L. A. Orlova scite author profile

Electrical signals (action and variation potentials) caused by environmental stimuli induce a number of physiological responses in plants including changes in photosynthesis; however, mechanisms of these changes remain unclear. We investigated the influence of the variation potential on photosynthesis in geranium (Pelargonium zonale) under different conditions (control, low external CO₂ concentration, and actinic light absence). The variation potential caused by lamina burning induced a reduction in photosynthesis (decreases in effective quantum yields of photosystem I and II, CO₂ assimilation rate, and stomatal conductance) in unstimulated leaves under control conditions. Changes in the majority of light-stage parameters (photosystem I and II quantum yields, coefficients of photochemical and non-photochemical quenching, quantum yield of non-photochemical energy dissipation in photosystem I due to donor-side limitation) were correlated with a decrease in CO₂ assimilation rate. The changes were similar to those caused by lowering [CO₂]; their magnitudes decreased both under low external CO₂ concentration and without actinic light. These results support the hypothesis that Calvin cycle inactivation plays a key role in photosynthetic response induced by electrical signals. However, a decrease in electron transport through the PSI acceptor side also induced by variation potential was not correlated with a decrease in the CO₂ assimilation rate and did not depend on the external CO₂ concentration or actinic light intensity. Thus, we suggest that there are two different mechanisms of light-stage inactivation induced by the variation potential in geranium: one strongly dependent on dark-stage inactivation and one weakly dependent on dark-stage inactivation.

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The mechanism of propagation of variation potentials in wheat leaves

Vodeneev¹,

Orlova

Morozova³

et al. 2012

Journal of Plant Physiology

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Simulation of action potential propagation in plants

Sukhov

Nerush

Orlova

et al. 2011

Journal of Theoretical Biology

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The role of Ca2+, H+, and Cl− ions in generation of variation potential in pumpkin plants

Vodeneev

Akinchits

Orlova

et al. 2011

Russ J Plant Physiol

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Recording changes in extracellular pH via confocal microscopy during generation of excitation potentials in higher plants

et al. 2010

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L. A. Orlova

Analysis of the photosynthetic response induced by variation potential in geranium

The mechanism of propagation of variation potentials in wheat leaves

Simulation of action potential propagation in plants

The role of Ca2+, H+, and Cl− ions in generation of variation potential in pumpkin plants

Recording changes in extracellular pH via confocal microscopy during generation of excitation potentials in higher plants

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