A method of preparing a shelf-stable processed grain product includes a series of heating and cooling steps performed on a processed grain product having a water activity value of about 0.65 or less. A first heating step takes the grain pieces to a first elevated temperature, which is followed by a first cooling step. The grain pieces are passed to a second heating step to reach a second elevated temperature, followed by a second cooling step. The grain pieces are then passed to a third heating step, after which they are sufficiently soft and pliable for a final forming step such as flaking, bumping, puffing, or the like. This allows grain pieces that are suitable for long term storage, but too brittle for final forming, to be softened for final forming without raising the moisture content to a point that is conducive to mold formation or reduced product quality.

The present invention relates to a steeping process for reducing the phytate in kernels of cereals and/or pulses using endogenous phythase. The kernels are steeped in water whilst avoiding germination and then dried. The steeped kernels and/or flour made therefrom are used in food, feed, pet-food, and/or cosmetics.

A technique for highly efficient production of -amino butyric acid (GABA) using mochi barley of the group of mules barley, as a raw material. The technique converts glutamic acid into GABA due to the glutamate decarboxylase contained in the mochi barley so GABA-mochi barley grains and GABA-mochi barley bran and GABA-containing bran supernatant can be produced highly-efficiently by mixing mochi barley grains, which have been polished in a barley milling device to an extent of 2% or more and less than 20%, with a glutamic acid solution, which has a concentration of 0.1 to 3% and a pH value of 2 to 9, and soaking the barley in the solution at room temperature for 1 hour or more to overnight or, after soaking in the solution similarly for 1 hour or more to overnight, draining the barley grains, and keeping it overnight at room temperature.

A method and system is disclosed which uses a combination of optical and mechanical separation processes to remove gluten-containing grains from a mixture of oat kernels.

Wheat grain (Triticum aestivum) comprising an embryo and starch, wherein the embryo comprises two identical alleles of an SBEIIa-A gene, two identical alleles of an SBEIIa-B gene and two identical alleles of an SBEIIa-D gene, wherein each of the SBEIIa genes gives rise to an amount of protein (w/w) or a protein having SBEIIa activity which is lower than the corresponding wild-type gene, and at least one of said genes comprises a point mutation, wherein the starch comprises amylose such that the grain has an amylose content of at least 50% (w/w) as a proportion of the extractable starch of the grain.

Provided are food and drink ingredients produced from wheat grain which has a low level (2-30%) of total starch branching enzyme II activity and an amylose content in the starch of at least 50% (w/w), and processes for producing and using the ingredients. Also provided are foods produced from the ingredients which may be used in humans to improve one or more parameters of metabolic health, bowel health or cardiovascular health.

Methods and apparatus for separating and removing aflatoxin-contaminated corn from batches of corn by a floating process, thus producing a distinguishable floating mat of contaminated corn and a separate submerged bed of uncontaminated and less contaminated corn. The methods of this disclosure include removing the floating contaminated corn mat by a vacuum mechanism or by liquid flow. The methods reduce the aflatoxin level in the submerged corn bed as much as 80% from the initial aflatoxin level, while removing no more than 15% from the batch of corn.

A low sugar, low viscosity syrup from whole grain seed or flour is disclosed. A readily soluble flour is also disclosed. The syrup comprises 90% to 100% of its solid components as water soluble solids and the wholegrain flour comprises 50% to 95% of its solid components as water soluble solids. By controlling the mashing and hydrolysis of a cooked whole grain seed or flour, a syrup can be obtained comprising a defined oligosaccharide content with a narrow molecular weight distribution (i.e. low in sugar and low DP 11+).

Methods and systems for generating a highly energized fluid formula for use in tempering grains and other foodstuffs is described. The temper fluid described herein is capable of reducing pathogens and/or pesticide residues on grains and other foodstuffs. The tempering fluid may include chlorine dioxide with an oxidative carrier solution, and may further include carboxylic acids. The methods described herein may include an alkaline fluid pre-rinse prior to treatment of the grain with the energized fluid formula.

A dry process for the production of whole durum wheat semolina is described, wherein wheat caryopses (101) are subjected to decortication in order to remove the germ (107) and only the outermost layers of the pericarp (102) of the multilayer bran coating of said caryopses and the caryopses decorticated in this way are subjected to milling followed by sieving, selecting fractions having a particle size lower than or equal to 500 m, which form the aforementioned whole durum wheat semolina. The invention also refers to a whole durum wheat semolina obtained by the aforementioned process having a moisture content lower than or equal to 13%, a total fibre content between 8% and 13% and a protein content between 12% and 17%, and a whole-wheat pasta and a bakery product obtained using the aforementioned semolina.