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REVIEW: Changes in Activity of the Plasma Membrane H+-ATPase as a Link Between Formation of Electrical Signals and Induction of Photosynthetic Responses in Higher Plants


Ekaterina M. Sukhova1, Lyubov’ M. Yudina1, and Vladimir S. Sukhov1,a*

1Lobachevsky State University of Nizhny Novgorod, 603022 Nizhny Novgorod, Russia

* To whom correspondence should be addressed.

Received June 22, 2023; Revised September 5, 2023; Accepted September 13, 2023
Action of numerous adverse environmental factors on higher plants is spatially-heterogenous; it means that induction of a systemic adaptive response requires generation and transmission of the stress signals. Electrical signals (ESs) induced by local action of stressors include action potential, variation potential, and system potential and they participate in formation of fast physiological changes at the level of a whole plant, including photosynthetic responses. Generation of these ESs is accompanied by the changes in activity of H+-ATPase, which is the main system of electrogenic proton transport across the plasma membrane. Literature data show that the changes in H+-ATPase activity and related changes in intra- and extracellular pH play a key role in the ES-induced inactivation of photosynthesis in non-irritated parts of plants. This inactivation is caused by both suppression of CO2 influx into mesophyll cells in leaves, which can be induced by the apoplast alkalization and, probably, cytoplasm acidification, and direct influence of acidification of stroma and lumen of chloroplasts on light and, probably, dark photosynthetic reactions. The ES-induced inactivation of photosynthesis results in the increasing tolerance of photosynthetic machinery to the action of adverse factors and probability of the plant survival.
KEY WORDS: higher plants, electrical signals, action potential, variation potential, system potential, H+-ATPase, intracellular pH, extracellular pH, photosynthesis

DOI: 10.1134/S0006297923100061