WO2023027284A1 - 신규한 아세토하이드록시산 신타아제 소단위체 변이체 및 이를 이용한 l-발린 생산 방법 - Google Patents
신규한 아세토하이드록시산 신타아제 소단위체 변이체 및 이를 이용한 l-발린 생산 방법 Download PDFInfo
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- WO2023027284A1 WO2023027284A1 PCT/KR2022/004474 KR2022004474W WO2023027284A1 WO 2023027284 A1 WO2023027284 A1 WO 2023027284A1 KR 2022004474 W KR2022004474 W KR 2022004474W WO 2023027284 A1 WO2023027284 A1 WO 2023027284A1
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- C12N—MICROORGANISMS OR ENZYMES; COMPOSITIONS THEREOF; PROPAGATING, PRESERVING, OR MAINTAINING MICROORGANISMS; MUTATION OR GENETIC ENGINEERING; CULTURE MEDIA
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- C—CHEMISTRY; METALLURGY
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- C12N—MICROORGANISMS OR ENZYMES; COMPOSITIONS THEREOF; PROPAGATING, PRESERVING, OR MAINTAINING MICROORGANISMS; MUTATION OR GENETIC ENGINEERING; CULTURE MEDIA
- C12N15/00—Mutation or genetic engineering; DNA or RNA concerning genetic engineering, vectors, e.g. plasmids, or their isolation, preparation or purification; Use of hosts therefor
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- C12N15/11—DNA or RNA fragments; Modified forms thereof; Non-coding nucleic acids having a biological activity
- C12N15/52—Genes encoding for enzymes or proenzymes
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- C12—BIOCHEMISTRY; BEER; SPIRITS; WINE; VINEGAR; MICROBIOLOGY; ENZYMOLOGY; MUTATION OR GENETIC ENGINEERING
- C12N—MICROORGANISMS OR ENZYMES; COMPOSITIONS THEREOF; PROPAGATING, PRESERVING, OR MAINTAINING MICROORGANISMS; MUTATION OR GENETIC ENGINEERING; CULTURE MEDIA
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- C12N15/63—Introduction of foreign genetic material using vectors; Vectors; Use of hosts therefor; Regulation of expression
- C12N15/74—Vectors or expression systems specially adapted for prokaryotic hosts other than E. coli, e.g. Lactobacillus, Micromonospora
- C12N15/77—Vectors or expression systems specially adapted for prokaryotic hosts other than E. coli, e.g. Lactobacillus, Micromonospora for Corynebacterium; for Brevibacterium
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- C12—BIOCHEMISTRY; BEER; SPIRITS; WINE; VINEGAR; MICROBIOLOGY; ENZYMOLOGY; MUTATION OR GENETIC ENGINEERING
- C12N—MICROORGANISMS OR ENZYMES; COMPOSITIONS THEREOF; PROPAGATING, PRESERVING, OR MAINTAINING MICROORGANISMS; MUTATION OR GENETIC ENGINEERING; CULTURE MEDIA
- C12N9/00—Enzymes; Proenzymes; Compositions thereof; Processes for preparing, activating, inhibiting, separating or purifying enzymes
- C12N9/10—Transferases (2.)
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- C12—BIOCHEMISTRY; BEER; SPIRITS; WINE; VINEGAR; MICROBIOLOGY; ENZYMOLOGY; MUTATION OR GENETIC ENGINEERING
- C12N—MICROORGANISMS OR ENZYMES; COMPOSITIONS THEREOF; PROPAGATING, PRESERVING, OR MAINTAINING MICROORGANISMS; MUTATION OR GENETIC ENGINEERING; CULTURE MEDIA
- C12N9/00—Enzymes; Proenzymes; Compositions thereof; Processes for preparing, activating, inhibiting, separating or purifying enzymes
- C12N9/88—Lyases (4.)
