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  • Characterization of the NAD+ binding site of Candida boidinii formate dehydrogenase by affinity labelling and site-directed mutagenesis.

Characterization of the NAD+ binding site of Candida boidinii formate dehydrogenase by affinity labelling and site-directed mutagenesis.

European journal of biochemistry (2000-10-29)
N E Labrou, D J Rigden, Y D Clonis
RESUMEN

The 2',3'-dialdehyde derivative of ADP (oADP) has been shown to be an affinity label for the NAD+ binding site of recombinant Candida boidinii formate dehydrogenase (FDH). Inactivation of FDH by oADP at pH 7.6 followed biphasic pseudo first-order saturation kinetics. The rate of inactivation exhibited a nonlinear dependence on the concentration of oADP, which can be described by reversible binding of reagent to the enzyme (Kd = 0.46 mM for the fast phase, 0.45 mM for the slow phase) prior to the irreversible reaction, with maximum rate constants of 0.012 and 0.007 min-1 for the fast and slow phases, respectively. Inactivation of formate dehydrogenase by oADP resulted in the formation of an enzyme-oADP product, a process that was reversed after dialysis or after treatment with 2-mercaptoethanol (> 90% reactivation). The reactivation of the enzyme by 2-mercaptoethanol was prevented if the enzyme-oADP complex was previously reduced by NaBH4, suggesting that the reaction product was a stable Schiff's base. Protection from inactivation was afforded by nucleotides (NAD+, NADH and ADP) demonstrating the specificity of the reaction. When the enzyme was completely inactivated, approximately 1 mol of [14C]oADP per mol of subunit was incorporated. Cleavage of [14C]oADP-modified enzyme with trypsin and subsequent separation of peptides by RP-HPLC gave only one radioactive peak. Amino-acid sequencing of the radioactive tryptic peptide revealed the target site of oADP reaction to be Lys360. These results indicate that oADP inactivates FDH by specific reaction at the nucleotide binding site, with negative cooperativity between subunits accounting for the appearance of two phases of inactivation. Molecular modelling studies were used to create a model of C. boidinii FDH, based on the known structure of the Pseudomonas enzyme, using the MODELLER 4 program. The model confirmed that Lys360 is positioned at the NAD+-binding site. Site-directed mutagenesis was used in dissecting the structure and functional role of Lys360. The mutant Lys360-->Ala enzyme exhibited unchanged kcat and Km values for formate but showed reduced affinity for NAD+. The molecular model was used to help interpret these biochemical data concerning the Lys360-->Ala enzyme. The data are discussed in terms of engineering coenzyme specificity.

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Adenosine 5′-diphosphate, periodate oxidized sodium salt, 90-95%