Abstract
It is shown that the hydrazine-induced transition of the water-oxidizing complex (WOC) to super-reduced S-states depends on the presence of bicarbonate in the medium so that after a 20 min treatment of isolated spinach thylakoids with 3 mM NH 2NH 2 at 20 °C in the CO 2/HCO 3 −-depleted buffer the S-state populations are: 42% of S −3, 42% of S −2, 16% of S −1 and even formal S −4 state is reached, while in the presence of 2 mM NaHCO 3, the same treatment produces 30% of S −3, 38% of S −2, and 32% of S −1 and there is no indication of the S −4 state. Bicarbonate requirement for the oxygen-evolving activity, very low in untreated thylakoids, considerably increases upon the transition of the WOC to the super-reduced S-states, and the requirement becomes low again when the WOC returns back to the normal S-states using pre-illumination. The results are discussed as a possible indication of ligation of bicarbonate to manganese ions within the WOC.
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Schedule a callMore From: Biochimica et Biophysica Acta (BBA) - Bioenergetics
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