Disclosed are compositions and methods relating to variant α-amylases. The variant α-amylases are useful, for example, for starch liquefaction and saccharification, cleaning starchy stains, textile desizing, baking and brewing.

A method for treating a neurodegenerative disease is provided. The method for treating a neurodegenerative disease includes administering, to a subject in need thereof, one or more of a small molecule glycogen synthase (GYS) inhibitor, an antisense oligonucleotide targeting glycogen synthase, an antibody-enzyme fusion compound targeting polyglucosan bodies (PGBs), or combinations thereof.

The present invention relates to polypeptide having alpha-amylase activity. The present invention also relates to polynucleotides encoding the polypeptides; nucleic acid constructs, vectors, and host cells comprising the polynucleotides; and methods of using the polypeptides.

Disclosed is a method for producing hyaluronidase or a variant thereof. Specifically, the method is capable of changing the N-glycan levels under culture conditions including a controlled concentration of glucose in the culture medium and a decreased culture temperature for a specific culture time period, thereby increasing the specific activity by 10% or more and improving the quality and production yield.

The present invention relates to a method of making glucose syrup from liquefied starch comprising, (a) contacting the liquefied starch with a glucoamylase, a pullulanase, and optionally an alpha-amylase wherein the ratio of pullulanase dose expressed as NPUN/gDS, to alpha-amylase dose expressed as FAU(A)/gDS is at least 60, particularly at least 75, particularly at least 100, more particularly at least 150, more particularly at least 200, more particularly at least 250, more particularly at least 300, more particularly at least 400, more particularly at least 500, more particularly at least 600, more particularly at least 800 or if no alpha-amylase is present the pullulanse is present in a dose of at least 0.5, particularly at least 0.75, particularly at least 1.0, particularly at least 1.5 NPUN/gDS, and (b) saccharifying the liquefied starch.

The present invention provides compositions and methods of use pertaining to rAAV-mediated delivery of therapeutically effective molecules for treatment of diseases such as Pompe disease. These compositions in combination with various routes and methods of administration result in targeted expression of therapeutic molecules in specific organs, tissues and cells.

Disclosed is a modified bacterial hyaluronidase polypeptide, a production process thereof, and a pharmaceutical composition containing the modified bacterial hyaluronidase polypeptide, and its uses.

Described is a method for reducing the amount of thermostable α-amylase required for starch liquefaction performed under low sodium conditions by supplementing liquefaction with a thermostable phytase.

The present invention provides further improved compositions and methods for efficient lysosomal targeting based on the GILT technology. Among other things, the present invention provides methods and compositions for targeting lysosomal enzymes to lysosomes using furin-resistant lysosomal targeting peptides. The present invention also provides methods and compositions for targeting lysosomal enzymes to lysosomes using a lysosomal targeting peptide that has reduced or diminished binding affinity for the insulin receptor.

The present application provides for compositions comprising high concentrations of acid α-glucosidase in combination with an active site-specific chaperone for the acid α-glucosidase, and methods for treating Pompe disease in a subject in need thereof, that includes a method of administering to the subject such compositions. The present application also provides methods for increasing the in vitro and in vivo stability of an acid α-glucosidase enzyme formulation.