Processes and systems are provided for aggregating whey protein including preparing a whey protein solution containing native whey protein, adjusting the pH of the whey protein solution, denaturing at least a portion of the native whey protein, separating the denatured material and processing the denatured material by shearing to form whey protein aggregates. Also provided are whey protein aggregates and uses thereof, such as in the production of dairy products or in cheesemaking.

The present invention relates to a method for the manufacture of a cream cheese, the method comprising: (i) providing a first dairy liquid; (ii) fermenting the first dairy liquid to form a first acidified dairy liquid; (iii) providing a second dairy liquid; (iv) acidifying the second dairy liquid with citric acid to form a second acidified dairy liquid; (v) combining the first acidified dairy liquid and the second acidified dairy liquid to form a cream cheese.

The present invention relates to a polymer blend and to multilayer heat shrinkable films containing at least a layer made of said polymer blend, to flexible containers made of said film, such as bags, pouches and the like, useful for packaging articles, in particular food items. The invention also relates to a process for the manufacturing of such multilayer heat shrinkable films.

[Problem] Low-salt processed foods or drinks frequently taste like something is missing because of the less salty taste thereof. Although salt substitutes and flavoring agents are often used to offer a sense of satisfaction, these additives exhibit only limited effects or cause sonic troubles of, for example, changing the original flavor of food. Under these circumstances, the present invention addresses the problem of enhancing the salty taste of a low-salt processed food or drink without imparting any undesired taste thereto. [Solution] To solve the above problem, the present inventors conducted intensive studies and, as a result, found that an effect of comfortably and naturally enhancing salty taste can be achieved by adding a composition, which comprises dietary fibers, in particular, glucan and mannan at a specific ratio, to common processed foods or drinks including low-salt processed foods or drinks.

Cheese products with improved flavor, texture and melting properties are disclosed. Topical application of a dairy powder, and in particular a cream cheese powder, to a cheese product improves not only dairy flavor when consumed cold, but unexpectedly also melted appearance, texture and taste.

A grain-based, soft and creamy food filling that is heat-stable is provided. By one approach, the grain-based food filling may include a continuous lipid phase and a dispersed solid including a grain-derived component.

A method of preparing a less sodium food product involves forming a reaction mixture of one or more of liquid sodium potassium hydrogen phosphate and liquid sodium dipotassium phosphate and combining a food ingredient with the emulsifying salt mixture. A reduced sodium process cheese product is formed of a sol to gel conversion fat stabilized via a hydrated protein matrix by a combination of potassium caseinate and sodium caseinate in which the caseinates are derived from an emulsifying salt mixture of liquid sodium potassium hydrogen phosphate and liquid sodium dipotassium phosphate, which, prior to reaction, accounts for at least about 2.5 and up to about 8.32 percent by weight of a total weight of the process cheese product. The emulsifying salt mixture formed of the reaction mixture remains in solution at ambient conditions for at least two weeks prior to incorporation with a food ingredient.

Processes and systems are provided for aggregating whey protein including preparing a whey protein solution containing native whey protein, adjusting the pH of the whey protein solution, denaturing at least a portion of the native whey protein, separating the denatured material and processing the denatured material by shearing to form whey protein aggregates. Also provided are whey protein aggregates and uses thereof, such as in the production of dairy products or in cheesemaking.

Processes and systems are provided for aggregating whey protein including preparing a whey protein solution containing native whey protein, adjusting the pH of the whey protein solution, denaturing at least a portion of the native whey protein, separating the denatured material and processing the denatured material by shearing to form whey protein aggregates. Also provided are whey protein aggregates and uses thereof, such as in the production of dairy products or in cheesemaking.

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.