Partition in an aqueous Dextran-polyethylene glycol two-phase system has been used for the separation of chloroplast membrane vesicles obtained by press treatment of a grana-enriched fraction after unstacking in a low salt buffer. The fractions obtained were analysed with respect to chlorophyll, photochemical activities and ultrastructural charasteristics. The results reveal that the material partitioning to the Dextran-rich bottom phase consisted of large membrane vesicles possessing mainly Photosystem II properties with very low contribution from Photosystem I. Measurements of the H2O to phenyl-p-benzoquinone and ascorbate-Cl2Ind to NADP+ electron transport rates indicate a ratio of around six between Photosystem II and I. The total fractionation procedure could be completed within 2-3 h with high recovery of both the Photosystem II water-splitting activity and the Photosystem I reduction of NADP+. These data demonstrate that press treatment of low-salt destabilized grana membranes yields a population of highly Photosystem-II enriched membrane vesicles which can be discriminated by the phase system. We suggest that such membrane vesicles originate from large regions in the native grana membrane which contain virtually only Photosystem II.