Structural Basis for Herbicidal Inhibitor Selectivity Revealed by Comparison of Crystal Structures of Plant and Mammalian 4-hydroxyphenylpyruvate Dioxygenases

Overview

Journal Biochemistry

Specialty Biochemistry

Date 2004 Aug 11

PMID 15301540

Citations 27

Authors

Cheng Yang

James W Pflugrath

Debra L Camper

Mendy L Foster

Daniel J Pernich

Terence A Walsh

Affiliations

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Abstract

A high degree of selectivity toward the target site of the pest organism is a desirable attribute for new safer agrochemicals. To assist in the design of novel herbicides, we determined the crystal structures of the herbicidal target enzyme 4-hydroxyphenylpyruvate dioxygenase (HPPD; EC 1.13.11.27) from the plant Arabidopsis thaliana with and without an herbicidal benzoylpyrazole inhibitor that potently inhibits both plant and mammalian HPPDs. We also determined the structure of a mammalian (rat) HPPD in complex with the same nonselective inhibitor. From a screening campaign of over 1000 HPPD inhibitors, six highly plant-selective inhibitors were found. One of these had remarkable (>1600-fold) selectivity toward the plant enzyme and was cocrystallized with Arabidopsis HPPD. Detailed comparisons of the plant and mammalian HPPD-ligand structures suggest a structural basis for the high degree of plant selectivity of certain HPPD inhibitors and point to design strategies to obtain potent and selective inhibitors of plant HPPD as agrochemical leads.

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