A peanut food product with reduced levels of allergenic proteins such as Ala h1/h2/h3 is produced by initiating the germination process in raw peanuts, holding the peanuts in moist conditions to initiate germination, and then treating with bromelain.

The present application relates generally to the treatment of peanuts, red skin peanuts and/or peanut skins with an enzyme, in particular an endopeptidase enzyme such as a subtilisin, for example, alcalase, optionally in combination with an enzyme having exopeptidase activity, or in combination with ultrasonic treatment. The peanuts, red skin peanuts and/or peanut skins being treated can be raw, wet or dry blanched, roasted, or blanched and roasted.

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.

The present invention relates to a plant-based composition comprising a mixture comprising: i) a plant base comprising at least 5% w/w of plant protein and at least 1% w/w of fat: ii) at least one endoprotease; and iii) at least one exoprotease.

A peanut food product with reduced levels of allergenic proteins such as Ala h1/h2/h3 is produced by initiating the germination process in raw peanuts, holding the peanuts in moist conditions to initiate germination and then treating with bromelain.

Methods and materials for processing plant substrates are provided herein, as are compositions containing the processed plant substrates and particularly, methods and materials for processing legumes to produce coffee-like products (e.g., solid soluble instant granules, beverage powders, and liquid extracts and concentrates) that are made without coffee beans, and compositions containing the processed legumes.

A method of preparing a liquid crop-based composition for use as a food includes the steps of: i) rinsing a crop having at least one antinutritive compound with an aqueous liquid for a first time period, wherein the aqueous liquid has a temperature of 50 C.-90 C.; ii) disintegrating the rinsed crop, and mixing it with an aqueous liquid to obtain a liquid crop-based composition; iii) subjecting the liquid crop-based composition to an amylase so as to at least partially degrade starch in the liquid crop-based composition; and iv) subjecting the liquid crop-based composition to a betaglucosidase under first dosage, time and temperature conditions so as to reduce the content of the at least one antinutritive compound.

A process for using bacterial or fungal metalloprotease and trypsin to solve problems associated with conventional protease extraction techniques by dramatically reducing temperature, incubation time and proteolysis during protease extraction. The present disclosure relates to a protease treatment for increasing yield from plant or other material by extracting nutrients from the fibrous waste portion of milled plant material while preserving the nutritional and functional qualities of the extracted material for use as a food product. The process preserves the quality of the extracted material, including beta glucan and protein, by utilizing low temperatures and minimal protease activity and digestion time during extraction.

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.

A process for using bacterial or fungal metalloprotease and trypsin to solve problems associated with conventional protease extraction techniques by dramatically reducing temperature, incubation time and proteolysis during protease extraction. The present disclosure relates to a protease treatment for increasing yield from plant or other material by extracting nutrients from the fibrous waste portion of milled plant material while preserving the nutritional and functional qualities of the extracted material for use as a food product. The process preserves the quality of the extracted material, including beta glucan and protein, by utilizing low temperatures and minimal protease activity and digestion time during extraction.