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  • Title: Site-directed mutagenesis of the redox-active cysteines of Trypanosoma cruzi trypanothione reductase.
    Author: Borges A, Cunningham ML, Tovar J, Fairlamb AH.
    Journal: Eur J Biochem; 1995 Mar 15; 228(3):745-52. PubMed ID: 7737173.
    Abstract:
    The gene for trypanothione reductase from the Silvio strain of Trypanosoma cruzi has been cloned, sequenced and overexpressed in Escherichia coli using the constitutive lpp promoter on the expression plasmid pBSTNAV. Up to 13% of the total soluble protein is enzymically active trypanothione reductase with kinetic properties similar to the enzyme purified from T. cruzi. In order to assess the catalytic role of the putative active-site cysteine residues (C53 and C58), three mutant proteins have been constructed by site-directed mutagenesis substituting alanine or serine residues for cysteine; [C53A]trypanothione reductase, [C53S]trypanothione reductase and [C58S]trypanothione reductase. Although the purified, recombinant mutant proteins were catalytically inactive with NADPH and trypanothione disulphide as substrates, all showed comparable levels of transhydrogenase activity between NADPH and thio-NADP+, suggesting that the mutant proteins had correctly folded in vivo. All three mutants showed substantially different catalytic parameters for thio-NADP+ than the wild-type enzyme, presumably as a consequence of modifying the environment of the enzyme-bound flavin, thereby altering its chemical reactivity. The purified [C58S]trypanothione reductase showed spectral properties similar to the oxidised wild-type enzyme but, unlike the wild-type enzyme, did not acquire the characteristic charge-transfer complex of the EH2 form on addition of NADPH. In contrast, in the absence of NADPH both [C53A]trypanothione reductase and [C53S]trypanothione reductase showed spectral properties similar to the EH2 form of the wild-type enzyme. These data indicate that both C53 and C58 are essential for overall catalysis, with the thiolate anion of C58 interacting with the enzyme-bound FAD and C53 interacting with the disulphide substrate. These mutants should be useful in crystallographic studies of reaction intermediates which cannot be obtained with the catalytically active native enzyme.
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