Abstract
We have investigated the possible role of intramembraneous particles as revealed by freeze-fracture electron microscopy in the plasma membrane of B lymphocytes from rabbits and mice as reflections of transmembrane structures of surface immunoglobulin receptor molecules. This was achieved by aggregation of the surface receptors using fluorochrome-conjugated antibodies, fixation and freezing of the cells in 35% glycerol. This procedure resulted in replicas of lymphocytes with well-preserved morphology (no ice-crystals), enabling the study of both protoplasmic and external fracture face in combination with surface receptor markers. It appeared that very small intramembraneous particles (3–6 nm diameter) were selectively clustered under patches of surface receptor label. This phenomenon was found on the external fracture face exclusively and not on the protoplasmic fracture face. ‘Classical’ intramembraneous particles (6–12 nm diameter) were not involved. We suggest that these small, clustered particles should be interpreted as transmembrane structures of surface immunoglobulin molecules.
Published Version
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