Embodiments disclosed herein provide methods for reducing microbiological contamination during the cheese making process. Inhibition of microbial outgrowth is achieved by introducing an inhibitor at low concentration during the cheese making process. The inhibitor composition inhibits microbial outgrowth of pathogenic microbes associated with the cheese making process and controls and/or eliminates spoilage microorganisms to prolong shelf-life and maintain quality of the final cheese product. The inhibitor composition may be added to the milk prior to curd formation, after curd formation but prior to setting, or both. The inhibitor composition may be used with both pasteurized and un-pasteurized cheeses.

Described is a method to inhibit browning in aged cheeses and the resulting aged cheese. The method includes the step of adding to a fresh cheese during its manufacture an amount of a reducing agent, wherein the amount of added reducing agent is effective to inhibit methylglyoxal-mediated browning of the cheese as it ages.

Described is a method to inhibit browning in aged cheeses and the resulting aged cheese. The method includes the step of adding to a fresh cheese during its manufacture an amount of a reducing agent, wherein the amount of added reducing agent is effective to inhibit methylglyoxal-mediated browning of the cheese as it ages.

An assembly is provided for turning a food product into slices of food product. The assembly includes a microbial treatment assembly configured to move the food product along a path, and a microbial intervention apparatus configured to substantially reduce an amount of microbes on an exterior surface of the food product while the food product is traveling along the path, a slicing machine downstream of the microbial treatment assembly, the slicing machine being configured to slice the food product into slices, an enclosure in which the slicing machine is positioned, the enclosure being sealed from outside atmosphere, and a microbial treatment apparatus in communication with the enclosure and configured to deter the growth of microbes on the food product.

The invention consists of novel compositions of food-grade coatings comprising mixtures containing propylene glycol as at least one active ingredient and containing at least one inert food-grade acceptable carrier for controlling food pests and pest infestations and reproduction on and/or in food. The invention further provides novel food containers and methods of applying coating compositions, including those of the invention, to foods and to food containers used to store, age, and/or cure the foods.

The invention consists of novel compositions of food-grade coatings comprising mixtures containing propylene glycol as at least one active ingredient and containing at least one inert food-grade acceptable carrier for controlling food pests and pest infestations and reproduction on and/or in food. The invention further provides novel food containers and methods of applying coating compositions, including those of the invention, to foods and to food containers used to store, age, and/or cure the foods.

A food with an extended shelf-life and a method of extending shelf-life of food is provided herein. The extended shelf-life is provided by treating the food with at least one shelf-life extender selected from a group consisting of an isothiocyanate, a non-aromatic cyclic ketone, a boronic acid, a ligand and their precursors.

The present invention relates to novel strains of Lactobacillus as well as preparations and compositions, such as fermentation broths, protective cultures, final food or feed product with Lactobacillus alone or in combination with bacteria of the genus Propionibacterium. The present invention further relates to methods for the controlling of growth of a contaminant, such as a bacteria, yeast or mould by using these novel strains of Lactobacillus.

The present invention relates to novel strains of Lactobacillus as well as preparations and compositions, such as fermentation broths, protective cultures, final food or feed product with Lactobacillus alone or in combination with bacteria of the genus Propionibacterium. The present invention further relates to methods for the controlling of growth of a contaminant, such as a bacteria, yeast or mould by using these novel strains of Lactobacillus.

Disclosed herein is a method for producing a package of cheese shreds. Cheese shreds and anticaking agent are mixed at a load between 2 wt. % and 10 wt. % in relation to the cheese shreds to form anticake-coated cheese shreds. The anticaking agent comprises 15-30 wt. % reducing sugar; 0.2-0.8 wt. % glucose oxidase; and 0.5-2 wt. % salt chosen from sodium chloride, calcium chloride, and magnesium chloride. The anticake-coated cheese shreds are then sealed into a package without modifying the atmosphere in the package or using an inert gas flush.