTACATTCTGTAGTGCAAAAGTGCAG TGAAGCTGCTCAGTCTCTCTCCTACCCTATGTAAGTTTGTTTGCTGGATTGTCAACGTATCCAACTTTATTGTAATTTTA AGAAGCCAATAAGGCAATAACACATACTGACATACTACCTATGAAGCACGGACTCGGACACGGACACGGGACACGGACAG GGCGGGAACGCCGACACGGCTAAACTCTAAAAAATAGGATACGGGGACACGGCTTATATATATATATATATATATATATA TATATATATATATATATATTAAAAAAACATGATAATATGTTCACAAAATTAAGAGAACATTGTACTATAATATGTTGATC AATTCAATACAATAACACACACAATTAAGTCAGTAACAATGCTTCTTAATAGAAGCAAAAGAAGCTTGAAAATTGTACTA TTTATCAATATCAGGCTACATTTTACCAAAGATTAGGAGAGTTTGAACTAAAACATCATTCAATCATTAGTCTGACTGTA TGGTAATCAAAAATTTCAGAAAGTCTTACATATTTATGGTAGTGTATATGTACATATAATATAATCGATTAGGAGAAACC TTAGGTTGTGTTTGGATGGGGTGATTTTTGGGGGGAATGTAATTCTAGAGGGTATTTTAAATCCCTTAAATTGAAATACC TTGTTTGGATATTTATTTGTGGAATTCTGAAAATACTGGTAATTAAAAGAGGTAATTTAATTGAGGGATTATCGGGTAAT CAGAATACCCTCAAAATAGGAAGTAATTGGAAAATCCCTCACTGCTCGTGTCTCTCACTCTCGTTCTCGCTCCCAATCTC ACTCTCTCTGCAATTTCGCTCTTTCGATCTCACCCTCGCTCCCGATCTCACCCTCTCGCGATCTCGTTCTCTCGTTCTCG CTCTCCCGATCTCACTCTCTCTGCAAATCCCGATCTCACTCTCTCTGCAATCTCGCTCTCTCGTTCTTGCTCTCCCGATT CATGGAGTGGCTCTTTCTTCCCTCTTGATTCAGGTAAAATCTCTTGATTCTTTCACAAATTTTGCAGTATTGTTGTTGTG GTTGTTGTTGTTTTTTCGAATTTGATTTTGTTTTTGGAGTTGAAAATATCTGTTTTGTTCTTGTCTTGAGTTTTGTTCGT TGATGCTAGTATTGGGTTTGTGATGTTTTTTTTCTCCATTTTGTGCCTGGTTCAGAAGCAGATGAACATAGGTGAGGAAG GCAATAGTTTCTATTTTTTTACCAAAACAATAATTAGAGTTACATAAGAATTGCTCAAACTGAATCTGAAAATTGACTAG GCCTCAATTCTTGTGTAAATCAAAGGTACTTTAATCCTCTGTTGCTCTTGGCCTTGACCCACCTTGATTTCCAACCACCC TTTTGGAATTTCTTTGGTCCTTCCATGGTGATGGTATGCTTTTGTAGGTGTATTTCTAGATTAGGATGGTTTTGGGGAGA AACAAAGGGACAAAAACCCATTATGCAGAGAAGGAGTTTGATGAATAAAGAGTATTTTTATAGCAAGTAGCAATAGCATG ATGTGTGTTATATATAATAAGGTGCATTGCATTCCTCAAGCATTATTCAAGTTGTCATGACAGTGATTTGTGTTTATTGT CACTGTTTTTTGCTAATCCTTGATGATCGGAAAAATATTTCAGGCTACTGCTATAAGTGGATACACTAGCAACTCTGCTT CTGCCAAGAAGTGCAGAAAGAAGAAGGTAAAGTTATTCATTTCATCTTATAGTCAAGCCTGTGATTTTAATATTTGTAGT GAGTTTTATTTCAAAACAACCATGGACATATTAGGATAGAAAGAACTTTTCACTACACTTCAGACGTTCATTGCTGCTGC TATATTGTCTTGCTATAATAACTAGGTAGTATTAAAAGATGAATTAATTTATCAGCAAAAAGAATTTATGGAGTAAAGGA GATTTTATTACATTTTCATTGCTGTGGTTATTCCGGAATAGATTAAGTTTAGTTGGAAAAGGGGTCCATCAACTCTGCTA CTATGTCCAAGTTTAGTTTTATAATCTGCACAGAGATAAGACTTGCAGCTTATAGTCTGAATTTATTTTAGAACATTTCA TCATAAAACCAAACACATATATGTTTATTTCAGGATTTAAAAGTAAAGGCGAAAAATGGACTTGCAGCCCTTACTCCAGG ATTTGCTGGAGCCGACATTGCTAATGTTTGCAATGAAGCTGCTCTGATTGCTGCAAGAGGTGACAAAACACAAGTCACAA TGGACCATTTTGAGGCAGCTATTGATAGGATTATTGGTGGTTTGGAGAAGAAGAACAAGGTATGCCATTTTTAGTTTTTA TATTCATATTTAGAAAGATCTAGCCTATAGGAAATAGGCAGGGTAGGGCTTAGTATTTAAGTTTATAAAAGATCTGTACA CTATAGGCATAGTTGTAGCCTTCATTTTTTCCATATTACTTTCCTTTCATCATCATTGTGAGAAAAATGAAGCTTTAGCA GATAATATTGTTCATTTATTTTAATAAATATTGTTCCACATGATATTTGGTTACGTACTGTTAGGACTGAAGAAGTGAAG AGCCCACAAGAGAGTTTGGCCCAACATGAGAGAGCGGGTCCTAGAGTATGGAAGGTATATTCTAGAAGAGGTAAAGAAAG GAATCTTAGGTAACGGACTAACAGAATAGTGAGAGAGAATGATTGTAATACTTCCCTGAATATAAGGAAGACTAGAGAGA