A hummus-like food has a base; the base has sake lees and has soy pulp and/or ground soybeans; fractional water content of the base is within a range that is 30% to 95%; and a wt % ratio of the sake lees to the soy pulp and/or ground soybeans present within solids content of the base is within a range that is 80:20 to 5:95.

The present invention relates to a method for producing yeast. It relates in particular to a method for producing biological yeast, comprising the use of substrates of biological origin, in particular a biological substrate which makes it possible to supplement the nutritional requirements in the yeast in terms of phosphorus. The method of the present invention makes it possible to obtain biological yeast and biological yeast extracts in accordance with European Union Regulation (EC) 834/2007. According to the invention, the phosphorus-rich biological composition is obtained by hydrolysis and solubilization of at least one plant substrate of biological origin comprising from 2 to 18 g of phosphorus per kg of product, 60% to 80% of which is in the form of phytic acid. The preferred substrate according to the invention is wheat bran.

The present invention relates to a method for producing yeast. It relates in particular to a method for producing biological yeast, comprising the use of substrates of biological origin, in particular a biological substrate which makes it possible to supplement the nutritional requirements in the yeast in terms of phosphorus. The method of the present invention makes it possible to obtain biological yeast and biological yeast extracts in accordance with European Union Regulation (EC) 834/2007. According to the invention, the phosphorus-rich biological composition is obtained by hydrolysis and solubilization of at least one plant substrate of biological origin comprising from 2 to 18 g of phosphorus per kg of product, 60% to 80% of which is in the form of phytic acid. The preferred substrate according to the invention is wheat bran.

A composition comprising a whole grain with hydrolyzed starch. Although the starch can shift from relatively higher molecular weight moieties to relatively lower molecular weight moieties during hydrolysis, the relative proportions of the principal anatomical components of the caryopses of the grain—the starchy endosperm, germ and bran—remain approximately the same as evinced, for example, by the weight percentages and relative mass ratios of starch, fat, protein, dietary fiber, beta-glucan, and sugar in the composition. Additionally, the whole grain composition can be a powder, for example, a flour, and the whole grain composition can be granulated to a desired size to provide a powder that is highly dispersible in liquid. When gelatinized, hydrated and dispersed in a liquid, the whole grain with hydrolyzed starch can have a lower viscosity, grittiness, and graininess compared to the same variety of whole grain with unhydrolyzed starch.

The present invention provides a method for the preparation of a gluten-containing grain having lowered levels of gluten. The method includes providing a prepared gluten-containing grain which may be optionally sterilized or pasteurized. The prepared gluten-containing grain is then inoculated with a prepared fungal component and incubated. In one embodiment the prepared fungal component myceliates the prepared gluten-containing grain while incubated and during this process hydrolyzes gluten in the prepared gluten-containing grain. The present invention also includes a gluten-containing grain having lowered levels of gluten which has been prepared by the methods of the invention.

The present invention provides a method for the preparation of a gluten-containing grain having lowered levels of gluten. The method includes providing a prepared gluten-containing grain which may be optionally sterilized or pasteurized. The prepared gluten-containing grain is then inoculated with a prepared fungal component and incubated. In one embodiment the prepared fungal component myceliates the prepared gluten-containing grain while incubated and during this process hydrolyzes gluten in the prepared gluten-containing grain. The present invention also includes a gluten-containing grain having lowered levels of gluten which has been prepared by the methods of the invention.

The present invention provides a high-purity rice protein powder. Preparation for the rice protein powder includes steps as follows: (1) crushing rice and adjusting slurry; (2) enzymolysis and filtering; (3) adjusting rice residue and crashing it; (4) adding a composite surfactant; (5) using a 12-stage cyclone washing device to separate light liquid phase from heavy liquid phase; (6) adding compound enzyme to the heavy liquid phase, thereby obtaining an enzymolysis solution; (7) spray sterilizing the enzymolysis solution, and using plate-and-frame member for filter-press, collecting a filter cake, drying by an airflow, and superfine grinding by dry processing, thereby obtaining the high-purity rice protein powder. The invention uses rice as raw material and a composite surfactant as the main means of degreasing and decellulose, thereby preparing a high-purity rice protein powder in high purity, mild processing technology, small changes in protein structure properties, better taste, and good suspension stability.

The present invention relates to Antrodia cinnamomea fermented brown rice, which is characterized by being produced by inoculating an A. cinnamomea strain in a medium composed of brown rice as cultivating substrate for fermentation. The A. cinnamomea fermented brown rice produced according to the present invention contains the special nutrients of brown rice and the unique active ingredients of A. cinnamomea. The A. cinnamomea fermented brown rice may be used as food material directly, and for the preparation of brown rice-based health products such as brown rice powder, brown rice milk, brown rice tea, and nutritious additives of other foods.

The present invention relates to Antrodia cinnamomea fermented brown rice, which is characterized by being produced by inoculating an A. cinnamomea strain in a medium composed of brown rice as cultivating substrate for fermentation. The A. cinnamomea fermented brown rice produced according to the present invention contains the special nutrients of brown rice and the unique active ingredients of A. cinnamomea. The A. cinnamomea fermented brown rice may be used as food material directly, and for the preparation of brown rice-based health products such as brown rice powder, brown rice milk, brown rice tea, and nutritious additives of other foods.

Described herein is a method of manufacturing a soluble flour comprising preparing a flour-water slurry, adjusting the pH of the slurry to a pH ranging from 3.5-6, adding an enzyme to the pH adjusted slurry in an amount ranging from 0.02-2.0 g enzyme/g flour to form a reaction mixture, cooking the reaction mixture at a temperature ranging from 60-140 C until a dextrose equivalent of 5 to 18 is achieved, inactivating enzyme to obtain a soluble flour; and adjusting pH of the soluble flour to range from 4-5. The soluble flour obtained has a dextrose equivalent value ranging from 5 to 18, a solubility greater than 50% (at 5% solids), and a viscosity between 0.001 and 1.0 Pa* at temperatures ranging from 20-50 C (at 10% solids).