Alteration in substrate specificity of horse liver alcohol dehydrogenase by an acyclic nicotinamide analog of NAD+
Autor: | Norman J. Oppenheimer, Mina J. Sebastian, Olaf Malver |
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Rok vydání: | 2014 |
Předmět: |
Niacinamide
Stereochemistry Dehydrogenase Chemistry Techniques Synthetic Biochemistry Redox Cofactor Substrate Specificity 2-Propanol chemistry.chemical_compound Catalytic Domain Animals Moiety Horses Enzyme Inhibitors Molecular Biology Alcohol dehydrogenase biology Nicotinamide Alcohol Dehydrogenase Active site Cell Biology Deuterium NAD chemistry Alcohols biology.protein Spectrophotometry Ultraviolet NAD+ kinase Oligopeptides |
Zdroj: | DNA Repair. 23:95-100 |
ISSN: | 1568-7864 |
DOI: | 10.1016/j.dnarep.2014.09.005 |
Popis: | A new, acyclic NAD-analog, acycloNAD + has been synthesized where the nicotinamide ribosyl moiety has been replaced by the nicotinamide (2-hydroxyethoxy)methyl moiety. The chemical properties of this analog are comparable to those of β-NAD + with a redox potential of −324 mV and a 341 nm λ max for the reduced form. Both yeast alcohol dehydrogenase (YADH) and horse liver alcohol dehydrogenase (HLADH) catalyze the reduction of acycloNAD + by primary alcohols. With HLADH 1-butanol has the highest V max at 49% that of β-NAD + . The primary deuterium kinetic isotope effect is greater than 3 indicating a significant contribution to the rate limiting step from cleavage of the carbon–hydrogen bond. The stereochemistry of the hydride transfer in the oxidation of stereospecifically deuterium labeled n -butanol is identical to that for the reaction with β-NAD + . In contrast to the activity toward primary alcohols there is no detectable reduction of acycloNAD + by secondary alcohols with HLADH although these alcohols serve as competitive inhibitors. The net effect is that acycloNAD + has converted horse liver ADH from a broad spectrum alcohol dehydrogenase, capable of utilizing either primary or secondary alcohols, into an exclusively primary alcohol dehydrogenase. This is the first example of an NAD analog that alters the substrate specificity of a dehydrogenase and, like site-directed mutagenesis of proteins, establishes that modifications of the coenzyme distance from the active site can be used to alter enzyme function and substrate specificity. These and other results, including the activity with α-NADH, clearly demonstrate the promiscuity of the binding interactions between dehydrogenases and the riboside phosphate of the nicotinamide moiety, thus greatly expanding the possibilities for the design of analogs and inhibitors of specific dehydrogenases. |
Databáze: | OpenAIRE |
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