A method of preparing a complete protein by the addition of essential amino acids to an incomplete protein can include calculating an amount of each essential amino acid to be added to an incomplete protein and adding the calculated amount of each essential amino acid to the incomplete protein. The calculations can be done using a particular equation, described herein.

A method of preparing a complete protein by the addition of essential amino acids to an incomplete protein can include calculating an amount of each essential amino acid to be added to an incomplete protein and adding the calculated amount of each essential amino acid to the incomplete protein. The calculations can be done using a particular equation, described herein.

Provided are food products comprising milk proteins and non-animal proteins, and methods of manufacturing the same.

Provided are food products comprising milk proteins and non-animal proteins, and methods of manufacturing the same.

The present invention relates to a process for treating protein-rich seeds, these seeds being selected from at least one of the following seeds: fava beans, peas, white lupin, blue lupin, yellow lupin. characterized in that it comprises in particular the following successive steps: a) use of seeds of at least one of the abovementioned plant species, provided that these seeds have a protein content, and/or a starch content, and/or a fat content, of a value greater than or equal to a predetermined value, and, at least one of the compounds from the following group: antinutritional factor (ANF), crude cellulose, neutral detergent fiber (NDF), in a content below a predetermined level; b) pressurizing the seeds from step a) for more than 10 seconds at a minimum pressure of 10 bars until a temperature of more than 80° C. is reached.

The present invention relates to a process for treating protein-rich seeds, these seeds being selected from at least one of the following seeds: fava beans, peas, white lupin, blue lupin, yellow lupin. characterized in that it comprises in particular the following successive steps: a) use of seeds of at least one of the abovementioned plant species, provided that these seeds have a protein content, and/or a starch content, and/or a fat content, of a value greater than or equal to a predetermined value, and, at least one of the compounds from the following group: antinutritional factor (ANF), crude cellulose, neutral detergent fiber (NDF), in a content below a predetermined level; b) pressurizing the seeds from step a) for more than 10 seconds at a minimum pressure of 10 bars until a temperature of more than 80° C. is reached.

The invention relates to a method of producing a plant-based oil-in-water emulsion comprising the steps of providing an ingredient composition which is free from dairy protein, said composition comprising 1.5 to 5 wt. %, preferably 2 to 5 wt. % proteins, wherein the protein consist of plant protein only, 0.5 to 10.5 wt %, preferably 1.5 to 7.5 wt % of oil, and having a pH of 5.3-6.7, preferably 5.6-6.6, optionally adding divalent cations to provide a concentration of 1-5 mM free divalent cations in the ingredient composition, optionally adding monovalent cations to provide a concentration of 1-20 mM free monovalent cations in the ingredient composition and homogenizing and subsequently heat treating the ingredient composition to a temperature of 80°-100° C. for a period of 0.5-15 min or an ultra high temperature (UHT) heat treatment above 135° C. for 3 to 30 s to form agglomerated proteins comprising plant proteins and oil, and shearing the composition during or after the heat treatment to reduce the size of the agglomerated proteins, the agglomerates having a size of 5 to 50 microns as measured by D(4,3) mean diameter as measured by laser diffraction after the shearing. The invention also relates to a plant-based oil-in-water emulsion obtained by the method, and a use of the plant-based oil-in-water emulsion for the use in food and beverage products.

The invention relates to a method of producing a plant-based oil-in-water emulsion comprising the steps of providing an ingredient composition which is free from dairy protein, said composition comprising 1.5 to 5 wt. %, preferably 2 to 5 wt. % proteins, wherein the protein consist of plant protein only, 0.5 to 10.5 wt %, preferably 1.5 to 7.5 wt % of oil, and having a pH of 5.3-6.7, preferably 5.6-6.6, optionally adding divalent cations to provide a concentration of 1-5 mM free divalent cations in the ingredient composition, optionally adding monovalent cations to provide a concentration of 1-20 mM free monovalent cations in the ingredient composition and homogenizing and subsequently heat treating the ingredient composition to a temperature of 80°-100° C. for a period of 0.5-15 min or an ultra high temperature (UHT) heat treatment above 135° C. for 3 to 30 s to form agglomerated proteins comprising plant proteins and oil, and shearing the composition during or after the heat treatment to reduce the size of the agglomerated proteins, the agglomerates having a size of 5 to 50 microns as measured by D(4,3) mean diameter as measured by laser diffraction after the shearing. The invention also relates to a plant-based oil-in-water emulsion obtained by the method, and a use of the plant-based oil-in-water emulsion for the use in food and beverage products.

A method of producing a denatured pea protein solution comprises the steps of mixing pea protein with an alkali solvent to provide a 1-10% pea protein solution (w/v) having a pH of at least 10, resting the pea protein solution for at least 15 minutes, heating the pea protein solution under conditions sufficient to heat-denature the pea protein without causing gelation of the pea protein solution, and rapidly cooling the denatured pea protein solution to prevent gelation, wherein at least 90% of the pea protein in the denatured pea protein solution is soluble. Also described is a method of producing microparticles having a denatured pea protein matrix, the method comprising the steps of providing a denatured pea protein solution according to the invention, treating the denatured pea protein solution to form microdroplets; and cross-linking and chelating the droplets to form microparticles.

A method of producing a denatured pea protein solution comprises the steps of mixing pea protein with an alkali solvent to provide a 1-10% pea protein solution (w/v) having a pH of at least 10, resting the pea protein solution for at least 15 minutes, heating the pea protein solution under conditions sufficient to heat-denature the pea protein without causing gelation of the pea protein solution, and rapidly cooling the denatured pea protein solution to prevent gelation, wherein at least 90% of the pea protein in the denatured pea protein solution is soluble. Also described is a method of producing microparticles having a denatured pea protein matrix, the method comprising the steps of providing a denatured pea protein solution according to the invention, treating the denatured pea protein solution to form microdroplets; and cross-linking and chelating the droplets to form microparticles.