The present invention relates to method for purifying proteins naturally occurring in mammalian milk from aqueous protein solution using water-soluble silicate. The silicates form an insoluble precipitate of a silicate-protein complex from which the proteins can be isolated.

The present invention relates to method for purifying proteins naturally occurring in mammalian milk from aqueous protein solution using water-soluble silicate. The silicates form an insoluble precipitate of a silicate-protein complex from which the proteins can be isolated.

There is provided a means for sterilizing lactoferrin at a high temperature in a short time while maintaining the activity of the lactoferrin. The present technology provides a method for producing a lactoferrin-containing aqueous solution, including a sterilization step of heat-sterilizing a lactoferrin-containing aqueous solution, in which the total mass content of proteins other than lactoferrin is 1/12 or less of the mass content of lactoferrin, at a temperature of 100° C. or more. The present technology also provides a lactoferrin-containing aqueous solution in which the total mass content of proteins other than lactoferrin is 1/12 or less of the mass content of lactoferrin, and which does not contain living bacteria.

There is provided a means for sterilizing lactoferrin at a high temperature in a short time while maintaining the activity of the lactoferrin. The present technology provides a method for producing a lactoferrin-containing aqueous solution, including a sterilization step of heat-sterilizing a lactoferrin-containing aqueous solution, in which the total mass content of proteins other than lactoferrin is 1/12 or less of the mass content of lactoferrin, at a temperature of 100° C. or more. The present technology also provides a lactoferrin-containing aqueous solution in which the total mass content of proteins other than lactoferrin is 1/12 or less of the mass content of lactoferrin, and which does not contain living bacteria.

A method for unlocking bioactive proteins that can then be used to activate natural remedies. The method includes starting with Silica salt and water mixture. Then a base of whey protein concentrate is added to the mixture. The pH of the whey protein mixture is raised using a base. The pH is held at a level above 11 for at least two hours. After at least two hours an acid is then added to the mixture to bring the pH of the mixture below 3 pH. This will stop the activation process. After the unattached proteins are removed the protein mixture is then brought back to a normal pH level, around 4 pH.

The invention concerns a process for the treatment of a sweet whey material containing cGMP (caseinoGlycoMacroPeptide), said process comprising the following steps: Decationising the sweet whey material so as to obtain sweet whey material having a pH value of 1 to 4.5; Treating said sweet whey in a fluidized bed reactor comprising a specific volume of an anionic resin, at a temperature between 10 and 18 C., wherein said sweet whey contacts said resin for a sufficient amount of time so that the resin absorbs between 52% and 58% of the cGMP present in the sweet whey; andRecovering a protein material. Advantageously, the protein material is suitable for hypoallergenic infant formulae.

A coated particle may include a food particle coated by a carbohydrate. The coated particle may have an average particle size from about 10 m to about 250 m. The food particle may include a relatively bitter component (e.g., cocoa) and a protein component (e.g., whey protein, soy protein, rice protein, fava bean protein, and/or milk protein). A weight ratio of bitter component to protein component may be about 3 or greater. The food particle may also include a starch, such as rice starch. Additionally, the coated particle may have a surface area fraction of the carbohydrate that is greater than an average weight fraction of the carbohydrate. For example, the surface area fraction of the carbohydrate may be from about 30% to about 80%. In addition, the coated particle may have a substantially non-spherical and irregular shape. The coated particle may be prepared via a spray drying process.

Disclosed herein is a process for preparing a stable suspension of a globular protein material in a dairy product. Also disclosed are products produced by this method.

A method of producing a low-lactose milk protein concentrate comprising the steps of providing a starting liquid milk protein concentrate, pre-treating the milk protein concentration by ultra-sonication, and treating the pre-treated milk protein concentration by diafiltration to provide a calcium depleted low-lactose milk protein concentrate. The process of the invention provides a milk protein concentrate with high levels of protein, less than 1% lactose, and a calcium level that is depleted by at least 20% compared with an untreated milk protein concentrate.

A method of producing a low-lactose milk protein concentrate comprising the steps of providing a starting liquid milk protein concentrate, pre-treating the milk protein concentration by ultra-sonication, and treating the pre-treated milk protein concentration by diafiltration to provide a calcium depleted low-lactose milk protein concentrate. The process of the invention provides a milk protein concentrate with high levels of protein, less than 1% lactose, and a calcium level that is depleted by at least 20% compared with an untreated milk protein concentrate.