James F. Dat scite author profile

Adaptation to environmental changes is crucial for plant growth and survival. However, the molecular and biochemical mechanisms of adaptation are still poorly understood and the signaling pathways involved remain elusive. Active oxygen species (AOS) have been proposed as a central component of plant adaptation to both biotic and abiotic stresses. Under such conditions, AOS may play two very different roles: exacerbating damage or signaling the activation of defense responses. Such a dual function was first described in pathogenesis but has also recently been demonstrated during several abiotic stress responses. To allow for these different roles, cellular levels of AOS must be tightly controlled. The numerous AOS sources and a complex system of oxidant scavengers provide the flexibility necessary for these functions. This review discusses the dual action of AOS during plant stress responses.

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Reactive Oxygen Species in Plant Cell Death

Breusegem

Dat

2006

836

479

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Hydrogen peroxide- and glutathione-associated mechanisms of acclimatory stress tolerance and signalling

Foyer¹,

López-Delgado²,

Dat³

et al. 1997

Physiol Plant

354

387

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I. M. 1997. Hydrogen peroxideand glutathione-associated mechanisms of acclimatory stress tolerance and signalling. -Physiol. Plant. 100: 241-254.Plants adapt to environmental stresses through specific genetic responses. The molecular mechanisms associated with signal transduction, leading to changes in gene expression early in the stress response, are largely unknown. It is clear, however, that gene expression associated with acclimatory responses is sensitive to the redox state of the cell. Of the many components which contribute to the redox balance of the cell, two factors have been shown to be crucial in mediating stress responses. Thiol/disulphide exchange reactions, particularly involving the glutathione pool and the generation of the oxidant H2O2, are central components of signal transduction in both environmental and biotic stresses. These molecules are multifunctional triggers, modulating metabolism and gene expression. Both are able to cross biological membranes and diffuse or be transported long distances from their sites of origin. Glutathione and H2O2 may act alone or in unison, in intracellular and systemic signalling systems, to achieve acclimation and tolerance to biotic and abiotic stresses.

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Hydrogen peroxide‐ and glutathione‐associated mechanisms of acclimatory stress tolerance and signalling

Foyer

López-Delgado

Dat

et al. 1997

Physiologia Plantarum

1,081

292

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Plants adapt to environmental stresses through specific genetic responses. The molecular mechanisms associated with signal transduction, leading to changes in gene expression early in the stress response, are largely unknown. It is clear, however, that gene expression associated with acclimatory responses is sensitive to the redox state of the cell. Of the many components which contribute to the redox balance of the cell, two factors have been shown to be crucial in mediating stress responses. Thiol/disulphide exchange reactions, particularly involving the glutathione pool and the generation of the oxidant H2O2, are central components of signal transduction in both environmental and biotic stresses. These molecules are multifunctional triggers, modulating metabolism and gene expression. Both are able to cross biological membranes and diffuse or be transported long distances from their sites of origin. Glutathione and H2O2 may act alone or in unison, in intracellular and systemic signalling systems, to achieve acclimation and tolerance to biotic and abiotic stresses.

show abstract

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James F. Dat

Dual action of the active oxygen species during plant stress responses

Reactive Oxygen Species in Plant Cell Death

Hydrogen peroxide- and glutathione-associated mechanisms of acclimatory stress tolerance and signalling

Hydrogen peroxide‐ and glutathione‐associated mechanisms of acclimatory stress tolerance and signalling

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