Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi3g1v0506800
Transcript ID	LotjaGi3g1v0506800.1
Related isoforms 2	LotjaGi3g1v0506800.2 LotjaGi3g1v0506800.3
Lotus japonicus genome version	Gifu v1.2
Description	ATP-dependent Clp protease proteolytic subunit; TAIR: AT1G11750.1 CLP protease proteolytic subunit 6; Swiss-Prot: sp\|Q9SAA2\|CLPP6_ARATH ATP-dependent Clp protease proteolytic subunit 6, chloroplastic; TrEMBL-Plants: tr\|I3SZ96\|I3SZ96_LOTJA ATP-dependent Clp protease proteolytic subunit; Found in the gene: LotjaGi3g1v0506800
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr3:92402463..92412426) extracted from Lotus japonicus Gifu genome v1.2.

GTAAAGCCCACCAGCCCAGAACTTTTGGTGGGATAATCGAAACAAAAAAAACAAAAAGGTTGGGTGTTCTCTTCTCTTCC TCATACGCATTCATTCGTTGTGAAGCTTCAACAATGGCAGCTCAAGCTGTGTCAGTGCCTGCGACTGCAACCTTCTCTAT CGCTTCTCGCCGGAACACTCCGTCACACCTTGCGTTTTCTCACAGAAATCTATGCCAGATAGCTTCTAACTTGTCAAGCC CCTATGGTGGTCATTCATCGAAATTTGGTAATTTTCTAATTTAATCACTTCTCTTCCCAGCTGCAATTCCAATTTTTGTT AGCTTGCTCAATTTTCAGATATTTAGCCAAATTAGGGTGAATTCGGGTACAGCTTAATTAAACGCTTATAACAATAAGTG CTTATTCGAAAGCTAATTTGATAACCTTATTGAAATAAGTTCAAAATAGGTTATGAGTGTGTTTGGGTAAATAGCTTAAT TAAACGCTTACGAGTTATGACAATAAGTGTAAGCGCTTGTTCATATGCTAATTTGATAAGCTTGTTGAAATAAGCTCAAG ATAGGTTATATGTAGGTATAGTCAATAGTGCTTATTCGTAAGCTAATTTGAGTAGCTTATGAAAATAAGCTCAAAACAGC TTATAGTCAAGTCATAAGCTGTTTATGTAAGTTTTCTCAAGCACTTGTGTAAGTGCTAGTCTATAAGATATGCTCAAAGA AGCTCTTCCAAATGGGGCGGGCATTAGTCCATAACTGTGTCACGTTGTTGTAGTGACTAAGGTTTCTCATTTGCAGCACA GATTGATTCATTGATAAATTCAAATTCTTTACGCAGCCTTTAGTGTGTCTAAATTTTATCCTATTAACAGAATGTTGGTC TTTTTTTACAAGGCAATGAGTTATGATGTGCACTATGAATACTTTGCATTTGTACAATAAAACATGTTATGATATGATAT TGATATGTATGTTTTTGTTTTAAGCAGGGTTATCAAGTAAAAGCCCTGGCTTTCCTTTAAAGCTTGATGAGAAAAATACC TATGATGCTAGTACAAGGTACAATTTTGCTCCTTTTTTTTATTTCAAGTGCTTAATGTATTATGTGATTGTTTGGTAGGC CTTATTATGAATACCCATTTGTTTCCATGTTCATCTGGCTTTGCTCAAGGCCTAACTTGTCTGTGATTCTTTACAGGAAA AGTAAGTGCATCCTATAGAGGTGAATTAGGTTAGAAAGGAGTTTATTGTGAAACACTACTAAGCAATTCTGCTGATAGAA