A process of hydrolyzing a pectin. The process involves hydrolyzing a pectin in a reaction mixture containing a pectinase to obtain a hydrolyzed pectin. Also disclosed are flavor compositions and consumer products having the hydrolyzed pectin.

A process of hydrolyzing a pectin. The process involves hydrolyzing a pectin in a reaction mixture containing a pectinase to obtain a hydrolyzed pectin. Also disclosed are flavor compositions and consumer products having the hydrolyzed pectin.

A method of making a flavoured sweetener or food product by incubating an unrefined plant extract containing sucrose as the main solute with a microorganism or microorganisms to form a modified unrefined plant extract; evaporating water from the modified sucrose-based plant extract to form a concentrate; and cooking the concentrate to develop colour and flavour to produce the flavoured sweetener is disclosed. The flavoured sweetener can serve as a coconut sugar substitute. In a preferred embodiment the unrefined plant extract comprises sugarcane juice or sugar beet juice, and the microorganisms may be selected from Stenotrophomonas maltophilia, Bacillus subtilis, Bacillus flexus, or a Klyveromyces species. The flavoured sweetener can be used to make a range of food and beverage ingredients and also food products including sauces, natural flavour extracts and flavour molecules, chocolate, health foods and convenience forms of the various forms of flavoured sweeteners.

A method of making a flavoured sweetener or food product by incubating an unrefined plant extract containing sucrose as the main solute with a microorganism or microorganisms to form a modified unrefined plant extract; evaporating water from the modified sucrose-based plant extract to form a concentrate; and cooking the concentrate to develop colour and flavour to produce the flavoured sweetener is disclosed. The flavoured sweetener can serve as a coconut sugar substitute. In a preferred embodiment the unrefined plant extract comprises sugarcane juice or sugar beet juice, and the microorganisms may be selected from Stenotrophomonas maltophilia, Bacillus subtilis, Bacillus flexus, or a Klyveromyces species. The flavoured sweetener can be used to make a range of food and beverage ingredients and also food products including sauces, natural flavour extracts and flavour molecules, chocolate, health foods and convenience forms of the various forms of flavoured sweeteners.

The present invention relates to a food having improved flavor, nutrition and color and a method for producing the same, and more specifically, to a food having a flavor, nutrition and color similar to those of meat, the food containing either a compound selected from the group consisting of heme, porphyrins, metalloporphyrins, and porphyrin analogs, or a microorganism that produces the compound, and a method for producing the same. According to the present invention, it is possible to improve the flavor, nutrition, and color of food by producing heme and various porphyrins, metalloporphyrins, and porphyrin analogs with high efficiency by fermentation of a microbial mutant, isolating/purifying the products, and adding the isolated/purified products to food.

The present invention relates to a food having improved flavor, nutrition and color and a method for producing the same, and more specifically, to a food having a flavor, nutrition and color similar to those of meat, the food containing either a compound selected from the group consisting of heme, porphyrins, metalloporphyrins, and porphyrin analogs, or a microorganism that produces the compound, and a method for producing the same. According to the present invention, it is possible to improve the flavor, nutrition, and color of food by producing heme and various porphyrins, metalloporphyrins, and porphyrin analogs with high efficiency by fermentation of a microbial mutant, isolating/purifying the products, and adding the isolated/purified products to food.

The present invention addresses a problem of providing a lipase derived from a microorganism that is specific for short-chain to medium-chain fatty acids. A modified lipase is obtained by making a substitution in the amino acid sequence of a Candida cylindracea derived lipase, wherein the substitution is (1) a substitution of asparagine for an amino acid corresponding to the amino acid at position 428 in the amino acid sequence set forth in SEQ ID NO: 1; or (2) a substitution of phenylalanine, methionine, or isoleucine for an amino acid corresponding to the amino acid at position 429 in the amino acid sequence set forth in SEQ ID NO: 1.

The patent discloses halophilic bacteria and a method for fermenting fish paste, belonging to the technical field of solid-state fermentation of aquatic products using microorganisms. Four kinds of screened halophilic bacteria were used as mixed starter culture to produce fish paste. The effects of the ratio of mixed starter culture, inoculation amount, fermentation temperature, fermentation time and salinity on fish paste were studied by determining physical and chemical indexes and performing sensory evaluation. The fish paste has the characteristics of high safety, low salinity, high flavor and nutrition value. This method of fish paste processing needs short fermentation time. The fermented products of fish paste with better flavor can be obtained by using the mixed starter culture.

The patent discloses halophilic bacteria and a method for fermenting fish paste, belonging to the technical field of solid-state fermentation of aquatic products using microorganisms. Four kinds of screened halophilic bacteria were used as mixed starter culture to produce fish paste. The effects of the ratio of mixed starter culture, inoculation amount, fermentation temperature, fermentation time and salinity on fish paste were studied by determining physical and chemical indexes and performing sensory evaluation. The fish paste has the characteristics of high safety, low salinity, high flavor and nutrition value. This method of fish paste processing needs short fermentation time. The fermented products of fish paste with better flavor can be obtained by using the mixed starter culture.

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.