Study of fatty acid specificity of sunflower phospholipase D using detergent/phospholipid micelles.

Abstract

The fatty acid specificity of phospholipase D purified from germinating sunflower seeds was studied using mixed micelles with variable detergent/phospholipid ratios. The main advantage of this approach is that since the substrate is integrated in the detergent micelles, comparisons can be made between the kinetic constants of a wide range of phosphatidylcholine (PtdCho) compounds with various fatty acid contents. Phospholipase D is subject to interfacial activation as it is most active on water-insoluble substrates. It is not active on sphingomyelin and only slightly on lysophosphatidylcholine. By fitting the curves based on the experimental kinetic data, the interfacial dissociation constant of phospholipase D, the maximum hydrolysis rate Vm and the kinetic constant Km(B), were determined with the micellar substrate. The specificity of various substrates was examined by comparing the Vm/Km(B) values, and it was noted that sunflower phospholipase D is most active on medium-chain fatty PtdCho compounds. With long-chain natural phospholipids, the specificity of phospholipase D was slightly dependent on the level of fatty acid unsaturation. The pure enzyme was able to hydrolyse the sunflower phospholipids present in mixed detergent micelles but not the phospholipids integrated in the natural sunflower oil body structure. We concluded, however, that during the germination of sunflower seeds, phospholipase D might be involved in the degradation of oil bodies, since other factors present in crude seed extracts may make phospholipids accessible to the enzyme.