Spin-label studies of the lipid regions of spinach thylakoids and a detergent-derived oxygen-evolving Photosystem II preparation

We have compared the fluidity of thylakoid membranes with the membrane present in a Triton X-100-derived, oxygen-evolving Photosystem II (PS II) preparation using two different spin labels. Data obtained with 2,2,6,6-tetramethylpipiridine-N-oxyl (TEMPO) shows that the PS II preparation contains less fluid membrane than the thylakoid. The TEMPO partition parameter (f) is about 2.5-times greater for the thylakoids at 6 mg chlorophyll/ml than for the PS II preparation at the same chlorophyll concentration. Similarly, the rotational correlation time, τ, of TEMPO residing in the membrane of the PS II preparation is about 2-times longer than the τ for TEMPO in the thylakoid membrane. A spin label which partitions more completely into the bilayer, 2-heptyl-2-hexyl-5,5-dimethyloxazolidine-N-oxyl (7N14), indicates a much greater fluidity in the thylakoid membrane than the membrane of the PS II preparation. The PS II preparation appears to have a hydrocarbon phase which approaches the rigid limit of EPR detectable motion. These results are discussed in terms of possible lipid depletion in the PS II preparation and in terms of lateral heterogeneity of hydrocarbon fluidity in the thylakoid membrane caused by the lateral heterogeneity in protein components.