This document relates to food products containing highly conjugated heterocyclic rings complexed to an iron ion and one or more flavor precursors, and using such food products to modulate the flavor and/or aroma profile of other foods. The food products described herein can be prepared in various ways and can be formulated to be free of animal products.

The probiotic powder compositions comprising probiotic microorganisms encapsulated in nutritional rich cereal powder matrix. Encapsulation of probiotics in cereal powders offers nutritive and health benefits to the consumer. The present invention further includes methods of making and using the probiotic powder compositions of the invention. The powder compositions are stable, maintains the viability of probiotic microorganisms in various formulations.

Comestible products, for example beverage products, are disclosed containing encapsulated probiotic bacteria having resistance to subjection to at least thermal and acidic conditions. Beverage products include at least one aqueous liquid and capsules comprising a gelled mixture of alginate and denatured protein, and probiotic bacteria entrapped within the gelled mixture. The average particle size of the capsules is optionally less than 1000 microns (μm) in diameter, such as less than 500 μm in diameter. Methods are provided for making such encapsulated probiotics by providing a mixture comprising sodium alginate, denatured protein and active probiotic cells, and combining the mixture with a divalent cation to initiate cold gelation of the sodium alginate and denatured protein to form a second mixture. The second mixture is passed through an opening having a diameter of less than 1000 μm to form capsules. The weight ratio of protein to alginate is from 1:1 to 9:1.

Comestible products, for example beverage products, are disclosed containing encapsulated probiotic bacteria having resistance to subjection to at least thermal and acidic conditions. Beverage products include at least one aqueous liquid and capsules comprising a gelled mixture of alginate and denatured protein, and probiotic bacteria entrapped within the gelled mixture. The average particle size of the capsules is optionally less than 1000 microns (μm) in diameter, such as less than 500 μm in diameter. Methods are provided for making such encapsulated probiotics by providing a mixture comprising sodium alginate, denatured protein and active probiotic cells, and combining the mixture with a divalent cation to initiate cold gelation of the sodium alginate and denatured protein to form a second mixture. The second mixture is passed through an opening having a diameter of less than 1000 μm to form capsules. The weight ratio of protein to alginate is from 1:1 to 9:1.

Ready to drink beverages are provided. In a general embodiment, the present disclosure provides a ready to drink high-protein chocolate beverage including a protein component, a cocoa component, and a stabilizing system. The protein component may be present in an amount from about 4% to about 12% by weight of the beverage. The stabilizing system includes sodium hexamethaphosphate and a hydrocolloid component.

Ready to drink beverages are provided. In a general embodiment, the present disclosure provides a ready to drink high-protein chocolate beverage including a protein component, a cocoa component, and a stabilizing system. The protein component may be present in an amount from about 4% to about 12% by weight of the beverage. The stabilizing system includes sodium hexamethaphosphate and a hydrocolloid component.

The invention describes products, uses thereof, compositions thereof, and methods to prepare products formed from Maillard reaction products from a sugar donor and/or sweet tea extracts, stevia extracts, swingle (mogroside) extracts, one or more sweet tea extract components, one or more steviol glycosides, one or more mogrosides, one or more glycosylated sweet tea glycosides, one or more glycosylated steviol glycosides or one or more glycosylated mogrosides and an amine donor/reactant.

The invention describes products, uses thereof, compositions thereof, and methods to prepare products formed from Maillard reaction products from a sugar donor and/or sweet tea extracts, stevia extracts, swingle (mogroside) extracts, one or more sweet tea extract components, one or more steviol glycosides, one or more mogrosides, one or more glycosylated sweet tea glycosides, one or more glycosylated steviol glycosides or one or more glycosylated mogrosides and an amine donor/reactant.

Described herein is a concentrated sweet potato leaf protein in dried form, along with methods for producing it. The concentrated leaf protein has a protein content of greater than 21% by weight, and can have other beneficial components such as polyphenols. The concentrated leaf proteins are suitable for use in food and beverages, as protein supplementation, or as agents for gelling, foaming, and whipping.

Described herein is a concentrated sweet potato leaf protein in dried form, along with methods for producing it. The concentrated leaf protein has a protein content of greater than 21% by weight, and can have other beneficial components such as polyphenols. The concentrated leaf proteins are suitable for use in food and beverages, as protein supplementation, or as agents for gelling, foaming, and whipping.