The invention falls within the field of plant proteins. The invention relates to, in particular, a method for producing a leguminous protein composition, preferably of peas, comprising a dry heat pre-treatment of leguminous seeds at a temperature between 70 and 130° C. for 1 to 6 minutes followed by grinding the seeds into flour, forming a suspension of the flour in an aqueous solution, separating the soluble components from the suspension and extracting proteins from said soluble components, as well as the protein composition that can be obtained by this method.

Provided herein are Pongamia oil compositions suitable for animal consumption, in particular human consumption, as well as methods of producing such compositions. The compositions are edible and non-bitter tasting, and have certain attributes that make such compositions suitable for use as and/or in various food and beverage products. Provided herein are also methods of analyzing Pongamia oil.

The present disclosure is directed to a method for reducing immunoreactivity of a food including (a) incubating a food that contains at least one protein with a cross-linking enzyme to form a food that includes at least one cross-linked protein; and (b) fermenting the food including the at least one cross-linked protein with a microorganism to form a modified food including a hydrolysate of the at least one cross-linked protein, wherein (a) is performed before (b) and wherein a level of immunoreactivity of the modified food is less than a level of immunoreactivity of an unmodified food including at least one protein. Modified foods obtained from the present method are also provided.

Process for the production legume meal having a moisture content between 2% and 15%. The process includes feeding a continuous flow of legume meal into a wet heat treatment reactor together with a continuous flow of water or aqueous solution, which is dispersed into minute droplets; discharge the wet legume meal and feeding it into a thermal dehydration and treatment reactor.

This invention provides a tofu with long shelf life and preparation method thereof, comprising soaking soybean to make soy milk, filtering to remove bean dregs, boiling, primary cooling, homogenizing, deaerating, UHT sterilization, secondary cooling, inline mixing soy milk with sterilized composite coagulant, aseptic filling, microwave heating, solidification, cooling for formation. According to this invention, a composite coagulant is prepared by combining basic salts with coagulant, then, the composite coagulant is inline mixed with soy milk, next, the mixture is intermittently heated by microwave to form tofu. The invention solves the problems existed in the preparation of tofu with long shelf life, including short temporary storage time, easy tube pasting and other issues after the coagulant is mixed with soy milk. This invention has the advantages of causing no corrosion on pipes, and taking less time in the heating and solidification process, etc. The long-shelf-life tofu produced by the invention has a shelf-life of more than 3 months at room temperature, while maintaining the original quality of the tofu, and has better taste and higher elasticity.

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 herein is composition containing a destroyed frond of a Lemnoideae plant with a suppressed off-flavor, and a method for suppressing an off-flavor of a destroyed frond of a Lemnoideae plant. A composition containing a destroyed frond of a Lemnoideae plant and also containing an organic acid salt, an inorganic salt, a sweetener, and/or an acidulant; and a method for suppressing an off-flavor, including blending an organic acid salt, an inorganic salt, a sweetener, and/or an acidulant with a destroyed frond of a Lemnoideae plant, are provided herein.

A method of processing a fava bean composition is disclosed, the method comprising the steps of: i. providing a fava bean composition comprising fava beans, and ii. subjecting the fava bean composition to a betaglucosidase and at least one lactobacillus plantarum bacteria under dosage, time and temperature conditions selected so as to be sufficient to reduce the content of at least one of the compounds vicine and convicine, and preferably also at least one of the compounds divicine and isouramil, by at least 90 wt % as compared to the content of said compounds in the fava bean composition provided in step i. A fava bean composition obtained by the method as well as methods of producing food compositions using the fava bean composition and food compositions thus produced are also disclosed.

The invention relates to a process for producing a sunflower protein isolate, said process comprising the following steps: (a) providing a sunflower seed press cake, preferably a sunflower seed cold press cake; (b) mixing said sunflower seed press cake with an aqueous NaCI solution at a pH ranging from 3 to 4.5, in order to solubilize proteins present in said sunflower seed press cake and to thus obtain a solubilised protein solution, wherein said aqueous NaCI solution has a NaCI concentration ranging from 0.2 to 0.6 mol.Math.L.sup.−1; (c) separating said solubilised protein solution from solids therein; (d) subjecting said solubilised protein solution obtained in step c) to one or several membrane filtration(s) to obtain a protein isolate, and optionally drying said protein isolate to obtain a dry sunflower protein isolate. The invention also relates to a sunflower protein isolate and its use and product which incorporate.

A dispersibility of a vegetable milk under a high temperature condition is increased by treating the vegetable milk with a protein deamidase. When the protein deamindase-treated vegetable milk is added to a liquid beverage or a liquid food at a high temperature, an aggregation in the protein deamindase-treated vegetable milk is prevented.