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- C12—BIOCHEMISTRY; BEER; SPIRITS; WINE; VINEGAR; MICROBIOLOGY; ENZYMOLOGY; MUTATION OR GENETIC ENGINEERING
- C12P—FERMENTATION OR ENZYME-USING PROCESSES TO SYNTHESISE A DESIRED CHEMICAL COMPOUND OR COMPOSITION OR TO SEPARATE OPTICAL ISOMERS FROM A RACEMIC MIXTURE
- C12P13/00—Preparation of nitrogen-containing organic compounds
- C12P13/04—Alpha- or beta- amino acids
- C12P13/08—Lysine; Diaminopimelic acid; Threonine; Valine
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- C—CHEMISTRY; METALLURGY
- C12—BIOCHEMISTRY; BEER; SPIRITS; WINE; VINEGAR; MICROBIOLOGY; ENZYMOLOGY; MUTATION OR GENETIC ENGINEERING
- C12Y—ENZYMES
- C12Y202/00—Transferases transferring aldehyde or ketonic groups (2.2)
- C12Y202/01—Transketolases and transaldolases (2.2.1)
- C12Y202/01006—Acetolactate synthase (2.2.1.6)
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- C12—BIOCHEMISTRY; BEER; SPIRITS; WINE; VINEGAR; MICROBIOLOGY; ENZYMOLOGY; MUTATION OR GENETIC ENGINEERING
- C12R—INDEXING SCHEME ASSOCIATED WITH SUBCLASSES C12C - C12Q, RELATING TO MICROORGANISMS
- C12R2001/00—Microorganisms ; Processes using microorganisms
- C12R2001/01—Bacteria or Actinomycetales ; using bacteria or Actinomycetales
- C12R2001/15—Corynebacterium
Definitions
- the present application includes a novel acetohydroxy acid synthase subunit (ilvN) variant, a polynucleotide encoding the variant, an expression vector containing the polynucleotide, and the acetohydroxy acid synthase subunit (ilvN) variant It relates to a microorganism that produces L-valine and a method for producing L-valine using the microorganism.
- L-amino acid is a basic structural unit of protein and is used as an important raw material for pharmaceutical raw materials, food additives, animal feeds, nutrients, insecticides, and bactericides.
- branched chain amino acids BCAA
- BCAA branched chain amino acids
- the production of branched chain amino acids using microorganisms is mainly carried out through microorganisms of the genus Escherichia or microorganisms of the genus Corynebacterium, and biosynthesis of 2-ketoisocaproate as a precursor through several steps from pyruvic acid It is known to be [Korean Patent Registration No. 10-0220018, Korean Patent Registration No. 10-0438146].
- production of L-branched chain amino acids through the microorganisms has a problem in that industrial mass production is not easy.
- the present inventors have developed a variant with enhanced activity of the gene ilvN (acetohydroxy acid synthase small subunit) encoding an enzyme involved in L-valine biosynthesis of microorganisms for the purpose of improving the L-valine production ability using microorganisms.
- ilvN acetohydroxy acid synthase small subunit
- the present inventors have developed novel acetohydroxy acid synthase subunit variants that increase L-valine production, polynucleotides encoding the variants, expression vectors containing the polynucleotides, and acetohydroxy acid synthase subunit variants.
- the present application was completed by developing a microorganism capable of producing L-valine and a method for producing L-valine using the microorganism.
- One object of the present application is to provide an acetohydroxy acid synthase subunit (ilvN) mutant in which the amino acid corresponding to position 44 in the amino acid sequence of SEQ ID NO: 1 is substituted with another amino acid.
- Another object of the present application is to provide a polynucleotide encoding the variant of the present application and an expression vector containing the polynucleotide.
- Another object of the present application is to provide a microorganism comprising the variant of the present application or a polynucleotide encoding the variant.
- Another object of the present application is to provide a method for producing L-valine, including culturing the microorganism in a medium.
- Another object of the present application is a microorganism comprising a variant of the present application, a polynucleotide encoding the variant, a vector comprising the polynucleotide, or a polynucleotide of the present application; medium in which it was cultured; Or to provide a composition for producing L- valine comprising a combination of two or more of them.
