The present invention provides a process for preparing an inhibited starch comprising, in order: a) extracting starch from a native source and partially refining to provide a partially refined starch having a residual protein content on a dry starch basis of more than 0.4% by weight and less than 8.0% by weight; b) treating said partially refined starch with a bleaching agent to provide an inhibited starch; and c) recovering said inhibited starch.

The present invention relates to a method for producing a heat-treated vegetable-based food product which comprises contacting with asparaginase at high temperature and subsequent drying.

A peanut food product with reduced levels of allergenic proteins such as Ala h1/h2/h3 is produced by initiating the germination process in raw peanuts, holding the peanuts in moist conditions to initiate germination, and then treating with bromelain.

Fluorine being present in the exoskeleton of crustaceans, and especially krill represents a problem for using krill as a source for food, feed, food additives and/or feed additives. There has been developed a process for removing such fluorine from krill material by subjecting the krill to disintegration and to an enzymatic hydrolysis process prior to or simultaneously with a removal of the exoskeleton particles producing a fluorine-reduced product. Inherent in the disclosed process is the ability to process krill material with a high polar lipid content for producing superior quality, low fluorine, products suitable for the food and feed as well as the pharmaceutical, neutraceutical and cosmetic industry.

A composition comprising an enzyme, a mycotoxin-binding agent and a microorganism capable of taking up a mycotoxin.

A process to remove the glucosinolates of oilseed meals, such as Brassica carinata oilseed meals, is provided. In one embodiment, exogenous myrosinase is used to convert the glucosinolates to volatile isothiocyanate compounds, which can then be removed under conditions of mild heat and negative pressure. In another embodiment, heat and pressure are used to remove glucosinolates from Brassica carinata oilseed. The processed meals may contain less than 80% of their starting levels of glucosinolates and may be suitable for use in various applications, including as animal feeds.

The present invention relates to asparaginase variants. The present invention also relates to polynucleotides encoding the variants; nucleic acid constructs, vectors, and host cells comprising the polynucleotides; and methods of using the variants. The invention further relates to a process of producing a fermentation product, comprising: liquefying a starch-containing material to dextrins with an alpha-amylase in the presence of an asparaginase of the invention; saccharifying the dextrins to a sugar with a glucoamylase; and fermenting the sugar using a fermenting organism.

An inventive method and a device for the biotechnological reduction of sugar substances in fruit educts for the purpose of obtaining low-sugar fruit products characterized by enzymatic and/or fermentative reaction processes. Said method is characterized by a closed-loop control process, by means of which the pH value in the low-sugar fruit product is adjusted to a predetermined higher value, as compared to the pH value in the fruit educt, in such a way that during the reduction of the sugar substances by at least 30% by weight to less than 40% by weight, the pH value is increased between 0.6 and 1.0 pH units; or that during the reduction of the sugar substances by at least 40% by weight to less than 50% by weight, the pH value is increased between 0.7 and 1.1 pH units; or that during the reduction of the sugar substances by at least 50% by weight to less than 65% by weight, the pH value is increased between 0.8 and 1.2 pH units; or that during the reduction of the sugar substances by at least 65% by weight to less than 80% by weight, the pH value is increased between 0.9 and 1.3 pH units; or that during the reduction of the sugar substances by at least 80% by weight, the pH value is increased between 1.0 and 1.4 pH units;
wherein the aforementioned pH values may also turn out to be higher or lower by up to 0.1 or up to 0.2 pH units; and/or
wherein, in the case of fermentatively formed sugar alcohols having a % by weight fraction of up to 3.0% by weight, the increase in the pH value with the simultaneous reduction of the sugar substances may turn out to be less by up to 0.3 pH units, as compared to a purely enzymatic process, wherein preferably both values correlate to each other, in particular, linearly.

The present invention can be used to obtain, in particular, low-sugar fruit products, such as fruit pures or fruit preparations or fruit powder or whole fruit beverages (smoothies) or fruit juices and/or vegetable juices (regardless of whether bottled undiluted as NFC juice or rediluted as fruit juice from fruit juice concentrate) or comparable fruit beverages that can be characterized as alcohol-free.

A peanut food product with reduced levels of allergenic proteins such as Ala h1/h2/h3 is produced by initiating the germination process in raw peanuts, holding the peanuts in moist conditions to initiate germination and then treating with bromelain.

The present invention relates to new enzymes with improved properties and to compositions comprising these enzymes suitable for use in the production of a food, feed, or malt beverage product, such as in a brewing process.