Impact of Salinity on the Energy Transfer between Pigment-Protein Complexes in Photosynthetic Apparatus, Functions of the Oxygen-Evolving Complex and Photochemical Activities of Photosystem II and Photosystem I in Two Lines.

The present study shows the effect of salinity on the functions of thylakoid membranes from two hybrid lines of : x and x , grown in a Hoagland solution with two NaCl concentrations (100 and 150 mM) and different exposure times (10 and 25 days). We observed inhibition of the photochemical activities of photosystem I (DCPIH → MV) and photosystem II (HO → BQ) only after the short treatment (10 days) with the higher NaCl concentration. Data also revealed alterations in the energy transfer between pigment-protein complexes (fluorescence emission ratios F/F and FF), the kinetic parameters of the oxygen-evolving reactions (initial S-S state distribution, misses (α), double hits (β) and blocked centers (S)). Moreover, the experimental results showed that after prolonged treatment with NaCl x adapted to the higher concentration of NaCl (150 mM), while this concentration is lethal for x . This study demonstrated the relationship between the salt-induced inhibition of the photochemistry of both photosystems and the salt-induced changes in the energy transfer between the pigment-protein complexes and the alterations in the Mn cluster of the oxygen-evolving complex under salt stress.