- Another object of the present application is to provide a use of an acetohydroxy acid synthase subunit mutant in which the amino acid corresponding to position 44 in the amino acid sequence of SEQ ID NO: 1 is substituted with another amino acid for L-valine production.
- the present application provides an acetohydroxy acid synthase subunit (ilvN) mutant in which the amino acid corresponding to position 44 in the amino acid sequence of SEQ ID NO: 1 is substituted with another amino acid.
- L-valine as one of the essential amino acids, structurally corresponds to a branched - chain amino acid together with L-leucine and L- isoleucine . do.
- acetohydroxy acid synthase is the first enzyme in L-valine biosynthesis, and is also named acetolactate antase.
- Acetohydroxy acid synthase catalyzes the decarboxylation of pyruvate and its condensation reaction with other pyruvic acid molecules to produce acetolactate, a precursor of valine, or decarboxylation of pyruvate and 2-ketobutyrate ( 2-ketobutyrate) to produce acetohydroxybutyrate, a precursor of isoleucine.
- Acetohydroxy acid synthase is encoded by two genes, ilvB and ilvN .
- the ilvB gene contains the large subunit of acetohydroxy acid synthase and the ilvN gene contains the small subunit of acetohydroxy acid synthase. subunit) respectively.
- the small subunit encoded by the ilvN gene is considered to be critically involved in feedback inhibition.
- the acetohydroxy acid synthase encoded by the ilvN gene is not particularly limited thereto, but may have the amino acid sequence of SEQ ID NO: 1.
- the mutant of the present application may have enhanced activity by substituting an amino acid at a specific position in the existing acetohydroxy acid synthase subunit (ilvN) amino acid sequence, but is not limited thereto.
- the acetohydroxy acid synthase subunit (ilvN) variant is an acetohydroxy acid synthase subunit (ilvN) variant comprising one or more or two or more amino acid substitutions in the amino acid sequence of SEQ ID NO: 1 It may be, but is not limited thereto.
- the variant of the present application may be one in which the amino acid corresponding to the 44th position and/or the 42nd position of SEQ ID NO: 1 is substituted with another amino acid, but is not limited thereto. More specifically, the variant may be substituted with another amino acid at one or more or both positions or their corresponding positions at the above positions, but is not limited thereto.
- the “other amino acid” is not limited as long as it is different from the amino acid before substitution.
- the amino acid corresponding to position 44 in SEQ ID NO: 1 is substituted with another amino acid
- the amino acid corresponding to position 42 in SEQ ID NO: 1 is different
- amino acids corresponding to the 44th and 42nd positions of SEQ ID NO: 1 of the present application can identify amino acids corresponding to the 44th and 42nd positions of SEQ ID NO: 1 of the present application in any amino acid sequence through sequence alignment known in the art, and even if not separately described in the present application, "specific sequence number In the case of describing "an amino acid at a specific position", it is obvious that it means including "an amino acid at a corresponding position" in an arbitrary amino acid sequence. Therefore, an amino acid sequence in which one or more amino acids selected from the group consisting of amino acids corresponding to positions 44 and 42 of SEQ ID NO: 1 of SEQ ID NO: 1 is substituted with another amino acid is also included in the scope of the present application.
- the variant of the present application may be one in which the amino acid corresponding to the 44th and/or 42nd position of SEQ ID NO: 1 is substituted with another amino acid, but is not limited thereto.
- the variant of the present application may be one in which threonine, an amino acid corresponding to the 44th position of SEQ ID NO: 1, is substituted with alanine and/or alanine, an amino acid corresponding to the 42nd position, is substituted with valine, but is not limited thereto. .
- the variant of the present application may have the amino acid sequence described in SEQ ID NO: 3 or SEQ ID NO: 5, or may consist essentially of the above amino acid sequence.
- the variant of the present application has a homology of at least 80%, specifically at least 90%, more specifically at least 95%, and even more specifically at least 99% as well as the amino acid sequence described in SEQ ID NO: 3 or SEQ ID NO: 5
- amino acids at positions corresponding to amino acids 44 and/or 42 from the N-terminus of SEQ ID NO: 1 may be substituted with other amino acids.
