A method of reducing the asparagine content of whole grain flour for the production of baked goods includes treating whole grains by tempering the whole grains in an aqueous solution of an asparagine-reducing composition to concentrate and localize asparaginase activity in the bran and germ of the whole grains. In one approach, the asparagine-reducing composition may comprise an asparaginase enzyme. In another approach, the asparagine-reducing composition may comprise a yeast strain capable of degrading asparagine. The tempering treatment with the asparagine-reducing composition reduces asparagine in the whole grains by at least about 25%, resulting in a whole grain flour having an asparagine content of no more than about 250 ppm. Also described are baked goods having a reduced asparagine and acrylamide content comprising a whole grain flour obtained by treating whole grains with an asparagine-reducing composition during tempering.

A process for using bacterial or fungal metalloprotease and trypsin to solve problems associated with conventional protease extraction techniques by dramatically reducing temperature, incubation time and proteolysis during protease extraction. The present disclosure relates to a protease treatment for increasing yield from plant or other material by extracting nutrients from the fibrous waste portion of milled plant material while preserving the nutritional and functional qualities of the extracted material for use as a food product. The process preserves the quality of the extracted material, including beta glucan and protein, by utilizing low temperatures and minimal protease activity and digestion time during extraction.

The present invention features methods of extracting amylase trypsin inhibitors (ATIs) from processed and unprocessed foodstuff, determining bioactivity of ATIs, quantifying the amount of ATIs in a foodstuff, and reducing the content of ATIs in a foodstuff.

The present invention provides a method for preparing non-toxic lacquer by detoxifying stems or sprouts of lacquer trees using a malt juice and a fermented rice bran, and a method for manufacturing a fermented rice bran enzyme with improved preservability or a powdered grain nutrient food with improved preservability and dietary property by using the non-toxic lacquer prepared thereby.

A method for making a flavour modifying ingredient, the method comprising subjecting a dietary fibre to enzymatic hydrolysis and/or fermentation; flavour modifying ingredients obtainable by said method; flavour compositions and food products comprises said flavour modifying ingredient; uses of said flavour modifying ingredient.

A method for making a flavour modifying ingredient, the method comprising subjecting a dietary fibre to enzymatic hydrolysis and/or fermentation; flavour modifying ingredients obtainable by said method; flavour compositions and food products comprises said flavour modifying ingredient; uses of said flavour modifying ingredient.

The present disclosure discloses a preparation method of low-glycemic index slowly digestible starch-based reconstituted instant rice, and belongs to the technical field of food processing. The preparation method is based on high-temperature fluidization technology to carry out non-crystallization treatment on a solid phase broken rice raw material in a short period of time, and then the material is subjected to a one-step reactive extrusion technology combining enzymatic hydrolysis and esterification treatment to prepare the reconstituted instant rice with high content of slowly digestible starch and low glycemic index. The reconstituted instant rice prepared by the one-step molding extrusion technology is suitable for type II diabetes patients to eat, and at the same time increases the added value of agricultural and sideline products, reduces production cost, and improves production efficiency.

An immune checkpoint suppressant containing as an active ingredient a mixture of (a) to (g), which are koji mold, yeast, and/or lactic acid bacterium fermentation products of: (a) barley, black soybean, red rice, black rice, adzuki bean, adlay, Japanese barnyard millet, foxtail millet, and/or proso millet; (b) mandarin orange, grape, apple, Vitis coignetiae berry, peach, persimmon, papaya, Japanese pear, watermelon, Japanese apricot, fig, Chinese quince fruit, kabocha squash, kumquat, Yuzu, loquat fruit, apricot, jujube, chestnut, matatabi fruit, and/or Japanese plum; (c) purple sweet potato, Jerusalem artichoke, carrot, onion, sweet potato, taro, Japanese wild yarn, daikon, red turnip, great burdock, lotus root, yacon, lily bulb, arrowhead, ginger, garlic, and/or turmeric; (d) cabbage, perilla, Morus leaf, fish mint, Japanese mugwort, Sasa veitchii, and/or dandelion; (e) kelp, wakame, and/or mozuku; (f) black sesame, walnut, and/or ginkgo nut; and (g) maitake and/or shiitake mushroom.

The present invention relates to a method for reducing fructan in a fructan-containing food product, comprising adding an invertase belonging to enzyme classification EC 3.2.1.26 to the food product, and incubating the food product with the invertase, wherein fructan in the fructan-containing food product is hydrolysed. The invention further relates to the use of an invertase belonging to enzyme classification EC. 3.2.1.26 for the preparation of a medicament or a dietary supplement for the treatment of a person suffering from irritable bowel syndrome. Invertase (EC 3.2.1.26) may optionally by further combined with inulinase (EC3.2.1.7) and/or beta-fructosidase (EC 3.2.1.80).

The texture and flavor of bran and germ for the production of whole wheat flour and for the production of baked goods containing whole wheat flour is improved by treating bran and germ with water and an enzyme composition comprising xylanase, pentosanase, or mixtures thereof to hydrate the bran and germ and to enzymatically convert insoluble fiber of the bran and germ into soluble fiber and sugars. The enzymatic conversion is conducted so as to decrease the water holding capacity of the bran and germ and provides a bran and germ product having reduced grittiness and a reduced whole wheat flavor, while avoiding adverse effects on baking functionality. The enzymatic treatment with the xylanase and/or pentosanase may be initiated upon whole wheat berries or grains during tempering, or it may be initiated upon a separated bran and germ fraction obtained after grinding or milling of whole wheat berries or grains.