A genetically modified organism comprising at least one nucleic acid sequence and/or at least one recombinant nucleic acid isolated from Alicyclobacillus acidocaldarius and encoding a polypeptide involved in at least partially degrading, cleaving, transporting, metabolizing, or removing polysaccharide, lignocellulose, hemicellulose, lignin, chitin, heteroxylan, and/or xylan-decorating group; and at least one nucleic acid sequence and/or at least one recombinant nucleic acid encoding a polypeptide involved in fermenting sugar molecules to a product. Additionally, enzymatic and/or proteinaceous extracts may be isolated from one or more genetically modified organisms. The extracts are utilized to convert biomass into a product. Further provided are methods of converting biomass into products comprising: placing the genetically modified organism and/or enzymatic extracts thereof in fluid contact with polysaccharides, cellulose, lignocellulose, hemicellulose, lignin, starch, sugars, sugar oligomers, carbohydrates, complex carbohydrates, chitin, heteroxylans, glycosides, and/or xylan-, glucan-, galactan-, or mannan-decorating groups.

The present invention provides a multi-component enzyme system that hydrolyzes hemicellulose oligomers from hardwood which can be expressed, for example, in yeast such as Saccharomyces cerevisiae. In some embodiments, this invention provides for the engineering of a series of biocatalysts combining the expression and secretion of components of this enzymatic system with robust, rapid xylose utilization, and ethanol fermentation under industrially relevant process conditions for consolidated bioprocessing. In some embodiments, the invention utilizes co-cultures of strains that can achieve significantly improved performance due to the incorporation of additional enzymes in the fermentation system.

The disclosure provides thermostable enzymes isolated from Caldicellulosiruptor bescii and fragments thereof useful for the degradation of cellulose and/or hemicellulose, including thermostable cellulases and hemicellulases. The disclosure further provides nucleic acids encoding the thermostable enzymes of the disclosure. The disclosure also provides methods for the conversion of cellulose and hemicellulose into fermentable sugars using thermostable enzymes of the disclosure. The disclosure also provides enzyme cocktails containing multiple enzymes disclosed herein. The enzymes can be used to release sugars present in cellulose or hemicellulose for subsequent fermentation to produce value-added products.

A method for removing a stain from a surface using lipase enzymes, and a formulation comprising a lipase enzyme.

Lipase enzymes, methods of making lipase enzymes, methods of using lipase enzymes in food, feed, personal care, detergents, grain processing, pulp and paper processing, biofuels, ethanol production, textiles, dairy processing, cocoa butter processing, cocoa extraction, dietary supplements, coffee processing, coatings, water treatment, and oil processing.

Lipase enzymes, methods of making lipase enzymes, methods of using lipase enzymes in food, feed, personal care, detergents, grain processing, pulp and paper processing, biofuels, ethanol production, textiles, dairy processing, cocoa butter processing, cocoa extraction, dietary supplements, coffee processing, coatings, water treatment, and oil processing.

A method for removing a stain from a surface using lipase enzymes, and a formulation comprising a lipase enzyme.

The present invention discloses a composition for biomass hydrolysis. The components of the composition may be obtained by biological or synthetic means. Synthetically, the components of the composition of the present invention may be obtained by amino acid synthesis or may be procured commercially.

Described are compositions and methods relating to cellulase/hemicellulase enzyme blends for improving the enzymatic hydrolysis of cellulosic and hemicellulosic materials, as commonly found in biomass.

The present invention discloses a composition for biomass hydrolysis. The components of the composition may be obtained by biological or synthetic means. Synthetically, the components of the composition of the present invention may be obtained by amino acid synthesis or may be procured commercially.