Studies on manganese binding by selective solubilization of Photosystem-II polypeptides

Abstract

Deoxycholate was used to solubilize the 16 and 24 kDa polypeptides from spinach thylakoids, resulting in the loss of oxygen evolution. Manganese was retained in the membrane. When the deoxycholate-extracted membranes were subjected to a mild heat treatment, the water-soluble 33 kDa protein was selectively released. Less than one manganese per reaction center was lost on heating but this loss was not correlated to the solubilization of protein. Most of the manganese bound to the membrane remained EPR-undetectable and could be released by 2-amino-2-hydroxymethylpropane-1,3-diol (Tris) or hydroxylamine treatments. This indicates that the manganese involved in oxygen evolution remains in its native binding site despite the loss of the 33 kDa protein. These results contradict the hypothesis that the 33 kDa protein is responsible for manganese binding at the photosynthetic oxygen-evolving site.