TH73397B - L-amino acid producing bacteria And methods for producing L-amino acids - Google Patents

Abstract

DC60 (09/11/49) L-Amino acid is produced by the culture of microorganisms in the family. Enterobacteriaceae, which has the ability to produce L-amino acids. And which have been modified to increase the expression of one or more genes selected from the evgA gene, the gadE gene, or the ydeO gene transcribed for The transcription factor involved in the EvgAS two-component regulonate was established in the medium to allow L-Amino acid production and deposition in the medium or in cells and acid storage. L-Amino from the body Middle or cell L-amino acids are produced by the culture of the family. Enterobacteriaceae, which has the ability to produce L-amino acids. And which have been modified to increase the expression of one or more genes selected from the evgA gene, the gadE gene, or the ydeO gene transcribed for The transcription factor involved in the EvgAS two-component regulonate was established in the medium to allow L-Amino acid production and deposition in the medium or in cells and acid storage. L-Amino from the body Middle or cell

Claims (3)

Disclaimer (all) which will not appear on the advertisement page. : ------ 10/08/2018 ------ (OCR) Page 3 of the number 3 Page 1. But including replacement, subtraction, insertion, filling or reversal of 1 to 20 radios of amino acids and has the function of decoding factor 1, but includes substitution, subtraction, insertion, addition or reversal of 1 to 20 radios. Of amino acids And has the function of transporting phosphate groups 1 0. One of the claim methods of items 1 to 9 where the bacteria belong to the family Enterobacteriaceae. And were selected from the group consisting of Escherichia, Enterobacter, Pantoea, Klebsiella and Serratia1 1. One of the claim methods of items 1 to 10 where L-amino acids were selected from the group that was Contains L-Lysine, L-Thireon, L-Tryptophan And a combination of them. ------------ Revised 03/04/2017 1. Methods for L-Amino acid production. It was selected from a group consisting of base amino acids, hydroxy mono-carboxylic acids, and aromatic L-amino acids. Cultured in a culture medium that bacteria of the family Enterobacteriaceae, which is capable of producing L-amino acid and which has been modified to increase the expression of Genes, which are selected from groups comprising evgA genes, gadE genes, ydeO genes, and their combinations, whereby the genes decipher the transcription factor associated with the two regulons - EvgAS constituents, where The expression of one or more of the genes was enhanced by Increasing the number of copies of each gene, alteration of the sequences that regulate the expression of such genes, or alterations of bacteria so that the expression of the evgS gene that deciphers the kinase sensor is increased by increasing the evgS gene count. Or modifying the controlled sort order EvgS gene expression and L-amino acid collection from culture media, where amino acids base were selected from the L-lysine, L-ornithine, A group. L-arginine, L-histidine and L-citrulline, where hydroxyl mono-carboxylic Asides were selected from the group. Of L-phenylalanine, L-Tyrosine and L-tryptophan 1. Under strict conditions It consists of washing at 60 ํ a salt concentration of 0.1 X SSC and 0.1% SDS, and which is decoded to form a modified protein. Functional decoding factor 1. Under strict conditions It consists of washing at 60 ํ a salt concentration of 0.1 X SSC and 0.1% SDS, and which is decoded to form a modified protein. Functional decoding factor 1. Under strict conditions It consists of washing at 60 ํ at 0.1 X SSC and 0.1% SDS salts, and which are decoded to form functional proteins. Decoding factor 1. Under strict conditions It consists of washing at 60 ํ at 0.1 X SSC and 0.1% SDS salts, and which are decoded to form functional proteins. Moves phosphate groups 1, but includes substitution, subtraction, insertion, addition or reversal of 1 to 20 amino acid reside and acting on the decoding factor 1, but Including substitution, subtraction, insertion, addition or reversal of 1 to 20 amino acid reside and function of decoding factor 1, but also in substitution, subtraction. Exit, insertion, addition, or reversal of 1 to 20 amino acid reside and function of decoding factor 1, but including substitution, subtraction, insertion, The addition or reversal of 1 to 20 amino acid reside And has the function of transporting phosphate groups 1 0. Method according to one of the claims 1 to 9 where the bacteria are in the loop Enterobacteriaceae It was selected from the genus Escherichia, Enterobacter, Pantoea, Klebsiella and Serratia 1. 1. One of the claims methods of items 1 to 10 where L-Amino acid was selected. From the group containing L-lysine, L-theraonine, L-tryptophan And a combination of them ------------------------ 1. Method for L-Amino Acid Production Consisting of culture in the medium Bacteria of the family Enterobacteriaceae They are capable of producing L-amino acids and which are modified in order to increase the amount of expression of genes selected from the group consisting of eveA genes, gadE genes, ydeO genes and their combinations. Where the genes decipher Transcription, which involved two-component regulons EvgAS, and l-amino acid storage from the intermediate 2. Method of claim 1, where expression of one or more genes was enhanced. By increasing the number of individual genes or modifying the sequencing of expression controls. 3. Claims 1 or 2 method where expression of one or more genes is denoted. By modifying bacteria so that the expression of the evgS gene transcribed to produce the kinase sensor is increased 1. or with a tracker that can be prepared from the sequence. Nucleotide arrangement under intense conditions And which are decoded to create functional proteins Decoding factor 1. Or with a tracker that can be prepared from sequence. Nucleotide arrangement under intense conditions And which are decoded to create functional proteins Decoding factor 1. Or with a tracker that can be prepared from sequence. Nucleotide arrangement under intense conditions And which are decoded to create functional proteins Decoding factor 1.3 or with a tracker that can be prepared from sequence. Nucleotide arrangement under intense conditions And which are decoded to create functional proteins Transfer of phosphate groups 8. Method according to one of the claims 1 to 3 where the evgA gene decodes the protein which Were selected from the (A) protein group consisting of the amino acid sequencing of the number 24 sequence and (B) the protein which consisted of the amino acid sequencing of the 24 number sequence, but This includes the substitution, removal, insertion, addition or reversal of one or more amino acids. Transcription factor 9. Method for any of the claims 1 to 3 where the gadE gene decodes the protein. They were selected from the (C) protein group consisting of the amino acid sequencing of the number 28 sequence, and (D) the protein which consisted of the amino acid sequence sequence of the 28 sequence. But also the substitution, removal, insertion, addition or reversal of one or more amino acids. The transcription factor 1 0. One of the claim methods of items 1 to 3 where the ydeO gene decodes the protein. It was selected from the group containing (E) proteins which consist of the amino acid sequencing of the number 30 sequences and (F) proteins which consist of the amino acid sequences of the numbering sequences. 30 but also includes the substitution, subtraction, insertion, addition or reversal of one or more amino acids. And has a function of decoding factor 1 1. One of the claim methods of 1st to 3rd where the evgS gene decodes the protein. Which was selected from the group containing (G) proteins which consist of the amino acid sequencing of the number 26 sequences and (H) proteins which consist of the amino acid sequences of the numbering sequences. 26 but also the substitution, subtraction, insertion, addition or reversal of one or more amino acids. And has the function of transporting phosphate groups 1 2. Any of the claim methods of Articles 1 through 11 where the bacteria belong to the family Enterobacteriaceae. And were selected from the genus Escherichia, Enterobacter, Pantoea, Klebsiella, and Serratia 1. 3. Method for one of the claims 1 through 12 where L-Amino acid is selected. From the group containing L-lysine, L-theraonine, L-tryptophan And a combination of them