GGTTGAGAGGTATCGAGATATTTTGTGTGATAGAGATATGAGTAGGAAGCATTAGCTTCCTATAGGAGCTTAGCTCTGGG CAGAAATCTGGGAACCATTCCCTTCTGTAATCTTTCCATTTTCATAAATAAGCAATCATCAACAGTTCATTTCCCAGTTA TTACTCTGTTTACTGTGATTGTGAGTTTGGGTATCTAACACGTACCATGGAGAATGATAATGTTCCTGAGTAGACTGTCC ATTATACCCCAAATCTTCTACTCTATCTGTGTATCTAATCTGCAGAAATAGTTGTTCTTTGGCTGTTGTTGCAATTTAAG ACTTCATGATATATGAAGACTATAGGCTGCAATGAATTGAAAGTATTGAACTGAGTTTGGAGCTCTCACTTTGCTTTTTT CAGTTACTGGTTAAAGTTTATCTAATACCCTGTTTCATATCAAGGTAATAAGCAAGCTGGAAAGGCGTACTATCGCTTAC CATGAGTCAGGCCATGCTGTTGCAGGTTGGTTCTTGGAACATTCTGAACCCTTGTTGAAAGTAACTATTGTTCCTCGTGG AACAGCTGCTCTTGGATTTGCGCAGTATGTTCCGAGTGAGAACCTTCTCATGACAAAGGAGCAGCTTTTCAATATGACTT GTATGACCCTTGTTGGTCGGGCTGCAGAGCAGGTTGTATAGCATTTCCTATTTTGTTTACTTACTGTTTTTGTCTTCTGT TTTTTCATTAGCTCTTTGTTGTATGAGTAATGCTGAATTGCTGATCTTTCTAGTTAAAGGGTGTAATATGATTCAGACTT TTATTTTTCACATTGACTAGTGATATCGCTTAATAAGTCATTATATATGGTAGAGCAATCCTCACCTTGACCTTAGCTTT TGGTCTTTGGGGATAAGTTAGGTCTAGCCCGAATTCGAATAGGGTATCAAGTCTATCCTAGATGTGGGCACATGACATGC AGTATTGATTTCCAAATAGACAATAACCTACCATAAACTGTAACAGCAATCAGGATCATAATCACTTATGATTTCTGCAC ATGATGTATTCAATCATAGAAGCTCATTTTGCTGCTATTATCTTTGTTCAGTTCTGTGGATGTATTTCAAAATTCTTCTG GTTATTAGTAATTGTCTAATGTTTGTTTATGTTTGAAGGAGAGATGAGGGGAAAAAGGAAAATGGCGGAAGCTAGTAACG AGGATAAGAAAGATGATAGCAGAGCTTACTTTACTTGGAACTTGGAGATGGACCGTGCACTTGCTGATTTTGAAAGCTCT TCCCATGGAGAGAAAGAAAGATTACATCTTAGCTTTTATGCACTGATTCGTGATTTGCTATAGTTTATGGACTCATTTGT AGTGTTTCCAACTTTTCATTATGCCACTGTTGAGACTTTGTTTTATTTATTTTTCATTTGGATTGATGTTAGCACTTGTT ATAAACACAGTTTGAAATTTAAATAATAGAAAATGTGATATCTCTATGAATGTTTGTTTGGATTGATGTTCGCACTTGTT AAAAACACAGTGTTTCCAACTTTTCATTATGCCACTGTTGTGATCCAACTAATTTCAGATTTTTGAGTCAATTCAGGGGG TTTGGGCCGATTATAAAATTATGGGATGATTTTAAGTTAAGTTTATTTTATTATAATTATTCAAATAATATTAATTAGAT TAAAAAAATAAGATAAAGGAAATTCAATTGATTCAATTGAATTCCCTAGCATTACCCAAACAAAGAATTTTAAAATTGAT GGAATTTCATCACCTTATCCAAACAAGGGAATTTGAAAATCAAGGAAATTCAATTGAATCAATTGAATTCCCTAACATTT AAAATCCCTTGGATTTCTACATTCCTCCATCCAAACACAACCTTAAGAAACTAATTTAGGATAGTATATCTGTATATTTG TAATTAACACTATTGATACCTAATCAGATTGATCTTACAATTCTGAAGTACAATGATGTGCAGTAAAATGAGATTGAATA AATGAATTGCACTTAAGGGGTGCAAACCCTATTACAAACAGGAAAAACAAAGAACCAATAAAAGCAAGGGAAGAAAGCCT TCACAGTACATCAAAGAAGGAAGCAAAAACCAGAATATCAATATCCAATACTCATAAACACAAATAATCTAACCATGCTC ACTCTCCCTATCAAGCAAAATCAGAGTGAAAACAAAATAAAGGTCTTACCTATTTCAAGTAACAGAGAAGGGAAGCAAGA GAGAAGACCAAGAGGTAGGAGGACACGTCACCGCTGGTGGAGAAGGAGGAGCGCCGCCGCTGGCGGAGGAAGGAGATGAA ACACGCAAGAGAAGAGGAGAGGAGAAGAGTCGTGTTTGTGCGTTATGAGCCCACTGAATCATTGTTTTTTATTACCTTTG TTTGATGTTTAATTAGATAAGGTTGTTTATTTTTAATTTATCTTTTTTTTAAGTCAGAAAATAATAAAAAAATGGTACAA AGTGTCCCATATGTGTGTCCAGCCACAAAGGTGTGTCGGCTCAATATACAAGTCGTGTCCACGCCGTGTCCAAGCCGTGT CCGAGCCAAGAAATAATGTTTTTTTATTCAGACACGCCTCAGACGTGTCCGACACGTGTCGGTCACGTGTCGGTGGCGTG TCTGTGTCGTCTGCGTGTCGGACACGCGGACACGCCTCTGTTTTAAA

