A substance which adds body to a food product, and a body-adding agent for food products that uses the substance are provided. More specifically, the body adding agent for food products is characterized by having as an active component a peptide, or a salt thereof, that is characterized in that the γ-glutamyl bond number is 2-4 and the peptide chain length is the γ-glutamyl bond number +1 to +2, a food product manufacturing method that uses the peptide, and a method for adding body to a food product, characterized by adding the peptide are provided.

The present invention relates to lipid-modified starches. It provides a process for preparing a lipid-modified starch paste, which includes the steps of combining starch with a lipid component, the lipid component being selected from any one of monoglyceride and ascorbyl palmitate, to provide a suspension, and heat processing the suspension to form the lipid-modified starch paste. The invention also provides a lipid-modified starch paste, which includes a plurality of spherical micro-particles, each spherical micro-particle having a starch core with an amylose-lipid complex layer on an outer surface of the starch core, the amylose-lipid complex layer operable to regulate water absorption capability of the starch core. The invention further extends to provide various uses of a lipid-modified starch paste as a partial or total fat and/or oil replacement in a foodstuff, an improved fat- and/or oil-containing foodstuff and in particular, a low-calorie mayonnaise.

The present invention relates to lipid-modified starches. It provides a process for preparing a lipid-modified starch paste, which includes the steps of combining starch with a lipid component, the lipid component being selected from any one of monoglyceride and ascorbyl palmitate, to provide a suspension, and heat processing the suspension to form the lipid-modified starch paste. The invention also provides a lipid-modified starch paste, which includes a plurality of spherical micro-particles, each spherical micro-particle having a starch core with an amylose-lipid complex layer on an outer surface of the starch core, the amylose-lipid complex layer operable to regulate water absorption capability of the starch core. The invention further extends to provide various uses of a lipid-modified starch paste as a partial or total fat and/or oil replacement in a foodstuff, an improved fat- and/or oil-containing foodstuff and in particular, a low-calorie mayonnaise.

The present invention includes a method and meat product made by contacting an emulsion with a meat product for a time sufficient to, wherein the emulsion comprises by weight: 10% to 50% water, 0.1 to 4.0% Quillaja, 0.1% to 8% meat flavoring, 60% to 85% high oleic sunflower oil, meat seasoning, 0-2.0% salt, and optionally one or more stabilizers.

The present invention includes a method and meat product made by contacting an emulsion with a meat product for a time sufficient to, wherein the emulsion comprises by weight: 10% to 50% water, 0.1 to 4.0% Quillaja, 0.1% to 8% meat flavoring, 60% to 85% high oleic sunflower oil, meat seasoning, 0-2.0% salt, and optionally one or more stabilizers.

This specification discloses thermally inhibited waxy cassava starches and edible compositions made therefrom. In one aspect edible compositions have improved creaminess compared to prior art starches, independent of starch usage level and the viscosity provided by the starch. In an embodiment the edible composition comprises between 0.1% and 35.0% by weight. In various embodiments the thermally inhibited waxy cassava starch has a peak viscosity of between about 100, and 2000 Brabender units or between 500 and 1500 Brabender Units.

This specification discloses thermally inhibited waxy cassava starches and edible compositions made therefrom. In one aspect edible compositions have improved creaminess compared to prior art starches, independent of starch usage level and the viscosity provided by the starch. In an embodiment the edible composition comprises between 0.1% and 35.0% by weight. In various embodiments the thermally inhibited waxy cassava starch has a peak viscosity of between about 100, and 2000 Brabender units or between 500 and 1500 Brabender Units.

A sweetener syrup comprising at least 80% wt/wt dissolved solids of an indigestible maltodextrin with the remainder of the dissolved solids comprising saccharides and oligosaccharides and wherein a ratio of trisaccharides to monosaccharides plus disaccharides is at least 1.2 to 1. Excluding the indigestible maltodextrin, trisaccharides are the dominant saccharides in the syrup typically being 30%-42% and the combination of monosaccharides and disaccharides are less than 25%. Such syrups allow the preparation of food products, illustrated by food bars, that have less than 1 g sugar per 60 g serving size. Such food bars also have prolonged shelf life. Other food products exemplified are pudding and ketchup, that can have FDA nutrition label suitable for reduced sugar claims.

The present invention has as an objective to improve the evacuation of a viscous liquid from a container, in particular when the viscous liquid is a condiment containing enzyme modified egg yolk. This objective has been achieved by internally coating a container with a vegetable oil containing an emulsifier having a HLB-value ranging from 1 to 12, prior to filling the coated container with the viscous liquid.

The present invention has as an objective to improve the evacuation of a viscous liquid from a container, in particular when the viscous liquid is a condiment containing enzyme modified egg yolk. This objective has been achieved by internally coating a container with a vegetable oil containing an emulsifier having a HLB-value ranging from 1 to 12, prior to filling the coated container with the viscous liquid.