Provided herein are compositions and methods for production of organic acids. In particular, provided herein are consolidated bioprocessing compositions and methods for single reactor production of organic acids.

The present disclosure relates to novel fructose-C4-epimerase and a method of preparing tagatose using the same.

The present disclosure relates to novel fructose-C4-epimerase and a method of preparing tagatose using the same.

The invention relates to a metabolic enzyme-disrupted aerobic strain and a method for culturing the strain. The present invention provides, for example, a culture comprising a culture medium that has been cultured under an aerobic condition, wherein the culture medium contains an aerobe, wherein the aerobe has a disrupted gene encoding a metabolic enzyme of glycolysis selected from the group consisting of the metabolic enzymes of glycolysis except hexokinase, thereby suppressing metabolism from a carbon source (e.g., glucose) to the TCA cycle in the aerobe.

The invention relates to a metabolic enzyme-disrupted aerobic strain and a method for culturing the strain. The present invention provides, for example, a culture comprising a culture medium that has been cultured under an aerobic condition, wherein the culture medium contains an aerobe, wherein the aerobe has a disrupted gene encoding a metabolic enzyme of glycolysis selected from the group consisting of the metabolic enzymes of glycolysis except hexokinase, thereby suppressing metabolism from a carbon source (e.g., glucose) to the TCA cycle in the aerobe.

The present disclosure relates to an epimerase protein of fructose-6-phosphate, nucleic acid molecule encoding the epimerase protein, a recombinant vector and a transgenic microorganism which comprise the nucleic acid molecule, and a composition for producing allulose by using them.

The present disclosure relates to an epimerase protein of fructose-6-phosphate, nucleic acid molecule encoding the epimerase protein, a recombinant vector and a transgenic microorganism which comprise the nucleic acid molecule, and a composition for producing allulose by using them.

The invention relates to a method and an apparatus for treating plant based raw material with an enzymatic hydrolysis, in which the plant based raw material (1) is treated to form lignocellulosic material (3a,3b) and the lignocellulosic material (3a,3b) or its fraction (10) is conducted into the enzymatic hydrolysis (4), wherein the method comprises at least one treatment stage (2a,2b,2c) in which the plant based raw material (1) is treated so that the lignocellulosic material (3a,3b) contains over 80% fine solid particles which are fiber-like or indefinable particles smaller than 0.2 mm, defined by an optical measurement device, the lignocellulosic material (3a,3b) or at least one fraction (10) of the lignocellulosic material is supplied into the enzymatic hydrolysis (4) for forming a lignin based material (5), and at least one solid-liquid separation stage (6) after the enzymatic hydrolysis (4) in which a lignin fraction (7) and a soluble carbohydrate containing fraction (8) are separated. Further, the invention relates to the soluble carbohydrate containing fraction, the lignin fraction, the lignin based material, the liquid fraction and the solid fraction, and their uses.

The invention relates to a method and an apparatus for treating plant based raw material with an enzymatic hydrolysis, in which the plant based raw material (1) is treated to form lignocellulosic material (3a,3b) and the lignocellulosic material (3a,3b) or its fraction (10) is conducted into the enzymatic hydrolysis (4), wherein the method comprises at least one treatment stage (2a,2b,2c) in which the plant based raw material (1) is treated so that the lignocellulosic material (3a,3b) contains over 80% fine solid particles which are fiber-like or indefinable particles smaller than 0.2 mm, defined by an optical measurement device, the lignocellulosic material (3a,3b) or at least one fraction (10) of the lignocellulosic material is supplied into the enzymatic hydrolysis (4) for forming a lignin based material (5), and at least one solid-liquid separation stage (6) after the enzymatic hydrolysis (4) in which a lignin fraction (7) and a soluble carbohydrate containing fraction (8) are separated. Further, the invention relates to the soluble carbohydrate containing fraction, the lignin fraction, the lignin based material, the liquid fraction and the solid fraction, and their uses.

An improved dry grind system and method for producing a sugar stream from grains or similar carbohydrate sources and/or residues, such as for biochemical production. In particular, after saccharification and prior to a sugar conversion process, a sugar/carbohydrate stream is removed from a saccharified stream. The sugar/carbohydrate stream includes a desired Dextrose Equivalent (DE) where DE describes the degree of conversion of starch to dextrose can be produced, with the such sugar stream being available for biochemical production, e.g., alcohol production, or other processes. In addition, the systems and methods also can involve the removal of certain grain components, e.g., corn kernel components, including protein and/or fiber. Sugar stream production occurs on the front end of the system and method.