Provided herein are compositions with enhanced protein content, protein compositions with improved functionality, and methods for the preparation thereof.

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.

The invention relates to concentrated fruit juice for a marinade for tumbling a meat product, the weight percentage of sorbitol in the concentrated fruit juice being more than 10 wt.-%. The concentrated fruit juice contains at least concentrated pear juice, concentrated mirabelle juice and/or concentrated quince juice.

A process for the application of a predetermined amount of oil to food pieces comprises: (a) providing or receiving a plurality of cut or shaped food pieces; (b) applying an oil-water emulsion to the food pieces for a time sufficient to provide a predetermined amount of oil to the food pieces and so that the food pieces have an initial moisture level after applying the oil-water emulsion; and (c) reducing the initial moisture level, in the absence of frying in oil, to a moisture level of from about 0.2 to about 80% by weight to provide a cooked food product, comprising said predetermined amount of oil, wherein step (c) does not comprises frying the food pieces in hot oil.

This disclosure pertains to vegan food products comprising liquid coconut material. Liquid coconut material provides an alternative to dairy and eggs normally found in ice cream. Also disclosed herein is a NSF certified device for extracting coconut meat from coconuts.

This disclosure pertains to vegan food products comprising liquid coconut material. Liquid coconut material provides an alternative to dairy and eggs normally found in ice cream. Also disclosed herein is a NSF certified device for extracting coconut meat from coconuts.

The present invention provides a method in which a quantitative and descriptive approach is used to adapt the food texture in the clinical management of dysphagia. There is provided a new index, ST index, and method of use for determining and modulating the physical characteristics of foods in a manner to allow the food composition at serving temperature to have a desired combination of firmness, adhesiveness, springiness and cohesiveness to overcome dysphagia-related problems.

A process for preparing (1.fwdarw.6)--D-glucan. A large amount of (1.fwdarw.6)--D-glucan can be prepared from banana by using this process. The chemical structure of (1.fwdarw.46)--D-glucan is shown as Scheme 1. The yield of (1.fwdarw.6)--D-glucan is 3-16 g/kg (with a purity of 85%-95%). This process provides a feasible technique for extensive utilization of banana, and can improve the additional value of banana products. This process is helpful for the sustainable development of banana processing industry.

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Suggested is a delivery system for food additives, comprising or consisting of the following components: (a) at least one food additive dissolved in a solvent and (b) at least one emulsifier and/or at least one hydrocolloid dissolved in water,
characterized in that the delivery system is an oil-in-water emulsion.