Structural comparisons lead to the definition of a new superfamily of NAD(P)(H)-accepting oxidoreductases: the single-domain reductases/epimerases/dehydrogenases (the ‘RED’ family)

Author:

Labesse G1,Vidal-Cros A,Chomilier J1,Gaudry M2,Mornon J P1

Affiliation:

1. Laboratoire de Minéralogie-Cristallographie, Universités PVI et PVII, C.N.R.S. U.R.A. 09, case 115, France.

2. Laboratoire de Chimie Organique Biologique, Université PVI, C.N.R.S. U.R.A. 493, 75252 Paris Cédex 05, France

Abstract

Using both primary- and tertiary-structure comparisons, we have established new structural similarities shared by reductases, epimerases and dehydrogenases not previously known to be related. Despite the low sequence identity (down to 10%), short consensus segments are identified. We show that the sequence, the active site and the supersecondary structure are well conserved in these proteins. New homologues (the protochlorophyllide reductases) are detected, and we define a new superfamily composed of single-domain dinucleotide-binding enzymes. Rules for the cofactor-binding specificity are deduced from our sequence alignment. The involvement of some amino acids in catalysis is discussed. Comparison with two-domain dehydrogenases allows us to distinguish two general mechanisms of divergent evolution.

Publisher

Portland Press Ltd.

Subject

Cell Biology,Molecular Biology,Biochemistry

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