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Reviewed, UniProtKB/Swiss-Prot Q03103 (ERO1_YEAST)

Last modified July 22, 2008. Version 66. Feed History...

Clusters with 100%, 90%, 50% identity | Documents (4) | Third-party data | Customize display text xml rdf/xml gff fasta
Names and origin · Protein attributes · General annotation (Comments) · Ontologies · Binary interactions · Sequence annotation (Features) · Sequences · References · Cross-references · Entry information · Relevant documents

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Names and origin

Protein namesRecommended name:
    Endoplasmic oxidoreductin-1
    EC=1.8.4.-
Alternative name(s):
    Endoplasmic oxidoreductase protein 1
Gene names
Name: ERO1
Ordered Locus Names: YML130C
ORF Names: YM4987.05C
OrganismSaccharomyces cerevisiae (Baker's yeast) [Complete proteome]
Taxonomic identifier4932 [NCBI]
Taxonomic lineageEukaryotaFungiDikaryaAscomycotaSaccharomycotinaSaccharomycetesSaccharomycetalesSaccharomycetaceaeSaccharomyces

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Protein attributes

Sequence length563 AA.
Sequence statusComplete.
Sequence processingThe displayed sequence is further processed into a mature form.
Protein existenceEvidence at protein level.

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General annotation (Comments)

Function

Essential oxidoreductase that oxidizes proteins in the endoplasmic reticulum to produce disulfide bonds. Acts by oxidizing directly PDI1 isomerase through a direct disulfide exchange. Does not act as a direct oxidant of folding substrate, but relies on PDI1 to transfer oxidizing equivalent. Also able to oxidize directly the PDI related protein MPD2. Does not oxidize all PDI related proteins, suggesting that it can discriminate between PDI1 and related proteins. Reoxidation of ERO1 probably involves electron transfer to molecular oxygen via FAD. Acts independently of glutathione. May be responsible for a significant proportion of reactive oxygen species (ROS) in the cell, thereby being a source of oxidative stress.

Cofactor

FAD.

Subunit structure

May function both as a monomer and a homodimer.

Subcellular location

Endoplasmic reticulum membrane; Peripheral membrane protein; Lumenal side.

Induction

By unfolded protein response (UPR).

Domain

The C-terminal part (437-563) is required for the association with the endoplasmic reticulum lumen membrane.

Post-translational modification

The Cys-100/Cys-105 and Cys-352/Cys-355 disulfide bonds constitute the redox-active center. The Cys-100/Cys-105 disulfide bond may accept electron from PDI1 and funnel them to the active site disulfide Cys-352/Cys-355.

N-glycosylated.

Sequence similarities

Belongs to the EROs family.

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Ontologies

Keywords

   Biological processElectron transport
Transport
   Cellular componentEndoplasmic reticulum
Membrane
   DomainRedox-active center
Signal
   LigandFAD
Flavoprotein
   Molecular functionOxidoreductase
   PTMGlycoprotein
   Technical term3D-structure
Complete proteome

Gene Ontology (GO)

   Biological processprotein thiol-disulfide exchange Ref.6

Inferred from mutant phenotype. Source: SGD

   Cellular componentendoplasmic reticulum Ref.3

Inferred from direct assay. Source: SGD

   Molecular functionelectron carrier activity Ref.6

Inferred from mutant phenotype. Source: SGD

protein binding

Inferred from physical interaction. Source: IntAct

thiol oxidase activity

Inferred from direct assay. Source: SGD

Complete GO annotation...

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Binary interactions

With

Entry

#Exp.

IntAct

Notes

PDIA3P301011EBI-27991,EBI-979862From a different organism.

