Agranal thylakoid membranes from leaves of Phaseolus vulgaris L. were fragmented using seven distinct detergents: digitonin, Triton X-100, cetylpyridinium chloride, sodium dodecylsulfate, and Zwittergents 3-12, 3-14, and 3-16, differing in chemical composition and/or electric charges. Subchloroplast particles separated on a Percoll gradient were examined by flow cytometry to determine their size and shape.
Vesicle size was also determined by a haematological analyzer, which produced comparable results. Individual green bands consisted of vesicles of fairly wide size distribution.
Simple direct proportionality between the particle density and their size was not observed in any case, nevertheless, bigger particles were more abundant in fractions of higher density. Some vesicles had even a larger size than the original thylakoids.
This might reflect a specific action of the detergents in low concentrations on agranal membranes, with incorporation of detergent molecules into vesicles. Inner structures of particles of the same size and density were not necessarily identical, but represented several populations, as was apparent from the side scatter analysis.
Flow cytometric analysis can thus be used for the investigation of mechanisms of membrane fragmentation by detergents.