The present disclosure is directed to poly-albumen polymer based edible film for fruit and vegetable preservation and methods for use thereof. This multifunctional bionanocomposite is comprised largely of egg-derived polymers and cellulose nanomaterials as a conformal coating onto fresh produce that slows down food decay by retarding ripening, dehydration, and microbial invasion. The coating is edible, washable, and made from readily available inexpensive or waste materials which makes it a promising economic alternative to commercially available fruit coatings and a solution to combat food wastage that is rampant in the world.

The present disclosure is directed to poly-albumen polymer based edible film for fruit and vegetable preservation and methods for use thereof. This multifunctional bionanocomposite is comprised largely of egg-derived polymers and cellulose nanomaterials as a conformal coating onto fresh produce that slows down food decay by retarding ripening, dehydration, and microbial invasion. The coating is edible, washable, and made from readily available inexpensive or waste materials which makes it a promising economic alternative to commercially available fruit coatings and a solution to combat food wastage that is rampant in the world.

The present inventors disclose new fermentate compositions that display antimicrobial activity against a variety of microorganisms in foods. The fermentate compositions may not only be active at acidic pHs, but also retain antimicrobial activity at elevated pHs including neutral pHs. In addition to new fermentate compositions, the present invention also relates to improved methods for making such fermentate compositions and using unpurified fermentate compositions to effectively preserve food products.

The invention relates to a food biopreservative composition comprising a consortium of lactic acid bacteria comprising at least one homofermentative lactic acid bacteria; at least one heterofermentative lactic acid bacteria and an activating agent. The biopreservative composition inhibits the growth of pathogens such as Salmonella, E. coli, Staphylococcus aureus, Listeria monocytogenes, Aspergillus niger and Aspergillus flavus and can prolong the shelf-life of processed and unprocessed food.

The invention relates to a food biopreservative composition comprising a consortium of lactic acid bacteria comprising at least one homofermentative lactic acid bacteria; at least one heterofermentative lactic acid bacteria and an activating agent. The biopreservative composition inhibits the growth of pathogens such as Salmonella, E. coli, Staphylococcus aureus, Listeria monocytogenes, Aspergillus niger and Aspergillus flavus and can prolong the shelf-life of processed and unprocessed food.

The subject invention provides compositions and methods for preserving food products. Specifically, the subject compositions and methods can be used to prolong the consumable life of food products, as well as to reduce and/or prevent spoilage and/or contamination by microbial agents. Preferably, the compositions comprise a blend of one or more glycolipids and one or more lipopeptides. Even more preferably, the compositions comprise sophorolipids and surfactin, lichenysin or another lipopeptide biosurfactant.

The subject invention provides compositions and methods for preserving food products. Specifically, the subject compositions and methods can be used to prolong the consumable life of food products, as well as to reduce and/or prevent spoilage and/or contamination by microbial agents. Preferably, the compositions comprise a blend of one or more glycolipids and one or more lipopeptides. Even more preferably, the compositions comprise sophorolipids and surfactin, lichenysin or another lipopeptide biosurfactant.

The present invention is in the field of food technology. The present invention provides methods of controlling growth of Listeria by limiting their access to manganese More specifically, the present invention provides a method of inhibiting or delaying growth of Listeria by reducing the manganese concentration in a food product which is preferably a dairy product. The invention also provides manganese scavengers and uses thereof to inhibit or delay Listeria growth.

Disclosed herein is a process for producing a postbiotic extract, which includes providing a first material having a first isoelectric point ranging from pH 1 to pH 6 and a second material having a second isoelectric point ranging from pH 4 to pH 8, admixing the first material and a probiotic microorganism with water having a pH greater than the second isoelectric point, so as to form a mixture, adding the second material into the mixture and then adjusting a pH of the second material-added mixture to between the first and second isoelectric points so that a precipitate is formed, and subjecting the precipitate to a cell wall isolation treatment to obtain the postbiotic extract. Use of the postbiotic extract is also disclosed.

Disclosed herein is a process for producing a postbiotic extract, which includes providing a first material having a first isoelectric point ranging from pH 1 to pH 6 and a second material having a second isoelectric point ranging from pH 4 to pH 8, admixing the first material and a probiotic microorganism with water having a pH greater than the second isoelectric point, so as to form a mixture, adding the second material into the mixture and then adjusting a pH of the second material-added mixture to between the first and second isoelectric points so that a precipitate is formed, and subjecting the precipitate to a cell wall isolation treatment to obtain the postbiotic extract. Use of the postbiotic extract is also disclosed.