Assimilatory Nitrate Reductase: Lysine 741 Participates in Pyridine Nucleotide Binding via Charge Complementarity

Assimilatory NADH:nitrate reductase (EC 1.6.6.1), a complex Mo-pterin-, cytochrome b557-, and FAD-containing protein, catalyzes the regulated and rate-limiting step in the utilization of inorganic nitrogen by high plants. With a recombinant, histidine-tagged form of the spinach nitrate reductase flavin domain, site-directed mutagenesis has been utilized to examine the role of lysine 741 in binding the reducing substrate, NADH. Seven individual mutants, corresponding to K741R, K741H, K741A, K741E, K741M, K741Q, and K741P, have been engineered and six of the resulting proteins purified to homogeneity. With the exception of K741P, all the mutants were obtained as functional flavoproteins which retained FAD as the sole prosthetic group and exhibited spectroscopic properties comparable to those of the wild-type domain, indicating that the amino acid substitutions had no effect on FAD binding. In contrast, all the mutants were found to have altered NADH:ferricyanide reductase (NADH:FR) activity with mutations affecting both kcat and KNADHm, which decreased and increased, respectively. At pH 7.0, kcat decreased in the order WT > K741R > K741A > K741H > K741E > K741M > K741Q while KNADHm increased in the same order. The most efficient mutant, K741R, retained 80% of the wild-type NADH:FR activity, while in contrast the most inefficient mutant, K741Q, retained only 18% of the wild-type NADH:FR activity together with a 118-fold increased KNADHm. pH studies of K741H revealed that both kcat and KNADHm were pH-dependent, with enhanced activity observed at acidic pH. These results indicated that retention of a positively charged side chain at position 741 in the spinach nitrate reductase primary sequence is important for the efficient binding and subsequent oxidation of NADH and that the positively charged side chain enhances nucleotide binding via charge complementarity with the negatively charged pyrophosphate moiety.