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Sequence annotation (Features)

Feature keyPosition(s)LengthDescriptionGraphical view

Molecule processing

Signal peptide1 – 1818 Potential
Chain19 – 563545Endoplasmic oxidoreductin-1

Sites

Active site3521
Active site3551
Binding site1871FAD
Binding site1891FAD
Binding site2001FAD
Binding site2281FAD
Binding site2311FAD
Binding site2601FAD

Amino acid modifications

Glycosylation211N-linked (GlcNAc...) Potential
Glycosylation351N-linked (GlcNAc...) Potential
Glycosylation531N-linked (GlcNAc...) Potential
Glycosylation1301N-linked (GlcNAc...) Potential
Glycosylation3421N-linked (GlcNAc...) Potential
Glycosylation4251N-linked (GlcNAc...) Potential
Glycosylation4581N-linked (GlcNAc...) Potential
Glycosylation4681N-linked (GlcNAc...) Potential
Glycosylation4911N-linked (GlcNAc...) Potential
Disulfide bond90 ↔ 349
Disulfide bond100 ↔ 105Redox-active
Disulfide bond143 ↔ 166
Disulfide bond150 ↔ 295
Disulfide bond352 ↔ 355Redox-active

Experimental info

Mutagenesis901C → A: No effect
Mutagenesis1001C → A: Impairs the capture of mixed-disulfide with PDI1 thereby blocking its function
Mutagenesis1051C → A: Loss of function
Mutagenesis2081C → A: No effect
Mutagenesis2291G → S in ERO1-1; induces defective folding of disulfide proteins
Mutagenesis2311H → Y in ERO1-2; induces defective folding of disulfide proteins
Mutagenesis3491C → A: Does not affect activity but increases by twofold the amount of protein found in mixed disulfide with PDI1 or MPD2
Mutagenesis3521C → A: Prevents its reoxidation thereby blocking its function
Mutagenesis3551C → A: Prevents its reoxidation thereby blocking its function

Secondary structure

............................................................ 563
Helix Strand Turn

Details...

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Sequences

Sequence LengthMass (Da)Tools
Q03103-1 [UniParc].

Last modified November 1, 1997. Version 1.
Checksum: 928CE700AE6137EF

FASTA56365,033
        10         20         30         40         50         60 
MRLRTAIATL CLTAFTSATS NNSYIATDQT QNAFNDTHFC KVDRNDHVSP SCNVTFNELN 

        70         80         90        100        110        120 
AINENIRDDL SALLKSDFFK YFRLDLYKQC SFWDANDGLC LNRACSVDVV EDWDTLPEYW 

       130        140        150        160        170        180 
QPEILGSFNN DTMKEADDSD DECKFLDQLC QTSKKPVDIE DTINYCDVND FNGKNAVLID 

       190        200        210        220        230        240 
LTANPERFTG YGGKQAGQIW STIYQDNCFT IGETGESLAK DAFYRLVSGF HASIGTHLSK 

       250        260        270        280        290        300 
EYLNTKTGKW EPNLDLFMAR IGNFPDRVTN MYFNYAVVAK ALWKIQPYLP EFSFCDLVNK 

       310        320        330        340        350        360 
EIKNKMDNVI SQLDTKIFNE DLVFANDLSL TLKDEFRSRF KNVTKIMDCV QCDRCRLWGK 

       370        380        390        400        410        420 
IQTTGYATAL KILFEINDAD EFTKQHIVGK LTKYELIALL QTFGRLSESI ESVNMFEKMY 

       430        440        450        460        470        480 
GKRLNGSENR LSSFFQNNFF NILKEAGKSI RYTIENINST KEGKKKTNNS QSHVFDDLKM 

       490        500        510        520        530        540 
PKAEIVPRPS NGTVNKWKKA WNTEVNNVLE AFRFIYRSYL DLPRNIWELS LMKVYKFWNK 

