Effects of physical and chemical treatments on chloroplast manganese. NMR and ESR studies

Measurements were made of the water proton relaxation rate (T^?1₂ = R₂), electron spin resonance (ESR) six-line signal of ‘free’ Mn²⁺, and O₂-evolution activity in thylakoid membranes from pea leaves. The main results are: (1) Aging of thylakoids at 35°C causes a parallel decrease in O₂-evolution activity, in R₂ and in the content of bound Mn, suggesting that R₂ may be related to the loosely bound Mn involved in O₂ evolution. (2) Treatment of thylakoids with tetraphenylboron (TPB) at [TPB] > 2 mM produces a 2-fold increase in R₂, without release of Mn²⁺. The titration curve exhibits three sharp end points. The first end point occurs at a $\text{[}\text{TPB}\text{]}\text{[}\text{chlorophyll}\text{]}$ of 1.25, at which the O₂ evolution is completely inhibited. (3) Treatment of thylakoids with NH₂OH also increases R₂ by nearly 2-fold, either by the reduction of the higher oxidation states of Mn to Mn²⁺ and / or by exposing the Mn to solvent protons. Also, progressive release of bound Mn occurs at [NH₂OH] ≥ 1 mM as shown by an increase increase in the Mn²⁺ ESR signal and a decrease in R₂. (4) Addition of H₂O₂ (0.1–1.0%) to thylakoids causes an enhancement of R₂ similar to that by NH₂OH, but without the release of Mn²⁺. (5) Heat treatment of thylakoids at 40–50°C releases Mn²⁺ and increases R₂. Conversely, pH values of 7 to 4 release Mn²⁺ without changing R₂ while pH values of 7–9 increase R₂ without releasing Mn²⁺. Thus, both high and low pH values as well as the heat treatment cause structural changes enhancing the relaxivity of the bound Mn or of other paramagnetic species.