Fotini Pouliou scite author profile

Glutathione transferases (GSTs, EC 2.5.1.18) are a widespread family of enzymes that play a central role in the detoxification, metabolism, and transport or sequestration of endogenous or xenobiotic compounds. During the last two decades, delineation of the important structural and catalytic features of GSTs has laid the groundwork for engineering GSTs, involving both rational and random approaches, aiming to create new variants with new or altered properties. These approaches have expanded the usefulness of native GSTs, not only for understanding the fundamentals of molecular detoxification mechanisms, but also for the development medical, analytical, environmental, and agricultural applications. This review article attempts to summarize successful examples and current developments on GST engineering, highlighting in parallel the recent knowledge gained on their phylogenetic relationships, structural/catalytic features, and biotechnological applications.

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Plant Glutathione Transferases in Abiotic Stress Response and Herbicide Resistance

Chronopoulou

Georgakis

Nianiou-Obeidat

et al. 2017

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Structure, Evolution and Functional Roles of Plant Glutathione Transferases

Chronopoulou

Ataya

Pouliou

et al. 2017

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Comparative Analysis of Two Stress-Inducible tau Class Glutathione Transferases from Glycine max Revealed Significant Catalytic and Structural Diversification

Pouliou

Perperopoulou

Labrou

2018

PPL

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Plant Glutathione Transferases: Structure, Antioxidant Catalytic Function and in planta Protective Role in Biotic and Abiotic Stress

Chronopoulou¹,

Kontouri²,

Chantzikonstantinou³

et al. 2015

CCB

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Plant cytosolic glutathione transferases (GSTs) belong to an ancient enzyme superfamily with multiple and diverse functions which are important in counteracting biotic and abiotic stress. GSTs catalyze the conjugation of xenobiotics and endogenous electrophilic compounds with glutathione (GSH), leading to their detoxification. GSTs not only catalyze detoxification reactions but they are also involved in GSH-dependent isomerization reactions, in GSH-dependent reduction of organic hydroperoxides, biosynthesis of secondary metabolites, and exhibit thioltransferase and dehydroascorbate reductase activity. The applications of ‘omics’ technologies have allowed the classification of GSTs and the study of their evolution and sequence diversity, while enzymology has provided powerful insights into their catalytic role. This review focuses on plant GSTs, and attempts to give an overview of the new insights into their catalytic function and biological role in biotic and abiotic stress tolerance mechanisms in plants

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Fotini Pouliou

Recent advances in protein engineering and biotechnological applications of glutathione transferases

Plant Glutathione Transferases in Abiotic Stress Response and Herbicide Resistance

Structure, Evolution and Functional Roles of Plant Glutathione Transferases

Comparative Analysis of Two Stress-Inducible tau Class Glutathione Transferases from Glycine max Revealed Significant Catalytic and Structural Diversification

Plant Glutathione Transferases: Structure, Antioxidant Catalytic Function and in planta Protective Role in Biotic and Abiotic Stress

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