位置:首页 > 蛋白库 > ERG27_GIBZE
ERG27_GIBZE
ID   ERG27_GIBZE             Reviewed;         475 AA.
AC   A0A1C3YLL7;
DT   23-FEB-2022, integrated into UniProtKB/Swiss-Prot.
DT   02-NOV-2016, sequence version 1.
DT   03-AUG-2022, entry version 17.
DE   RecName: Full=3-keto-steroid reductase ERG27 {ECO:0000303|PubMed:23442154};
DE            EC=1.1.1.- {ECO:0000250|UniProtKB:Q12452};
DE   AltName: Full=Ergosterol biosynthetic protein 27 {ECO:0000303|PubMed:23442154};
GN   Name=ERG27 {ECO:0000303|PubMed:23442154}; ORFNames=FGRAMPH1_01T26961;
OS   Gibberella zeae (strain ATCC MYA-4620 / CBS 123657 / FGSC 9075 / NRRL 31084
OS   / PH-1) (Wheat head blight fungus) (Fusarium graminearum).
OC   Eukaryota; Fungi; Dikarya; Ascomycota; Pezizomycotina; Sordariomycetes;
OC   Hypocreomycetidae; Hypocreales; Nectriaceae; Fusarium.
OX   NCBI_TaxID=229533;
RN   [1]
RP   NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA].
RC   STRAIN=ATCC MYA-4620 / CBS 123657 / FGSC 9075 / NRRL 31084 / PH-1;
RX   PubMed=17823352; DOI=10.1126/science.1143708;
RA   Cuomo C.A., Gueldener U., Xu J.-R., Trail F., Turgeon B.G., Di Pietro A.,
RA   Walton J.D., Ma L.-J., Baker S.E., Rep M., Adam G., Antoniw J., Baldwin T.,
RA   Calvo S.E., Chang Y.-L., DeCaprio D., Gale L.R., Gnerre S., Goswami R.S.,
RA   Hammond-Kosack K., Harris L.J., Hilburn K., Kennell J.C., Kroken S.,
RA   Magnuson J.K., Mannhaupt G., Mauceli E.W., Mewes H.-W., Mitterbauer R.,
RA   Muehlbauer G., Muensterkoetter M., Nelson D., O'Donnell K., Ouellet T.,
RA   Qi W., Quesneville H., Roncero M.I.G., Seong K.-Y., Tetko I.V., Urban M.,
RA   Waalwijk C., Ward T.J., Yao J., Birren B.W., Kistler H.C.;
RT   "The Fusarium graminearum genome reveals a link between localized
RT   polymorphism and pathogen specialization.";
RL   Science 317:1400-1402(2007).
RN   [2]
RP   GENOME REANNOTATION.
RC   STRAIN=ATCC MYA-4620 / CBS 123657 / FGSC 9075 / NRRL 31084 / PH-1;
RX   PubMed=20237561; DOI=10.1038/nature08850;
RA   Ma L.-J., van der Does H.C., Borkovich K.A., Coleman J.J., Daboussi M.-J.,
RA   Di Pietro A., Dufresne M., Freitag M., Grabherr M., Henrissat B.,
RA   Houterman P.M., Kang S., Shim W.-B., Woloshuk C., Xie X., Xu J.-R.,
RA   Antoniw J., Baker S.E., Bluhm B.H., Breakspear A., Brown D.W.,
RA   Butchko R.A.E., Chapman S., Coulson R., Coutinho P.M., Danchin E.G.J.,
RA   Diener A., Gale L.R., Gardiner D.M., Goff S., Hammond-Kosack K.E.,
RA   Hilburn K., Hua-Van A., Jonkers W., Kazan K., Kodira C.D., Koehrsen M.,
RA   Kumar L., Lee Y.-H., Li L., Manners J.M., Miranda-Saavedra D.,
RA   Mukherjee M., Park G., Park J., Park S.-Y., Proctor R.H., Regev A.,
RA   Ruiz-Roldan M.C., Sain D., Sakthikumar S., Sykes S., Schwartz D.C.,
RA   Turgeon B.G., Wapinski I., Yoder O., Young S., Zeng Q., Zhou S.,
RA   Galagan J., Cuomo C.A., Kistler H.C., Rep M.;
RT   "Comparative genomics reveals mobile pathogenicity chromosomes in
RT   Fusarium.";
RL   Nature 464:367-373(2010).
RN   [3]
RP   NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA].
RC   STRAIN=ATCC MYA-4620 / CBS 123657 / FGSC 9075 / NRRL 31084 / PH-1;
RX   PubMed=26198851; DOI=10.1186/s12864-015-1756-1;
RA   King R., Urban M., Hammond-Kosack M.C.U., Hassani-Pak K.,
RA   Hammond-Kosack K.E.;
RT   "The completed genome sequence of the pathogenic ascomycete fungus Fusarium
RT   graminearum.";
RL   BMC Genomics 16:544-544(2015).
