The present invention provides starch film-forming compositions and methods of their use for preparing capsule shells. The starch film-forming composition includes a gellan gum and at least one starch, wherein the total acyl content of the gellan gum ranges from 14 to 34%. The starch film-forming composition of the present invention has the advantages of desired film-forming strength and toughness, which can be applied in soft capsules to obtain soft capsules with a desired adhesive property upon formation and encapsulation property and which is free of animal-derived ingredients. The soft capsules thus are suitable for all ethnic populations in the world and can be applied globally.

The present invention provides starch film-forming compositions and methods of their use for preparing capsule shells. The starch film-forming composition includes a gellan gum and at least one starch, wherein the total acyl content of the gellan gum ranges from 14 to 34%. The starch film-forming composition of the present invention has the advantages of desired film-forming strength and toughness, which can be applied in soft capsules to obtain soft capsules with a desired adhesive property upon formation and encapsulation property and which is free of animal-derived ingredients. The soft capsules thus are suitable for all ethnic populations in the world and can be applied globally.

To provide a bilayer-type fermented milk product that is able to maintain a sharp interface between a fermented milk layer and a foodstuff layer without adding a gelling agent, such as low-methoxyl pectin and gelatin, to the fermented milk layer. This fermented milk product has a foodstuff layer formed as an upper layer of a fermented milk layer, wherein: the foodstuff layer has added thereto a low-methoxyl pectin having an esterification degree of less than 50; the fermented milk layer is configured to have a viscosity of 3500 cp or more; and a value obtained by subtracting the Brix value of the fermented milk layer from the Brix value of the foodstuff layer is adjusted to 21 or less.

To provide a bilayer-type fermented milk product that is able to maintain a sharp interface between a fermented milk layer and a foodstuff layer without adding a gelling agent, such as low-methoxyl pectin and gelatin, to the fermented milk layer. This fermented milk product has a foodstuff layer formed as an upper layer of a fermented milk layer, wherein: the foodstuff layer has added thereto a low-methoxyl pectin having an esterification degree of less than 50; the fermented milk layer is configured to have a viscosity of 3500 cp or more; and a value obtained by subtracting the Brix value of the fermented milk layer from the Brix value of the foodstuff layer is adjusted to 21 or less.

A process is disclosed for obtaining citrus fiber from citrus peel. Citrus fiber is obtained having a c* close packing concentration value of less than 3.8 wt % anhydrous base. The citrus fiber can be used in food products, feed products, beverages, personal care products, pharmaceutical products or detergent products.

A process is disclosed for obtaining citrus fiber from citrus peel. Citrus fiber is obtained having a c* close packing concentration value of less than 3.8 wt % anhydrous base. The citrus fiber can be used in food products, feed products, beverages, personal care products, pharmaceutical products or detergent products.

The present invention relates to a sugar confectionery composition comprising an alcohol-containing phase and a sweet-containing phase, wherein the composition, when set, is in the form of a single-phase amorphous mass. The invention also relates to a method of manufacturing a sugar confectionery composition, comprising steps of: preparing an alcohol-containing phase at a first temperature; preparing a sweet-containing phase at a second temperature; incorporating one of the two phases into another to form a mixture; setting the mixture to form the composition; wherein, when set, the composition is in the form of a single-phase amorphous mass.

The present invention relates to a process for the production of an agglomerated particulate product containing one or more flavorant(s) and/or odorant(s). By spraying with certain binders, the storage stability of the particulate product is significantly improved, and the flavorant(s) and/or odorant(s) are protected, in particular, from oxidation. The present invention also relates to particulate products containing one or more flavorant(s) and/or odorant(s), preferably produced by a process according to the invention, and to the use of certain substances for improving the storage stability of particulate products containing one or more flavorant(s) and/or odorant(s).

A method of making a meat structured protein product includes combining a denatured plant protein and a polysaccharide in the presence of an aqueous solvent to provide a phase-separated mixture including a dispersed phase rich in polysaccharide and a continuous phase rich in the denatured plant protein. The method further includes forming fibrous structures of the polysaccharide in a protein matrix of the plant protein at a temperature of less than 100° C. The protein matrix can be crosslinked to provide the meat structured protein product. Meat structured protein products made by the method are also disclosed.

A method of making a meat structured protein product includes combining a denatured plant protein and a polysaccharide in the presence of an aqueous solvent to provide a phase-separated mixture including a dispersed phase rich in polysaccharide and a continuous phase rich in the denatured plant protein. The method further includes forming fibrous structures of the polysaccharide in a protein matrix of the plant protein at a temperature of less than 100° C. The protein matrix can be crosslinked to provide the meat structured protein product. Meat structured protein products made by the method are also disclosed.