J
Jean-Pierre Jacquot
Researcher at University of Lorraine
Publications - 272
Citations - 13926
Jean-Pierre Jacquot is an academic researcher from University of Lorraine. The author has contributed to research in topics: Thioredoxin & Glutaredoxin. The author has an hindex of 62, co-authored 271 publications receiving 13191 citations. Previous affiliations of Jean-Pierre Jacquot include University of Neuchâtel & Bielefeld University.
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The role of glutathione in photosynthetic organisms: emerging functions for glutaredoxins and glutathionylation.
TL;DR: The pathways involved in the synthesis, reduction, polymerization, and degradation of glutathione are described, as well as its distribution throughout the plant and its redox buffering capacities.
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Redox-sensitive GFP in Arabidopsis thaliana is a quantitative biosensor for the redox potential of the cellular glutathione redox buffer.
Andreas J. Meyer,Thorsten Brach,Laurent Marty,Susanne Kreye,Nicolas Rouhier,Jean-Pierre Jacquot,Rüdiger Hell +6 more
TL;DR: The results with roGFP2 as an artificial GRX target further suggest that redox-triggered changes of biologic processes might be linked directly to the glutathione redox potential via GRX as the mediator.
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Plant thioredoxin systems revisited.
TL;DR: Recent developments that have provided new insights into the structures of several components and into the mechanism of action of the thioredoxin systems in plants are summarized.
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Reactive oxygen species generation and antioxidant systems in plant mitochondria
TL;DR: This review describes the various mitochondrial redox pathways for ROS control in plants with special emphasis on the poorly studied GRX and TRX systems and provides perspectives for future research in this area.
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Plant glutathione peroxidases are functional peroxiredoxins distributed in several subcellular compartments and regulated during biotic and abiotic stresses.
Nicolas Navrot,Valérie Collin,José M. Gualberto,Eric Gelhaye,Masakazu Hirasawa,Pascal Rey,David B. Knaff,Emmanuelle Issakidis,Jean-Pierre Jacquot,Nicolas Rouhier +9 more
TL;DR: The abundance of some Gpxs is modified in plants subjected to environmental constraints, generally increasing during fungal infection, water deficit, and metal stress, and decreasing during photooxidative stress, showing that Gpx proteins are involved in the response to both biotic and abiotic stress conditions.