Dev Growth Differ 1991 Oct 01;335:451-458. doi: 10.1111/j.1440-169X.1991.00451.x.

Change in Membrane Fluidity of Sand Dollar Egg Cortices Caused by Ca2+ -Induced Exocytosis: Microscopic Analysis with Fluorescence Anisotropy: (cortical vesicles/exocytosis/fluorescence anisotropy/membrane fluidity/plasma membrane).

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The surface membrane fluidity of sand dollar eggs after exocytosis was investigated by using a specially designed video-microscope system to measure the fluorescence depolarization of isolated cortices stained with hexadecanoylaminofluorescein. When unfertilized eggs were stained before isolation, the plasma membranes became labeled with fluorescent dye, but cortical vesicles did not. The fluorescence anisotropy of the isolated cortices increased from 0.256 to 0.285 during exocytosis induced by Ca2+ . The increased anisotropy was not changed by lowering the Ca2+ concentration after exocytosis. Dislodging of cortical vesicles by shearing with a stream of solution had no affect on the anisotropy. These results suggest that the fluidity of the plasma membrane decreases after exocytosis. When cortices were stained after isolation, both plasma membranes and cortical membrane organelles became labeled. These cortices possessed an anisotropy of 0.215. After dislogding the cortical organelles the anisotropy increased to 0.232. These results indicate that the fluidity of the cytoplasmic membrane leaflets of cortical organelles is higher than that of the plasma membrane. Therefore, it was suggested that only the outer leaflet of the plasma membrane becomes less fluid after exocytosis.

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