Medium-size droplets of methyl ricinoleate are reduced by cell-surface activity in the γ-decalactone production by Yarrowia lipolytica

Size of methyl ricinoleate droplets during biotransformation into γ-decalactone by Yarrowia lipolytica was measured in both homogenized and non-homogenized media. In non-homogenized but shaken medium, droplets had an average volume surface diameter d 32 of 2.5 μm whereas it was 0.7 μm in homogenized and shaken medium. But as soon as yeast cells were inoculated, both diameters became similar at about 0.7 μm and did not vary significantly until the end of the culture. The growth of Y. lipolytica in both media was very similar except for the lag phase which was lowered in homogenized medium conditions

Protein/Emulsifier Interactions

An important consequence of protein-lipid interaction is the effect on stability of the protein in solution as well as on its behavior at interfaces. Here we will discuss key aspects of protein aggregation and unfolding as well as the effects of protein structure (random coil proteins versus globular) that are relevant for our understanding protein-lipid interaction. The main types of emulsifiers are the (1) aqueous soluble, surfactant type and (2) lipids with low aqueous solubility. The monomer concentration as defined by cmc is an important parameter for the soluble lipids. For emulsifiers with low aqueous solubility the emulsifier self-assembly structure and its properties control the interaction with proteins. We will therefore summarize the main features of lipid self-assembly. It also allows us to define different plausible scenarios and principles and models for factors that control the interactions in real food (and Pharmaceutical) systems. For the food applications the fate of the lipid during digestion is important and therefore we will discuss some aspects of enzyme-catalyzed lipolysis in terms of the structural evolution. New products and concepts of using protein/emulsifier interactions will be exemplified by illustrating how food nanotechnology possibly can be used for the delivery of functionality