A sugar substitute for baked goods or pastries, the sugar substitute containing or consisting of (a) 40 to 60 wt % isomaltulose, (b) 20 to 40 wt % erythritol, (c) 8 to 20 wt % inulin, and (d) 0.1 to 1 wt % steviol glycoside relative to the total dry weight of the sugar substitute. A process for manufacturing a sugar substitute as well as to the use of a sugar substitute to replace sucrose in baked goods or pastries and for making baked goods, pastries and baking mixes.

The present invention relates to a food glaze coating composition. The invention also relates to methods of manufacturing food glaze coating compositions, methods of glazing food products, and glazed food products. The present invention provides a food glaze coating composition that is egg-free, non-dairy, and non-protein (non-allergenic) and ready-to-use for food products such as baking products and having desirable functionalities.

The present invention relates to a food glaze coating composition. The invention also relates to methods of manufacturing food glaze coating compositions, methods of glazing food products, and glazed food products. The present invention provides a food glaze coating composition that is egg-free, non-dairy, and non-protein (non-allergenic) and ready-to-use for food products such as baking products and having desirable functionalities.

An essentially carbohydrate-free, protein-based flour substitute and methods for preparing the same are disclosed herein. The flour substitute may be used to make pizza crusts, chips, taco shells, tortillas, crackers, sandwich thins, and other food products that are traditionally flour based. The organoleptic properties of the disclosed flour substitute preferably resemble the organoleptic properties of traditional baked goods and are substantially different from the organoleptic properties of traditional meat products. The disclosed flour substitute comprises a meat or nut flour, a flavor-masking spice, salt, and a vegetable, fruit, or plant-based oil or an oil-based spray. The disclosed flour substitute is used to make substitute food products that preferably resemble, in both appearance and taste, the traditional food products that the substitute food products are replacing. The flour substitute is preferably fiber-free and does not contain any other non digestible carbohydrates. Methods of preparing the disclosed flour substitute are also disclosed herein.

An essentially carbohydrate-free, protein-based flour substitute and methods for preparing the same are disclosed herein. The flour substitute may be used to make pizza crusts, chips, taco shells, tortillas, crackers, sandwich thins, and other food products that are traditionally flour based. The organoleptic properties of the disclosed flour substitute preferably resemble the organoleptic properties of traditional baked goods and are substantially different from the organoleptic properties of traditional meat products. The disclosed flour substitute comprises a meat or nut flour, a flavor-masking spice, salt, and a vegetable, fruit, or plant-based oil or an oil-based spray. The disclosed flour substitute is used to make substitute food products that preferably resemble, in both appearance and taste, the traditional food products that the substitute food products are replacing. The flour substitute is preferably fiber-free and does not contain any other non digestible carbohydrates. Methods of preparing the disclosed flour substitute are also disclosed herein.

Novel yeast-raised and other bakery products and methods of making those products are provided. The products are formed from dough comprising a thermally-stable amyloglucosidase, and a raw starch degrading amyloglucosidase and/or an anti-staling amylase. The level of added sugar included in the dough can be substantially reduced, and even eliminated, while still achieving a sweet product. Additionally, the resulting bakery product is free of, or at least substantially free of, fructose. The final baked product will also have improved texture properties, including superior firmness, resilience, and adhesiveness and can be made with a reduced amount of yeast.

Novel yeast-raised and other bakery products and methods of making those products are provided. The products are formed from dough comprising a thermally-stable amyloglucosidase, and a raw starch degrading amyloglucosidase and/or an anti-staling amylase. The level of added sugar included in the dough can be substantially reduced, and even eliminated, while still achieving a sweet product. Additionally, the resulting bakery product is free of, or at least substantially free of, fructose. The final baked product will also have improved texture properties, including superior firmness, resilience, and adhesiveness and can be made with a reduced amount of yeast.

The present invention relates to crunchy edible formulations comprising fibre, protein and a restricted amount of carbohydrate and substantially devoid of fat and sugar. Methods of making said formulations and their use in food products are also provided.

The present invention relates to crunchy edible formulations comprising fibre, protein and a restricted amount of carbohydrate and substantially devoid of fat and sugar. Methods of making said formulations and their use in food products are also provided.

The present disclosure belongs to the technical field of food processing. Use of sucrose and maltose as binders in the existing energy bars leads to high hardness and adhering tooth in energy bars. Aiming at the problem, the present disclosure provides a preparation method of a low-sugar whole potato flour energy bar. Using starch gel and sugar alcohol as binders, whole potato flour and dried honey powder are added to prepare the energy bar; the starch is gelatinized, the sugar alcohol is dissolved, and gelatinized starch and a sugar alcohol solution are mixed in a mass ratio of 2:1 to 1:1 to prepare the binder; the binder is mixed with stir-fried whole potato flour and the dried honey powder, stirred evenly, and subjected to mold pressing or cool forming to obtain the energy bar.