Toolbox for modification of the lecithin headgroup

In an effort to produce structurally divergent lecithins for testing of their functional properties and use in food products, several tools have been developed to carry out modifications in the polar head group distribution of the native phospholipids in soybean lecithin. These tools include physical, chemical and enzymatic techniques. Using a combination of acetone de‐oiling, ethanol fractionation, N‐acetylation and enzymatic hydrolysis and transphosphatidylation with a phospholipase D from Streptomyces sp., a set of lecithins with modified head group distributions were produced. The kinetics of the enzymatic head group hydrolysis and transphosphatidylation was studied in detail. Reaction rates and selectivity (transphosphatidylation / hydrolysis) were affected by both lecithin concentration and donor alcohol concentration. Hydrolysis, forming phosphatidic acid, was strongly dependent on both concentrations, whilst transphosphatidylation, forming phosphatidyl glycerol (or phosphatidyl ethanolamine or phosphatidyl serine), was only influenced by the donor alcohol. This resulted in a reduction in selectivity at high initial lecithin concentrations and suggested the use of a reactant feeding strategy. Enrichment of the phosphatidyl choline content of native soybean lecithin was achieved by ethanol fractionation and phosphatidyl inositol enrichment was by N‐acetylation with acetic anhydride followed by de‐oiling. The application of these tools, together with others designed to modify the fatty acid composition of phospholipids, was used to produce 10‐100 g quantities of divergent lecithins and can be routinely used at lab‐scale.