Download Genomic Sequence

CDS sequence (LotjaGi1g1v0063000.1) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGAAAGTAATTGTGTTACACAAAACCAATCAAGCTAAGAAATCAGCTTCTGCAATGGCTTCAGCAGTTTATGAGGCTTT GCCAAGTTTTAGGAATGTTCCCATCTCAGAAAAGCATAATCTTTTTATTAGGAAGTTGAACATGTGTTGTGTTCTGTTTG ATTTCAATGATCCTTCCAAGAATCTCAAGAAGAAGGACATCAAGCGGCAGACTTTACTCGAGCTTATTGATTATGTTTCG TCCGTGAATTCGAAGTTCAATGAGTTAGCATTGCAGGAGATGACTAAGATGGTGGCGGTGAATTTGTTTCGTGCTCTGCC GTCTTCCAATCGTGATGGCGAGTTTGTGGAAATTGGTGAGCCTGAGGAAAAGGAACCTGTTATGGAGCCTGCGTGGCCTC ATCTGCAGTTTGTGTATGAGTTTCTCTTTAGAGTTGTGGCTTCACCAGAGGTAGATGGTAAGCTTGCTAAAAAATACATT GATCATTCATTTGTGTTGAGGCTGCTTGACCTTTTTGAGTCAGAGGACCCCAGAGAGAGGGATTACCTGAAGAAGATTCT CCACCGAATTTACGGGAAGTTCATGGTGCATCGGCCGTTCATTCGAAAAGCGATCAACAATATCTTTTACAGTTTCATAT TTGAGACACAGAAACACAGTGGGATTGTAGAGTTGCTAGAGATATTAGGCAGCATAATTAATGGATTTGCTTTGCCTTTA AAGGAAGAGCATAAGCTGTTCCTTGCCCGCGCACTGGTCCCCCTTCACAAGCCGAAGTGTGTTCCTTTTTATCACCAGCA ACTTGCTTTTTGCATTGCTCAGTTTCTTGAGAAAGATGTCAAGCTGGCTGACACTGTGGTAAGAGGCCTTTTGAAATATT GGCCAATAACTAATAGTGCAAAGCAGGTTATGTTCCTTGGTGAGTTGGAGGAAGTTTTAGAGGCAACTCAAGCAGCGGAA TTTCAGCGATGCATGATCCCATTATTTCGTCAAATTAGAAGATGCCTGAACAGCTTACACTTTCAGGTAGCTGAACGGGC GCTGTTTCTGTGGAACAATGATCATATTCGAAATTTGATCTTACGAAACAGAAAAGTGATTCTGCCTATAATCTTCCCTG CTTTGGAGAGAAATGTAAGTGGCCATTGGAATCAAGCTATTCAGAGGTTGACGCTGAATGTGAGGAAAATATTCTATGAT GCTGATCAGACACTATTTGATGAATGCTTGATGAGATTCCAAGAAGATGAAACCAAGGGTAGGGAGGAGCAGGAGAAGCG AGAATCCATATGGAAACATTTGGAAAGTGTTGCGGAAGCTAAAGCTTTAGGCAATGAGGCAGCCCTTGTGAGGTTTGTCT CATCTGTTACAGTGGGTACCAGTGCAAATCAACTAGCAGCTGCTAGTAGCTAA

