The invention provides a method for treating root—or tuber juice, comprising a) a pretreatment of the root—or tuber juice to remove root—or tuber lipids to a level below 28 g/kg dry weight; b) cooling the root—or tuber juice to a temperature of −0.3° C. to −16° C. to form ice crystals; and c) separating the ice crystals from the root—or tuber juice to obtain, as a first root—or tuber juice product, a concentrated root—or tuber juice. In addition, the invention provides methods to obtain protein depleted root—or tuber juice products, as well as products comprising root—or tuber free amino acids, and uses thereof.

The invention provides a method for treating root—or tuber juice, comprising a) a pretreatment of the root—or tuber juice to remove root—or tuber lipids to a level below 28 g/kg dry weight; b) cooling the root—or tuber juice to a temperature of −0.3° C. to −16° C. to form ice crystals; and c) separating the ice crystals from the root—or tuber juice to obtain, as a first root—or tuber juice product, a concentrated root—or tuber juice. In addition, the invention provides methods to obtain protein depleted root—or tuber juice products, as well as products comprising root—or tuber free amino acids, and uses thereof.

The present disclosure relates, according to some embodiments, to methods and systems for processing a high-concentration protein product from a microcrop (e.g., aquatic species, Lemna) and compositions thereof. According to some embodiments, the present disclosure relates to a method of processing a biomass comprising a microcrop (e.g., Lemna), where the method may include: blanching a first portion of the biomass in a blanching solution to form a wet protein concentrate; separating the first wet protein concentrate from a separated solution (e.g., using a screw press, using a vibratory screen); and drying the first wet protein concentrate to form at least one of a first protein concentrate flake and a first protein concentrate granule. In some embodiments at least one of the first protein concentrate flake and the first protein concentrate granule may comprise at least 45% protein and a Protein Digestibility Corrected Amino Acid Score (PDCASS) value of at least 0.88. In some embodiments, the present disclosure relates to protein products and compositions derived from a microcrop (e.g., derived from Lemna).

The present disclosure relates, according to some embodiments, to methods and systems for processing a high-concentration protein product from a microcrop (e.g., aquatic species, Lemna) and compositions thereof. According to some embodiments, the present disclosure relates to a method of processing a biomass comprising a microcrop (e.g., Lemna), where the method may include: blanching a first portion of the biomass in a blanching solution to form a wet protein concentrate; separating the first wet protein concentrate from a separated solution (e.g., using a screw press, using a vibratory screen); and drying the first wet protein concentrate to form at least one of a first protein concentrate flake and a first protein concentrate granule. In some embodiments at least one of the first protein concentrate flake and the first protein concentrate granule may comprise at least 45% protein and a Protein Digestibility Corrected Amino Acid Score (PDCASS) value of at least 0.88. In some embodiments, the present disclosure relates to protein products and compositions derived from a microcrop (e.g., derived from Lemna).

The present invention relates to a method of making a cold cut meat analogue, said method comprising: mixing a combination of two or more plant protein isolates, wheat gluten and optionally other ingredients, wherein the % (w/w) dry weight ratio of the combination of two or more plant protein isolates to wheat gluten ranges from 65:35 to 85:15, and wherein at least one plant protein isolate is derived from pea and/or at least one plant protein isolate is derived from soy; adding water and mixing to form a dough; extruding the dough by wet extrusion; cooling; and optionally cutting. A cold cut meat analogue made by the method of the invention is also provided.

Described herein is a composition including a carrier including a plant-based protein, and an active ingredient including a flavor or a perfume.

Described herein is a composition including a carrier including a plant-based protein, and an active ingredient including a flavor or a perfume.

Legume plant-based proteins, especially pea protein, are used as a primary source for twin-screw extrusion to manufacture an intermediate moisture, texturized protein piece that can be further processed by controlled hydration and coated with a batter, breading, or coating to produce a comestible product. Protein is the predominate ingredient (70-95%) in the extruded piece. In the preferred embodiment, the protein is pea powder and flavor is provided by addition of yeast extract to impart beef, chicken, or pork flavor. Additional components in the form of hydrophilic polymers and alkalai are also added prior to extrusion to insure desired texture and handling properties. The hydrophilic polymers impart functional properties such as water-binding, thereby aiding in foaming, emulsifying, texturizing, and gelation, important to manufacturing an intermediate moisture texturized plant-protein product by extrusion.

Legume plant-based proteins, especially pea protein, are used as a primary source for twin-screw extrusion to manufacture an intermediate moisture, texturized protein piece that can be further processed by controlled hydration and coated with a batter, breading, or coating to produce a comestible product. Protein is the predominate ingredient (70-95%) in the extruded piece. In the preferred embodiment, the protein is pea powder and flavor is provided by addition of yeast extract to impart beef, chicken, or pork flavor. Additional components in the form of hydrophilic polymers and alkalai are also added prior to extrusion to insure desired texture and handling properties. The hydrophilic polymers impart functional properties such as water-binding, thereby aiding in foaming, emulsifying, texturizing, and gelation, important to manufacturing an intermediate moisture texturized plant-protein product by extrusion.

The present disclosure provides compositions for preparation of egg-like products.