The present invention provides a process of producing a water-soluble hemicellulose comprising a starch removing stage, an extraction stage and a neutralization and desalting stage and the use of the obtained water-soluble hemicellulose as a health food.
By amylase treatment of water-soluble polysaccharide aqueous solutions extracted from legumes under acidic conditions, for hydrolysis of the starch substances that are a source of precipitates and suspended matter, it is possible to improve the clarity of the aqueous solutions while also preventing production of precipitates during long-term storage or cold storage of the aqueous solutions.
There is disclosed a food additive comprising a water soluble hemicellulose resulting from a degradation of a protein by degrading water insoluble vegetable fibers containing protein under acidic conditions of at about the isoelectric point of the protein and at a temperature of 130.degree. C. or lower, and composed of rhamnose, fucose, arabinose, xylose, galactose, glucose and uronic acid. This food additive is useful as a dispersant, a protein stabilizer, a modifier, and/or a foaming agent for food. Food containing the food additive is also disclosed.
The invention is directed to a method for producing acidic milk beverages, characterized by homogenizing fermented milk, then adding water-soluble hemicellulose thereto for mixing, followed by an additional step of homogenization. The method provides stable acidic milk beverages which undergo less sedimentation or separation of whey during product storage, and which have favorable flavor.
A method for production of frozen desserts that comprises adding water-soluble hemicellulose during the frozen dessert production process. It is possible to provide the functions of overrun properties and shape retention which are desired properties of stabilizing agents for frozen desserts, without giving the frozen desserts a heavy taste texture, while also imparting a soft, smooth taste texture and a light, fragile taste texture for ice desserts.
The present invention relates to a high yield process for producing soluble dietary fiber from corn hull. More specifically, the present invention comprises removing starch and protein with enzymes from corn hull which is by-product of wet-milling process for production of corn starch, extracting the resultant with alkaline solution to form a alkaline extract, treating the alkaline extract with enzymes, and drying the enzyme-treated solution, to produce dietary fiber with low viscosity and containing hemicellulose as a major component at high yield.
