Method of manufacturing food products from a material comprising liquid spent brewers yeast is provided herein. A method for processing liquid spent brewers' yeast as the primary ingredient and at least one secondary protein ingredient into food products suitable for safe human consumption comprises subjecting a mix of primary and secondary ingredients to heat treatment at elevated pressure. The resulting product has a meaty flavor and texture, and a reduced RNA content. The process uses ingredients in their native liquid form, skipping drying and isolation, which reduces waste and is cost-effective.

The disclosure discloses a genetically engineered strain for producing porcine myoglobin and fermentation and purification thereof, and belongs to the technical field of genetic engineering. The disclosure realizes efficient secretion and expression of porcine myoglobin by integrating the gene of porcine myoglobin in P. pastoris. On this basis, optimization of the medium and culture conditions of recombinant P. pastoris can significantly increase the titer of porcine myoglobin, so that the titer can reach 285.42 mg/L under fermenter conditions. In addition, by creatively adding different concentrations of ammonium sulfate to fermentation broth step by step, the purity of myoglobin obtained by final concentration is up to 88.0%, and the purification rate is up to 66.1%. The disclosure realizes efficient expression and high purification of porcine myoglobin from various steps such as synthesis, fermentation and purification of porcine myoglobin, and provides broad prospects for industrial production of porcine myoglobin.

The disclosure discloses a genetically engineered strain for producing porcine myoglobin and fermentation and purification thereof, and belongs to the technical field of genetic engineering. The disclosure realizes efficient secretion and expression of porcine myoglobin by integrating the gene of porcine myoglobin in P. pastoris. On this basis, optimization of the medium and culture conditions of recombinant P. pastoris can significantly increase the titer of porcine myoglobin, so that the titer can reach 285.42 mg/L under fermenter conditions. In addition, by creatively adding different concentrations of ammonium sulfate to fermentation broth step by step, the purity of myoglobin obtained by final concentration is up to 88.0%, and the purification rate is up to 66.1%. The disclosure realizes efficient expression and high purification of porcine myoglobin from various steps such as synthesis, fermentation and purification of porcine myoglobin, and provides broad prospects for industrial production of porcine myoglobin.

Provided herein are recombinant animal-free food compositions comprising egg-white proteins such as ovalbumin, ovotransferrin and lysozyme and methods of making such food compositions.

Provided herein are recombinant animal-free food compositions comprising egg-white proteins such as ovalbumin, ovotransferrin and lysozyme and methods of making such food compositions.

This disclosure describes methods for purifying protein, and more particularly to methods for purifying protein that minimize the development of undesirable odors and flavors in the purified protein and increase protein yield.

This disclosure describes methods for purifying protein, and more particularly to methods for purifying protein that minimize the development of undesirable odors and flavors in the purified protein and increase protein yield.

The present invention relates to a method for preparing a yeast protein concentrate, said method comprising the lysis of yeast cells in a suspension that was adjusted to a particular pH prior to lysis, subsequently subjecting the soluble fraction obtained from lysis to filtration to reduce the content of molecules smaller than 30 kDa, and optionally drying the solution obtained from filtration. The present invention further relates to a yeast protein concentrate obtainable by the method of the invention. The yeast protein concentrate comprises a high amount of proteins which are still folded and are therefore capable of aggregation to form a solid protein matrix upon heating. In addition, the yeast protein concentrate of the invention will be of unobtrusive taste and is therefore particularly suited for use in the preparation of food items, such as meat substitute products.

The present invention relates to a method for preparing a yeast protein concentrate, said method comprising the lysis of yeast cells in a suspension that was adjusted to a particular pH prior to lysis, subsequently subjecting the soluble fraction obtained from lysis to filtration to reduce the content of molecules smaller than 30 kDa, and optionally drying the solution obtained from filtration. The present invention further relates to a yeast protein concentrate obtainable by the method of the invention. The yeast protein concentrate comprises a high amount of proteins which are still folded and are therefore capable of aggregation to form a solid protein matrix upon heating. In addition, the yeast protein concentrate of the invention will be of unobtrusive taste and is therefore particularly suited for use in the preparation of food items, such as meat substitute products.

The present invention relates to a method for preparing a microbial cell product, said method comprising: providing an aqueous suspension comprising microbial cells; subjecting said suspension to mechanical cell disintegration at a temperature in the range of 15-35° C., preferably at a pH value in the range of 9-11, to obtain an aqueous suspension comprising disintegrated microbial cells; separating the suspension to provide an extract enriched in small cell fragments, and an extract enriched in large cell fragments; and combining at least a portion of each extract, to provide said microbial cell product. The invention further relates to a microbial cell product obtained or obtainable with said method. The invention further relates to the use of said product in foodstuffs, for example as a substitute for egg-white; in animal foodstuffs; and/or in cosmetic formulations.