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Direct evidence for a covalent ene adduct intermediate in NAD(P)H-dependent enzymes.

Nature chemical biology (2013-11-19)
Raoul G Rosenthal, Marc-Olivier Ebert, Patrick Kiefer, Dominik M Peter, Julia A Vorholt, Tobias J Erb
RESUMEN

The pyridine nucleotides NADH and NADPH (NAD(P)H) are ubiquitous redox coenzymes that are present in all living cells. Although about 16% of all characterized enzymes use pyridine nucleotides as hydride donors or acceptors during catalysis, a detailed understanding of how the hydride is transferred between NAD(P)H and the corresponding substrate is lacking for many enzymes. Here we present evidence for a new mechanism that operates during enzymatic hydride transfers using crotonyl-CoA carboxylase/reductase (Ccr) as a case study. We observed a covalent ene intermediate between NADPH and the substrate, crotonyl-CoA, using NMR, high-resolution MS and stopped-flow spectroscopy. Preparation of the ene intermediate further allowed direct access to the catalytic cycle of other NADPH-dependent enzymes-including those from type II fatty acid biosynthesis-in an unprecedented way, suggesting that formation of NAD(P)H ene intermediates is a more general principle in catalysis.

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ββ-Nicotinamida adenina dinucleótido fosfato hydrate