- an amino acid sequence having such homology or identity and exhibiting efficacy corresponding to the variant of the present application a variant having an amino acid sequence in which some sequences are deleted, modified, substituted, conservatively substituted, or added is also included within the scope of the present application is self-explanatory.
- sequence additions or deletions naturally occurring mutations, silent mutations or conservations to the amino acid sequence N-terminus, C-terminus and/or within that do not alter the function of the variants of the present application. This is the case with redundant substitution.
- conservative substitution means the substitution of one amino acid with another amino acid having similar structural and/or chemical properties. Such amino acid substitutions can generally occur based on similarities in polarity, charge, solubility, hydrophobicity, hydrophilicity and/or amphipathic nature of the residues.
- positively charged (basic) amino acids include arginine, lysine, and histidine
- Negatively charged (acidic) amino acids include glutamic acid and aspartate
- Aromatic amino acids include phenylalanine, tryptophan, and tyrosine
- hydrophobic amino acids include alanine, valine, isoleucine, leucine, methionine, phenylalanine, tyrosine, and tryptophan.
- amino acids can be classified into amino acids with electrically charged side chains and amino acids with uncharged side chains.
- Amino acids with electrically charged side chains are astric acid, glutamic acid, lysine , Arginine, including histidine
- amino acids with uncharged side chains can be further classified as nonpolar amino acids or polar amino acids, and nonpolar amino acids are glycine, alanine, valine, leucine, and isoleucine.
- Tryptophan, proline, and polar amino acids can be classified as including serine, threonine, cysteine, tyrosine, asparagine, and glutamine.
- conservative substitutions have little or no effect on the activity of the resulting polypeptide.
- conservative substitutions may have little or no effect on the activity of the protein or polypeptide.
- Variants may also include deletions or additions of amino acids that have minimal impact on the secondary structure and properties of the polypeptide.
- a polypeptide may be conjugated with a signal (or leader) sequence at the N-terminus of a protein that is involved in protein transfer either co-translationally or post-translationally.
- the polypeptide may also be conjugated with other sequences or linkers to allow identification, purification, or synthesis of the polypeptide.
- variant means that one or more amino acids have been subjected to conservative substitution and/or modification, which is different from the amino acid sequence before the mutation, but the functions or properties refers to a polypeptide that is maintained.
- variants can generally be identified by modifying one or more amino acids in the amino acid sequence of the polypeptide and evaluating the properties of the modified polypeptide. That is, the ability of the variant may be increased, unchanged, or reduced compared to the polypeptide before the mutation.
- some variants may include variants in which one or more portions such as an N-terminal leader sequence or a transmembrane domain are removed.
- variants may include variants in which a portion is removed from the N- and/or C-terminus of the mature protein.
- variant may be used interchangeably with terms such as variant, variant, variant polypeptide, mutated protein, mutation and variant (in English, modification, modified polypeptide, modified protein, mutant, mutein, divergent, etc.) And, if the term is used in a mutated sense, it is not limited thereto.
- the mutant is the amino acid sequence shown in SEQ ID NO: 3 in which threonine, an amino acid corresponding to position 44 of SEQ ID NO: 1, is substituted with alanine;
- it may be a polypeptide comprising the amino acid sequence shown in SEQ ID NO: 5 in which threonine, an amino acid corresponding to position 44 of SEQ ID NO: 1, is substituted with alanine, and alanine, an amino acid corresponding to position 42, is substituted with valine.
- the term 'homology' or 'identity' refers to the degree of similarity between two given amino acid sequences or base sequences and can be expressed as a percentage.
- the terms homology and identity are often used interchangeably.
- Sequence homology or identity of conserved polynucleotides or polypeptides can be determined by standard alignment algorithms, together with default gap penalties established by the program used. Substantially homologous or identical sequences are generally capable of hybridizing with all or part of the sequence under moderate or high stringent conditions. It is obvious that hybridization also includes hybridization with polynucleotides containing common codons or codons in consideration of codon degeneracy in polynucleotides.