RN   [4]
RP   FUNCTION, INDUCTION, AND PATHWAY.
RX   PubMed=23442154; DOI=10.1111/nph.12193;
RA   Fan J., Urban M., Parker J.E., Brewer H.C., Kelly S.L.,
RA   Hammond-Kosack K.E., Fraaije B.A., Liu X., Cools H.J.;
RT   "Characterization of the sterol 14alpha-demethylases of Fusarium
RT   graminearum identifies a novel genus-specific CYP51 function.";
RL   New Phytol. 198:821-835(2013).
CC   -!- FUNCTION: 3-keto-steroid reductase; part of the third module of
CC       ergosterol biosynthesis pathway that includes the late steps of the
CC       pathway (By similarity). ERG27 is a catalytic component of the C-4
CC       demethylation complex that catalyzes the conversion of 4,4-
CC       dimethylfecosterol into fecosterol via 4-methylfecosterol (By
CC       similarity). The third module or late pathway involves the ergosterol
CC       synthesis itself through consecutive reactions that mainly occur in the
CC       endoplasmic reticulum (ER) membrane. Firstly, the squalene synthase
CC       ERG9 catalyzes the condensation of 2 farnesyl pyrophosphate moieties to
CC       form squalene, which is the precursor of all steroids. Squalene
CC       synthase is crucial for balancing the incorporation of farnesyl
CC       diphosphate (FPP) into sterol and nonsterol isoprene synthesis.
CC       Secondly, squalene is converted into lanosterol by the consecutive
CC       action of the squalene epoxidase ERG1 and the lanosterol synthase ERG7.
CC       Then, the delta(24)-sterol C-methyltransferase ERG6 methylates
CC       lanosterol at C-24 to produce eburicol. Eburicol is the substrate of
CC       the sterol 14-alpha demethylase encoded by CYP51A, CYP51B and CYP51C,
CC       to yield 4,4,24-trimethyl ergosta-8,14,24(28)-trienol. CYP51B encodes
CC       the enzyme primarily responsible for sterol 14-alpha-demethylation, and
CC       plays an essential role in ascospore formation. CYP51A encodes an
CC       additional sterol 14-alpha-demethylase, induced on ergosterol depletion
CC       and responsible for the intrinsic variation in azole sensitivity. The
CC       third CYP51 isoform, CYP51C, does not encode a sterol 14-alpha-
CC       demethylase, but is required for full virulence on host wheat ears. The
CC       C-14 reductase ERG24 then reduces the C14=C15 double bond which leads
CC       to 4,4-dimethylfecosterol. A sequence of further demethylations at C-4,
CC       involving the C-4 demethylation complex containing the C-4 methylsterol
CC       oxidases ERG25, the sterol-4-alpha-carboxylate 3-dehydrogenase ERG26
CC       and the 3-keto-steroid reductase ERG27, leads to the production of
CC       fecosterol via 4-methylfecosterol. ERG28 has a role as a scaffold to
CC       help anchor ERG25, ERG26 and ERG27 to the endoplasmic reticulum. The C-
CC       8 sterol isomerase ERG2 then catalyzes the reaction which results in
CC       unsaturation at C-7 in the B ring of sterols and thus converts
CC       fecosterol to episterol. The sterol-C5-desaturases ERG3A and ERG3BB
CC       then catalyze the introduction of a C-5 double bond in the B ring to
CC       produce 5-dehydroepisterol. The C-22 sterol desaturases ERG5A and ERG5B
CC       further convert 5-dehydroepisterol into ergosta-5,7,22,24(28)-tetraen-
CC       3beta-ol by forming the C-22(23) double bond in the sterol side chain.
CC       Finally, ergosta-5,7,22,24(28)-tetraen-3beta-ol is substrate of the C-
CC       24(28) sterol reductase ERG4 to produce ergosterol (Probable).
CC       {ECO:0000250|UniProtKB:Q12452, ECO:0000305|PubMed:23442154}.
CC   -!- PATHWAY: Steroid metabolism; ergosterol biosynthesis.
CC       {ECO:0000305|PubMed:23442154}.
CC   -!- SUBUNIT: Heterotetramer of ERG25, ERG26, ERG27 and ERG28 (By
CC       similarity). ERG28 acts as a scaffold to tether ERG27 and other 4,4-
CC       demethylation-related enzymes, forming a demethylation enzyme complex,
CC       in the endoplasmic reticulum (By similarity).
CC       {ECO:0000250|UniProtKB:Q12452}.
