A method of preparing a wort with an increased level of free amino nitrogen (FAN) comprising: a) preparing a mash from a grist comprising malt and/or adjunct; and b) adding a protease having at least 80% sequence identity to the polypeptide of SEQ ID NO: 1.

The present invention relates to the use of a cysteine endoprotease or a malt extract to prevent or reduce the cloudiness of a cereal-based beverage, fermented or not.

Methods, compositions, and systems for steeping, propagation and fermentation, particularly large-scale operations for production of starch and ethanol and fermentation product streams are provided. Addition of mycotoxin mitigating enzymes or microorganisms expressing mycotoxin mitigating enzymes to steeping, propagation, and/or fermentation tanks, and/or to post-fermentation product streams, mitigates mycotoxin levels in fermentation co-products obtained from mycotoxin contaminated feedstocks.

The present disclosure provides methods, compositions, apparatuses and kits comprising ALDC enzymes having a better stability and/or activity, and, optionally, the yield of ALDC enzymes which can be recovered from microorganisms is improved. In some embodiments, the present disclosure provides methods, apparatuses, compositions and kits for the use of metal ions to increase stability and/or activity, and which further can be used to recover the enzymes from microorganisms in improved yields.

The present disclosure relates to methods for using one or more polypeptides with phytase activity in grain processing, ethanol, and biofuel production.

The present invention relates to methods of mashing 100% adjunct grists. More specifically, the instant disclosure provides methods and compositions wherein an alpha-amylase in combination with an maltogenic alpha amylase and/or glucoamylse to make a non-malt wort composed by adjunct raw materials.

A process prepares a beverage or beverage component. The process includes an enzymatic treatment of brewer's spent grain including addition of one or a combination of enzymes with alpha-amylase, gluco-amylase, cellulase, xylanase, protease and/or beta-glucanase activity and fermentation by a strain of lactic acid bacteria. The combination of enzymes and enzymatic treatment conditions is such that the lactic acid bacteria produce 4.5 g/L lactic acid and metabolise sugar such that the resulting fermented broth contains less than 2.5% w/w and preferably less than 0.5% w/w residual sugar or the lactic acid bacteria produce 4.5 g/L lactic acid and metabolise sugar such that the resulting fermented broth contains at least 2.5% w/w residual sugar.

An object of the present invention is to provide an enzyme preparation useful for reducing purine bodies, especially, in beer or beer-based beverages, and use thereof. Provided is a nucleosidase preparation having an activity ratio (U/U), which is guanine deaminase activity per nucleosidase activity, of 0.4 or less.

An object of the invention is to provide a beer-taste fermented malt beverage with an alcohol concentration of less than 1% (v/v), which has beer-like fermented feeling and robust feeling of drinking, and does not give a watery drinking feeling. The means for solving the problems is a beer-taste fermented malt beverage with an alcohol concentration of less than 1% (v/v), containing a wort fermented liquid, more than 5.3 ppm and less than 80 ppm of pyruvic acid, more than 29.2 ppm and less than 90 ppm of succinic acid, and having a genuine extract concentration of more than 2.0% (w/w).

Methods, compositions, and systems for steeping, propagation and fermentation, particularly large-scale operations for production of starch and ethanol and fermentation product streams are provided. Addition of mycotoxin mitigating enzymes or microorganisms expressing mycotoxin mitigating enzymes to steeping, propagation, and/or fermentation tanks, and/or to post-fermentation product streams, mitigates mycotoxin levels in fermentation co-products obtained from mycotoxin contaminated feedstocks.