The invention relates to compositions comprising glycolipids and benzoic acid and/or sorbic acid.

A clove essential oil Pickering emulsion-based coating preservative, and a preparation method and use thereof. Preparing a 20 mg/ml zein solution with ethanol and a zein powder, preparing a 0.4 mg/ml to 6 mg/ml sodium caseinate solution with ultrapure water and sodium caseinate, and conducting magnetic stirring overnight; adding the zein solution dropwise into the sodium caseinate solution, and conducting magnetic stirring; conducting evaporation on the ethanol in the zein solution, and replacing evaporated ethanol with the ultrapure water; adding a clove essential oil, and conducting high-speed homogenization for 3 min to obtain a clove essential oil Pickering emulsion; and preparing a 1.5% w/v to 2% w/v chitosan solution with 1% v/v acetic acid and chitosan, adding the clove essential oil Pickering emulsion to the chitosan solution, conducting high-speed homogenization for 3 min, and conducting ultrasonic defoaming for 30 min to obtain the clove essential oil Pickering emulsion-based coating preservative.

A clove essential oil Pickering emulsion-based coating preservative, and a preparation method and use thereof. Preparing a 20 mg/ml zein solution with ethanol and a zein powder, preparing a 0.4 mg/ml to 6 mg/ml sodium caseinate solution with ultrapure water and sodium caseinate, and conducting magnetic stirring overnight; adding the zein solution dropwise into the sodium caseinate solution, and conducting magnetic stirring; conducting evaporation on the ethanol in the zein solution, and replacing evaporated ethanol with the ultrapure water; adding a clove essential oil, and conducting high-speed homogenization for 3 min to obtain a clove essential oil Pickering emulsion; and preparing a 1.5% w/v to 2% w/v chitosan solution with 1% v/v acetic acid and chitosan, adding the clove essential oil Pickering emulsion to the chitosan solution, conducting high-speed homogenization for 3 min, and conducting ultrasonic defoaming for 30 min to obtain the clove essential oil Pickering emulsion-based coating preservative.

The invention relates to inactivating mold spores in a beverage using pasteurization in the presence of natamycin and to a beverage comprising natamycin and mycosamine.

Presented are compositions that can be used as antimicrobial coatings or protective coatings for agricultural (e.g., food) products. The compositions can comprise one or more saturated glycerides selected from monoglycerides and diglycerides; one or more surfactants; and one or more food-safe antimicrobials. The antimicrobial coatings or protective coatings can be used to prevent or delay food spoilage due to, for instance, infection by a foreign pathogen, moisture loss, or oxidation.

Presented are compositions that can be used as antimicrobial coatings or protective coatings for agricultural (e.g., food) products. The compositions can comprise one or more saturated glycerides selected from monoglycerides and diglycerides; one or more surfactants; and one or more food-safe antimicrobials. The antimicrobial coatings or protective coatings can be used to prevent or delay food spoilage due to, for instance, infection by a foreign pathogen, moisture loss, or oxidation.

The present invention relates to a compound of formula (I) or a pharmaceutically acceptable salt, stereoisomer or solvate thereof for use in the prevention and/or treatment of a pathology associated with proinflammatory conditions, a disease associated with oxidative stress or production of reactive oxygen species or a skin pigmentation disorder. In addition, the invention also relates to a cosmetic method for preventing and/or treating skin aging, irradiated skin or for skin-whitening comprising administering a compound of formula (I) or a cosmetically acceptable salt, stereoisomer or solvate thereof. In addition, the invention relates to a method of inhibition of enzymatic browning in food or beverage comprising contacting said food or beverage with a compound of formula (I) or a salt, stereoisomer or solvate thereof under conditions sufficient to inhibit enzymatic browning of said food or beverage.

Disclosed are methods and systems for inhibiting melanosis. The methods comprise the step of placing a melanosis-susceptible object, such as a crustacean or a vegetable, into a closable container or enclosure and exposing the object to aldehyde. In another aspect, disclosed are anti-melanosic articles and polymer compositions that incorporate tea (preferably green tea), matcha or epigallocatechin gallate (EGCG) that function as anti-melanosic agents by releasing aldehyde.

Disclosed are methods and systems for inhibiting melanosis. The methods comprise the step of placing a melanosis-susceptible object, such as a crustacean or a vegetable, into a closable container or enclosure and exposing the object to aldehyde. In another aspect, disclosed are anti-melanosic articles and polymer compositions that incorporate tea (preferably green tea), matcha or epigallocatechin gallate (EGCG) that function as anti-melanosic agents by releasing aldehyde.

A solid composition for the preservation of food includes a source of potassium cations selected from at least one of potassium carbonate and potassium hydrogen carbonate; and at least one of a source of ascorbate ions and a source of isoascorbate ions, wherein the source of ascorbate ions is selected from at least one of ascorbic acid, a salt of ascorbic acid and acerola or from any other suitable ascorbic acid rich source, wherein the source of isoascorbate is selected from at least one of isoascorbic acid and a salt of isoascorbic acid, and wherein a molar ratio of potassium cations to ascorbate anions and/or potassium cations to isoascorbate anions in the solid composition is within the range from 1.00:0.95 to 1.00:0.50, preferably 1.00: ≤0.78 to 1.00:0.50.