The location of the chloride binding sites in the oxygen-evolving complex of spinach Photosystem II

³⁵Cl-NMR studies are presented here for spinach Photosystem II membranes inhibited by hydroxylamine (to remove Mn), Tris (to remove Mn and 18, 24 and 33 kDa polypeptides), and salt-washing (to remove 18 and 24 kDa; and 33 kDa polypeptides). Removal of Mn affects the ³⁵Cl-NMR binding curve only slightly, indicating that not all of the bound Mn is directly required for Cl-binding. Removal of both Mn and extrinsic polypeptides eliminates almost all of the Cl⁻-specific binding observable by NMR. Removal of the extrinsic 18 and 24 kDa polypeptides drastically changes the ³⁵Cl-NMR binding pattern; this effect is partially restored by the addition of 2 mM CaSO₄, and, to a lesser extent, by the partial rebinding of the polypeptides. Existence of Cl⁻ binding to the intrinsic polypeptides (e.g., D₁/D₂), with a peak at 0.5 mM Cl⁻, is shown in samples lacking 18, 24 and 33 kDa polypeptides. Thus, both intrinsic (i.e., on the D₁/D₂ membrane protein) and extrinsic (i.e., on the 33 kDa protein) binding sites for Cl⁻ are suggested to exist.