The present invention describes a bio-based process to produce high quality protein concentrate (HQPC) by converting plant derived celluloses into bioavailable protein via aerobic incubation, including the use of such HQPC so produced as a nutrient, including use as a fish meal replacement in aquaculture diets.

The purpose of the present invention is to provide a processing technology for increasing the free glutamic acid content of a protein hydrolysate. A processed plant protein-containing composition that is obtained by a method for producing a processed plant-containing composition which includes a step for treating a plant protein-containing composition with a proteolytic enzyme and a protein glutaminase has an increased free glutamic acid content.

The present invention relates to a process for processing whole oilseed. In particular, the present invention relates to a process for isolating a protein rich fraction from whole oilseed using acidic pH. The present invention also relates to uses of such protein rich fractions.

A process for producing a protein isolate from an oilseed meal, and the isolate thus obtained, said isolate comprising proteins and an amount of 4 wt % or less of phytic acid, said amount of phytic acid being by weight of proteins in said isolate. The process may comprise the following steps: a) providing an oilseed meal; b) mixing the oilseed meal with a first aqueous solvent to form a slurry at a pH ranging from 6 to 7.8, said slurry having a solid phase; c) separating said solid phase from said slurry, d) mixing said separated solid phase with a second aqueous solvent at a pH ranging from 1 to 3.5, preferably from 2 to 3, to form a mixture said mixture having a liquid phase; e) separating said liquid phase from said mixture formed in step d); f) f1) mixing the separated liquid phase to a phytase at a temperature and a pH suitable for phytase activity to obtain a mixture having a liquid phase and a solid phase; and/or f2) mixing the separated liquid to a salt, to obtain a resulting liquid composition having a molar concentration of said salt ranging from 0.05 M to 0.5 M, at a temperature ranging from 40 C. to 70 C., to obtain a mixture having a liquid phase and a solid phase; g) precipitating a solid phase from the liquid of step f) for example by a cooling down step of the mixture to a temperature of 30 C. or less; h) separating said solid precipitate from the liquid of step g) said liquid comprising a water-rich liquid phase and an oil-rich liquid phase; i) separating said water-rich liquid phase from said oil-rich liquid phase, j) subjecting said water-rich liquid phase obtained in step i) to one or several membrane filtration(s) to obtain a protein isolate; and k) optionally, drying said protein isolate to obtain a dry protein isolate.

The present invention relates to leguminous protein isolates, particularly pea protein isolates having a low lipid content, as well as to the method for the preparation thereof. In one embodiment, provided is a leguminous plant protein isolate from pea and faba bean wherein said isolate does not contain organic solvent.

Provided herein are methods for producing a mung bean protein isolate having high functionality for a broad range of food applications. In some embodiments, the methods for producing the isolate comprise one or more steps selected from: (a) extracting one or more mung bean proteins from a mung bean protein source in an aqueous solution, for example, at a pH between about 6.5-10.0; (b) purifying protein from the extract using at least one of two methods: (i) precipitating protein from the extract at a pH near the isoelectric point of a globulin-rich fraction, for example a pH between about 5.0-6.0; and/or (ii) fractionating and concentrating protein from the extract using filtration such as microfiltration, ultrafiltration or ion-exchange chromatography; and (c) recovering purified protein isolate.

A method of intentionally pollinating a Poaceae crop by monitoring one or more environmental parameters and intentionally pollinating said crop at a time based upon the monitored parameters. The correct selection of parameters has been shown to markedly increase seed set, yield, and/or other desirable characteristics, including but not limited to preferred content of oil, starch, protein, and/or other nutritional components. Parameters may include one or more of: temperature, relative humidity, and vapor pressure deficit.

Methods including (1) a step of obtaining a water dispersion of a pea ground product by dry pulverizing the pea and mixing same with water, or wet pulverizing the pea in water, (2) a step of obtaining an enzymatic reaction mixture by adding transglutaminase to a solution obtained by removing solid substances from the water dispersion obtained in step (1) or the water dispersion obtained in step (1), and (3) a step of adding an acid to the enzymatic reaction mixture obtained in step (2) and collecting the precipitate, are useful for preparing a modified pea protein having increased viscosity.

Methods including performing (I) a step of adding an acid to a water dispersion of a pea ground product and collecting the precipitate, and (II) a step of conducting an enzyme reaction by adding protein deamidase, in this order or reverse order, are useful for improving the solubility of a modified pea protein.

The invention relates to a water-soluble fermented pea extract. The invention also relates to a process for the preparation thereof and to the use thereof in the human and animal nutrition industry as well as in the pharmaceutical, nutraceutical and cosmetics industries.