Site-Directed Mutagenesis of a Reactive Lysyl Residue (Lys-247) of Rubisco Activase

Abstract

Chemical modification of tobacco leaf ribulose-1,5-bisphosphate carboxylase/oxygenase (Rubisco) activase with water-soluble N-hydroxysuccinimide esters identified Lys-247 as a particularly reactive residue necessary for maximal catalytic activity [M. E. Salvucci (1993) Plant Physiol. 103, 501-508]. To further explore the role of Lys-247 in catalysis, this species-invariant residue of Rubisco activase was changed to Arg, Cys, and Gin by mutagenesis of a cDNA clone of the mature form of the tobacco enzyme. Analysis of the purified recombinant proteins showed that all three point mutations reduced the rate of ATP hydrolysis to 2 to 3% of the wild-type enzyme and completely abolished the ability of Rubisco activase to promote activation of decarbamylated Rubisco. Replacement of Lys-247 with Arg, Cys, or Gin had a comparatively minor effect on ATP binding, but eliminated the increase in ATPase-specific activity that normally occurs with increasing concentrations of Rubisco activase protein. In mixing experiments, the K247R mutant enzyme inhibited Rubisco activation by wild-type Rubisco activase, indicating that interactions between Rubisco and Rubisco activase were disrupted by even the most conservative of the substitutions. Chemical elaboration of the K247C mutant by treatment with 2-bromoethylamine converted 39% of the thiols at position 247 to the aminoethyl derivative, but failed to improve the catalytic performance of the mutant enzyme. Our results indicate that the requirement for a lysyl residue at position 247 of Rubisco activase is very stringent, consistent with its proposed role in coordinating precise interactions with γ-phosphate of ATP.