This disclosure provides novel silk fibroin protein based additives for foods or beverage products, and foodstuffs mixed or coated with pure silk fibroin-based proteins or protein fragments, and methods of making thereof.

This disclosure provides novel silk fibroin protein based additives for foods or beverage products, and foodstuffs mixed or coated with pure silk fibroin-based proteins or protein fragments, and methods of making thereof.

The invention related to a processed edible product comprising a complex of at least one antimicrobial compound and a polyelectrolyte complex of a polyanion and a polycation. The invention further relates to a method for producing a processed edible product comprising a complex of at least one antimicrobial compound and a polyelectrolyte complex of a polyanion and a polycation, to a method for preventing spoilage of a processed edible product, and to a method of preventing, reducing and/or eliminating the presence of fungi, bacteria and/or viruses on a processed edible product. The invention additionally relates to a use of a complex of a antimicrobial compound and a polyelectrolyte complex of a polyanion and a polycation for preventing, reducing and/or eliminating the presence of fungi, bacteria and/or viruses on a processed edible product.

The invention related to a processed edible product comprising a complex of at least one antimicrobial compound and a polyelectrolyte complex of a polyanion and a polycation. The invention further relates to a method for producing a processed edible product comprising a complex of at least one antimicrobial compound and a polyelectrolyte complex of a polyanion and a polycation, to a method for preventing spoilage of a processed edible product, and to a method of preventing, reducing and/or eliminating the presence of fungi, bacteria and/or viruses on a processed edible product. The invention additionally relates to a use of a complex of a antimicrobial compound and a polyelectrolyte complex of a polyanion and a polycation for preventing, reducing and/or eliminating the presence of fungi, bacteria and/or viruses on a processed edible product.

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.

The present invention relates to a process for obtaining a biomass composition of a bacterium strain with bactericidal activity which inhibits or kills various pathogenic bacteria.

The invention relates to a process to produce a fresh cheese said process comprising the step of adding natamycin, characterized in that at least part of the natamycin is added to milk before curd formation. Adding natamycin before curd formation results in a cheese wherein the natamycin is distributed throughout the cheese, without substantial loss of natamycin.

The invention relates to a process to produce a fresh cheese said process comprising the step of adding natamycin, characterized in that at least part of the natamycin is added to milk before curd formation. Adding natamycin before curd formation results in a cheese wherein the natamycin is distributed throughout the cheese, without substantial loss of natamycin.

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.