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 invention relates to isolated nucleic acid molecules and their corresponding encoded polypeptides able confer the trait of improved plant size, vegetative growth, growth rate, seedling vigor and/or biomass in plants challenged with saline conditions. The present invention further relates to the use of these nucleic acid molecules and polypeptides in making transgenic plants, plant cells, plant materials or seeds of a plant having plant size, vegetative growth, growth rate, seedling vigor and/or biomass that are improved in saline conditions with respect to wild-type plants grown under similar conditions.

The present invention relates to isolated nucleic acid molecules and their corresponding encoded polypeptides able confer the trait of improved plant size, vegetative growth, growth rate, seedling vigor and/or biomass in plants challenged with saline conditions. The present invention further relates to the use of these nucleic acid molecules and polypeptides in making transgenic plants, plant cells, plant materials or seeds of a plant having plant size, vegetative growth, growth rate, seedling vigor and/or biomass that are improved in saline conditions with respect to wild-type plants grown under similar conditions.

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 plant protein, for example at least 20 g protein per 100 g dry weight with excipients, on a dry weight basis. The plant protein can include pea, rice and/or chickpea. The fungi can include comprises Lentinula spp., Agaricus spp., Pleurotus spp., Boletus spp., or Laetiporus spp. 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.

Provided are compositions, methods, and solutions for generating aqueous glucomannan solutions with hydrogen compositions greater than 100 parts per billion. Said glucomannan solutions have application in nutritional, therapeutic, and energy fields.

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 present invention relates to a composition comprising citrus fruit fiber having a water binding capacity of from 8 to 25 (w/w) and native starch selected from the group consisting of corn starch, rice flour, sorghum starch, tapioca starch and mixture thereof.

The present invention relates to a composition comprising citrus fruit fiber having a water binding capacity of from 8 to 25 (w/w) and native starch selected from the group consisting of corn starch, rice flour, sorghum starch, tapioca starch and mixture thereof.

The present invention relates to isolated nucleic acid molecules and their corresponding encoded polypeptides able confer the trait of improved plant size, vegetative growth, growth rate, seedling vigor and/or biomass in plants challenged with saline conditions. The present invention further relates to the use of these nucleic acid molecules and polypeptides in making transgenic plants, plant cells, plant materials or seeds of a plant having plant size, vegetative growth, growth rate, seedling vigor and/or biomass that are improved in saline conditions with respect to wild-type plants grown under similar conditions.

The present invention relates to isolated nucleic acid molecules and their corresponding encoded polypeptides able confer the trait of improved plant size, vegetative growth, growth rate, seedling vigor and/or biomass in plants challenged with saline conditions. The present invention further relates to the use of these nucleic acid molecules and polypeptides in making transgenic plants, plant cells, plant materials or seeds of a plant having plant size, vegetative growth, growth rate, seedling vigor and/or biomass that are improved in saline conditions with respect to wild-type plants grown under similar conditions.