Relaxation of the non-photochemical chlorophyll fluorescence quenching in diatoms: kinetics, components and mechanisms

Author:

Roháček Karel12,Bertrand Martine3,Moreau Brigitte2,Jacquette Boris2,Caplat Christelle45,Morant-Manceau Annick2,Schoefs Benoît2

Affiliation:

1. Biology Centre AS CR, p.r.i., IPMB, Branisovska 31, Ceske Budejovice 37005, Czech Republic

2. MicroMar, Mer Molécules Santé, EA 2160, IUML FR – 3473 – CNRS, University of Le Mans, Avenue Olivier Messiaen, Le Mans Cedex 9 72085, France

3. Le Cnam–SITI–CASER–MST–Microorganisms, Metals and Toxicity, BP 324, Cherbourg Cedex 50103, France

4. ERPCB EA3914, IUT-UFR Sciences, Université de Caen, Boulevard du Maréchal Juin, Esplanade de la Paix, Caen 14032, France

5. CORRODYS, Cherbourg-Octeville 50130, France

Abstract

Diatoms are especially important microorganisms because they constitute the larger group of microalgae. To survive the constant variations of the light environment, diatoms have developed mechanisms aiming at the dissipation of excess energy, such as the xanthophyll cycle and the non-photochemical chlorophyll (Chl) fluorescence quenching. This contribution is dedicated to the relaxation of the latter process when the adverse conditions cease. An original nonlinear regression analysis of the relaxation of non-photochemical Chl fluorescence quenching, qN, in diatoms is presented. It was used to obtain experimental evidence for the existence of three time-resolved components in the diatom Phaeodactylum tricornutum : qNf, qNi and qNs. qNf (s time-scale) and qNs (h time-scale) are exponential in shape. By contrast, qNi (min time-scale) is of sigmoidal nature and is dominant among the three components. The application of metabolic inhibitors (dithiothreitol, ammonium chloride, cadmium and diphenyleneiodonium chloride) allowed the identification of the mechanisms on which each component mostly relies. qNi is linked to the relaxation of the ΔpH gradient and the reversal of the xanthophyll cycle. qNs quantifies the stage of photoinhibition caused by the high light exposure, qNf seems to reflect fast conformational changes within thylakoid membranes in the vicinity of the photosystem II complexes.

Publisher

The Royal Society

Subject

General Agricultural and Biological Sciences,General Biochemistry, Genetics and Molecular Biology

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