Alois Zajc scite author profile

: Herbicide selectivity is a major factor in agricultural weed control and results from the diþ erential detoxiücation ability of plant species. The special agronomic value of plant GSTs originates mainly from their metabolic herbicide detoxiücation properties that enhance the herbicide tolerance of crops. Glutathione S-transferases (GSTs) are a ubiquitous family of multifunctional enzymes involved in the metabolization of a broad variety of xenobiotics (eg herbicides in plants) and reactive endogenous compounds through covalent linkage to glutathione. The metabolization of FOE 5043 results in a GSH conjugate that is subsequently degraded by release of the thiadiazole moiety. The comparison of crystal structures of diþ erent GST classes, including plant GSTs, provides a model system to understand active-site interactions on a molecular level. Additional protein structures of three plant GSTs (Arabidopsis thaliana GST, GST I and III from Zea mays var. mutin) in complex with several ligands (S-hexylglutathione, S-lactoylglutathione, and FOE 5043) may be tools to supply detailed knowledge for the rational design of new herbicides and GSTs for selectivity optimization in crops.1999 Society of Chemical Industry (

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Herbicide detoxification by glutathioneS-transferases as implicated from X-ray structures

Zajc

Neuefeind

Prade

et al. 1999

Pestic. Sci.

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Herbicide selectivity is a major factor in agricultural weed control and results from the differential detoxification ability of plant species. The special agronomic value of plant GSTs originates mainly from their metabolic herbicide detoxification properties that enhance the herbicide tolerance of crops. Glutathione S‐transferases (GSTs) are a ubiquitous family of multifunctional enzymes involved in the metabolization of a broad variety of xenobiotics (eg herbicides in plants) and reactive endogenous compounds through covalent linkage to glutathione. The metabolization of FOE 5043 results in a GSH conjugate that is subsequently degraded by release of the thiadiazole moiety. The comparison of crystal structures of different GST classes, including plant GSTs, provides a model system to understand active‐site interactions on a molecular level. Additional protein structures of three plant GSTs (Arabidopsis thaliana GST, GST I and III from Zea mays var. mutin) in complex with several ligands (S‐hexylglutathione, S‐lactoylglutathione, and FOE 5043) may be tools to supply detailed knowledge for the rational design of new herbicides and GSTs for selectivity optimization in crops. © 1999 Society of Chemical Industry

show abstract

Herbicide detoxification by glutathioneS-transferases as implicated from X-ray structurest

Zajc¹,

Neuefeind²,

Prade³

et al. 1999

Pestic. Sci.

View full text Add to dashboard Cite

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Alois Zajc

Crystallographic and Fluorescence Studies of Ligand Binding toN-Carbamoylsarcosine Amidohydrolase fromArthrobactersp.

Herbicide detoxification by glutathione S‐transferases as implicated from X‐ray structures

Herbicide detoxification by glutathioneS-transferases as implicated from X-ray structures

Herbicide detoxification by glutathioneS-transferases as implicated from X-ray structurest

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