Edible colorant compositions containing a monoacylated anthocyanin of Compound I and methods of use are provided. The colorant compositions include at least the monoacylated anthocyanin colorant of Compound I extracted from red cabbage and a metal ion, and have a pH from about 6.0 to about 8.0. The colorant compositions can be derived from a non-artificial product and provide a stable, blue colorant that can be used in food products. Specifically, the monoacylated anthocyanin colorant provides color characteristics similar to those provided by the artificial blue colorant, FD&C Blue No. 1.

Edible colorant compositions containing a monoacylated anthocyanin of Compound I and methods of use are provided. The colorant compositions include at least the monoacylated anthocyanin colorant of Compound I extracted from red cabbage and a metal ion, and have a pH from about 6.0 to about 8.0. The colorant compositions can be derived from a non-artificial product and provide a stable, blue colorant that can be used in food products. Specifically, the monoacylated anthocyanin colorant provides color characteristics similar to those provided by the artificial blue colorant, FD&C Blue No. 1.

The present invention provides a curcumin-containing composition in which aggregation upon storage is suppressed or prevented.

The object can be attained by a composition comprising curcumin, gum arabic, modified starch, and water, and having a median diameter of 1 m or less.

The present invention provides a curcumin-containing composition in which aggregation upon storage is suppressed or prevented.

The object can be attained by a composition comprising curcumin, gum arabic, modified starch, and water, and having a median diameter of 1 m or less.

In one embodiment, a method for creating a food product is provided. The method may include providing a portion of egg base, the egg base including water and egg solids; providing a portion of cations; mixing the water, the egg solids, and the cation portion; and heating the mixture. The cation portion may include at least one of Zinc, Manganese, and Copper cations. In another embodiment, a food product is provided. The food product may include cooked egg; and Sulfur-containing salts of at least one of Zinc, Manganese, and Copper. The food product may contain between 0.25 and 10 mg of metal components of the Sulfur-containing salts per 0.967 g egg white solids and between 0.25 and 10 mg of metal components of the Sulfur-containing salts per 5.35 g egg yolk solids.

[Problem] To make a color of a processed food containing anthocyanin pigment into a vibrant color. In this respect, using a common foodstuff that is cheap and highly safe, without adding a coloring agent, and not imparting an incongruous flavor to the food is preferred. [Means for Solving the Problem] To an anthocyanin pigment or a common processed food containing anthocyanin pigment is added, in an appropriate amount, a yeast extract containing 5 wt % or more of a peptide, 5 wt % or more of RNA, 4 wt % or less of free amino acid, and preferably further containing 15 wt % or more of dietary fiber.

[Problem] To make a color of a processed food containing anthocyanin pigment into a vibrant color. In this respect, using a common foodstuff that is cheap and highly safe, without adding a coloring agent, and not imparting an incongruous flavor to the food is preferred. [Means for Solving the Problem] To an anthocyanin pigment or a common processed food containing anthocyanin pigment is added, in an appropriate amount, a yeast extract containing 5 wt % or more of a peptide, 5 wt % or more of RNA, 4 wt % or less of free amino acid, and preferably further containing 15 wt % or more of dietary fiber.

The present invention solves the problem of providing a method for stabilizing a solid pigment. The problem is solved by a method for stabilizing at least one solid pigment selected from the group consisting of solid carotenoid pigments and solid curcumin pigments, the method comprising the step of mixing the solid pigment with a lipophilic liquid in an amount of 200 parts by mass or less per 100 parts by mass of the solid pigment.

The present invention solves the problem of providing a method for stabilizing a solid pigment. The problem is solved by a method for stabilizing at least one solid pigment selected from the group consisting of solid carotenoid pigments and solid curcumin pigments, the method comprising the step of mixing the solid pigment with a lipophilic liquid in an amount of 200 parts by mass or less per 100 parts by mass of the solid pigment.

A process for providing phycocyanin from a blue-green algae biomass comprising the steps of forming a slurry of blue-green algae by mechanically mixing the blue-green algae in water to break up filaments of the biomass and incubating the macerated slurry in a container with at least a 1% flocculating agent for a period of time sufficient to separate a blue extract from the slurry. The blue extract is separated and filtered through a filter to obtain a blue filtrate and the blue filtrate is mixed in a container with an ammonium sulfate precipitate for a suitable period of time to obtain supernatant protein separation. The supernatant is syphoned from the container and the settled participate is centrifuged at a rpm ranging from about 3500 rpm to about 4500 rpm for a sufficient time to produce phycocyanin precipitate. The phycocyanin precipitate is spray dried to form a phycocyanin powder which is collected and purified with a citrate and water mixture to obtain a supernatant and phycocyanin residue with the phycocyanin residue being redissolved in water and sprayed to dry into a phycocyanin powder.