Abstract

Two main aspects of the lipid dynamics, local microviscosity and lateral diffusion, were investigated in intact plant mitochondria isolated from different tissues exhibiting large differences in their fatty acids in terms of unsaturation (amount of linoleic and linolenic acids) or length of the hydrocarbon chains. In addition, the same parameters were determined in the outer and inner membranes isolated from cauliflower mitochondria, which differed not only in the fatty acid composition but also by the lipid-to-protein ratio. In intact mitochondria, local microviscosity assayed with anthroyloxy-fatty acids exhibited a transverse gradient from the surface to the center of the bilayer, which was mainly affected by the unsaturation index and the content in linoleic or linolenic acids. In contrast, lipid lateral diffusion increased as the content in linolenic or palmitic acids increased, but was not directly correlated to the unsaturation index. Interestingly, local microviscosity at the membrane surface was higher in the outer membrane than in the inner membrane, whereas no significant difference was found in lipid lateral diffusion. These results indicate that the influence of the fatty acid composition of mitochondrial membranes on the dynamics of the phospholipid bilayer depends on the type of movement considered and suggest that other parameters, such as the protein content of the bilayer, also affect membrane fluidity.

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