The invention provides a bread with D-allulose instead of sucrose and a preparation method therefor, and relates to the technical field of food processing. The starting materials include, in parts by weight: 40-60 parts of flour, 3-5 parts of gluten powder, 5-10 parts of D-allulose, 5-10 parts of eggs, 5-10 parts of milk, 3-5 parts of yeast, 4-6 parts of butter, 0.4-0.6 parts of composite bacterial powder, and 15-25 parts of water. The yeast is fresh yeast. The composite bacterial powder includes one or more of Lactobacillus acidophilus, Lactobacillus casei, Lactobacillus rhamnosus, Bifidobacterium longum and Bifidobacterium lactis. Replacing sucrose with D-allulose in bread does not affect the normal proofing of bread dough, and the baked bread is fluffy and soft, sweet, and delicious, has good color, aroma, and taste. Because D-allulose has the advantages of low calorie and low blood sugar response, consumers' pursuit of healthy eating is met.

The process for producing low-gluten or gluten-free cooking dough for food purposes includes making a dough composition including, by weight relative to the total percentage by weight thereof: between 88.5 and 95% of dittany starch, between 0.1 and 0.5% of salt, between 40 and 65% of water, yeasts, between 3 and 5% of sugar, between 1.5 and 4% of pea protein, and between 0.2 and 3.6% of at least one thickener. The dough composition is kneaded in a closed chamber depressurized beforehand. Carbon dioxide CO2 is injected into the chamber at a pressure of between 25 and 550 mbar for 10 to 50 minutes simultaneously to the kneading step, so as to obtain a low-gluten or gluten-free cooking dough.

The present invention discloses a method for preparing bread by fermentation with compounded sourdough, and belongs to the technical field of food. The method compounds saccharomycetes and lactic acid bacteria to prepare the compounded sourdough. Compared with spontaneous sourdough, the fermentation performance is similar, the quality is stable, the culture period is shortened, and the compounded sourdough can be used to replace the spontaneous sourdough to prepare bread by fermentation. Moreover, the nutritional value of the compounded sourdough bread is much higher than that of the commercial yeast bread using only a single type of yeast, both in terms of the total content of free amino acids and the content of essential amino acids. The compounded sourdough provided by the present invention has extremely high industrial application value.

An object of the present invention is to provide a method of producing rice flour bread having food texture equal to or better than that of wheat flour bread or gluten-added rice flour bread without using gluten and thickener, and a method of producing dough thereof. The method of producing rice flour bread dough according to the present invention includes a cooling step, a yeast-containing basic dough preparation step and a bread dough preparation step. In the cooling step, rice flour and water are individually cooled to prepare cold rice flour and cold water. In the yeast-containing basic dough preparation step, cold rice flour and cold water are mixed to prepare basic dough, and then yeast is added to the basic dough to prepare yeast-containing basic dough, or cold rice flour, cold water and yeast are mixed to prepare yeast-containing basic dough. In the rice flour bread dough preparation step, yeast-containing basic dough is kneaded to prepare rice flour bread dough. After fermenting this rice flour bread dough to prepare fermented dough, rice flour bread according to the present invention is produced by heating the fermented dough.

A novel substitute for sodium salt is described that comprises deactivated yeast and a salt compound selected from NaCl, a potassium salt, an ammonium salt, a magnesium salt and mixtures thereof. Also described are a composition comprising this new substitute and the use of this substitute in breadmaking and in prepared dishes.

The invention features multi-specific fusion protein complexes with one domain comprising IL-15 or a functional variant and a binding domain specific to IL-7 or IL-21.

The invention features multi-specific fusion protein complexes with one domain comprising IL-15 or a functional variant and a binding domain specific to IL-7 or IL-21.

A gluten-free grain concentrate (GFGC) food product and stepwise process to prepare GFGC from the treatment of raw unground wheat germ, is provided resulting in a product having at least three active components including (a) 1% to 3% 2,6-dimethoxy-1,4-hydroquinone; (b) 2% to 4% monomethoxy-1,4-benzoquinone; and (c) 0.5% to 1.5% monomethoxy-1,4-hydroquinone; and at least one inactive component: 2,6 dimethyl benzoquinone.

A flour product whitener containing polysaccharide alcohol. When the flour product whitener is used in a flour product, the amount of the polysaccharide alcohol is 0.01-10 parts by mass in every 100 parts by mass of total flour in the flour product.

The invention relates to a device for dispensing liquid yeast in a bakery, including: an inner panel (2) of a refrigerated chamber (6) onto which an inner circuit (20) for the flow of liquid yeast is pre-mounted, wherein said inner circuit is intended to be connected to a liquid yeast vessel (4) and includes a pumping unit (21); an outer panel (1) of a refrigerated chamber (6) onto which a liquid yeast metering device (16) and a metering table (10) are pre-mounted, wherein said metering table is intended to receive a vessel (3) to be filled with an amount of liquid yeast metered by said liquid yeast metering device (16). Said inner panel (2) and said outer panel (1) are structured such as to be attached sandwiched onto the wall (5) of a refrigerated chamber (6) for containing said vessel (4). Said liquid yeast metering device (16) is intended to be connected, through a wall (5) of the refrigerated chamber (6), to said inner circuit (20).