A composition and method for supplementing food, nutrition, and diet systems with omega-6 to omega-3 balanced oils comprising a synergistic blend of at least two oils. The composition further comprises a synergistic blend of long-chain omega-3 fatty acids as a means to further increase the nutritional value. The composition provides an effective increase in therapeutic and pharmacological properties in nutrition, and retards the rate of oxidation thereof.

The invention provides a transgenic soybean event MON 87708 plant and plants, plant cells, seeds, plant parts, and commodity products derived from event MON 87708. The invention also provides polynucleotides specific for event MON 87708 and plants, plant cells, seeds, plant parts, and commodity products comprising polynucleotides specific for event MON 87708. The invention also provides methods related to event MON 87708.

The present invention relates to a method of producing a food or beverage product, in particular to a method for forming agglomerated pea proteins in an ingredient composition. The invention also relates food or beverage product comprising agglomerated pea proteins.

The present invention relates to a method of producing a food or beverage product, in particular to a method for forming agglomerated pea proteins in an ingredient composition. The invention also relates food or beverage product comprising agglomerated pea proteins.

The present invention relates to a plant protein product with colouring ingredients and to a production method. In the method, a protein formula is provided which comprises plant proteins from oil seeds or from legumes and oil seeds, and secondary plant compounds from the oil seeds. In this method, the secondary plant compounds from the oil seeds contain polyphenols which alter their colour on oxidation. The polyphenols fraction selected for the protein formula. is between 10 ppm and 0.2%. The protein formula is then extruded at a temperature of more than 100° C. in the presence of atmospheric oxygen. The addition of proteins and of the aforesaid secondary plant compounds from the oil seeds allows different hues to be established in the vegetable extrudate that lend the impression of meat in any of a variety of prepared forms, without any need to add further colorants to the extrudate.

The present disclosure relates to a method for preparing an aglycone or hydrolyzed glycoside converted from a glycoside and, specifically, to a method for preparing an aglycone or hydrolyzed glycoside from a glycoside by converting a glycoside into an aglycone form or hydrolyzed glycoside by using a microorganism producing β-glycosidase, and then recovering the aglycone or hydrolyzed glycoside accumulated in the cells of the microorganism.

A dry powder including an edible part and an inedible part of immature pulses is provided. The dry powder has a proportion of the inedible part to the edible part of immature pulses from 1 mass % to 200 mass % by dry mass, a moisture content of 20 mass % or less, brightness in a Munsell color system of 7 or more, chroma in the Munsell color system of 3 or more, and hue in the Munsell color system from 5Y to 10Y or from 0GY to 10GY. The dry powder also has a specific surface area per unit volume of dry powder particles before ultrasonication of 0.05 m.sup.2/mL or more, a standard deviation of particle size distribution of dry powder particles before ultrasonication of 200 μm or less, and a number average diameter of dry powder particles after ultrasonication of less than 30 μm.

Disclosed is a method to prepare a myceliated high-protein food product, which includes culturing a fungi an aqueous media which has a high level of protein, for example at least 20 g protein per 100 g dry weight with excipients, on a dry weight basis. The fungi can include Pleurotus ostreatus, Pleurotus eryngii, Lepista nuda, Hericium erinaceus, Lentinula edodes, Agaricus blazeii, Laetiporus sulfureus and combinations thereof. After culturing, the material is harvested by obtaining the myceliated high-protein food product via drying or concentrating. The resultant myceliated high-protein food product may have its taste, flavor, or aroma modulated, such as by increasing desirable flavors or tastes such as meaty, savory, umami, popcorn and/or by decreasing undesirable flavors such as bitterness, astringency or beaniness. Deflavoring and/or deodorizing as compared to non-myceliated control materials can also be observed. Also disclosed are myceliated high-protein food products.

In accordance with the present invention, there is provided a method for producing colored tofu, the method comprising a step of preparing a liquid dispersion constituted by a colorant and a paste or powder of vegetables or fruit uniformly dispersed in sugar alcohol or a dilute aqueous solution thereof; a step of preparing a liquid soy milk mixture by uniformly mixing the liquid dispersion, soy milk, and a coagulating agent; and a step of coagulating the liquid soy milk mixture to produce tofu.

A process is provided for the treatment of a particulate leguminous plant material, such that the processed particulate leguminous plant material possesses characteristics that are desirable for animal, such as human, consumption. The leguminous plant material is subjected to one or more cycles of temperature treatment, each cycle including a heating phase and a cooling phase. The heating phase temperature of at least one of the temperature treatment cycles may be lower than the heating phase temperature of the preceding temperature treatment cycle. Particulate leguminous plant material comprising substantially reduced concentrations of one or more molecules that contribute to odour and/or flavour may be produced by the process. Particulate leguminous material produced by the process may be used as a food, or as an ingredient in a food product.