A process for producing maltitol includes at least: producing a maltose syrup, by hydrolysis of a granular starch, in a first stage of liquefaction of granular starch to form a liquefied starch, followed by a stage of saccharification of the liquefied starch to which an aqueous solution of beta-amylase has been added, to form the maltose syrup; hydrogenating the maltose syrup to form an aqueous maltitol composition; and recovering the maltitol composition. The aqueous solution of beta-amylase also includes potassium sorbate, glycerol, and sodium carbonate.

A process for producing maltitol includes at least: producing a maltose syrup, by hydrolysis of a granular starch, in a first stage of liquefaction of granular starch to form a liquefied starch, followed by a stage of saccharification of the liquefied starch to which an aqueous solution of beta-amylase has been added, to form the maltose syrup; hydrogenating the maltose syrup to form an aqueous maltitol composition; and recovering the maltitol composition. The aqueous solution of beta-amylase also includes potassium sorbate, glycerol, and sodium carbonate.

The present invention relates to a method for producing a food product comprising hydrolysed starch, as well as to products obtainable by the method. The method has the advantage of reducing the amount of sugar (i.e. maltose) produced by hydrolysis as compared to conventional methods of starch hydrolysis and present the additional advantage of providing good processability for the food product.

The present invention relates to a method for producing a food product comprising hydrolysed starch, as well as to products obtainable by the method. The method has the advantage of increasing the amount of sugar (i.e. maltose) produced by hydrolysis as compared to conventional methods of starch hydrolysis and present the additional advantage of providing good processability for the food product.

A material pretreatment method using low-temperature extrusion and multienzyme synergistic degradation. A to-be-extruded material added with enzyme preparations and having a certain moisture content is blended before extrusion, the to-be-extruded material is fed into a screw extrusion device and is to be subjected to low-temperature extrusion treatment, multiple enzyme preparations are added in the material before extrusion, and starch, cellulose, protein and other substances in the material are degraded under the synergistic effect of the added multiple enzyme preparations in an extrusion process. Compared with the prior art, the yield of glucose and maltose converted from starch is improved, the residual oil rate of oil material meals is reduced, soluble substances of plant fiber materials are increased, and compared with the process of the traditional technology, the time needed in converting a protein material into a polypeptide material is shortened.

A material pretreatment method using low-temperature extrusion and multienzyme synergistic degradation. A to-be-extruded material added with enzyme preparations and having a certain moisture content is blended before extrusion, the to-be-extruded material is fed into a screw extrusion device and is to be subjected to low-temperature extrusion treatment, multiple enzyme preparations are added in the material before extrusion, and starch, cellulose, protein and other substances in the material are degraded under the synergistic effect of the added multiple enzyme preparations in an extrusion process. Compared with the prior art, the yield of glucose and maltose converted from starch is improved, the residual oil rate of oil material meals is reduced, soluble substances of plant fiber materials are increased, and compared with the process of the traditional technology, the time needed in converting a protein material into a polypeptide material is shortened.

The present disclosure relates to polypeptides having alpha-glucosidase activity isolated, derived or derivable from Rasamsonia or engineered polypeptides having alpha-glucosidase activity isolated, derived or derivable from Rasamsonia homologs. The present disclosure also pertains to polynucleotides encoding the polypeptides, nucleic acid constructs, vectors, host cells and mutant cells comprising the polynucleotides. The disclosure further pertains to compositions comprising such polypeptides, methods of producing the polypeptides and compositions, as well as methods for using such polypeptides and compositions for industrial applications.

The present disclosure relates to polypeptides having alpha-glucosidase activity isolated, derived or derivable from Rasamsonia or engineered polypeptides having alpha-glucosidase activity isolated, derived or derivable from Rasamsonia homologs. The present disclosure also pertains to polynucleotides encoding the polypeptides, nucleic acid constructs, vectors, host cells and mutant cells comprising the polynucleotides. The disclosure further pertains to compositions comprising such polypeptides, methods of producing the polypeptides and compositions, as well as methods for using such polypeptides and compositions for industrial applications.

The present invention relates to a process for the liquefaction of starch present in a starch slurry comprising degraded starch and having a DE of from 0.05 to 9. Preferably, the invention relates to a process for the liquefaction of starch present in a starch slurry comprising degraded starch, said starch slurry having a high dry substance. Further preferably, the invention relates to a continuous process for liquefaction of starch present in a starch slurry comprising degraded starch and having a high dry substance.

The present invention relates to a process for the liquefaction of starch present in a starch slurry comprising degraded starch and having a DE of from 0.05 to 9. Preferably, the invention relates to a process for the liquefaction of starch present in a starch slurry comprising degraded starch, said starch slurry having a high dry substance. Further preferably, the invention relates to a continuous process for liquefaction of starch present in a starch slurry comprising degraded starch and having a high dry substance.