A blending system for amino acid nitrogen value adjustment for soy sauce, comprising: a first soy-sauce tank configured to receive first extracted soy sauce and provided with a first circulation loop, and a second soy-sauce tank configured to receive second extracted soy sauce and provided with a second circulation loop; wherein, each of the first circulation loop and the second circulation loop is provided with an ammonia-nitrogen-value detection apparatus, and each of the first soy-sauce tank and the second soy-sauce tank is provided with an output tube with an output control valve connected to the amino acid nitrogen value detection apparatus, the output tubes of the first soy-sauce tank and the second soy-sauce tank are jointed and connected to a tube mixer. The blending system of the invention is fully-automatic and intelligent, resulting in improved production efficiency.

A method for producing an objective substance such as vanillin and vanillic acid is provided. An objective substance is produced from a carbon source or a precursor of the objective substance by using a microorganism having an objective substance-producing ability, which microorganism has been modified so that the activity of S-adenosyl-L-homocysteine hydrolase is increased.

Hot sauces are disclosed that contain capsaicin, ethyl alcohol and solids. The hot sauces may be in the form of a suspension and may be at least 1,000 SHU on the Scoville scale. The suspension may also be between 16 and 65% alcohol by volume.

Hot sauces are disclosed that contain capsaicin, ethyl alcohol and solids. The hot sauces may be in the form of a suspension and may be at least 1,000 SHU on the Scoville scale. The suspension may also be between 16 and 65% alcohol by volume.

A method of processing is disclosed that provides improved water retention and enhanced coloring and flavor, while preserving the meat and preventing bacterial contamination. In an exemplary embodiment, the method includes: (a) providing a body of meat at a first temperature; (b) contacting the body of meat of step (a), in at least one treating vessel, with a brine solution at a second temperature, wherein the second temperature is greater than the first temperature, and wherein the brine solution comprises a vinegar-derived food additive and/or a reddening agent, wherein the reddening agent comprises nitrite; (c) agitating the body of meat at the second temperature for a time sufficient to distribute the solution throughout the body of meat; (d) cooling the body of meat in at least one cooling vessel to a third temperature, wherein the third temperature is less than the second temperature; (e) agitating the body of meat at the third temperature; (f) contacting the body of meat of step (e) with the brine solution at the third temperature and agitating the body of meat at the third temperature until the brine solution is substantially absorbed by the body of meat; and (g) recovering the body of meat in a dry state at the third temperature.

In one embodiment, the aforementioned brine solution comprises a vinegar-variety food additive, such as a vinegar-derived acetate composition. In another embodiment, the reddening agent comprises nitrate derived from plant material comprising nitrate.

An object of the present invention is to obtain Koji having an enzyme titer equal to or higher than that based on conventional methods without contamination of putrefactive bacteria within 30 hours which is a very short Koji production time.

The present invention provides a method for producing Koji for brewed foods, including the steps of: (1) obtaining pre-cultured seed Koji by pre-culturing Koji mold using a culture material with 500 g/L or less of bulk specific gravity, and (2) performing Koji production for 18 to 30 hours after inoculating the pre-cultured seed Koji into a protein raw material and/or a carbohydrate raw material.

An object of the present invention is to obtain Koji having an enzyme titer equal to or higher than that based on conventional methods without contamination of putrefactive bacteria within 30 hours which is a very short Koji production time.

The present invention provides a method for producing Koji for brewed foods, including the steps of: (1) obtaining pre-cultured seed Koji by pre-culturing Koji mold using a culture material with 500 g/L or less of bulk specific gravity, and (2) performing Koji production for 18 to 30 hours after inoculating the pre-cultured seed Koji into a protein raw material and/or a carbohydrate raw material.

A fermentation of a milk source to manufacture a fermented milk product with malty-chocolate-honey-butter-cream flavor and aroma. Fermentation is achieved by addition of adding a Lactococcus lactis subsp. lactis diacetylactis (CNCM No. I-4404) or a Lactococcus lactis subsp. lactis diacetylactis (CNCM No. I-4405) A further bacteria Lactococcus lactis subsp. lactis biovar is also added to the milk source. The milk source comprises amino acids and citrate prior to fermentation.

Provided herein is a process for increasing the dissolution rate of a sparingly water soluble flavor or taste modifying compound in water comprising: a. mixing the compound and a highly water soluble second compound in a water based solution to form a solution or dispersion of the compound; and b. drying the solution or dispersion to form a solution or solid dispersion of the compound wherein the compound has an increased dissolution rate in water as compared to the compound when dissolved in water alone.

A method of processing is disclosed that provides improved water retention and enhanced coloring and flavor, while preserving the meat and preventing bacterial contamination. In an exemplary embodiment, the method includes: (a) providing a body of meat at a first temperature; (b) contacting the body of meat of step (a), in at least one treating vessel, with a brine solution at a second temperature, wherein the second temperature is greater than the first temperature, and wherein the brine solution comprises a vinegar-derived food additive and/or a reddening agent, wherein the reddening agent comprises nitrite; (c) agitating the body of meat at the second temperature for a time sufficient to distribute the solution throughout the body of meat; (d) cooling the body of meat in at least one cooling vessel to a third temperature, wherein the third temperature is less than the second temperature; (e) agitating the body of meat at the third temperature; (f) contacting the body of meat of step (e) with the brine solution at the third temperature and agitating the body of meat at the third temperature until the brine solution is substantially absorbed by the body of meat; and (g) recovering the body of meat in a dry state at the third temperature. In one embodiment, the aforementioned brine solution comprises a vinegar-variety food additive, such as a vinegar-derived acetate composition. In another embodiment, the reddening agent comprises nitrate derived from plant material comprising nitrate.