A plant protein-based whole-cut fried chicken nugget is prepared from raw materials including peanut protein, wheat protein, seasonings, water-retaining agent, and coating flour in proportions measured in parts by weight. The preparation method of the plant protein-based whole-cut fried chicken nugget includes mixing the raw materials uniformly according to the proportions, subjecting to high-moisture extrusion treatment, boiling the resulted extrudate with water for an appropriate period, then coating with flour, placing in a frying pan at an appropriate temperature, and frying for an appropriate period. The plant protein-based whole-cut fried chicken nugget has a golden surface, a strong aroma, a crispy outside and tender inside, good elasticity and chewiness, no beany taste, high protein content, and rich nutrition.

The present disclosure provides a process for producing “cookable”, fibrous meat analogues employing directional freezing. The process includes subjecting an ingestible polysaccharide containing hydrogel of selected size and shape to directional freezing for inducing formation of elongated ice crystals with said elongated ice crystals aligned in a given direction in the ingestible hydrogel to form a textured hydrogel containing ice crystals. Following this the textured hydrogel is immersed in a solution containing an ingestible soluble protein at a preselected temperature so that as the ice crystals melt, the ingestible heat gelling protein diffuses into the texture hydrogel replacing the ice crystals. The textured hydrogel is immersed in the solution containing the ingestible heat gelling protein for a selected period of time required to give a desired amount of protein loading. The protein-infiltrated hydrogel is then heat-treated at a temperature sufficient to induce gelling and fiber formation within the hydrogel.

The present invention relates to a food product comprising avian stem cells and at least one food component.

The present invention provides a meat analogue processed food product that is inexpensive and has little pastiness derived from starch, a method for producing the meat analogue processed food product, and an additive for the meat analogue processed food product. The meat analogue processed food product, which contains a plant-protein-containing material and has a meat material content of 30 mass % or less, also contains a fat-processed starch as a raw material. The fat-processed starch content is preferably 0.5-10 mass %. Furthermore, the meat analogue processed food product preferably also contains one or more material selected from animal-sourced protein materials excluding the meat material and plant-sourced protein materials excluding the plant-protein-containing material, in which the animal-sourced protein materials are preferably selected from a milk protein material and an albumen, the plant-sourced protein materials are preferably selected form a pea protein material and a wheat protein material, and ideally the food product contains an albumen.

Provided is a food composition which include a myceliated high-protein food product and methods to make such compositions, which are mixtures of myceliated high-protein food products and other edible materials. A food composition includes dairy alternative products, ready to mix beverages and beverage bases; extruded and extruded/puffed products; sheeted baked goods; meat analogs and extenders; baked goods and baking mixes; granola; and soups/soup bases. Food compositions also include texturized plant protein which can be used for making meat-structured plant protein meat analog or meat extender products. The food compositions have reduced undesirable flavors and reduced undesirable aromas due to use of myceliated high-protein food products as compared to use of similar high-protein material that is not myceliated.

Provided is a food composition which include a myceliated high-protein food product and methods to make such compositions, which are mixtures of myceliated high-protein food products and other edible materials. A food composition includes dairy alternative products, ready to mix beverages and beverage bases; extruded and extruded/puffed products; sheeted baked goods; meat analogs and extenders; baked goods and baking mixes; granola; and soups/soup bases. Food compositions also include texturized plant protein which can be used for making meat-structured plant protein meat analog or meat extender products. The food compositions have reduced undesirable flavors and reduced undesirable aromas due to use of myceliated high-protein food products as compared to use of similar high-protein material that is not myceliated.

The invention relates to a method for obtaining a protein from a plant material, wherein the method comprises the steps of i) mechanically disrupting the plant cells to obtain a plant juice in the presence of a reducing agent, ii) treating the plant juice to cause aggregation of chloroplast membranes, iii) removing the aggregated chloroplast membranes by precipitation and/or microfiltration, iv) subjecting the plant juice to ultrafiltration, and v) subjecting the soluble plant protein concentrate to hydrophobic column adsorption to remove residual chlorophyll, phenolic compounds and off-odors in a single column passage. The present invention also pertains to an apparatus and system for plant protein isolation based on this method. The isolated proteins can be economically obtained in batch scale and in large scale. Further, the invention is directed to a protein obtained by the method of the invention, a food product comprising thereof, and a use thereof.

The invention relates to a method for obtaining a protein from a plant material, wherein the method comprises the steps of i) mechanically disrupting the plant cells to obtain a plant juice in the presence of a reducing agent, ii) treating the plant juice to cause aggregation of chloroplast membranes, iii) removing the aggregated chloroplast membranes by precipitation and/or microfiltration, iv) subjecting the plant juice to ultrafiltration, and v) subjecting the soluble plant protein concentrate to hydrophobic column adsorption to remove residual chlorophyll, phenolic compounds and off-odors in a single column passage. The present invention also pertains to an apparatus and system for plant protein isolation based on this method. The isolated proteins can be economically obtained in batch scale and in large scale. Further, the invention is directed to a protein obtained by the method of the invention, a food product comprising thereof, and a use thereof.

An extended shelf-life proteinaceous meat analogue comprises at least one inclusion included in a matrix which comprises vegetable proteins including at least wheat gluten and a plasticizer. Said proteinaceous meat analogue has a water content of less than 20% (w/w) and a torque value at 10 mn of at least 6 gram meter (g*m), as determined by a test A. A method for obtaining an extended shelf-life proteinaceous meat analogue comprises the step of (i) mixing vegetable proteins, including at least vital wheat gluten, and a plasticizer for obtaining a dough, (ii) shaping said dough by at least cutting the dough in dough pieces and agglomerating said dough pieces with at least one inclusion to obtain an agglomerate, and (iii) heating said agglomerate, wherein said extended shelf-life proteinaceous meat analogue has a water content of less than 20% (w/w). A food stuff comprises said extended shelf-life proteinaceous meat analogue and the method for obtaining said foodstuff.

Provided is a method to prepare a protein food product based on solid state fermentation, which includes the steps of preparing a sterilized substrate comprising a grain such as rice or quinoa and a plant protein concentrate or isolate such as pea protein, inoculating the sterilized substrate with a filamentous fungal culture such as Morchella esculenta culture, and culturing the filamentous fungal culture in the substrate, resulting in a myceliated substrate that has texture more similar to meat and/or improved flavor and aroma when cooked as compared to control substrate (e.g., unmyceliated). Similarity in texture to cooked meat includes increased spring and cohesiveness on chewing, and also where the protein food product, and the improved flavor includes increased savory and umami and decreased bitterness and improved aroma includes decreased pea or beany aroma. Also provided are protein food products made by the methods provided and food compositions, for example, meat analog products, made using the methods and compositions provided.