Download CDS Sequence

Protein sequence (LotjaGi1g1v0063000.1) extracted from Lotus japonicus Gifu v1.2 Proteins.

MKVIVLHKTNQAKKSASAMASAVYEALPSFRNVPISEKHNLFIRKLNMCCVLFDFNDPSKNLKKKDIKRQTLLELIDYVS SVNSKFNELALQEMTKMVAVNLFRALPSSNRDGEFVEIGEPEEKEPVMEPAWPHLQFVYEFLFRVVASPEVDGKLAKKYI DHSFVLRLLDLFESEDPRERDYLKKILHRIYGKFMVHRPFIRKAINNIFYSFIFETQKHSGIVELLEILGSIINGFALPL KEEHKLFLARALVPLHKPKCVPFYHQQLAFCIAQFLEKDVKLADTVVRGLLKYWPITNSAKQVMFLGELEEVLEATQAAE FQRCMIPLFRQIRRCLNSLHFQVAERALFLWNNDHIRNLILRNRKVILPIIFPALERNVSGHWNQAIQRLTLNVRKIFYD ADQTLFDECLMRFQEDETKGREEQEKRESIWKHLESVAEAKALGNEAALVRFVSSVTVGTSANQLAAASS

Download Protein Sequence

Domain prediction

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	PIRSF028043 View details on PIRSF028043 Search for proteins/transripts with this domain View external data on PIRSF028043	2	468	467	2.1E-224	IPR002554 Show description in modal box View details on IPR002554 Search for proteins/transripts with this domain View on EBI InterPro Service
PANTHER	PTHR10257:SF79 View details on PTHR10257:SF79 Search for proteins/transripts with this domain View external data on PTHR10257:SF79	20	462	443	2.5E-243	–
PANTHER	PTHR10257 View details on PTHR10257 Search for proteins/transripts with this domain View external data on PTHR10257	20	462	443	2.5E-243	IPR002554 Show description in modal box View details on IPR002554 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF01603 View details on PF01603 Search for proteins/transripts with this domain View external data on PF01603	27	438	412	8.5E-181	IPR002554 Show description in modal box View details on IPR002554 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:1.25.10.10 View details on G3DSA:1.25.10.10 Search for proteins/transripts with this domain View external data on G3DSA:1.25.10.10	34	437	404	6.4E-181	IPR011989 Show description in modal box View details on IPR011989 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF48371 View details on SSF48371 Search for proteins/transripts with this domain View external data on SSF48371	39	420	382	2.59E-150	IPR016024 Show description in modal box View details on IPR016024 Search for proteins/transripts with this domain View on EBI InterPro Service

Gene function (GO predictions)

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 April 27, 2020, while the GO metadata was last updated on April 27, 2020.

GO term	Namespace	Name	Definition	Relationships
GO:0000159 View details of GO:0000159 AmiGO InterPro QuickGO	Cellular component	Protein phosphatase type 2A complex	A protein complex that has protein serine/threonine phosphatase activity that is polycation-stimulated (PCS), being directly stimulated by protamine, polylysine, or histone H1; it constitutes a subclass of several enzymes activated by different histones and polylysine, and consists of catalytic, scaffolding, and regulatory subunits. The catalytic and scaffolding subunits form the core enzyme, and the holoenzyme also includes the regulatory subunit.	Subterm of View details of GO:0008287 View details of GO:0044424
GO:0007165 View details of GO:0007165 AmiGO InterPro QuickGO	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.	Subterm of View details of GO:0009987 View details of GO:0050794 Part of View details of GO:0007154 View details of GO:0023052 View details of GO:0051716
GO:0019888 View details of GO:0019888 AmiGO InterPro QuickGO	Molecular function	Protein phosphatase regulator activity	Modulates the activity of a protein phosphatase, an enzyme which catalyzes of the removal of a phosphate group from a protein substrate molecule.	Subterm of View details of GO:0019208

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Expression data

Expression pattern

Expression pattern of LotjaGi1g1v0063000.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi1g1v0063000.1