- GAP program can define the total number of symbols in the shorter of the two sequences divided by the number of similarly arranged symbols (i.e., nucleotides or amino acids).
- the default parameters for the GAP program are (1) a binary comparison matrix (containing values of 1 for identity and 0 for non-identity) and Schwartz and Dayhoff, eds., Atlas Of Protein Sequence And Structure, National Biomedical Research Foundation , pp. 353-358 (1979), Gribskov et al (1986) Nucl. Acids Res. 14: weighted comparison matrix of 6745 (or EDNAFULL (EMBOSS version of NCBI NUC4.4) substitution matrix); (2) a penalty of 3.0 for each gap and an additional penalty of 0.10 for each symbol in each gap (or 10 gap opening penalty, 0.5 gap extension penalty); and (3) no penalty for end gaps.
- the variant of the present application may be due to mutation of a microorganism that produces L-valine.
- Mutation of the microorganisms may be performed by various means widely known in the art, and either physical or chemical mutagenesis may be used.
- N-methyl-N'-nitro-N-nitrosoguanidine (NTG) diepoxybutane
- ethylmethane as a chemical mutagen suitable for the present invention sulfonates, mustard compounds, hydrazine and nitrous acid, but are not limited to these compounds.
- physical mutagens may include, but are not limited to, ultraviolet rays and gamma radiation.
- the expression of the acetohydroxy acid synthase subunit (ilvN) may be enhanced, and due to the enhanced expression, L-valine production may be increased.
- corresponding to refers to an amino acid residue at a recited position in a polypeptide, or an amino acid residue that is similar, identical, or homologous to a recited residue in a polypeptide. Identification of the amino acid at the corresponding position may be determining the specific amino acid in the sequence that references the specific sequence.
- corresponding region generally refers to a similar or corresponding position in a related or reference protein.
- any amino acid sequence can be aligned with SEQ ID NO: 1, and based on this, each amino acid residue of the amino acid sequence can be numbered with reference to the numerical position of the amino acid residue corresponding to the amino acid residue of SEQ ID NO: 1.
- sequence alignment algorithms such as those described herein, can identify the location of amino acids, or locations where modifications such as substitutions, insertions, or deletions occur, compared to a query sequence (also referred to as a “reference sequence”).
- Such alignments include, for example, the Needleman-Wunsch algorithm (Needleman and Wunsch, 1970, J. Mol. Biol. 48: 443-453), the Needleman program in the EMBOSS package (EMBOSS: The European Molecular Biology Open Software Suite, Rice et al. , 2000), Trends Genet. 16: 276-277) may be used, but it is not limited thereto, and a sequence alignment program known in the art, a pairwise sequence comparison algorithm, and the like may be appropriately used.
- Another aspect of the present application is to provide a polynucleotide encoding a variant of the present application.
- polynucleotide is a polymer of nucleotides in which nucleotide monomers are covalently linked in a long chain shape, and is a DNA or RNA strand of a certain length or more, more specifically, encoding the variant means a polynucleotide fragment.
- the polynucleotide encoding the variant of the present application may include a nucleotide sequence encoding the amino acid sequence described in SEQ ID NO: 3 or SEQ ID NO: 5.
- the polynucleotide of the present application may have or include the sequence of SEQ ID NO: 4 or SEQ ID NO: 6.
- the polynucleotide of the present application may consist of or essentially consist of the sequence of SEQ ID NO: 4 or SEQ ID NO: 6.
- polynucleotides of the present application are various in the coding region within the range that does not change the amino acid sequence of the variants of the present application in consideration of codon degeneracy or preferred codons in organisms intended to express the variants of the present application. Transformations can be made.
- the polynucleotide of the present application has 70% or more, 75% or more, 80% or more, 85% or more, 90% or more, 95% or more, 96% or more homology or identity with the sequence of SEQ ID NO: 4 or SEQ ID NO: 6 have or contain at least 97%, at least 98%, and less than 100% of the nucleotide sequence, or at least 70%, at least 75%, at least 80% homology or identity with the sequence of SEQ ID NO: 4 or SEQ ID NO: 6; 85% or more, 90% or more, 95% or more, 96% or more, 97% or more, 98% or more, and may consist essentially of, or consist essentially of, a base sequence that is less than 100%, but is not limited thereto.
