Photosynthetica (May 2020)

Special issue in honour of Prof. Reto J. Strasser - Photosynthetic activity as assessed via chlorophyll a fluorescence suggests a role of potassium channels in root to shoot signaling

  • O.V. VOITSEKHOVSKAJA,
  • V.I. APOLLONOV,
  • A.V. MURTUZOVA,
  • C.K. RABADANOVA,
  • M.A. CHARNYSH,
  • I.V. DROZDOVA,
  • A.I. BELYAEVA,
  • O.N. KOVALEVA,
  • I.G. LOSKUTOV,
  • K. PAWLOWSKI,
  • V.V. DEMIDCHIK,
  • E.V. TYUTEREVA

DOI
https://doi.org/10.32615/ps.2020.025
Journal volume & issue
Vol. 58, no. 2
pp. 608 – 621

Abstract

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Potassium is indispensable for plant growth. Recently, a role of K+ channels has emerged in sensing and transducing stress and nutrient status. Tetraethylammonium (TEA+) is a specific blocker of K+ transport and affects K+ channel gene expression. Two barley varieties with contrasting salinity tolerance, and a chlorophyll b-less mutant, were grown either in the presence of TEA+ alone or combined with NaCl, at two different concentrations of external K+ and Ca2+, and were analyzed nine days after germination. Chlorophyll a transients monitored via JIP-tests were used to evaluate the state of the photosynthetic machinery. In contrast to reported responses to K+ deficiency, TEA+ inhibited shoot growth while inducing root growth and increasing photosynthetic performance. Both TEA+ and NaCl induced the appearance of negative K-bands in OJIP kinetics and an increase in PIABS, indicating a stimulation of photosynthesis by increased sink strength in the context of root to shoot signaling.

Keywords