Litcius/Paper detail

The <scp>3D</scp>‐structure, kinetics and dynamics of the <i>E. coli</i> nitroreductase <scp>NfsA</scp> with <scp>NADP</scp><sup>+</sup> provide glimpses of its catalytic mechanism

Scott A. White, Andrew J. Christofferson, Alastair I. Grainger, Martin A. Day, David Jarrom, Antonio E. Graziano, Peter F. Searle, Eva I. Hyde

2022FEBS Letters17 citationsDOIOpen Access PDF

Abstract

Nitroreductases activate nitroaromatic antibiotics and cancer prodrugs to cytotoxic hydroxylamines and reduce quinones to quinols. Using steady‐state and stopped‐flow kinetics, we show that the Escherichia coli nitroreductase NfsA is 20–50 fold more active with NADPH than with NADH and that product release may be rate‐limiting. The crystal structure of NfsA with NADP + shows that a mobile loop forms a phosphate‐binding pocket. The nicotinamide ring and nicotinamide ribose are mobile, as confirmed in molecular dynamics (MD) simulations. We present a model of NADPH bound to NfsA. Only one NADP + is seen bound to the NfsA dimers, and MD simulations show that binding of a second NADP(H) cofactor is unfavourable, suggesting that NfsA and other members of this protein superfamily may have a half‐of‐sites mechanism.

Topics & Concepts

NitroreductaseChemistryCofactorStereochemistryNicotinamideEscherichia coliKineticsNAD+ kinaseBiochemistryEnzymePhysicsQuantum mechanicsGeneEnzyme Structure and FunctionAmino Acid Enzymes and MetabolismAdvanced biosensing and bioanalysis techniques