Distance between the substrate and regulatory reduced coenzyme binding sites of bovine liver glutamate dehydrogenase by resonance energy transfer |
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Authors: | R H Lark R F Colman |
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Affiliation: | Department of Chemistry and Biochemistry, University of Delaware, Newark 19716. |
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Abstract: | Bovine liver glutamate dehydrogenase is known to bind reduced coenzyme at two sites/subunit, one catalytic and one regulatory; ADP competes for the latter site. The enzyme is here shown to be catalytically active with the thionicotinamide analogue of NADPH [( S]NADPH). For native enzyme, ultrafiltration studies revealed that [S]NADPH reversibly occupies about two sites/enzyme subunit in the absence of other ligands; by the addition of ADP, [S]NADPH binding can be limited to one molecule/subunit. The enzyme is irreversibly inactivated by reaction with 4-(iodoacetamido)salicylic acid (ISA) at lysine126 within the 2-oxoglutarate binding site [Holbrook, J.J., Roberts, P.A. & Wallis, R.B. (1973) Biochem. J. 133, 165-171]. ISA-modified enzyme binds 1 molecule [S]NADPH/subunit in the absence of ADP, suggesting that reaction at the substrate site blocks binding at the catalytic, but not at the regulatory site. The fluorescence spectrum of ISA-modified enzyme overlaps the absorption spectrum of [S]NADPH allowing a distance measurement between these sites by resonance energy transfer. [S]NADPH quenches the emission of ISA-modified enzyme, yielding 3.2 nm as the average distance between sites. ADP competes for the [S]NADPH site but does not affect the fluorescence of ISA-modified enzyme, indicating that [S]NADPH quenching is attributable to energy transfer rather than to a conformational change. The 3.2 nm thus represents the distance between the 2-oxoglutarate and reduced coenzyme regulatory sites of glutamate dehydrogenase. |
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