Binding of the inhibitor NH3 to the oxygen-evolving apparatus of spinach chloroplasts

Experiments are described on flash-induced luminescence of isolated spinach chloroplasts after addition of NH₄Cl. The results indicate a binding of NH₃, presumably in competition with water, in the oxidation states S₂ and S₃, i.e. the states reached upon illumination of dark-adapted material with one and two flashes, respectively. In the initial state S₁, no binding of NH₃ occurs. In state S₂ the binding of ammonia is rapid (half-time about 0.5 s) and rapidly reversible; in state S₃ the binding is slower (half-time about 10 s) and slowly reversible. NH₃ bound to S₄ prevents the oxidation of water. NH₃ bound to S₂ decreases the rate of the back reaction of reduced primary acceptor (Q⁻), indicating a charge stabilization, i.e. a decrease in the redox potential of S₂ due to interaction with ammonia. In Tris-washed chloroplasts, the stability of the positive charge generated in a flash is much smaller than in normal chloroplasts and not increased by NH₃. On the basis of these observations it is postulated that, in the absence of NH₃, states S₂ and S₃ are stabilized by manganese-coordinated, bound water.