Provided are certain glycosyl hydrolase family 3 (GH3) beta-xylosidases engineered to acquire beta-glucosidase activities. Provided also are compositions comprising such multi-functional GH3 enzymes and methods of use or industrial applications thereof.

The present invention relates to enzyme compositions for high temperature saccharification of cellulosic material and to uses thereof.

A method of modifying a glycosylation pattern of a polypeptide-of-interest in a plant or plant cell is provided. The method comprising expressing in a plant or plant cell transformed to express at least one glycosidase in a subcellular compartment, a nucleic acid sequence encoding the polypeptide-of-interest, such that the at least one glycosidase and the polypeptide-of-interest are co-localized to the subcellular compartment of the plant or plant cell, thereby modifying the glycosylation pattern of the polypeptide-of-interest in the plant or plant cell.

The application relates to an enzyme composition, a process for the preparation thereof and the use of the enzyme composition in enzymatic hydrolysis.

The present invention provides compositions, methods, and kits based on a novel two-enzyme system. This system uses a combination of an appendage dependent endoxylanase and xylobiohydrolase activity to produce xylobiose and xylan-derived oligosaccharides using lignocellulosic biomass material, an enriched xylan fraction thereof, or an extracted, purified xylan material as a starting material.

Provided are certain glycosyl hydrolase family 3 (GH3) beta-glucosidase enzymes engineered to acquire beta-xylosidase activities. Provided also are compositions comprising multi-functional GH3 enzymes and methods of use or industrial applications thereof.

The present invention relates to a Myceliophthora thermophila host cell which expresses a recombinant enzymes from Fusarium oxysporum with beta-xylosidase activity. The invention also refers to an enzymatic composition comprising the host cell of the invention and/or the recombinant enzyme with beta-xylosidase activity expressed by the host cell of the invention. The invention further relates to the use of the host cell of the invention, the recombinant enzyme with beta-xylosidase activity expressed by the host cell of the invention or the composition of the invention for the degradation of biomass and to a method of producing bioproducts, preferably bioethanol, which comprises the use of the host cell of the invention, the recombinant enzyme with beta-xylosidase activity expressed by the host cell of the invention or the composition of the invention.

The present invention provides process for treating crop kernels, comprising the steps of a) soaking kernels in water to produce soaked kernels; b) grinding the soaked kernels; c) treating the soaked kernels in the presence of an effective amount of an enzyme composition comprising: i) a protease, and ii) a cellulolytic composition, wherein step c) is performed before, during or after step b).

The present application provides novel polypeptides having xylanase activity and the respective nucleic acid sequences encoding those polypeptides as well as vectors comprising these nucleic acid sequences and host cells transformed by these vectors. In addition the present invention provides a method for producing these polypeptides and a composition comprising the inventive polypeptides.

The A method of modifying a glycosylation pattern of a polypeptide-of-interest in a plant or plant cell is provided. The method comprising expressing in a plant or plant cell transformed to express at least one glycosidase in a subcellular compartment, a nucleic acid sequence encoding the polypeptide-of-interest, such that the at least one glycosidase and the polypeptide-of-interest are co-localized to the subcellular compartment of the plant or plant cell, thereby modifying the glycosylation pattern of the polypeptide-of-interest in the plant or plant cell.