The present invention provides a method for preparation of an enzyme-modified stevia sugar. The method includes the steps of adding a β-fructosidase to a solution in which a stevia sugar raw material and sucrose are dissolved to obtain a reaction solution, adjusting the pH of the reaction solution to be 5.0-8.0, maintaining a reaction temperature at 20-45° C., and after a reaction with stirring, collecting the enzyme-modified stevia sugar. The stevia sugar raw material includes one or more of stevioside and rebaudioside A, and the β-fructosidase is derived from Microbacterium saccharophilum or Aspergillus japonicus. The preparation method takes a short time, is efficient and convenient to operate, low in cost, high in conversion rate, green and environmentally friendly, and can be widely applied to industrial scale production. The present invention further provides an enzyme for preparation of the enzyme-modified stevia sugar and application thereof.

A method of creating nutritional supplements including the steps of obtaining a customer's nutrient deficiency, calculating an ionic supplement composition based on the underlying element composition of the delivery product and the deficiency information, and mixing the ionic elements in dehydrated form with an appropriate liquid suspension.

The present invention provides a method for preparation of an enzyme-modified stevia sugar. The method includes the steps of adding a -fructosidase to a solution in which a stevia sugar raw material and sucrose are dissolved to obtain a reaction solution, adjusting the pH of the reaction solution to be 5.0-8.0, maintaining a reaction temperature at 20-45 C., and after a reaction with stirring, collecting the enzyme-modified stevia sugar. The stevia sugar raw material includes one or more of stevioside and rebaudioside A, and the -fructosidase is derived from Microbacterium saccharophilum or Aspergillus japonicus. The preparation method takes a short time, is efficient and convenient to operate, low in cost, high in conversion rate, green and environmentally friendly, and can be widely applied to industrial scale production. The present invention further provides an enzyme for preparation of the enzyme-modified stevia sugar and application thereof.

The invention relates to a method for providing a structuring fat by the interesterification of a first fat with a high content of saturated long chain fatty acids with a second fat or oil to provide triglyceride compositions having an increased level of H-type fatty acids, especially C18:0 at the 2-position, the triglyceride compositions thus obtained and spreads made therefrom.

The invention relates to a method for providing a structuring fat by the interesterification of a first fat with a high content of saturated long chain fatty acids with a second fat or oil to provide triglyceride compositions having an increased level of H-type fatty acids, especially C18:0 at the 2-position, the triglyceride compositions thus obtained and spreads made therefrom.

The invention relates to a method for providing a structuring fat by the interesterification of a first fat with a high content of saturated long chain fatty acids with a second fat or oil to provide triglyceride compositions having an increased level of H-type fatty acids, especially C18:0 at the 2-position, the triglyceride compositions thus obtained and spreads made therefrom.

The invention relates to a method for providing a structuring fat by the interesterification of a first fat with a high content of saturated long chain fatty acids with a second fat or oil to provide triglyceride compositions having an increased level of H-type fatty acids, especially C18:0 at the 2-position, the triglyceride compositions thus obtained and spreads made therefrom.

Rate of rancid flavor development in oil-based sauces and dressings can be slowed down by addition of a mixture containing sequestering agents for dissolved oxygen and heavy metal ions that are derived from vinegar and fruit juices. The types and proportions of the components of the mixture are chosen to promote a balance of flavor and color neutrality and adequacy of sequestering both heavy metal ions and dissolved oxygen. The mixture is effective in retarding development of rancid flavor moieties of hydroperoxides and hexanal, similar to a commonly-used chemical sequestrant, ethylene diamine tetra acetate (EDTA).

Sweeteners made from the co-crystallization of 3-(4-amino-2,2-dioxide-1H-benzo[c][1,2,6]thiadiazin-5-yloxy)-2,2-dimethyl-N-propylpropanamide (Compound I) having the structure: ##STR00001##
or salt thereof, with sugar in various ratios. The sugar co-crystallized sweeteners are very soluble in water and have no dusting problems.

In the present invention, a sugar product containing L-arabinose and preparing and using methods thereof are provided. The sugar product comprises an edible sugar particle and an L-arabinose enclosing a surface of the edible sugar particle. The edible sugar particle has a particle diameter of 0.15 mm0.25 mm; the L-arabinose has an enclosing thickness of 0.001 mm0.08 mm; and in each mass part of the sugar product, the edible sugar particle accounts for 80%99% in mass percentage, and a dry matter of the L-arabinose accounts for 1%20% in mass percentage. With the solution as provided in the present invention, the uniformity of distribution of the L-arabinose on the surface of the edible sugar is improved.