The present invention provides a low calorie, low glycemic index (GI), and sustained energy release sugar composition comprising a combination of isomaltulose, trehalulose and D-allulose; at least one of the following: essential trace elements, soluble oligosaccharides and bulking agents; and optionally, one or more nutritive sweetener for use in a food and beverage product.

The present invention relates generally to the field of food and beverages. In particular, the present invention relates to a hydrolyzed coconut product and to a process to prepare such a product. The hydrolyzed coconut product may be prepared by a process comprising an enzymatic hydrolysis of coconut kernels and the liquefaction of the coconut kernels. The process of the present invention comprises the steps of enzymatically hydrolyzing grated coconut kernels; liquefying the coconut kernels; and spray drying the hydrolyzed and liquefied coconut kernels. Advantageously, the subject matter of the present invention allows it, for example, to use unprocessed coconut kernels rather than coconut milk and coconut flour to prepare the hydrolyzed coconut product.

Variants of mannanase, compositions including the variants, to methods for their production and to methods of using variants to degrade and modify mannan containing material.

The invention relates to a process for preparing a reduced calorie beverage or food product employing fermentation of a plant-derived juice or liquid and removing the ethanol therefrom. The process involves first converting at least some of the sugar in a plant-derived juice or liquid by fermenting it with yeast to produce a fermentation product containing ethanol and subsequently removing at least some of the ethanol from the fermentation product, while maintaining the fermentation product at a temperature of less than fifty-five degrees Celsius to produce the reduced calorie beverage or food product. The alcohol removal step is performed at temperatures of less than seventy-five degrees in order to reduce the impact upon flavor and nutritional properties, relative to conventional alcohol removal at or near boiling temperatures. This invention also relates to an apparatus for performing the process for preparing a reduced calorie beverage or food product and to the reduced calorie juices and juice products created using this process and apparatus.

The invention relates to a process for preparing a reduced calorie beverage or food product employing fermentation of a plant-derived juice or liquid and removing the ethanol therefrom. The process involves first converting at least some of the sugar in a plant-derived juice or liquid by fermenting it with yeast to produce a fermentation product containing ethanol and subsequently removing at least some of the ethanol from the fermentation product, while maintaining the fermentation product at a temperature of less than fifty-five degrees Celsius to produce the reduced calorie beverage or food product. The alcohol removal step is performed at temperatures of less than seventy-five degrees in order to reduce the impact upon flavor and nutritional properties, relative to conventional alcohol removal at or near boiling temperatures. This invention also relates to an apparatus for performing the process for preparing a reduced calorie beverage or food product and to the reduced calorie juices and juice products created using this process and apparatus.

A process for preparing a liquid food product comprising obtaining an oat flour by milling peeled oat grain; mixing the oat flour with water to obtain mixture B; adding at least one glycosidase and heating to a maximum of 80? C., obtaining mixture C comprising a liquid portion containing particles in suspension and a precipitating portion; lowering the temperature of mixture C to a maximum of 30? C. and adding a combination of at least a protease, a deamidase and a transglutaminase to obtain mixture D; incubating mixture D; and separation of the liquid portion and the precipitating portion of mixture D; or separation of the liquid portion and the precipitating portion of mixture C; lowering the temperature of the liquid portion to a maximum of 2? C. and adding at least a protease, a deamidase and a transglutaminase to obtain liquid portion D; and incubating liquid portion D.

A process for preparing a liquid food product comprising obtaining an oat flour by milling peeled oat grain; mixing the oat flour with water to obtain mixture B; adding at least one glycosidase and heating to a maximum of 80? C., obtaining mixture C comprising a liquid portion containing particles in suspension and a precipitating portion; lowering the temperature of mixture C to a maximum of 30? C. and adding a combination of at least a protease, a deamidase and a transglutaminase to obtain mixture D; incubating mixture D; and separation of the liquid portion and the precipitating portion of mixture D; or separation of the liquid portion and the precipitating portion of mixture C; lowering the temperature of the liquid portion to a maximum of 2? C. and adding at least a protease, a deamidase and a transglutaminase to obtain liquid portion D; and incubating liquid portion D.

A botanical beverage formulation include an enzyme-hydrolyzed tiger nut beverage at a quantity of 90% to 99% by weight of the total botanical beverage formulation and at least one soluble fiber at a quantity of 0.1% to 8% by weight of the total botanical beverage formulation.

A botanical beverage formulation include an enzyme-hydrolyzed tiger nut beverage at a quantity of 90% to 99% by weight of the total botanical beverage formulation and at least one soluble fiber at a quantity of 0.1% to 8% by weight of the total botanical beverage formulation.

Disclosed herein is a method for producing prune juice concentrate. By the such method of the invention, a production of prune juice concentrate with low acidity and low cost is achieved by using sweet plum varieties such as President, Stanley, Sugar, and Uryani with high purity.