TH50649B - Microorganisms that produce L-amino acids and methods for producing L-amino acids. - Google Patents

Abstract

DC60 (17/04/51) This invention offers microbes for producing L-amino acids by cultivating the family microbes. Bacteria in the intestine Enterobacteriaceae Which has the ability to produce L amino acid and was improved in the kdp system to be stronger With culture food Then the amino acid L amino acid is synthesized and accumulated in that culture medium or in microbial cells. The L-amino acid was harvested from the culture medium or the microorganisms of the microorganisms. Bacteria in the intestine Enterobacteriaceae Which has the ability to produce L amino acid and was improved in the kdp system to be stronger With culture food And to sequester and accumulate L amino acids that culture media or in microbial cells And harvesting L-amino acids from that culture medium or microorganism cells

Claims (7)

Disclaimer (all) which will not appear on the advertisement page: EDIT 20/11/2015 1. Method for producing L amino acid, which has a specific characteristics for culturing microorganisms in the enterobacteriaceae family of bacteria. The production of L amino acids was improved and the kdp system was improved with more strength. This causes the L amino acid to be produced and deposited in the culture medium or in the organism, and the L amino acid recovered from the culture medium or the organism, which is the way the kdp system is intensified. By increasing the expression of kdp, pooperon or kdpA, kdpB and kdpC genes, and / or Provides an increase in the amount of translations of the kdp, opon, or kdpA genes, kdpB genes, and kdpC genes. The kdp opera, at least, consists of the kdpA gene, the kdpB gene, and the kdpC gene. 2 or 8, or subunit A of the kdp system with an amino acid sequence in which 1 or more amino acids 2 or 8 are chopped on, missing, inserted, or Add the A subunit to the kdp system, which is ATpase, or P, along with the B subunit and the C subunit of the kdp system. Or 9 or the B subunit of the kdp system which contains an amino acid sequence in which one or more amino acids of the 2nd or 9th order are changed, missing, inserted or added to which the B subunit constitutes the system. kdp, which is ATpase or P, in conjunction with the A and C subunits of the kdp system.The kdpC gene is a gene that processes a protein code with an amino acid sequence listed in the 4th or 10th order, or the C subunit of the kdp system. Is there an amino acid sequence in which one or more amino acids are in the number 4 or E10 There is an alteration on the missing, insertion, or addition of the C subunit constituting the kdp system, which is ATpase or P with subunit A and subunit B of the kdp system. 2. The method stated in claim 1, which The kdp system was hardened. By increasing the number of sets of kdp, opon or kdpA genes, kdpB genes, and genes or expression control sequences. 3. Method states in claim 1 or 2. The kdp opera is the DNA specified in (a) ~ (d) one of the following (a) sequential DNA. The 546 ~ 4871 bases shown in the No. 1 sequence are included (b) DNA, which is identical to the 546 ~ 4871 sequences displayed in the No. 1 sequence of 90% and above, and the kdp system code, ATPase. Type P (c) DNA with the 543 ~ 4853 sequence displayed in the seventh sequence is included (d) DNA, which is the same as the 543 ~ 4853 sequence shown for the number 1 at 90% or more. Go and process the code of the kdp system, type P ATPase 4. Method specified in one of the claims 1 ~ 3, item 1, where L is an L amino acid, one or two types of amino acids. Selected from a group containing L glutamic acid, L lysine, L threonine, L arginine, L histkidine, L isoleucine, L valine, L leucine, L phenylalan. Nene, L, tyrosine, L, tryptophan, and L cysteine 5. How to identify in one of the claims 1 ~ 4 of one item that microorganisms in the gut bacteria class Enterobacteriaceae Such are the bacteria in genus Escherrichia genus Enterobacter or Pantoea 6. How to identify in claim 5, which microbes in the gut bacteria family. Enterobacteriaceae is Escherichia coli 7. Method of identification in claim 5 that the microorganisms in the gut bacteria. Such Enterobacteriaceae is Pantoea ananatis -------------------------------------------- -------------- Edit 28/10/2015 1. Method for producing L amino acid, which has a specific characteristics for culturing microorganisms in the gut bacteria family Enterobacteriaceae. The production of L amino acids was improved and the kdp system was improved with more strength. This causes the L amino acid to be produced and deposited in the culture medium or in the organism, and the L amino acid recovered from the culture medium or the organism, which is the way the kdp system is intensified. By increasing the expression of kdp, pooperon or kdpA, kdpB and kdpC genes, and / or Provides an increase in the amount of translations of the kdp, opon, or kdpA genes, kdpB genes, and kdpC genes. The kdp opera, at least, consists of the kdpA gene, the kdpB gene, and the kdpC gene. 2 or 8, or subunit A of the kdp system with an amino acid sequence in which 1 or more amino acids 2 or 8 are chopped on, missing, inserted, or Add the A subunit to the kdp system, which is ATpase, or P, along with the B subunit and the C subunit of the kdp system. Or 9 or the B subunit of the kdp system which contains an amino acid sequence in which one or more of the amino acids 2 or 9 are chopped on, missing, inserted or added to such subunits. This constitutes the kdp system, which is ATpase, or P, along with the A and C subunits of the kdp system. The kdpC gene is a gene that processes the protein code with the amino acid sequence represented in the 4th or 10th order of the Kdp system which has an amino acid sequence in which 1 or more amino acids are number 4 or E10 There is an upper, missing, insertion, or addition interruption that the C subunit makes up the kdp system, which is ATpase or P, together with the A and B subunits of the kdp system. 