CC   -!- SUBCELLULAR LOCATION: Endoplasmic reticulum membrane
CC       {ECO:0000250|UniProtKB:Q12452}; Peripheral membrane protein
CC       {ECO:0000250|UniProtKB:Q12452}. Lipid droplet
CC       {ECO:0000250|UniProtKB:Q12452}.
CC   -!- INDUCTION: Expression is significantly higher when CYP51A is deleted or
CC       in the CYP51B/CYP51C double deletant. {ECO:0000269|PubMed:23442154}.
CC   -!- MISCELLANEOUS: In Fusarium, the biosynthesis pathway of the sterol
CC       precursors leading to the prevalent sterol ergosterol differs from
CC       yeast. The ringsystem of lanosterol in S.cerevisiae is firstly
CC       demethylised in three enzymatic steps leading to the intermediate
CC       zymosterol and secondly a methyl group is added to zymosterol by the
CC       sterol 24-C-methyltransferase to form fecosterol. In Fusarium,
CC       lanosterol is firstly transmethylated by the sterol 24-C-
CC       methyltransferase leading to the intermediate eburicol and secondly
CC       demethylated in three steps to form fecosterol.
CC       {ECO:0000269|PubMed:23442154}.
CC   -!- SIMILARITY: Belongs to the short-chain dehydrogenases/reductases (SDR)
CC       family. ERG27 subfamily. {ECO:0000305}.
CC   ---------------------------------------------------------------------------
CC   Copyrighted by the UniProt Consortium, see https://www.uniprot.org/terms
CC   Distributed under the Creative Commons Attribution (CC BY 4.0) License
CC   ---------------------------------------------------------------------------
DR   EMBL; HG970335; SCB65425.1; -; Genomic_DNA.
DR   STRING; 5518.FGSG_13596P0; -.
DR   VEuPathDB; FungiDB:FGRAMPH1_01G26961; -.
DR   eggNOG; KOG1478; Eukaryota.
DR   UniPathway; UPA00768; -.
DR   Proteomes; UP000070720; Chromosome 4.
DR   GO; GO:0005789; C:endoplasmic reticulum membrane; IEA:UniProtKB-SubCell.
DR   GO; GO:0005811; C:lipid droplet; IEA:UniProtKB-SubCell.
DR   GO; GO:0016491; F:oxidoreductase activity; IEA:UniProtKB-KW.
DR   GO; GO:0016126; P:sterol biosynthetic process; IEA:UniProtKB-UniPathway.
DR   InterPro; IPR036291; NAD(P)-bd_dom_sf.
DR   SUPFAM; SSF51735; SSF51735; 1.
PE   2: Evidence at transcript level;
KW   Endoplasmic reticulum; Lipid biosynthesis; Lipid droplet; Lipid metabolism;
KW   Membrane; NADP; Oxidoreductase; Reference proteome; Steroid biosynthesis.
FT   CHAIN           1..475
FT                   /note="3-keto-steroid reductase ERG27"
FT                   /id="PRO_0000454365"
FT   ACT_SITE        272
FT                   /note="Proton acceptor"
FT                   /evidence="ECO:0000250|UniProtKB:Q12634"
FT   BINDING         64..116
FT                   /ligand="NADP(+)"
FT                   /ligand_id="ChEBI:CHEBI:58349"
FT                   /evidence="ECO:0000250|UniProtKB:Q12634"
SQ   SEQUENCE   475 AA;  52953 MW;  C9072B930B85C535 CRC64;
     MGSQLIPATA PWDSVPAQEQ LFVLITGANS GIGLSIGERL IDEFLATRSL RSHLILIPTT
     RSKSKSLQTI KALRDYARKA AQTSQALQSR VGSSYRWQDT VARVHVLSLQ VDLCDLRGVY
     AFADALVHGP VSNPEGLEGE YLKNVRIPRL DTVVFNAAYG GWSGVNYPKA IWVILTEGLV
     QSVTWPSYKM ALPTARLNDK ANYDYPKEPP LGEVFTACVF GHYVLAHELL PLLCRQSETE
     TPGRLIWSSS LEAIERVLDM SDFQGFKCDG PYESAKRVTD ILSLTATLPA SLPSSNRFFT
     PDDPAEARAK PIRPRMYLTH PGIVASTLFP VPWFFMWAYE LALLISRWIG SPWHNTDSYT
     GAKSPVWIAL QEQSALDELD AERIKWGSSS NRHMQVEVKK TEVEGWGWEG KVEDAAALNA
     DTAVGVFKKT VGRKRGAVDV TKEDIVKFEE LGAESWKNME DMRHEWENIL GVKKA
 
 
维奥蛋白资源库 - 中文蛋白资源 CopyRight © 2010-2024