       550        560 
FIGVADYVSE ETREPISYKL DIQ

« Hide

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References

« Hide 'large scale' references
[1]"The nucleotide sequence of Saccharomyces cerevisiae chromosome XIII."
Bowman S., Churcher C.M., Badcock K., Brown D., Chillingworth T., Connor R., Dedman K., Devlin K., Gentles S., Hamlin N., Hunt S., Jagels K., Lye G., Moule S., Odell C., Pearson D., Rajandream M.A., Rice P. expand/collapse author list , Skelton J., Walsh S.V., Whitehead S., Barrell B.G.
Nature 387:90-93(1997) [PubMed: 9169872] [Abstract]
Cited for: NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA].
Strain: ATCC 204511 / S288c / AB972.
[2]"The ERO1 gene of yeast is required for oxidation of protein dithiols in the endoplasmic reticulum."
Frand A.R., Kaiser C.A.
Mol. Cell 1:161-170(1998) [PubMed: 9659913] [Abstract]
Cited for: FUNCTION, SUBCELLULAR LOCATION, GLYCOSYLATION, INDUCTION.
[3]"Ero1p: a novel and ubiquitous protein with an essential role in oxidative protein folding in the endoplasmic reticulum."
Pollard M.G., Travers K.J., Weissman J.S.
Mol. Cell 1:171-182(1998) [PubMed: 9659914] [Abstract]
Cited for: FUNCTION, SUBCELLULAR LOCATION, GLYCOSYLATION, INDUCTION, MUTAGENESIS OF HIS-231.
[4]"Ero1p oxidizes protein disulfide isomerase in a pathway for disulfide bond formation in the endoplasmic reticulum."
Frand A.R., Kaiser C.A.
Mol. Cell 4:469-477(1999) [PubMed: 10549279] [Abstract]
Cited for: FUNCTION, DIRECT OXIDATION OF PDI1 AND MPD2.
[5]"Biochemical basis of oxidative protein folding in the endoplasmic reticulum."
Tu B.P., Ho-Schleyer S.C., Travers K.J., Weissman J.S.
Science 290:1571-1574(2000) [PubMed: 11090354] [Abstract]
Cited for: FUNCTION, COFACTOR.
[6]"Two pairs of conserved cysteines are required for the oxidative activity of Ero1p in protein disulfide bond formation in the endoplasmic reticulum."
Frand A.R., Kaiser C.A.
Mol. Biol. Cell 11:2833-2843(2000) [PubMed: 10982384] [Abstract]
Cited for: MUTAGENESIS OF CYS-90; CYS-100; CYS-105; CYS-208; CYS-349; CYS-352 AND CYS-355.
[7]"The C-terminal domain of yeast Ero1p mediates membrane localization and is essential for function."
Pagani M., Pilati S., Bertoli G., Valsasina B., Sitia R.
FEBS Lett. 508:117-120(2001) [PubMed: 11707280] [Abstract]
Cited for: SUBCELLULAR LOCATION, DOMAIN.
[8]"The FAD- and O(2)-dependent reaction cycle of Ero1-mediated oxidative protein folding in the endoplasmic reticulum."
Tu B.P., Weissman J.S.
Mol. Cell 10:983-994(2002) [PubMed: 12453408] [Abstract]
Cited for: FUNCTION.
[9]"Oxidative protein folding in eukaryotes: mechanisms and consequences."
Tu B.P., Weissman J.S.
J. Cell Biol. 164:341-346(2004) [PubMed: 14757749] [Abstract]
Cited for: REVIEW.
[10]"Structure of Ero1p, source of disulfide bonds for oxidative protein folding in the cell."
Gross E., Kastner D.B., Kaiser C.A., Fass D.
Cell 117:601-610(2004) [PubMed: 15163408] [Abstract]
Cited for: X-RAY CRYSTALLOGRAPHY (2.2 ANGSTROMS) OF 56-424 IN COMPLEX WITH FAD, POTENTIAL HOMODIMERIZATION, MUTAGENESIS OF GLY-229.

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Cross-references

Sequence databases

Z50178 Genomic DNA. Translation: CAA90553.1.
PIRS58198.
RefSeqNP_013576.1.

3D structure databases

EntryMethodResolution (Å)ChainPositionsPDBsum
1RP4X-ray2.20A56-424[»]
1RQ1X-ray2.80A56-424[»]
ModBaseSearch...

Protein-protein interaction databases

DIPDIP:4515N.
IntActQ03103.

Proteomic databases

PeptideAtlasQ03103.

Genome annotation databases

EnsemblYML130C. Saccharomyces cerevisiae. [Contig view]
GeneID854909.
GenomeReviewsGene locus YML130C in contig Z71257_GR.
KEGGsce:YML130C.
NMPDRfig|4932.3.peg.4612.

Organism-specific databases