- the codon encoding the amino acid corresponding to the 44th position of SEQ ID NO: 3 or SEQ ID NO: 5 may be one of the codons encoding alanine, and the 42nd position of SEQ ID NO: 5
- the codon encoding the amino acid corresponding to the position may be one of the codons encoding valine.
- polynucleotide of the present application is included without limitation as long as it is a probe that can be prepared from a known gene sequence, for example, a sequence that can hybridize under stringent conditions with a sequence complementary to all or part of the polynucleotide sequence of the present application.
- stringent condition means a condition that allows specific hybridization between polynucleotides. These conditions are described in J. Sambrook et al., Molecular Cloning, A Laboratory Manual, 2nd Edition, Cold Spring Harbor Laboratory press, Cold Spring Harbor, New York, 1989; F.M. Ausubel et al., Current Protocols in Molecular Biology, John Wiley & Sons, Inc., New York, 9.50-9.51, 11.7-11.8).
- polynucleotides with high homology or identity 70% or more, 75% or more, 80% or more, 85% or more, 90% or more, 95% or more, 96% or more, 97% or more, 98% or more, Or a condition in which polynucleotides having 99% or more homology or identity hybridize and polynucleotides having lower homology or identity do not hybridize, or 60 ° C., which is a washing condition for normal southern hybridization, 1XSSC, 0.1% SDS, specifically 60 ° C, 0.1XSSC, 0.1% SDS, more specifically 68 ° C, 0.1XSSC, 0.1% SDS, at a salt concentration and temperature equivalent to 1 time, specifically 2 to 3 times washing conditions can be enumerated.
- Hybridization requires that two nucleic acids have complementary sequences, although mismatches between bases are possible depending on the stringency of hybridization.
- complementary is used to describe the relationship between nucleotide bases that are capable of hybridizing to each other. For example, with respect to DNA, adenine is complementary to thymine and cytosine is complementary to guanine.
- the polynucleotides of the present application may also include substantially similar nucleic acid sequences as well as isolated nucleic acid fragments complementary to the entire sequence.
- a polynucleotide having homology or identity to the polynucleotide of the present application can be detected using hybridization conditions including a hybridization step at a Tm value of 55°C and using the above-described conditions.
- the Tm value may be 60 ° C, 63 ° C or 65 ° C, but is not limited thereto and may be appropriately adjusted by those skilled in the art according to the purpose.
- Appropriate stringency for hybridizing the polynucleotides depends on the length of the polynucleotides and the degree of complementarity, parameters well known in the art (e.g., J. Sambrook et al., supra).
- Another aspect of the present application is to provide a vector comprising the polynucleotide of the present application.
- the vector may be an expression vector for expressing the polynucleotide in a microorganism, but is not limited thereto.
- the term "vector” refers to a DNA preparation comprising the base sequence of a polynucleotide encoding the target polypeptide operably linked to a suitable expression control region (or expression control sequence) so as to express the target polypeptide in a suitable host.
- the expression control region may include a promoter capable of initiating transcription, an arbitrary operator sequence for regulating such transcription, a sequence encoding a suitable mRNA ribosome binding site, and a sequence regulating termination of transcription and translation.
- the vector After transformation into a suitable microorganism, the vector can replicate or function independently of the host genome and can integrate into the genome itself.
- Vectors used in the present application are not particularly limited, and any vectors known in the art may be used.
- Examples of commonly used vectors include natural or recombinant plasmids, cosmids, viruses and bacteriophages.
- pWE15, M13, MBL3, MBL4, IXII, ASHII, APII, t10, t11, Charon4A, and Charon21A can be used as phage vectors or cosmid vectors, and pDZ-based, pBR-based, and pUC-based plasmid vectors , pBluescriptII-based, pGEM-based, pTZ-based, pCL-based, pET-based, etc. can be used.
