The six fold symmetry of the B880 light-harvesting complex and the structure of the photosynthetic membranes of Rhodopseudomonas marina.

The reaction center free light-harvesting core complex of Rp. marina was purified by DEAE 52 ion exchange chromatography in the presence of the detergent OG. The protein complex was crystallised by microdialysis yielding two-dimensional crystals with a diameter of up to 10 microns. The crystals were negatively stained with uranyl acetate or prepared in vitrified ice and electron micrographs were taken. They exhibited a hexagonal lattice with a lattice constant of 102 +/- 3 A. The optical diffraction pattern of the best ordered areas of electron micrographs showed spots up to a resolution of 29 A. Image processing revealed a six fold symmetry of the ring like B880-complex. The protein ring is hexagonal with one subunit in each corner of the hexagon and two subunits forming the connection site to the neighbouring B880-complex in the crystal. In freeze fracture preparations of whole cells the intra-cytoplasmic photosynthetic membranes are seen to be organised into large stacks that affect the organisation of the photosynthetic complexes. Most notably, the stacked membrane regions exhibit hexagonally packed photosynthetic complexes with a repeat of approximately 100 A, which is very similar to the lattice of the artificial B880-complex crystals. The same quasi-crystalline structure appeared in the cytoplasmic membrane of the contact sites with the intra-cytoplasmic membrane stack, but was absent from the end membrane of the stack. Thus, membrane stacking appears to induce the formation of the crystalline arrays, presumably through interactions between the cytoplasmic surface domains of the photosynthetic complexes. Tight packing of the photosynthetic particles is not sufficient to induce the crystalline order. The intra cytoplasmic membranes form a continuum with the cytoplasmic membrane via their origins at the round invagination sites.