TGTAACTGTATATAGACTGACTGTAAATGTGATTTTTAATTAATTTTGTGCACCTTTTTTCCTTGAGTTGAATTTATACT TAAAAGGATTCTCTCACTGACTTGAATTCGGTGCCCAGTCTCTGCATATTTAAGTATTAATGACTTGAAGAACAACTTAT TGATATTCCAGTTTCCTTGTAGTTACGGTGCAATTGAAGCCAAGAAGGGGAACCCACCAATAACACCAGCAGTGATGACT CCTGGAGGACCTCTTGATCTCTCGTCTGTTTTGTTCAGGAATCGTATAATATTCATAGGACAGCCAGTTAACGCACAAGT GGCTCAGAGAGTTATATCGCAGCTTGTGACTCTGGCTACTATTGATCCAAATGCAGACATACTGGTTTGTCATATCTTGA CATTGCTATTTTACTTTTGTCTAGTCAGGAATTGGAATTAATATTGAGCTGCTTCTATTGGCAGATGTATATCAATTGCC CTGGTGGAAGCACATATTCAGTATTGGCAATTTATGATTGCATGTCTTGGGTAAGATAAAGGGTTTGTCCCCCCCCCCCC CCAGTTGCATTTTTACTTCTTTTCAGTTATTTTAATTCTTTAATCGTTGTCAATGTTTCTAACCCTAAAAGCATTTGGTG ACCCCATTTGTTTTCAGATAAAGCCCAAGGTTGGTACAGTATGTTTCGGAGTAGCGGCAAGCCAAGGAGCACTTCTCCTT GCTGGTGGGGAGAAGGGAATGCGCTATTCAATGCCAAATTCCCGCATAATGATACATCAACCCCAGAGTGGATGTGGGGT ATGAATCAAGATGCCCTTGATATTTAGAAGCTCACAAGTCATGAAACAGAAAAATCCATAATGAGTTTATGTAGGAAGCG GATAATGATAATAATACAGTCATAAGAGGGAGAAGGGAATCGATAGAGTGTCCATATTTTAATTGGGCATTAGAGGAGAG TGTTGAGCCTCTCAAAAGTCTCAACAACCTTTTGTATCTGTTAGCTCTATTTTTTTAAGTTCTGTCTATATTGGCAAGGT TAGGTAATTAGGGTTCTTCATCAATACTACATTCAATTTCTTCAATTCTTTCACGTTCTTGGTACCAATCTTATCATCTG GAGATTCAAAGTTAAAGATAAATCTAATCAACCTTTCAGTAATGTCAAATTTTGATTTTTGATTTGATTTTGATTTATTT GTCTTAGAGTTTGGGTTAGACCAAACTCTATCTCGAAAGCTAGCTTTTGGGGTAGAGTTAGGCTTAACCCAATTTCTAAG ATGGTTTTAGATGATAGGATTGAACATTTGCGGATGGCCCATATATAGGTGGTCTTTAATAAATAGATCTAAGATAGACT CTAAGGCAATATTAGAATTTGGGTTAGACTGAACTTTACCCCAAAAGATAGGCCTAACCCAAATTCTAATAGGATATGAG AAGTATTATTAAATAATTTTGATTGCCCGCTAGTAGGAGATATTATGTGAAGTTCGTTGGTCTATACTAAATAAACATCA TGATACTGATAATTCTTAATCTGATTGTAGGGTCATGTTGAGGATGTAAGACGCCAAGTGAATGAAGCTGTGCAATCTCG CCATGTTAGTCTTTCTTCTTTTGAGTGGCTCAATTCTAGTAATTTATGGACAGCTGTAATGCTTTTATGAACTTGATTTG TGAAAACAAGATTTTTCATTAACTCTTAACTATGGCATTTATACTTATGACAATCACAGAAAGGTATCTAACATGTTTGG ATTTCTCAATTCAATATCACTTTCATGCCCTGCCTTTGCACATCCTTGTTACTGGAAAACTATATATTAGCCTTCTTAAA AAATATGTTATATGTAAAATCATTCATAAGCTTTCATCTAACGAAGCTTTTGAGAAATGGTTTATGATACTTTATCGAAG TTTCTACGACTAATTGTCAGGAGTATGATGTTTATCTTCCCTATTCTGAATAGAAGTTAATTTTAGGCTTGAGCACAAGG GAGAATAGGCCTGTATACCGTTTATGCTTAAGCCTCAATGTCTCTTCCATGAGGCAACAAGACCATCCATGAACAACTAA AATATTTGGAATAGTTAGTTCATGATGTAAGAATATTAAATTTCAGTTTTCAAGATGTGTGAAAGGGCAAACCTAATTTA ACATGATTTCTTCATGCCCAAATTCCCATGGCAGCAGTTACTTTTTTCCCCTCTTTCTTGTAGTTGTTGTTGTTGTTGTT GTTGTTTATTTGACAGTTCTTGGGATGTTAAGCCTAAGTGCCTCCTCTTTTTTCTTCTATTTCGAGTACAGAAAATTGAC AAGATGTATAGTGCTTTCACCGGACAGCCAATCGAGAAGGTGCAACAGTACACAGAGAGGGACCGTTTTCTTTCTGTTTC TGAGGTAATGTGAACTGTTTTTCATCTTTAACGCTGAATTAAGTTTATTGAACGGAAGAGTGAGGACACATTCTCAAAGA AACCAAAATGCTGTCTTTCCTATAAGAAATGAAATTTAATAAAAGAAGTTTTTGTTGATAGACGGGAGTAAAAGTATTTG ATTAGTTTAATTAGTCTATAAAATGAATGCATGCAAGAACACCATTGTCGGTTGTAACTGGAAATCTGGAATAGCCATTT CTCTAGTATTTTCTATCCTGGTGATTATTAAGTTGATTAGGATATCTGAGGGCGGCTATTATTTTTCTGATCTCAGCTTC TGTAGTAATTGATCCTCTAAAAATCATTTACTGTGTATCTTTTGTTACTTTTCTCATTGCAGGCTTTGGAGTTTGGTCTT ATTGATGGTGTACTGGAAACAGAGTATTGAACCCAGGTTATTTGCATGATATTTGTAATTCTATCAAGTTTTAAAATTTA GTTTTTGTCTGGCTGATTGTAGAACATGATGAATTATTTATAATTTGCAAATGTTGAGAGTGATTTTTTTCTTCTCAGCT CCTCATGCATATGCAATTATTTTGAAGTTAACTTTCATAGAATGGTTGATCTGGTTTCAATTTACAACTAGGGAGTTAAA GGTAACACTGCTTGTCTCTTTGATTTGAGAACCTAGGTATACACCCCAAACTTGTATTCTAACACTACATTATCTATCTC TTTCTGTGTCAAATTACATTATCTATCACATCTTTTATTTCTTTCACTTTTCTTTCTAAATCCATCATCTCATTTAGGGT GTCTGTACCTTCTGGGGGTTTTACAAATATTTCCTTAGTAAAATAGAAAGCTCTGCTTTTACTCTATAATAGTATAATAT ATTAATATTATATATTTTAGTATTTATATACTCCAATATTAAAGAAATAAATTAAATTAAAATAAAAATTTTGATTTAAT GCAAATCACTTTATATTGGATCAGATTAGATTTAAATTCAGAGTCAAACTGATAATCAGAAAAGTTAGTTGGATAAATTT TTCATTTAAAAGTGATCTACAAACACACCTAATTAGTTCATAGAAAAATGCTAGCAACATCTCCTTGACACTCTTTCTAA CACTCTATTTTTGATTGGTTAAAATTCATGTAGGGGTCTATTAAATTATATTTGTATGCATTTTTATATCTTAAAATATA AGCCAAAGTGTTTCCTTGATGGAGAAGGGGTAGAAATAGATCAGGCCGACCATGTTGTTTCTTGGGCTTCTGACCTGACC TACATTAAGCTGAGGTCAAGTCAAGTTAATAAATTGACAAAGGCAATACTTTTTTAAAAGCCTATTTGGTTAAAAAGATT ATCGACTCAGAAAGTCTTGTACGCCTAACTCCTATTTAAACAATTATAATAAGTTTATCTTATTATTTTTAGTTAGATTT TTATTATAATATCTCAAAATTATATATTTTTTTACTTTGTGGAACACACATTTAAATAGGTCTATCATACTAGACTTTTA AAAAGATGATTAGATGACACTCAGACTTAAACAAGAACTCATGACATGTAACAGGGCAATATGCCAAACTCAATGATTTG ATTTGTTAAGTAGGTCAGACTTATTTAAACAAAGCGGAGTCTAACCCAACTTATTTCCACCCATAACAGGGACACACTAC TACCAATAGAAGCAATAATGACACTTGAACATACAAACTGTGGTGACACTCAACACACCTTATTTTTCTCTCTTTCTCTC TTCTTTACATATATTTAATTAATTACTTGTCTCTCTTCTATTTTTTTCTCAATTGAGTGTATATGTTAGATTTGATCATT AGATTTGGCACCCCACTCCTTAGAAATGTCACCCCACTTACGGAAACTTAGTTTCCGAAATATTTCGGAAATAAGGTTTC CGAAGCATTTTTTCACTCAAAAGTGGGGTGTTACATGTATTTTGCACTACAAATCACGAATTAATTTCGGAATCTAAGAT TCCGAAATAATTCGGAACTTGAAAATCCGAAATTGGGGGGTGTGAAATCTAATGGTTGGGGTGGCAAATCCAGCTCTCGT TAAATTTCTATTCGTATGTTTAAGGATAAGCATTATTAGGGCCATTGAAGGAAGGAACTTTCCTATTTATATCTCTCTCT TTTCGATGCACCTTAAGGATAAGGATGGATTAACCCAATCCCAATGCGCAAAATGCAGAAAACTAGGATTAGTTAGTTAA TTACTTTGCCATCTTTAGTCTATAAATGTTTCGTAGACCTTCTTGACCCAAAGTTGGGGGAGTTTTTCTGTAGTGGCGTG ACGACATAAGAGTTTCGGTAGGCGTACGTTGCGGGAGCAAGTTAATGCTTCATTTCTGGATGCAGCAGGTGTTAATTAAT TCTAACTTTGATAAACAACTCAATTTAATTCTTGAACATGAGCAGGCTCATCTACTCTAGGAATCTTCATCTGCATGTTA ATTGTGATGTTGGTTTGGAAAATATTTTTAGTCCTCCAGCACCACTGCACCACTTAGTGGATGGTGAGTACTCATTTCAT TCATATTGTGATACCTGCTCAGGCATGGTTCTATTGAGTTATGGAAGGTGAAAGTTTAATAGACTAGTACTCACTACTCA GTAAAATTAAGAATTGATTAAATTAATAATACTAATACTATGCTTTCCAAAAAAAATAATACTAATATATTTTGAGGGGC AAATACAACATTAAAATACTTCTTTAATTAATAAGGTAAACTTTCTTTTTGGGGCCGTCTGCCCGTCTGCTCCATTTTTT GACCATCTCGTCTGTCCCTGTAATGTATGGTTAATTATCAATTTTTTCAAACTTTTTTGAATTTAAAATTCTAAATTTTG CTACTTCAGGTGCCAATTACGGGAGGAGTGAAAATTTACTAGTTGGTTTGGGTTAGGAAGTAGGATCATAGATATTTTTA TTCGAATTTAACTTAGAATTGTGTTACTGAGAGGTGTAAATGATTCTAACTTGCTAAGTAAGTGATACCTCCAATTCTTT TTGAAACAACTTAGCTAAAGGTATAACTTGGTCATTTTTATATGTTTGTAATTAAATTATGATGTAATAGGTGTATTTTT TCACATATTTACACTTTATTTTTGTCTCTTAATTTCTTCCTGTAGAATTACTGAACAGAATAGCTTAAATGTCTGGGTAC GCAAAATGCACGGATCCAGAGAATCATTGAAGAAGGTGCACATGATTTTGTTGTTCTTCTTTTTAATATGGATTACTAGT TAAATAGCAGGTGATCTAGTAGTATATAAATAGCGTTCCCTTGCTAAGAAAGGAACCCAAAAATAATGAAACATTAATTG TTCATTAATTACGTGTGATTAAGACCCTATCCGTTCTTAAGAAGAAAAAAATACCCAATTATTTGTCTCGGTCATCTGAT AAACTTTTTTTAAGAAATAGTGAGAAGTTATCATTTTTTTAGTACATCTGAAAGATAAATTGCTCCCACTAGGGATTGAT CTCTGAACCTCCCCACCCAACCTATATGTCTCCTAGCTCTTACCACTTGAGTTATCATTCGGGGACTGAGAAGTTATTGT AAAATTACTCATCACATGACGATAATGTAATAAATTCATAATTACTCAGCCCTAATTATTATTATTTTTAAAAAAAATTG GTGTATTTTTTTCTTGTCTTAACAAAAGTAGGTATGCGTGAGACTAATATCTGGAGTGCCTCATAGTCGGCGCATTAAGT AGTAGATGACTAATCAATGAGTTTTGTTTATTCATGAGTTGAGAATCAAACTCTCGATCGCTTAGTTAAGAAATGAAGTG TTGAATAACTATGTTAACCGGTTAGTTCTTGGTGCAACTAAAATCAAAATGAATGAAAAAAAATTCTAATAAATATTATT CTTATGTGATCAGCCAGCAACATGTGAGATAAATTAGTAAGGGATACGCAACTCTGAACATCAGCATGCTTATGAAACAG GGAAAGAGATTGTTACGAGCAAAATAATTAGTCAACTATAATAATGTTTTGTTAAAGCTTTAATTAGTCTTAACTTGTGG CGTCTTTAAATGAAAGGAGTATATTTGAAGTTTTCAACTCTAGTGTGTCGCTGTGTGAGGCTATATTTATGAAAATGAAA TCTCATCTTCCCTTGGCCGAAGACAAATCTCAACTAATATTAAATTAATTAGGGGAATGCTCACTAGTTGTAAAAGCAAA GGGAATCCTTACATGTCTATACACTGTCAAATTAAAATAGGTGGTGTCCCAAAATTACCATTCATAACTTAATGAGTTTG ATTTATAACTTTATGAATTCTTGCATGTAGCAGCTTTTATAACTTATAACCAAATTTTGTAAATCGTTTTATGTTAGAAC TGTTTTAGTCTAATCTAATCTAATCTAATAATATATAGTTTGGGAGTCATTAAAAGCTTAGGTGTCAGTAATCTACAGCT TCCACAATTATAGGGACATGTGGCAAGCTATTAAAATTCATGAAATATTATATAGCCAAGCTTCATAATATTCATCTAAT AAACCTATACTATTTGAAATTTGAAATTCAAAATATAAAAGAAAAGAAAAAACAAACGTAACAACCACCTAACTTCTCTA AAAAAAAAAAAAACAACCAGCTAACATAAAATTTTTCAACATGTATGGTCAAAAGTTTTGGGAAACAAAATTGGCAATGC ATCTGGTCATTTATTCATTCATCTTCAACTCATAAAAAAGAGGCAAATTTAAAATACAAAATTTAAAATATTTTTTAAAA AAACATTTATTATAAAAAGACCAATATCATAGGCTTCAGAATTCACGTTCTCCATCTCACAAATCCTCACACAACTTTCT CTACTTCACCCTTCTTCCTCTCAACCATGACAAGCCTTATGGATCATCATGTATATTTACAAACTTCAACACGTCACTCA TGTGTATGAACTTCCAAGAAAAAACTACAGCTAATATGATTACAGTAACAAACATTTCCATGTTTGGATTCTCATTCGTT TCATATTCTGATTTGATACATCTTTTCTGGTTGGTAAGTACATCTTTTTTGGTTCGTATTTCCTTCTGTTTCCATTTTAT CTTTAAAAAAACTAACTCCTTTTTTTTAAAATAGACCTACTGTGATTTCATTTTTTTTTTCATTTATATAATCATTTTTT CAATATTTAAATTCAAACAAATAACAAACTCTTTTTTTTTTATTAAACATACGGGAATCTCTTTTTTTCATTTGCATAAT CTTTTTTTTTTAATTTGAATTAAAAAAACTATTTTTTAAGACTAATAAACGAAATAAATTTTTTAACATTTACTACTCCA TCTTTTCCATCATCTACTGACTTGATTTTTTTCCAATAATTAAACAAATTGTTTGCCAATGTAATTGGATATTGAGATTC TCAATATAGATCTGTTGATTGATGGGTAAATATTTAGTTCACCAATCAATTATTTATATTCTTAAATTCATCAATTTGGT ATGTGTAGATAAGATTAATAATATTTTGTTTTACATTAATAACTTCAACTTTAACCTTATTCCTTATTTGTTCCACCATT GTGGAAAGGTTGTTGGATCACTATCAGGCATTGAAGCAACTCCTAATAACACTTCTGATCTGAACAATTCTTCAATGGTA TTCTACATAGATTTTCAAATTTAATTGTTATTATTTAGTGAATGGATAATTTATTTTAAATATGTATGTGAATAAAAAAA ATTATTTAAATTAAAAAGCTTCTAATCAATCCTTTTACCTTTTTCATAGAAATTTAAAGGTAAAGCCATTGGATCACTTT CTGAAATTAATAGTTCTTCTAAGAATACTTATATGCTGATCAATACCCCAAAGGTATTAAACAAAGTTTGTACTATCATT CTTAACTATATATAAACTAAACTATGGTATATTAACAATCACTTGCATGTCAATTTTATCATTGCAGGACTTGCTCTCGG AGTTCACGGCTGCCAGTGATGACAACGATGTTATACAGACAGGTGATCAAGTTACCACATCTAAGAGGAAAGTTGAAAAT GAAGCTAACCTTGTGGCAGATGGATCTTCCGTTAATTGTTTGAAGAAAGTTATCAAAGTGGAGAAGGACTAATTTTGTAT TTCAATTCCAATCATTCCATTTCATTTTGGGAGTTCTGGAATTCTTTAGATGCTTATTTTAATTTTTTTCTTTTTTATGT TTCCTTGAATTTTCGTTAATCAAAAAATTGATATTTTGTGGTTA

Download Genomic Sequence

CDS sequence (LotjaGi3g1v0506800.1) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGGCAGCTCAAGCTGTGTCAGTGCCTGCGACTGCAACCTTCTCTATCGCTTCTCGCCGGAACACTCCGTCACACCTTGC GTTTTCTCACAGAAATCTATGCCAGATAGCTTCTAACTTGTCAAGCCCCTATGGTGGTCATTCATCGAAATTTGGGTTAT CAAGTAAAAGCCCTGGCTTTCCTTTAAAGCTTGATGAGAAAAATACCTATGATGCTAGTACAAGTTACGGTGCAATTGAA GCCAAGAAGGGGAACCCACCAATAACACCAGCAGTGATGACTCCTGGAGGACCTCTTGATCTCTCGTCTGTTTTGTTCAG GAATCGTATAATATTCATAGGACAGCCAGTTAACGCACAAGTGGCTCAGAGAGTTATATCGCAGCTTGTGACTCTGGCTA CTATTGATCCAAATGCAGACATACTGATGTATATCAATTGCCCTGGTGGAAGCACATATTCAGTATTGGCAATTTATGAT TGCATGTCTTGGATAAAGCCCAAGGTTGGTACAGTATGTTTCGGAGTAGCGGCAAGCCAAGGAGCACTTCTCCTTGCTGG TGGGGAGAAGGGAATGCGCTATTCAATGCCAAATTCCCGCATAATGATACATCAACCCCAGAGTGGATGTGGGGGTCATG TTGAGGATGTAAGACGCCAAGTGAATGAAGCTGTGCAATCTCGCCATAAAATTGACAAGATGTATAGTGCTTTCACCGGA CAGCCAATCGAGAAGGTGCAACAGTACACAGAGAGGGACCGTTTTCTTTCTGTTTCTGAGGCTTTGGAGTTTGGTCTTAT TGATGGTGTACTGGAAACAGAGTATTGA

Download CDS Sequence

Protein sequence (LotjaGi3g1v0506800.1) extracted from Lotus japonicus Gifu v1.2 Proteins.