- pDZ, pDC, pDCM2, pACYC177, pACYC184, pCL, pECCG117, pUC19, pBR322, pMW118, pCC1BAC vectors and the like can be used.
- a polynucleotide encoding a target polypeptide may be inserted into a chromosome through a vector for chromosomal insertion into a cell. Insertion of the polynucleotide into the chromosome may be performed by any method known in the art, for example, homologous recombination, but is not limited thereto.
- a selection marker for determining whether the chromosome is inserted may be further included.
- the selectable marker is used to select cells transformed with a vector, that is, to determine whether a target nucleic acid molecule has been inserted, and can exhibit selectable phenotypes such as drug resistance, auxotrophy, resistance to cytotoxic agents, or surface polypeptide expression. markers may be used. In an environment treated with a selective agent, only cells expressing the selectable marker survive or exhibit other expression traits, so transformed cells can be selected.
- the term "transformation” means introducing a vector containing a polynucleotide encoding a target polypeptide into a microorganism or microorganism so that the polypeptide encoded by the polynucleotide can be expressed in the microorganism.
- the transformed polynucleotide can be expressed in the microorganism, it may be inserted into the chromosome of the microorganism or located outside the chromosome.
- the polynucleotide includes DNA and/or RNA encoding a polypeptide of interest.
- the polynucleotide may be introduced in any form as long as it can be introduced and expressed into a microorganism.
- the polynucleotide may be introduced into a microorganism in the form of an expression cassette, which is a genetic construct containing all elements required for self-expression.
- the expression cassette may include a promoter operably linked to the polynucleotide, a transcription termination signal, a ribosome binding site, and a translation termination signal.
- the expression cassette may be in the form of an expression vector capable of self-replication.
- the polynucleotide may be introduced into a microorganism in its own form and operably linked to a sequence required for expression in the microorganism, but is not limited thereto.
- operably linked means that the polynucleotide sequence is functionally linked to a promoter sequence that initiates and mediates the transcription of the polynucleotide encoding the target variant of the present application.
- Another aspect of the present application is to provide a microorganism comprising the variant of the present application or the polynucleotide of the present application.
- the microorganism of the present application may include the mutant polypeptide of the present application, a polynucleotide encoding the polypeptide, or a vector containing the polynucleotide of the present application.
- microorganism or strain
- microorganism includes both wild-type microorganisms and naturally or artificially genetically modified microorganisms, and causes such as insertion of foreign genes or enhancement or inactivation of endogenous gene activity.
- a microorganism whose specific mechanism is attenuated or enhanced due to, it may be a microorganism containing genetic modification for the production of a desired polypeptide, protein or product.
- strain and “microorganism” may be used interchangeably without limitation as the same meaning.
- the microorganism may be a microorganism of the genus Corynebacterium, more specifically, Corynebacterium glutamicum ( Corynebacterium glutamicum ), but is not limited thereto.
- the strains of the present application include strains containing any one or more of the variants of the present application, the polynucleotides of the present application, and vectors containing the polynucleotides of the present application; strains modified to express variants of the present application or polynucleotides of the present application; variants of the present application, or strains expressing the polynucleotides of the present application (eg, recombinant strains); Or it may be a strain (eg, a recombinant strain) having a mutant activity of the present application, but is not limited thereto.
- the strain of the present application may be a microorganism that produces L-valine.
- the term "microorganism producing L-valine” refers to a prokaryotic or eukaryotic microbial strain capable of producing L-valine in an organism.
- the microorganism can be either a prokaryotic cell or a eukaryotic cell, as long as it is a microorganism capable of producing L-valine, including the acetohydroxy acid synthase subunit mutant, for example, in Corynebacterium It may include microbial strains belonging thereto, such as Corynebacterium glutamicum.
- the gene on the chromosome encoding the acetohydroxy acid synthase is mutated to obtain the acetohydroxy acid synthase subunit according to the present invention.
- Microbes containing the mutant sequence or / and vectors containing the polynucleotide encoding the acetohydroxy acid synthase subunit variants are introduced to include all microorganisms containing the acetohydroxy acid synthase subunit variants, Not limited to this.
