An efficient preparative isopycnic flotation method for the isolation of chitosomes

Abstract

Chitin synthetase, a key enzyme in fungal cell wall biosynthesis, is located in chitosomes (microvesicles). To produce large quantities of chitosomes for immunochemical and biochemical characterization, we developed a two-step purification procedure in which isopycnic sucrose density gradients were centrifuged at ultra-high gravitational forces (fixed-angle rotor at 361,000×g Rav). Chitosomes from yeast cells ofMucor rouxii were separated from the soluble proteins and from the larger membranes by isopycnic centrifugation of the cell-free extract. The resulting crude chitosome sample was adjusted to a higher sucrose concentration, and a sucrose gradient was layered over the sample. Upon recentrifugation, the chitosomes moved up into the gradient and equilibrated at their buoyant density (1.15–1.16). This accelerated flotation separated contaminating particles of higher buoyant density (larger vesicles, ribosomes, and other miniorganelles) and yielded a large population of microvesicles with a mean diameter of 48.9±13.8 nm. This preparation contained vesicles essentially free of other particulate contaminants; more than 99% of the vesicles were smaller than 100 nm. When required, an additional velocity centrifugation step was added to remove the larger vesicles from the chitosome samples. This streamlined method for chitosome isolation was much simpler and faster than earlier isolation procedures, gave a high yield of functional chitosomes, and made the large scale isolation of these organelles possible.