2. The method indicated in claim 1 that the kdp system was more hardened. By increasing the number of sets of kdp, opon or kdpA genes, kdpB genes, and genes or expression control sequences. Of that opera 3. The method stated in claim 1 or 2, where the kdp opera is the DNA specified in (a) ~ (d) one of the following (a) 546th-sequenced DNA. The ~ 4871 shown in the No. 1 sequence is included (b) DNA, which is identical to the 546 ~ 4871 sequence shown in the No. 1 sequence of 90% or more, and processes the kdp system code, an ATPase type P (c. ) DNA with the 543 ~ 4853 sequence displayed in the seventh sequence is included (d) DNA, which is identical to the 543 ~ 4853 sequence shown in the 1 sequence of 90% or more, and processes the code. Kdp system which is type P ATPase 4. Method indicated in Claims 1 ~ 3, any number 1, where L is the amino acid L, 1 or 2 types of amino acids, selected from the group containing L glutamic acid. L Lysine L Threonine L Arginine L Hyskidine L Isoleucine L Valine L Leucine L Phenylalanine L Tyrosine L Trypto Boyfriend and L Systeine 5. How to specify in Claim 1 ~ 4, any one item number 1 that the microorganisms in the intestinal bacteria class Enterobacteriaceae Such are the bacteria in the genus Escherrichia genus Enterobacter or Pantoea. 6. Method of identification in claim 5, which microorganisms in the gut bacteria family Such Enterobacteriaceae is Escherichia coli. 7. How to identify in claim 5, which microorganisms in the gut bacteria class Such Enterobacteriaceae is Pantoea ananatis -------------------------------------------- - 1 microorganisms belonging to the bacterial family in the intestine Enterobacteriaceae That has been improved to contain The ability to produce L amino acids and the kdp system was increased by 2 microorganisms identified in claim 1 at the expression of the kdp, opera or Chinese constituents. Of the same opera, 1 Chinese or more than 2 Chinese have soared and / or the kdp system has made more strength. As a result of the increased translational quantities of the kdp opera or Chinese listed above, 3 microorganisms identified in claim 2 at the Chinese number of kdp opera or Chinese constituents were added. The number of the same opera, 1 or more, 2 Chinese, is higher and the kdp system is intensified by enhancing the sequence control of the expression of this opera 4, the microorganisms identified in claim 2 or 3 at kdp. At least China kdpA, Chinese kdpB, and China kdpC are included. The five microorganisms identified in claim 4, where kdpA is the Chinese coded protein with the amino acid sequence The amino acid sequence 2 or 8 is represented in the 2 or 8 subunits or the A subunit of the kdp system with the amino acid sequence represented in the 2 or 8 sequence, with either one or a few amino acids or a few 6 microorganisms changed, lost, inserted or added. As stated in claim 4 or 5 in China, the kdpB is the Chinese coded sequence protein. Amino acids listed in the 3 or 9 order, or the B subunit of the kdp system with the amino acid sequence. The amino acids listed in numbers 3 or 9 are either transformed, lost, inserted or added to 1 or a few amino acids. 7 Microbes identified in one of the 4 ~ 6 claims China kdpC is Chinese. Available protein code The amino acid sequence listed in the 4th or 10th order or the C subunit of the kdp system where the amino acid sequence 4 or 10 is changed, lost, inserted or added to amino acid 1, or Few of the 8 microorganisms listed in any of the 4 ~ 7 claims at the previously specified kdp opera are the DNA specified in (a) ~ (d) one of the following ( a) DNA with the 546 ~ 4871 sequence represented in the No. 1 sequence, (b) the DNA that is hybridized under strict conditions with the 546 ~ 487 sequence shown in the No. 1 sequence. Or a tracker prepared from the same base sequence The kdp (c) DNA system code with the 543 ~ 4853 sequence represented in the seventh sequence is included (d) DNA that is hybridized under strict conditions to the 543 ~ 4853 sequence. Shown in the 7th number sequence or a tracer prepared from the same base sequence. And process the kdp 9 system code. One or more microorganisms specified in claim 1 ~ 8 where L amino acid previously identified is L. One or more 2 amino acids were selected from the group containing L Glutamic acid L Lysine L Threonine L Arginine L Hastidine L Isoleucine L Valine L Leucine L Phenylalanine L Tyrosine L Tryptophan and L cysteine 10 One of the microorganisms listed in Claim 1 ~ 8 that the microorganisms in the bacterial family of Enterobacteriaceae The previously identified bacteria are genus Escherichia genus Enterobacter or genus Pantoea 11, the production method of L amino acids, with the strength of cultivating one of the microorganisms specified in Claim 1 ~ 10 with the culture medium. Then to synthesize and accumulate L amino acids in the culture medium or In microbial cells The L-amino acid was harvested from that culture medium or the 12 microbial cells identified in claim 11, where the previously identified amino acids were L one or more of the 2 amino acids selected. From L glutamic acid, L lysine, L threonine, L arginine, L histidine, L isoleucine, L valine, L leucine, L phenylalanine, L tyrosine. L Trippo Fan and L Systeine