- the activity of the acetohydroxy acid synthase subunit variant may be enhanced compared to the parent strain.
- the strain of the present application is a cell or microorganism that is transformed with a vector containing a polynucleotide of the present application or a polynucleotide encoding a variant of the present application and expresses the variant of the present application, and for the purpose of the present application
- the strains of the application may include all microorganisms capable of producing L-valine, including the variants of the present application.
- a polynucleotide encoding the variant of the present application is introduced into a natural wild-type microorganism or a microorganism that produces L-valine, thereby expressing an acetohydroxy acid synthase subunit (ilvN) variant, It may be a recombinant strain with increased L-valine production ability.
- ilvN acetohydroxy acid synthase subunit
- the recombinant strain with increased L-valine production ability is a natural wild-type microorganism or acetohydroxy acid synthase unmodified microorganism (i.e., a microorganism expressing wild-type acetohydroxy acid synthase (SEQ ID NO: 1) or a mutant form (SEQ ID NO: 1) Number 3 or SEQ ID NO: 5) microorganisms that do not express protein) may be microorganisms with increased L-valine production ability, but are not limited thereto.
- the recombinant strain having increased productivity is about 1% or more, specifically about 1% or more, about 2.5% or more, about 5% or more, about 6% or more, about 7% or more, about 8% or more, about 9% or more, about 10% or more, about 10.5% or more, about 11% or more, about 11.5% or more, about 12% or more, about 12.5% or more, about 13% or more, about 13.5% or more, about 14% or more, about 14.5% or more, about 15% or more, about 15.5% or more, about 16% or more, about 16.5% or more, about 17% or more, about 17.5% or more, about 18% or more, about 18.1% or more, about 18.2% or more, about 18.3% or more, about 18.4% or more, or about 18.5% or more (the upper limit is not particularly limited, for example, about 200% or less, about 150% or less, about 100% or less, about 50% or less, about 45% or less, about 40% or less, about 35% or less, about 30% or less, about 25% or less, about
- the recombinant strain having increased production capacity has an L-valine production capacity of about 1.1 times or more, about 1.12 times or more, about 1.13 times or more, about 1.14 times or more, or about 1.15 times or more, compared to the parental strain or non-modified microorganism before mutation.
- 1.16 times or more, about 1.17 times or more, or 1.18 times or more (the upper limit is not particularly limited, for example, about 10 times or less, about 5 times or less, about 3 times or less, about 2 times or less, about 1.5 times or less) or about 1.2 times or less) may be increased, but is not limited thereto.
- the term “about” includes all ranges of ⁇ 0.5, ⁇ 0.4, ⁇ 0.3, ⁇ 0.2, ⁇ 0.1, etc., and includes all ranges equivalent to or similar to the ranges following the term “about”. Not limited.
- the term "unmodified microorganism” does not exclude strains containing mutations that may occur naturally in microorganisms, and are wild-type strains or wild-type strains themselves, or are genetically modified by natural or artificial factors. It may mean a strain before change.
- the non-modified microorganism may mean a strain before or without introduction of the acetohydroxy acid synthase subunit (ilvN) variant described herein.
- the "unmodified microorganism” may be used interchangeably with "strain before transformation", “microorganism before transformation”, “non-mutated strain”, “unmodified strain”, “non-mutated microorganism” or "reference microorganism".
- the microorganisms of the present application are Corynebacterium glutamicum ( Corynebacterium glutamicum ), Corynebacterium crudilactis ( Corynebacterium crudilactis ), Corynebacterium deserti ( Corynebacterium deserti ), Cory Nebacterium efficiens, Corynebacterium efficiens , Corynebacterium callunae, Corynebacterium stationis , Corynebacterium singulare , Corynebacterium halo Tolerance ( Corynebacterium halotolerans ), Corynebacterium striatum ( Corynebacterium striatum ), Corynebacterium ammoniagenes ( Corynebacterium ammoniagenes ), Corynebacterium pollutisoli ( Corynebacterium pollutisoli ), