Protein engineering of the 2-haloacid halidohydrolase IVa from Pseudomonas cepacia MBA4

Abstract

The chemical modification of L-2-haloacid halidohydrolase IVa (Hdl IVa), originally identified in Pseudomonas cepacia MBA4, produced as a recombinant protein in Escherichia coli DH5 alpha, led to the identification of histidine and arginine as amino acid residues likely to play a part in the catalytic mechanism of the enzyme. These results, together with DNA sequence and analyses [Murdiyatmo, Asmara, Baines, Bull and Hardman (1992) Biochem. J. 284, 87-93] provided the basis for the rational design of a series of random- and site-directed-mutagenesis experiments of the Hdl IVa structural gene (hdl IVa). Subsequent apparent kinetic analyses of purified mutant enzymes identified His-20 and Arg-42 as the key residues in the activity of this halidohydrolase. It is also proposed that Asp-18 is implicated in the functioning of the enzyme, possibly by positioning the correct tautomer of His-20 for catalysis in the enzyme-substrate complex and stabilizing the protonated form of His-20 in the transition-state complex. Comparison of conserved amino acid sequences between the Hdl IVa and other halidohydrolases suggests that L-2-haloacid halidohydrolases contain conserved amino acid sequences that are not found in halidohydrolases active towards both D- and L-2-monochloropropionate.