Crystal structure of cis‐biphenyl‐2,3‐dihydrodiol‐2,3‐dehydrogenase from a PCB degrader at 2.0 Å resolution

Crystal structure of cis‐biphenyl‐2,3‐dihydrodiol‐2,3‐dehydrogenase from a PCB degrader at 2.0 Å resolution

cis‐Biphenyl‐2,3‐dihydrodiol‐2,3‐dehydrogenase (BphB) is involved in the aerobic biodegradation of polychlorinated biphenyls (PCBs). The crystal structure of the NAD+‐enzyme complex was determined by molecular replacement and refined to an R‐value of 17.9% at 2.0 Å. As a member of the short‐chain al...

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Veröffentlicht in:Protein science 1998-06, Vol.7 (6), p.1286-1293
Hauptverfasser: Hülsmeyer, Martin, Hecht, Hans‐Jürgen, Niefind, Karsten, Schomburg, Dietmar, Hofer, Bernd, Timmis, Kenneth N., Eltis, Lindsay D.
Format: Artikel
Sprache:eng
Schlagworte:
Asparagine
Binding Sites
Crystallization
Crystallography, X-Ray
Hydrogen Bonding
Macromolecular Substances
Models, Molecular
NAD - metabolism
NAD‐dependent oxidoreductase
Oxidoreductases - chemistry
Oxidoreductases - metabolism
PCB degradation
Polychlorinated Biphenyls - metabolism
Protein Folding
short‐chain alcohol dehydrogenase
substrate docking
Substrate Specificity
X‐ray crystallography
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Zusammenfassung:cis‐Biphenyl‐2,3‐dihydrodiol‐2,3‐dehydrogenase (BphB) is involved in the aerobic biodegradation of polychlorinated biphenyls (PCBs). The crystal structure of the NAD+‐enzyme complex was determined by molecular replacement and refined to an R‐value of 17.9% at 2.0 Å. As a member of the short‐chain alcohol dehydrogenase/reductase (SDR) family, the overall protein fold and positioning of the catalytic triad in BphB are very similar to those observed in other SDR enzymes, although small differences occur in the cofactor binding site. Modeling studies indicate that the substrate is bound in a deep hydrophobic cleft close to the nicotinamide moiety of the NAD+ cofactor. These studies further suggest that Asn143 is a key determinant of substrate specificity. A two‐step reaction mechanism is proposed for cis‐dihydrodiol dehydrogenases.
ISSN:0961-8368
1469-896X
DOI:10.1002/pro.5560070603