Wilena Telman scite author profile

Water deficiency compromises plant performance and yield in many habitats and in agriculture. In addition to survival of the acute drought stress period which depends on plant-genotype-specific characteristics, stress intensity and duration, also the speed and efficiency of recovery determine plant performance. Drought-induced deregulation of metabolism enhances generation of reactive oxygen species (ROS) and reactive nitrogen species (RNS) which in turn affect the redox regulatory state of the cell. Strong correlative and analytical evidence assigns a major role in drought tolerance to the redox regulatory and antioxidant system. This review compiles current knowledge on the response and function of superoxide, hydrogen peroxide and nitric oxide under drought stress in various species and drought stress regimes. The meta-analysis of reported changes in transcript and protein amounts, and activities of components of the antioxidant and redox network support the tentative conclusion that drought tolerance is more tightly linked to up-regulated ascorbate-dependent antioxidant activity than to the response of the thiol-redox regulatory network. The significance of the antioxidant system in surviving severe phases of dehydration is further supported by the strong antioxidant system usually encountered in resurrection plants.

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The chloroplast 2-cysteine peroxiredoxin functions as thioredoxin oxidase in redox regulation of chloroplast metabolism

Vaseghi

et al. 2018

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Thiol-dependent redox regulation controls central processes in plant cells including photosynthesis. Thioredoxins reductively activate, for example, Calvin-Benson cycle enzymes. However, the mechanism of oxidative inactivation is unknown despite its importance for efficient regulation. Here, the abundant 2-cysteine peroxiredoxin (2-CysPrx), but not its site-directed variants, mediates rapid inactivation of reductively activated fructose-1,6-bisphosphatase and NADPH-dependent malate dehydrogenase (MDH) in the presence of the proper thioredoxins. Deactivation of phosphoribulokinase (PRK) and MDH was compromised in 2cysprxAB mutant plants upon light/dark transition compared to wildtype. The decisive role of 2-CysPrx in regulating photosynthesis was evident from reoxidation kinetics of ferredoxin upon darkening of intact leaves since its half time decreased 3.5-times in 2cysprxAB. The disadvantage of inefficient deactivation turned into an advantage in fluctuating light. Physiological parameters like MDH and PRK inactivation, photosynthetic kinetics and response to fluctuating light fully recovered in 2cysprxAB mutants complemented with 2-CysPrxA underlining the significance of 2-CysPrx. The results show that the 2-CysPrx serves as electron sink in the thiol network important to oxidize reductively activated proteins and represents the missing link in the reversal of thioredoxin-dependent regulation.

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The chloroplast 2-cysteine peroxiredoxin functions as thioredoxin oxidase in redox regulation of chloroplast metabolism

Vaseghi

Chibani

Telman

et al. 2018

Preprint

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31Thiol-dependent redox regulation controls central processes in plant cells including photosynthesis. 32Thioredoxins reductively activate e.g. Calvin-Benson cycle enzymes. However the mechanism of 33 oxidative inactivation is unknown despite its importance for efficient regulation. Here, the abundant 34 2-cysteine peroxiredoxin (2-CysPrx), but not its site-directed variants, mediates rapid inactivation of 35 reductively activated fructose-1,6-bisphosphatase and NADPH-dependent malate dehydrogenase 36 (MDH)

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The redox‐sensitive module of cyclophilin 20‐3, 2‐cysteine peroxiredoxin and cysteine synthase integrates sulfur metabolism and oxylipin signaling in the high light acclimation response

et al. 2017

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The integration of redox- and reactive oxygen species-dependent signaling and metabolic activities is fundamental to plant acclimation to biotic and abiotic stresses. Previous data suggest the existence of a dynamically interacting module in the chloroplast stroma consisting of cyclophilin 20-3 (Cyp20-3), O-acetylserine(thiol)lyase B (OASTL-B), 2-cysteine peroxiredoxins A/B (2-CysPrx) and serine acetyltransferase 2;1 (SERAT2;1). The functionality of this COPS module is influenced by redox stimuli and oxophytodienoic acid (OPDA), which is the precursor for jasmonic acid. The concept of an integrating function of these proteins in stress signaling was challenged by combining transcriptome and biochemical analyses in Arabidopsis mutants devoid of oastlB, serat2;1, cyp20-3 and 2-cysprxA/B, and wild-type (WT). Leaf transcriptomes were analyzed 6 h after transfer to light intensity 10-fold in excess of growth light or under growth light. The survey of KEGG-based gene ontology groups showed common upregulation of translation- and protein homeostasis-associated transcripts under control conditions in all mutants compared with WT. The results revealed that the interference of the module was accompanied with disturbance of carbohydrate, sulfur and nitrogen metabolism, and also citric acid cycle intermediates. Apart from common regulation, specific responses at the transcriptome and metabolite level linked Cyp20-3 to cell wall-bound carbohydrates and oxylipin signaling, and 2-CysPrx to photosynthesis, sugar and amino acid metabolism. Deletion of either OASTL-B or SERAT2;1 frequently induced antagonistic changes in biochemical or molecular features. Enhanced sensitivity of mutant seedlings to OPDA and leaf discs to NaHS-administration confirmed the presumed functional interference of the COPS module in redox and oxylipin signaling.

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Redox regulation by peroxiredoxins is linked to their thioredoxin-dependent oxidase function

2019

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Wilena Telman

The Role of the Plant Antioxidant System in Drought Tolerance

The chloroplast 2-cysteine peroxiredoxin functions as thioredoxin oxidase in redox regulation of chloroplast metabolism

The chloroplast 2-cysteine peroxiredoxin functions as thioredoxin oxidase in redox regulation of chloroplast metabolism

The redox‐sensitive module of cyclophilin 20‐3, 2‐cysteine peroxiredoxin and cysteine synthase integrates sulfur metabolism and oxylipin signaling in the high light acclimation response

Redox regulation by peroxiredoxins is linked to their thioredoxin-dependent oxidase function

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