There is a method of separating phosvitin and HDL proteins from an egg yolk composition. The egg yolk composition includes HDL proteins bound to phosvitin. At least a portion of the HDL proteins are hydrolysed to cause the HDL proteins and phosvitin to become unbound and forming a hydrolysed solution comprising hydrolysed HDL, phosvitin and peptides. The hydrolysed HDL is separated from the phosvitin and peptides to form a separated hydrolysed HDL composition and a separated phosvitin and peptide solution. One resulting product is an egg yolk composition formed having at least 20% solids by mass of phosvitin phosphopeptides unbound from HDL. Another resulting product is an egg yolk composition having at least 80% hydrolysed HDL-derived lipopeptide solids by mass.

The present disclosure relates to improved methods for the enzymatic hydrolysis of phospholipids in egg yolks. Phospholipase A2 enzymes hydrolyze egg yolk phospholipids at the sn-2 fatty ester group to liberate the corresponding free fatty acids. The rate of enzymatic hydrolysis and the degree to which free fatty acids are liberated can be increased by addition of one or more calcium salts. The use of calcium salts to increase egg yolk phospholipid hydrolysis rate decreases production costs, decreases processing and production times, and increases process safety by reducing microbial content in enzyme-modified egg yolks.

A method for producing water-soluble or water-dispersible microparticles, which includes preparing a solution or dispersion that contains a protein and an anionic polysaccharide and that has a pH higher than the isoelectric point of the protein, and mixing the solution or dispersion to set the pH of the solution or dispersion to a value closer to the isoelectric point.

A method for producing a foaming material for a composition to be foamed, the method includes: suspending a yeast cell residue in water; adjusting a pH of a yeast cell suspension to an acidic side; and heating a yeast cell suspension, the foaming material includes a yeast extract having a protein content of 35% by weight or more per solid content and a dietary fiber content of 30% by weight or more per solid content, and the foaming material is contained in the composition at from 0.001% to 1% by weight.

A method for producing a foaming material for a composition to be foamed, the method includes: suspending a yeast cell residue in water; adjusting a pH of a yeast cell suspension to an acidic side; and heating a yeast cell suspension, the foaming material includes a yeast extract having a protein content of 35% by weight or more per solid content and a dietary fiber content of 30% by weight or more per solid content, and the foaming material is contained in the composition at from 0.001% to 1% by weight.

Provided are a base material for a coagulated egg-like gelatinized product capable of easily reproducing a texture and flavor of coagulated egg, a coagulated egg-like gelatinized product using the base material, and a method for producing the coagulated egg-like gelatinized product and a food product containing the coagulated egg-like gelatinized product. The base material for the coagulated egg-like gelatinized product of the present invention contains an alginate, an edible fat or oil, and a glucide, and is in a liquid state. In the base material for the coagulated egg-like gelatinized product of the present invention, a content of the edible fat or oil is 10 mass % or more and 23 mass % or less, and a content of the glucide is 3 mass % or more and 13 mass % or less.

Two stage heated water treatment of shell eggs results in-shell poached eggs. The in-shell poached are sufficiently cooked so when the eggs are cracked onto a plate the eggs have the characteristics of conventional poached eggs without further cooking and need only to be warmed for consumption. The in-shell poached eggs are also pasteurized in the shell to meet the FDA and WHO requirement of a 5-log reduction of Salmonella Enteritidis.

Two stage heated water treatment of shell eggs results in-shell poached eggs. The in-shell poached are sufficiently cooked so when the eggs are cracked onto a plate the eggs have the characteristics of conventional poached eggs without further cooking and need only to be warmed for consumption. The in-shell poached eggs are also pasteurized in the shell to meet the FDA and WHO requirement of a 5-log reduction of Salmonella Enteritidis.

The invention provides novel microalgal food compositions comprising microalgal biomass that have been processed into flakes, powders and flours. The microalgal biomass of the invention is low in saturated fats, high in monounsaturated triglyceride oil and can be a good source of fiber. The invention also comprises microalgal biomass that is suitable as a vegetarian protein source and also as a good source of fiber. Novel methods of formulating food compositions with the microalgal biomass of the invention are also disclosed herein including beverages, baked goods, egg products, reduced fat foods and gluten-free foods. The provision of food compositions incorporating the microalgal biomass of the invention to a human have the further benefit of providing healthful ingredients while achieving levels of satiety sufficient to reduce further caloric intake. The invention also provides novel strains of microalgae that have been subject to non-transgenic methods of mutation sufficient to reduce the coloration of the biomass produced by the strains. Oil from the microalgal biomass can be extracted and is an edible oil that is heart-healthy. The novel microalgal biomass and oil therefrom can be manufactured from edible and inedible heterotrophic fermentation feedstocks, including corn starch, sugar cane, glycerol, and depolymerized cellulose that are purpose-grown or byproducts of existing agricultural processes from an extremely broad diversity of geographic regions.

A process for treating rice bran utilizing a shear pump to circulate a solution comprising an enzyme, an acid and water with rice bran in a mixing tank, then after a first predetermined period transferring a portion of the solution to a feed tank, and then over a second predetermined period filtering the solution in the feed tank through multiple filtration units each having a pre-selected pore size to obtain pre-determined value-added by-products from the rice bran.