A method for preparing a fermented beverage having a modulated aromatic profile is provided as well as a fermented beverage produced thereby. The method includes preparing a fermentable mixture, such as juice, must, or wort and introducing ammonium sulphide into the fermentable mixture at a predetermined concentration. The fermentable mixture is then subjected to fermentation. A C6 aldehyde, C6 alcohol or a combination thereof may be added to the fermentable mixture in combination with ammonium sulphide to enhance its effect on the aromatic profile of the fermented beverage.

Non-naturally occurring microorganisms are provided that produce taurine and/or taurine precursors, e.g., hypotaurine, sulfoacetaldehyde, or cysteate, utilizing exogenously added enzyme activities. Methods of producing taurine and/or taurine precursors in microbial cultures, and feed and nutritional supplement compositions that include taurine and/or taurine precursors produced in the microbial cultures, such as taurine- and/or taurine precursor-containing biomass, are also provided.

The present invention describes an approach to increase taurine or hypotaurine production in prokaryotes. More particularly, the invention relates to genetic transformation of organisms with genes that encode proteins that catalyze the conversion of cysteine to taurine, methionine to taurine, cysteamine to taurine, or alanine to taurine. The invention describes methods for the use of polynucleotides that encode cysteine dioxygenase (CDO) and sulfinoalanine decarboxylase (SAD) polypeptides in prokaryotes to increase taurine, hypotaurine or taurine precursor production. The preferred embodiment of the invention is in plants but other organisms may be used. Increased taurine production in prokaryotes could be used as nutraceutical, pharmaceutical, or therapeutic compounds or as a supplement in animal feed.

Provided is an enzymatic process for preparing mercaptans from disulfides.

Provided is an enzymatic process for preparing mercaptans from disulfides.

This application describes methods, including non-naturally occurring methods, for biosynthesizing 3-hydroxy-3-methylglutaryl-coA and intermediates thereof, as well as non-naturally occurring hosts for producing 3-hydroxy-3-methylglutaryl-coA. This application also describes methods, including non-naturally occurring methods, for biosynthesizing isoprene and intermediates thereof, as well as non-naturally occurring hosts for producing isoprene.

This application describes methods, including non-naturally occurring methods, for biosynthesizing 3-hydroxy-3-methylglutaryl-coA and intermediates thereof, as well as non-naturally occurring hosts for producing 3-hydroxy-3-methylglutaryl-coA. This application also describes methods, including non-naturally occurring methods, for biosynthesizing isoprene and intermediates thereof, as well as non-naturally occurring hosts for producing isoprene.

This application describes methods, including non-naturally occurring methods, for biosynthesizing 3-hydroxy-3-methylglutaryl-coA and intermediates thereof, as well as non-naturally occurring hosts for producing 3-hydroxy-3-methylglutaryl-coA. This application also describes methods, including non-naturally occurring methods, for biosynthesizing isoprene and intermediates thereof, as well as non-naturally occurring hosts for producing isoprene.

The present invention relates to non-naturally occurring polypeptides useful for preparing armodafinil, polynucleotides encoding the polypeptides, and methods of using the polypeptides. The non-naturally occurring polypeptides of the present invention are effective in carrying out biocatalytic conversion of the (i) 2-(benzhydrylsulfinyl)acetamide to ()-2-[(R)-(diphenylmethyl)sulfinyl]acetamide (armodafinil), or (ii) benzhydryl-thioacetic acid to (R)-2-(benzhydrylsulfinyl)acetic acid, which is a pivotal intermediate in the synthesis of armodafinil, in enantiomeric excess.

The present invention relates to non-naturally occurring polypeptides useful for preparing armodafinil, polynucleotides encoding the polypeptides, and methods of using the polypeptides. The non-naturally occurring polypeptides of the present invention are effective in carrying out biocatalytic conversion of the (i) 2-(benzhydrylsulfinyl)acetamide to ()-2-[(R)-(diphenylmethyl)sulfinyl]acetamide (armodafinil), or (ii) benzhydryl-thioacetic acid to (R)-2-(benzhydrylsulfinyl)acetic acid, which is a pivotal intermediate in the synthesis of armodafinil, in enantiomeric excess.