A production method of an edible sustained-release functional material that has a high effect of preventing oozing of oil at the time of production, and that can inexpensively perform production, even by using fat and oil other than fish oil and continuously performing pulverization at ordinary temperature; and the edible sustained-release functional material. An edible sustained-release functional material is produced by: preparing an emulsified raw material by emulsifying fat and oil containing a hydrophobic functional ingredient; stirring and mixing the emulsified raw material, gelatin, transglutaminase, and dextrin having a DE value of 8 to 21; then forming a gel by leaving the mixture to rest; and after freeze-drying the gel, performing pulverization for powderization. An emulsifier or ammonium salt may be further added at the time of stirring and mixing.

Disclosed herein are hydrolyzed collagen compositions. The compositions are inexpensive to make and can be produced without the use of proteolytic enzymes, decolorizing agents, antibacterial and antifungal agents, and the like. Further, the compositions are substantially free of odors and are white to light yellow in color and are suitable to be used as dietary supplements. Also disclosed are methods for producing the compositions.

Systems and methods for preparing and dispensing single serving gelatin-based food products in an efficient and cost-effective way. A gelatin-based product making device includes a container receiving portion configured to removably receive one or more disposable dry ingredients containers that store dry ingredients used to make the gelatin-based products. The device is operative to automatically mix the dry ingredients with a liquid, heat the mixture, and rapidly cool the mixture to form a batch of gelatin-based product. The device includes a dispenser operative to dispense single servings of the gelatin-based product into cups that may be provided to consumers.

The present invention relates to solid, at least three-phase active substance preparations, in which two separate phases are embedded multiparticulately into a coherent, active substance-free and antioxidant-free phase, where one of the embedded phases comprises at least one oxidation-sensitive active substance and the second comprises at least one antioxidant. The invention also relates to a method for producing these active substance preparations, and to the use thereof in food supplements, foods, feeds, body care products, and pharmaceuticals.

Disclosed are particles comprising pectin and gelatin. The particles may be useful for preparing any of a variety products such as, for example, soft pharmaceutical capsules, hard pharmaceutical capsules, and foodstuffs. Also disclosed are methods for preparing the particles, the method comprising: (a) dissolving pectin in an aqueous solution to produce an aqueous solution of dissolved pectin; (b) mixing the aqueous solution of dissolved pectin with liquid gelatin to produce a gelatin/pectin mixture; (c) drying the gelatin/pectin mixture; and (d) milling the gelatin/pectin mixture to produce the plurality of particles.

Provided is a polypeptide, a production method therefor and a use thereof. The polypeptide includes 63 to 1496 continuous amino acid residues of SEQ ID NO: 9, and includes a sequence represented by (A).sub.m or is composed of the sequence represented by (A).sub.m, wherein each A is an amino acid sequence selected from any one of those represented by SEQ ID NO: 1, SEQ ID NO: 2 and SEQ ID NO: 3, or a modified amino acid sequence or a sequence variant thereof; m is an integer between 1 and 10; and each A is the same or different and two adjacent As are directly connected by peptide bonds or connected by at least one amino acid residue, wherein the polypeptide has a cell adhesion activity, and a method of producing said polypeptide and use of said polypeptide.

The present invention discloses a microwave and conduction combined heating method for improving the gel strength of surimi products, belonging to the technical field of food processing. According to the present invention, surimi is first fully gelatinized by conduction heating, and then heated by microwave heating so that surimi gel can pass through a gel cracking zone quickly. This kind of microwave and conduction combined heating way can not only increase the gel strength of the surimi to achieve the desired elasticity, but also can save a lot of time and improve the production efficiency. Compared with ordinary microwave heating, the microwave and conduction combined heating method of the conduction and microwave heat preservation, i.e. holding the temperature of the surimi products for a period of time by adjusting the microwave power level at a specified temperature range, can effectively improve the gel strength of the surimi and comply with the new trend of applying microwave heating to surimi products.

The present invention belongs to the technical field of condiment preparation, and specifically relates to an astaxanthin-containing condiment and a preparation method therefor. In this method, first a low-speed bead milling method is used to break the cell wall of the yeast, such that astaxanthin is directly emulsified in water, and the concentration of astaxanthin can reach 1043.17 mg/L, avoiding the use of emulsifiers and organic solvents; then a small amount of Angel yeast compound enzyme is added for enzymolysis, with the yield of amino nitrogen as high as 3.51% to 3.65% and the yield of solid matter as high as 47.18% to 49.22%; and finally the gelatinized porous starch solution and gelatin are sequentially added, with the encapsulation rate and drug-loading rate of the obtained astaxanthin-containing microcapsule powder being 75.62% to 88.5% and 1.55-10.42 mg/g, respectively. The microcapsule powder has bright color, and high astaxanthin stability and water solubility. The preparation method has the advantages of short time and mild conditions, which can reduce the industrial application cost of Phaffia rhodozyma.

A method for producing a collagenous material in particle form, comprises: extracting a collagen- and fat-containing animal raw material using an aqueous extraction solution; optionally separating at least one part of the aqueous phase from the extraction residue; separating the extraction residue into a collagenous solid phase, an aqueous phase, and a fat phase; mixing at least one part of the collagenous solid phase with at least one part of the aqueous phase; at least partly drying the mixed phases; and comminuting the dried phases in order to obtain the collagenous material in particle form.

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.