A method is described for producing an L-amino acid including the steps of cultivating in a culture medium an L-amino acid-producing bacterium belonging to the family Enterobacteriaceae to produce and accumulate the L-amino acid in the culture medium, cells of the bacterium, or both, and collecting the L-amino acid from the culture medium, the cells, or both, wherein said bacterium has been modified to overexpress a gene encoding a periplasmic adaptor protein.

The present invention provides a method for producing an L-amino acid such as a branched-chain L-amino acid by fermentation using a bacterium of the family Enterobacteriaceae, particularly a bacterium belonging to the genus Escherichia, which has been modified to attenuate expression of the gshA gene.

The present invention provides a method for producing an L-amino acid such as a branched-chain L-amino acid by fermentation using a bacterium of the family Enterobacteriaceae, particularly a bacterium belonging to the genus Escherichia, which has been modified to attenuate expression of the gshA gene.

Provided are a mutant of a Corynebacterium glutamicum glutamate dehydrogenase gene promoter and applications thereof. The mutant has improved promoter activity compared to a wild-type promoter. Hence, it can be used to enhance the expression of a target gene, for example, operably ligating the mutant with a glutamate dehydrogenase gene, and the expression intensity of the glutamate dehydrogenase can be enhanced, thereby improving the amino acid production efficiency of a recombinant strain.

Provided are a mutant of a Corynebacterium glutamicum glutamate dehydrogenase gene promoter and applications thereof. The mutant has improved promoter activity compared to a wild-type promoter. Hence, it can be used to enhance the expression of a target gene, for example, operably ligating the mutant with a glutamate dehydrogenase gene, and the expression intensity of the glutamate dehydrogenase can be enhanced, thereby improving the amino acid production efficiency of a recombinant strain.

The present invention discloses a lithium organic acid-amino acid salt. A lithium organic acid is one or more of lithium isobutyrate, lithium n-butyrate, lithium lactate, lithium citrate or lithium cholesterol; an amino acid is one of L-proline, valine, lysine or artificially synthetic amino acids; and the lithium organic acid-amino acid salt is a salt formed by the lithium organic acid and the amino acid. The present invention further discloses a crystal form, a preparation method and an application of the salt. The lithium organic acid-amino acid salt of the present invention has a positive curative effect and a preventive effect on recurrent episodes of mania and depression in bipolar disorder, and can delay degenerative changes of the central nervous system to realize better distribution in the central nervous system.

The present invention discloses a lithium organic acid-amino acid salt. A lithium organic acid is one or more of lithium isobutyrate, lithium n-butyrate, lithium lactate, lithium citrate or lithium cholesterol; an amino acid is one of L-proline, valine, lysine or artificially synthetic amino acids; and the lithium organic acid-amino acid salt is a salt formed by the lithium organic acid and the amino acid. The present invention further discloses a crystal form, a preparation method and an application of the salt. The lithium organic acid-amino acid salt of the present invention has a positive curative effect and a preventive effect on recurrent episodes of mania and depression in bipolar disorder, and can delay degenerative changes of the central nervous system to realize better distribution in the central nervous system.

An object of the present invention is to provide a method of industrially producing a high-purity L-cyclic amino acid more inexpensively and with a high efficiency, from a cyclic amino acid having a double bond at the 1-position. The present invention provides a method in which an L-cyclic amino acid is produced by allowing a cyclic amino acid having a double bond at the 1-position to react with a specific enzyme having a catalytic ability to reduce a cyclic amino acid having a double bond at the 1-position to produce an L-cyclic amino acid.

The present invention relates to methods of providing a biomass residuum and compositions thereof. In particular examples, the biomass residuum includes one or more high value amino acids, even after removal of mixed alcohol components. In particular, the methods include implementing pre-treatment conditions and employing fermentation conditions including modified organisms.

The present invention relates to methods of providing a biomass residuum and compositions thereof. In particular examples, the biomass residuum includes one or more high value amino acids, even after removal of mixed alcohol components. In particular, the methods include implementing pre-treatment conditions and employing fermentation conditions including modified organisms.