The present invention relates to a process for producing cheese, comprising the steps of: providing a first raw material liquid; providing a second raw material liquid; treating the first raw material liquid with a protein crosslinking enzyme to provide an enzyme-treated raw material liquid; mixing the enzyme-treated raw material liquid with the second raw material liquid to provide cheese milk; processing the cheese milk into cheese. The process produces cheese in improved yields while retaining the organoleptic properties of cheese unchanged. The invention further relates to cheese treated with a protein crosslinking enzyme, having the moisture on a fat-free basis of 67% or less and a protein profile of cheese has proteins of molecular weight of less than 66 kDa.

The present invention relates to a process for producing cheese, comprising the steps of: providing a first raw material liquid; providing a second raw material liquid; treating the first raw material liquid with a protein crosslinking enzyme to provide an enzyme-treated raw material liquid; mixing the enzyme-treated raw material liquid with the second raw material liquid to provide cheese milk; processing the cheese milk into cheese. The process produces cheese in improved yields while retaining the organoleptic properties of cheese unchanged. The invention further relates to cheese treated with a protein crosslinking enzyme, having the moisture on a fat-free basis of 67% or less and a protein profile of cheese has proteins of molecular weight of less than 66 kDa.

The present invention relates to an alginate gum, a method for formation of an alginate gum, optionally in particulate form, and methods of use and the use thereof for example in cheese production.

A method for stabilizing cheese proteins includes preparing a cheese mass comprising cheese curds and whey; adding a stabilizing additive to the cheese mass; straining the cheese mass to separate a cheese curd and whey; and forming the cheese curd into a cheese comprising about 18 to about 35% protein. In some embodiments, the method is modified to allow for a gentler cheese manufacturing process. A cheese composition may include cheese; about 18 to about 35% protein comprising about 0.01 to about 25% of intact protein segments by weight of the protein; and about 0.001 to about 5% of a stabilizing additive.

Patatin, a lipase obtainable from potatoes, has been found to have advantages in the esterification reaction of fatty acids to yield fatty acid alkyl esters. Methods for application of this lipase activity are described, as well as the use of patatin in various industrial processes.

Patatin, a lipase obtainable from potatoes, has been found to have advantages in the esterification reaction of fatty acids to yield fatty acid alkyl esters. Methods for application of this lipase activity are described, as well as the use of patatin in various industrial processes.

The present invention relates to a stabilized starch obtained by reacting under alkaline conditions a base starch having a protein content of less than 0.4% w/w with a reactant capable of forming active chlorine, wherein the reactant is used in an amount sufficient to provide between 4000 and 8200 ppm of active chlorine during the stabilization reaction.

Food products and systems and methods for their production involve subjecting pasteurized milk to a concentration process thereby forming liquid concentrated milk, then fermenting the liquid concentrated milk to form a fermented concentrated milk product. The fermented concentrated milk product is combined with a liquid emulsifying agent, thereby forming a food product. The food product is formed without the fermented concentrated milk product and the food product reaching a temperature of 145? F.

This invention discloses packaged nutritional supplements that have nutritional ingredients derived from green leafy vegetation that shall collectively or singly be useful to fulfill the daily need of supplementation from one or more of a nutrient from green leafy vegetation. One embodiment of this invention discloses a novel packaged composition that comprises at least one fraction of a green leafy vegetation and at least one more ingredient to improve its usability and is source of at least one nutritional ingredient selected from the group dietary fiber, beta carotene, iron, calcium, xanthophylls, folic acid and lysine plus methionine and cystine; wherein the fraction comprises a fibrous fraction, a water soluble deproteinized juice fraction and a water insoluble high protein low fiber fraction as fourth primary fraction. In one embodiment of invention, the contribution of at least one nutrient to the nutrient content of the composition from green leafy vegetation or its fraction is a least 15% of at least content of one nutrient of the composition. Also disclosed is a novel packaged composition comprising pulp of whole edible green leafy vegetation and at least one component of flax-seed in the form of a soup or a food bar. The component of flax seed may be one or more selected from the group of whole flax seed, flax seed cake or flax oil.

Food products and systems and methods for their production involve subjecting pasteurized milk to a concentration process thereby forming liquid concentrated milk, then fermenting the liquid concentrated milk to form a fermented concentrated milk product. The fermented concentrated milk product is combined with a liquid emulsifying agent, thereby forming a food product. The food product is formed without the fermented concentrated milk product and the food product reaching a temperature of 145 F.