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Bovine-heart NADH:ubiquinone oxidoreductase is a monomer with 8 Fe-S clusters and 2 FMN groups

1997; Elsevier BV; Volume: 1318; Issue: 1-2 Linguagem: Inglês

10.1016/s0005-2728(96)00153-3

1879-2650

Simon P. J. Albracht, A.-M. Mariette, Ph de Jong,

Advanced battery technologies research

The availability of the amino-acid sequences of a number of mitochondrial and bacterial NADH:ubiquinone oxidoreductases (Complex I), the sequence similarities of five of the essential subunits of Complex I with subunits of [NiFe]hydrogenases and [Fe]hydrogenases, as well as some long-standing controversies about the precise EPR properties and stoichiometries of the iron-sulfur clusters in Complex I have led us to propose a new structural and functional model for this complicated enzyme. The functional unit is a monomer comprising 8 different Fe-S clusters and 2 FMN molecules as prosthetic groups. The electron-input pathway, as well as part of the electron-transfer components, seem largely inherited from bacterial NAD+-reducing hydrogenases. The essential electron-transfer components of the electron-output pathway are located in the TYKY subunit. This subunit is proposed to hold both iron-sulfur clusters 2 and to render the enzyme the ability to perform coupled electron transfer. Based on earlier observed similarities (Albracht, S.P.J. (1993) Biochim. Biophys. Acta 1144, 221–224) of the 49 kDa subunit and the PSST subunit with, respectively, the large and small subunits of [NiFe]hydrogenases, it is proposed that the 49 kDa/PSST subunit couple provides Complex I with an ancient proton-transfer pathway.