Abstract: The staling of an edible product made from dough can be retarded by adding a starch-degrading glucogenic exo-amylase of Family 13 to the dough, particularly an amylase from Thermotoga.

Abstract: Properties of starchy food products such as noodles, fried products and snack products may be improved by treating the raw materials with a lipolytic enzyme. The enzyme treatment may improve the dough handling during processing the texture, the crispiness, the mouthfeel and the appearance. The enzyme treatment may also reduce the oil content of a fried product increase the firmness and increase the bulkiness (reduce the bulk density) of a fried product. The lipolytic enzyme may have phospholipase, galactolipase and/or triacylglycerol lipase activity.

Abstract: The present invention relates to use of an anti-staling GH-61 polypeptide for preparing an edible product.

Abstract: The present invention relates to polypeptides having alpha-amylase activity and polynucleotides having a nucleotide sequence which encodes for the polypeptides. The invention also relates to a polypeptide having carbohydrate-binding affinity and polynucleotides having a nucleotide sequence which encodes for the polypeptides. The invention also relates to nucleic acid constructs, vectors, and host cells comprising the nucleic acid constructs as well as methods for producing and using the polypeptides.

Abstract: The inventors have developed a method of altering the amino acid sequence of a fungal alpha-amylase to obtain variants, and they have used the method to construct such variants. The variants may be useful for anti-staling in baked products. Accordingly, the invention provides a method of constructing fungal alpha-amylase variants based on a comparison of three-dimensional (3D) structures of the fungal alpha-amylase and a maltogenic alpha-amylase. One or both models includes a substrate. The invention also provides novel fungal alpha-amylase variants.

Abstract: The inventors have identified a xylanase from a bacterial strain of Paenibacillus pabuli and found that the xylanase can increase the shelf life of baked products. More specifically, the xylanase in combination with a maltogenic amylase further improves the softness of bread crumb without having detrimental effects on elasticity.

Abstract: The present invention relates to use of an anti-staling GH-61 polypeptide for preparing an edible product.

Abstract: The addition to dough of a combination of two lipolytic enzymes with different substrate specificities produces a synergistic effect on the dough or on a baked product made from the dough, particularly a larger loaf volume of the baked product and/or a better shape retention during baking.

Abstract: The inventors have identified amylases in fungal strains of Valsaria and found that the amylase can increase the shelf life of baked products. Particularly, the novel amylase in com-bination with a maltogenic amylase further improves the softness of bread crumb without hav-ing detrimental effects on elasticity.

Abstract: The inventors have developed a method of modifying the amino add sequence of a CGTase to obtain variants. The variants may form linear oligosaccharides as an initial product by starch hydrolysis and a reduced amount of cyclodextrin and may be useful for anti-staling in baked products. The method is based on a comparison of three-dimensional (3D) structures of the CGTase with the structure of a maltogenic alpha-amylase where one or both models includes a substrate. The invention also provides novel CGTase variants.

Abstract: The present invention relates to a polypeptide and the use thereof.

Abstract: In the production of edible products which includes a holding period for starch retrogra-dation, the addition of a xylanase to cereal-based raw materials accelerates the retrogradation and thus allows a shortening of the holding period.

Abstract: The addition to dough of a combination of two lipolytic enzymes with different substrate specificities produces a synergistic effect on the dough or on a baked product made from the dough, particularly a larger loaf volume of the baked product and/or a better shape retention during baking.

Abstract: The present invention relates to polypeptides having alpha-amylase activity and polynucleotides having a nucleotide sequence which encodes for the polypeptides. The invention also relates to a polypeptide having carbohydrate-binding affinity and polynucleotides having a nucleotide sequence which encodes for the polypeptides. The invention also relates to nucleic acid constructs, vectors, and host cells comprising the nucleic acid constructs as well as methods for producing and using the polypeptides.

Abstract: In the production of edible products which includes a holding period for starch retrogra-dation, the addition of a xylanase to cereal-based raw materials accelerates the retrogradation and thus allows a shortening of the holding period.

Abstract: The present invention relates to use of an anti-staling GH-61 polypeptide for preparing an edible product.

Abstract: Properties of starchy food products such as noodles, fried products and snack products may be improved by treating the raw materials with a lipolytic enzyme. The enzyme treatment may improve the dough handling during processing, the texture, the crispiness, the mouthfeel and the appearance. The enzyme treatment may also reduce the oil content of a fried product, increase the firmness, and increase the bulkiness (reduce the bulk density) of a fried product The lipolytic enzyme may have phospholipase, galactolipase and/or triacyl-glycerol lipase activity.

Abstract: The addition of a maltogenic alpha-amylase, an alpha-amylase or a microbial pullulanase to starch-based raw materials accelerates the retrogradation and thus allows a shortening of the holding period. A process for producing an edible product comprises mixing a maltogenic alpha-amylase, an alpha-amylase or a microbial pullulanase with raw materials comprising starch, heating so as to gelatinize the starch, cooling, holding to effect retrogradation of the starch, and heating.

Abstract: The present invention relates to methods for preparing a dough, comprising incorporating into the dough a composition comprising an effective amount of a lipase which improves one or more properties of the dough or a baked product obtained from the dough. The present invention also relates to methods for preparing a baked product. The present invention also relates to compositions comprising an effective amount of such a lipase for improving one or more properties of a dough and/or a baked product obtained from the dough. The present invention further relates to doughs or baked products and to pre-mixes for a dough.

Abstract: The present invention relates to methods for preparing a dough, comprising incorporating into the dough a composition comprising an effective amount of a lipase which improves one or more properties of the dough or a baked product obtained from the dough. The present invention also relates to methods for preparing a baked product. The present invention also relates to compositions comprising an effective amount of such a lipase for improving one or more properties of a dough and/or a baked product obtained from the dough. The present invention further relates to doughs or baked products and to pre-mixes for a dough.