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.

The present invention primarily relates to a process for production of one or more flavourings selected from the group consisting of non-saturated aldehydes, non-saturated lactones and organosulphuric compounds, the process comprising providing a culture medium comprising one or more components supporting growth of a fungus from the phylum Basidiomycota and being convertable to one or more flavourings selected from the group consisting of non-saturated aldehydes, non-saturated lactones and organosulfur aroma compounds; cultivating a fungus from the phylum Basidiomycota in or on the culture medium under conditions that support the growth of the fungus and formation of the one or more flavourings, and optionally recovering the one or more flavourings.

The present invention primarily relates to a process for production of one or more flavourings selected from the group consisting of non-saturated aldehydes, non-saturated lactones and organosulphuric compounds, the process comprising providing a culture medium comprising one or more components supporting growth of a fungus from the phylum Basidiomycota and being convertable to one or more flavourings selected from the group consisting of non-saturated aldehydes, non-saturated lactones and organosulfur aroma compounds; cultivating a fungus from the phylum Basidiomycota in or on the culture medium under conditions that support the growth of the fungus and formation of the one or more flavourings, and optionally recovering the one or more flavourings.

The invention relates to providing both fermentative and biotechnological methods for producing 3,4-methylized cinnamic acids, 3,4-methylized cinnamic acid esters, 3,4-dimethoxyphenethylamine, and 4-methylized cinnamic acid amides using a 4-O-methyltransferase, optionally in combination with further enzymes, wherein the enzymes are selected by means of metabolic engineering and operation have been adapted by targeted optimization, and compositions obtained by means of the method. The invention further relates to vector systems, recombinant microorganisms or fungi, and specific nucleic acid segments and polypeptides.

The invention relates to providing both fermentative and biotechnological methods for producing 3,4-methylized cinnamic acids, 3,4-methylized cinnamic acid esters, 3,4-dimethoxyphenethylamine, and 4-methylized cinnamic acid amides using a 4-O-methyltransferase, optionally in combination with further enzymes, wherein the enzymes are selected by means of metabolic engineering and operation have been adapted by targeted optimization, and compositions obtained by means of the method. The invention further relates to vector systems, recombinant microorganisms or fungi, and specific nucleic acid segments and polypeptides.

There is provided a method for producing a yeast extract containing an organic acid, especially succinic acid, at a high concentration, and further containing glutamic acid at a high concentration. There is provided such a production method comprising an organic acid generation treatment step of maintaining a suspension of cultured yeast under conditions effective for organic acid generation to increase organic acid content in the yeast; and a hot water extraction step of extracting a yeast extract from the yeast that has undergone the organic acid generation treatment step at 56 C. or higher.

There is provided a method for producing a yeast extract containing an organic acid, especially succinic acid, at a high concentration, and further containing glutamic acid at a high concentration. There is provided such a production method comprising an organic acid generation treatment step of maintaining a suspension of cultured yeast under conditions effective for organic acid generation to increase organic acid content in the yeast; and a hot water extraction step of extracting a yeast extract from the yeast that has undergone the organic acid generation treatment step at 56 C. or higher.

Disclosed is a process for preparing a flavoring composition, including the steps consisting of: (i) preparing a fermentation substrate including:a source of plant origin chosen from the group consisting of oleaginous plants, oleaginous-proteaginous plants, proteaginous plants, cereals, leguminous plants, seeds, tubers and rhizomes and/or leaves of ligneous and non-ligneous forest products and mixtures thereof, anda liquid of non-animal origin which is immiscible with a fatty phase; (ii) adding a source of fatty acid essentially of plant origin to the fermentation substrate; (iii) fermenting the mixture obtained in step (ii), wherein the mixture obtained in step (ii) is pre-inoculated with microorganisms; and (iv) recovering the flavoring composition obtained.

Disclosed is a process for preparing a flavoring composition, including the steps consisting of: (i) preparing a fermentation substrate including:a source of plant origin chosen from the group consisting of oleaginous plants, oleaginous-proteaginous plants, proteaginous plants, cereals, leguminous plants, seeds, tubers and rhizomes and/or leaves of ligneous and non-ligneous forest products and mixtures thereof, anda liquid of non-animal origin which is immiscible with a fatty phase; (ii) adding a source of fatty acid essentially of plant origin to the fermentation substrate; (iii) fermenting the mixture obtained in step (ii), wherein the mixture obtained in step (ii) is pre-inoculated with microorganisms; and (iv) recovering the flavoring composition obtained.

To provide effective use from a yeast extract residue, an excess of which is produced as a byproduct of yeast extract, or reduction in amount of the yeast extract residue. Also to obtain various useful substances. A cell wall lytic enzyme having no protease is allowed to act on a yeast extract residue, after which a heat treatment is performed at 70 to 80 C. for 10 to 20 minutes, thereby enabling separation into a fraction of primarily cell walls and a fraction of primarily protein. A yeast protein having a protein content of 60% or more is obtained from the fraction of primarily protein and, by subjecting the yeast protein to enzymatic degradation, a seasoning having a high amount of total nitrogen is obtained.