MAAQAVSVPATATFSIASRRNTPSHLAFSHRNLCQIASNLSSPYGGHSSKFGLSSKSPGFPLKLDEKNTYDASTSYGAIE AKKGNPPITPAVMTPGGPLDLSSVLFRNRIIFIGQPVNAQVAQRVISQLVTLATIDPNADILMYINCPGGSTYSVLAIYD CMSWIKPKVGTVCFGVAASQGALLLAGGEKGMRYSMPNSRIMIHQPQSGCGGHVEDVRRQVNEAVQSRHKIDKMYSAFTG QPIEKVQQYTERDRFLSVSEALEFGLIDGVLETEY

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
PANTHER	PTHR10381:SF8 View details on PTHR10381:SF8 Search for proteins/transripts with this domain View external data on PTHR10381:SF8	33	275	243	3.3E-132	–
PANTHER	PTHR10381 View details on PTHR10381 Search for proteins/transripts with this domain View external data on PTHR10381	33	275	243	3.3E-132	IPR023562 Show description in modal box View details on IPR023562 Search for proteins/transripts with this domain View on EBI InterPro Service
Hamap	MF_00444 View details on MF_00444 Search for proteins/transripts with this domain View external data on MF_00444	88	274	187	33.526	IPR001907 Show description in modal box View details on IPR001907 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:3.90.226.10 View details on G3DSA:3.90.226.10 Search for proteins/transripts with this domain View external data on G3DSA:3.90.226.10	97	274	178	1.1E-62	–
SUPERFAMILY	SSF52096 View details on SSF52096 Search for proteins/transripts with this domain View external data on SSF52096	99	273	175	8.08E-55	IPR029045 Show description in modal box View details on IPR029045 Search for proteins/transripts with this domain View on EBI InterPro Service
CDD	cd07017 View details on cd07017 Search for proteins/transripts with this domain View external data on cd07017	100	270	171	1.58882E-89	IPR001907 Show description in modal box View details on IPR001907 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR00127 View details on PR00127 Search for proteins/transripts with this domain View external data on PR00127	100	115	16	3.1E-43	IPR001907 Show description in modal box View details on IPR001907 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF00574 View details on PF00574 Search for proteins/transripts with this domain View external data on PF00574	100	273	174	2.6E-67	IPR023562 Show description in modal box View details on IPR023562 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR00127 View details on PR00127 Search for proteins/transripts with this domain View external data on PR00127	140	160	21	3.1E-43	IPR001907 Show description in modal box View details on IPR001907 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR00127 View details on PR00127 Search for proteins/transripts with this domain View external data on PR00127	171	188	18	3.1E-43	IPR001907 Show description in modal box View details on IPR001907 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR00127 View details on PR00127 Search for proteins/transripts with this domain View external data on PR00127	192	211	20	3.1E-43	IPR001907 Show description in modal box View details on IPR001907 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSitePatterns	PS00382 View details on PS00382 Search for proteins/transripts with this domain View external data on PS00382	193	206	14	-	IPR033135 Show description in modal box View details on IPR033135 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR00127 View details on PR00127 Search for proteins/transripts with this domain View external data on PR00127	249	268	20	3.1E-43	IPR001907 Show description in modal box View details on IPR001907 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:0004252 View details of GO:0004252 AmiGO InterPro QuickGO	Molecular function	Serine-type endopeptidase activity	Catalysis of the hydrolysis of internal, alpha-peptide bonds in a polypeptide chain by a catalytic mechanism that involves a catalytic triad consisting of a serine nucleophile that is activated by a proton relay involving an acidic residue (e.g. aspartate or glutamate) and a basic residue (usually histidine).	Subterm of View details of GO:0004175 View details of GO:0008236
GO:0006508 View details of GO:0006508 AmiGO InterPro QuickGO	Biological process	Proteolysis	The hydrolysis of proteins into smaller polypeptides and/or amino acids by cleavage of their peptide bonds.	Subterm of View details of GO:0019538

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Expression data

Expression pattern

Expression pattern of LotjaGi3g1v0506800.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi3g1v0506800.1