According to embodiments, a dry powdered composition which may be reconstituted to provide a gelatin product includes powdered gelatin and a pelletized colorant. The pelletized colorant includes a pigment-protein complex and at least one encapsulating agent for encapsulating the pigment-protein complex. The pelletized colorant has a rate of dissolution a rate of dissolution of less than 2 grams/minute in water having an initial temperature of from about 95° C. to about 100° C. Methods of making food products with the pelletized colorant are also disclosed. In embodiments, when the food products are measured on the L*a*b* color space, the food products have an L* value of about 49 to about 57, an a* value of about −10 to about −16, and a b* value of from about −11 to about −20.5.

A peach-colored seasoning contains white soy sauce, a clouding agent and a red coloring. A mixing ratio of the red coloring to the clouding agent is may be 1/0.125 to 1/0.135. A content of the red coloring is may be 0.55 to 0.70 mass %. The content of the clouding agent is may be 4.0 to 5.1 mass %.

A peach-colored seasoning contains white soy sauce, a clouding agent and a red coloring. A mixing ratio of the red coloring to the clouding agent is may be 1/0.125 to 1/0.135. A content of the red coloring is may be 0.55 to 0.70 mass %. The content of the clouding agent is may be 4.0 to 5.1 mass %.

The present invention discloses processes for obtaining a color from an algal biomass. The process includes subjecting an algal biomass to cavitation, thus at least partially disrupting cells of the algal biomass and extracting color from the disrupted, algal biomass.

The present disclosure belongs to the technical field of soft capsules, and particularly relates to a plant soft capsule and a preparation method and application thereof. The plant soft capsule with excellent performance is prepared from carrageenan, starch, a plasticizer and water by controlling the weight-average molecular weight of the carrageenan to be 1.2×10.sup.6 to 2.0×10.sup.6. Compared with a plant soft capsule in the existing technology, the plant soft capsule of the present discourse has lower production cost, and the product quality meets the requirements of gelatin soft capsules; and on the premise of high production efficiency, a low oil leakage rate is achieved, and the rupture time meets United States Pharmacopoeia (USP) standards. The plant soft capsule prepared according to the present disclosure can be filled with an active component as a content and used for preparation of a plurality of drugs, functional food or dietary nutritional supplements.

The present invention provides compounds isolated from avocado seeds for use as a natural colorant in edible materials. The compounds of the invention are useful for coloring edible materials red, orange or yellow. The invention also provides compositions and methods for coloring edible materials to a desired color such as red, orange or yellow.

The present invention provides compounds isolated from avocado seeds for use as a natural colorant in edible materials. The compounds of the invention are useful for coloring edible materials red, orange or yellow. The invention also provides compositions and methods for coloring edible materials to a desired color such as red, orange or yellow.

Described herein are various embodiments of methods for binding together textured substrates using mycelium-producing fungi. The method can generally include providing a textured substrate, such as a textured protein substrate, that may or may not be subjected to various pre-processing steps used to help promote mycelium growth inside, outside or inside and outside of the textured substrate, inoculating the textured substrate with mycelium-producing fungi, and growing mycelium inside, outside, or inside and outside of the textured substrate to bind the textured substrate. The bound textured substrate can be used as a high protein food, such as meat substitutes, meat analogues, or seafood analogues. In some embodiments, the mycelium-producing fungi is used to bind together multiple textured substrates to form larger composite food products.

Described herein are various embodiments of methods for binding together textured substrates using mycelium-producing fungi. The method can generally include providing a textured substrate, such as a textured protein substrate, that may or may not be subjected to various pre-processing steps used to help promote mycelium growth inside, outside or inside and outside of the textured substrate, inoculating the textured substrate with mycelium-producing fungi, and growing mycelium inside, outside, or inside and outside of the textured substrate to bind the textured substrate. The bound textured substrate can be used as a high protein food, such as meat substitutes, meat analogues, or seafood analogues. In some embodiments, the mycelium-producing fungi is used to bind together multiple textured substrates to form larger composite food products.

According to embodiments, a dry powdered composition which may be reconstituted to provide a gelatin product includes powdered gelatin and a pelletized colorant. The pelletized colorant includes a pigment-protein complex and at least one encapsulating agent for encapsulating the pigment-protein complex. The pelletized colorant has a rate of dissolution a rate of dissolution of less than 2 grams/minute in water having an initial temperature of from about 95 C. to about 100 C. Methods of making food products with the pelletized colorant are also disclosed. In embodiments, when the food products are measured on the L*a*b* color space, the food products have an L* value of about 49 to about 57, an a* value of about 10 to about 16, and a b* value of from about 11 to about 20.5.