Probing the role of parasite-specific, distant structural regions on communication and catalysis in the bifunctional thymidylate synthase-dihydrofolate reductase from Plasmodium falciparum

Biochemistry
Tina Dasgupta, Karen S Anderson

Abstract

Plasmodium falciparum thymidylate synthase-dihydrofolate reductase (TS-DHFR) is an essential enzyme in nucleotide biosynthesis and a validated molecular drug target in malaria. Because P. falciparum TS and DHFR are highly homologous to their human counterparts, existing active-site antifolate drugs can have dose-limiting toxicities. In humans, TS and DHFR are two separate proteins. In P. falciparum, however, TS-DHFR is bifunctional, with both TS and DHFR active sites on a single polypeptide chain of the enzyme. Consequently, P. falciparum TS-DHFR contains unique distant or nonactive regions that might modulate catalysis: (1) an N-terminal tail and (2) a linker region tethering DHFR to TS, and encoding a crossover helix that forms critical electrostatic interactions with the DHFR active site. The role of these nonactive sites in the bifunctional P. falciparum TS-DHFR is unknown. We report the first in-depth, pre-steady-state kinetic characterization of the full-length, wild-type (WT) P. falciparum TS-DHFR enzyme and probe the role of distant, nonactive regions through mutational analysis. We show that the overall rate-limiting step in the WT P. falciparum TS-DHFR enzyme is TS catalysis. We further show that if TS is in an activa...Continue Reading

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Citations

Jan 22, 2009·Journal of Computer-aided Molecular Design·Phornphimon MaitaradSupa Hannongbua

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