The method of the invention comprises the production of highly digestible hydrolysed keratinaceous material comprising the steps of (i) partly hydrolysing keratinaceous material with heat and pressure and (ii) optionally drying the resultant partly hydrolysed material comprising at least partly insoluble material and (iii) subjecting the optionally dried partly hydrolysed keratinaceous material to a chemical hydrolysis step with acid or base to obtain a highly digestible hydrolysed material, and (iv) purifying the highly digestible material. The invention further provides highly digestible keratinaceous material with an amino acid composition reflecting the amino acid composition of the raw material, wherein the amount of de-carboxylated amino acids is less than 500 ppm. Preferably all of the highly digestible material has a molecular weight lower than 10000 dalton, and preferably more than 95 wt % of the highly digestible keratinaceous material has a molecular weight of less than 5000 dalton.

The method of the invention comprises the production of highly digestible hydrolysed keratinaceous material comprising the steps of (i) partly hydrolysing keratinaceous material with heat and pressure and (ii) optionally drying the resultant partly hydrolysed material comprising at least partly insoluble material and (iii) subjecting the optionally dried partly hydrolysed keratinaceous material to a chemical hydrolysis step with acid or base to obtain a highly digestible hydrolysed material, and (iv) purifying the highly digestible material. The invention further provides highly digestible keratinaceous material with an amino acid composition reflecting the amino acid composition of the raw material, wherein the amount of de-carboxylated amino acids is less than 500 ppm. Preferably all of the highly digestible material has a molecular weight lower than 10000 dalton, and preferably more than 95 wt % of the highly digestible keratinaceous material has a molecular weight of less than 5000 dalton.

A hybrid vegetable protein is described, comprising a guest protein having the structure of prolamine and glutelin, and a host protein having the structure of globulin and albumin, obtained from vegetable grains, such as corn and soybean, respectively. Likewise, a method for obtaining said hybrid vegetable protein is described, which comprises the steps of extracting the guest and host proteins, carrying out an acidification thereof, and further applying a magnetic field to provoke their attachment, and finally adding an alkali to the attached proteins to obtain a hybrid vegetable protein at its isoelectric point. The protein thus produced has a value higher than 0.97 according to the PDCAAS rating.

A hybrid vegetable protein is described, comprising a guest protein having the structure of prolamine and glutelin, and a host protein having the structure of globulin and albumin, obtained from vegetable grains, such as corn and soybean, respectively. Likewise, a method for obtaining said hybrid vegetable protein is described, which comprises the steps of extracting the guest and host proteins, carrying out an acidification thereof, and further applying a magnetic field to provoke their attachment, and finally adding an alkali to the attached proteins to obtain a hybrid vegetable protein at its isoelectric point. The protein thus produced has a value higher than 0.97 according to the PDCAAS rating.

Structured food compositions, such as meat analogue compositions, which include protein products from microorganisms, such as microorganism-derived protein hydrolysates, are described. Methods of making such products are also described.

The method of the invention comprises the production of highly digestible hydrolysed keratinaceous material comprising the steps of (i) partly hydrolysing keratinaceous material with heat and pressure and (ii) optionally drying the resultant partly hydrolysed material comprising at least partly insoluble material and (iii) subjecting the optionally dried partly hydrolysed keratinaceous material to a chemical hydrolysis step with acid or base to obtain a highly digestible hydrolysed material, and (iv) purifying the highly digestible material. The invention further provides highly digestible keratinaceous material with an amino acid composition reflecting the amino acid composition of the raw material, wherein the amount of de-carboxylated amino acids is less than 500 ppm. Preferably all of the highly digestible material has a molecular weight lower than 10000 dalton, and preferably more than 95 wt % of the highly digestible keratinaceous material has a molecular weight of less than 5000 dalton.

The method of the invention comprises the production of highly digestible hydrolysed keratinaceous material comprising the steps of (i) partly hydrolysing keratinaceous material with heat and pressure and (ii) optionally drying the resultant partly hydrolysed material comprising at least partly insoluble material and (iii) subjecting the optionally dried partly hydrolysed keratinaceous material to a chemical hydrolysis step with acid or base to obtain a highly digestible hydrolysed material, and (iv) purifying the highly digestible material. The invention further provides highly digestible keratinaceous material with an amino acid composition reflecting the amino acid composition of the raw material, wherein the amount of de-carboxylated amino acids is less than 500 ppm. Preferably all of the highly digestible material has a molecular weight lower than 10000 dalton, and preferably more than 95 wt % of the highly digestible keratinaceous material has a molecular weight of less than 5000 dalton.

A hydrolysis method for obtaining a hydrolysed dry food product in powder form by adding an acid solution to a material having a vegetable or animal origin for obtaining an acidified paste having a pH of less than 2.0; leaving the acidified paste to rest for the hydrolysis to take place; adding to the acidified paste obtained in the previous step a ground flour having a vegetable or animal origin having a granulometry such that, at least, 50% thereof has a size of less than 1 mm; adding an adsorbent excipient to the mix of acidified paste and ground vegetable/animal flour obtained in the previous step; and leaving the mix of acidified paste, ground vegetal/animal flour and adsorbent excipient to rest until the hydrolyzed dry food product in powder form is obtained.

A composition for enhancing protein digestion is disclosed, which includes at least one acid component, at least one base component and a protein digestion enhancer, wherein the at least one acid component is one selected from a group consisting of an organic acid, a phosphoric acid and a combination thereof, the at least one base component is one selected from a group consisting of an organic base, a phosphate and a combination thereof, the at least one acid component and the at least one base component conjugate with each other to form a buffer formulation, and the protein digestion enhancer is one selected from a group consisting of an ascorbic acid, a salt of the ascorbic acid and a combination thereof.

Provided herein are food products made in vitro from avian fibroblast cells and methods for harvesting the avian fibroblast cells. Particularly, an in vitro produced chicken product is produced. Also provided herein are methods of their production.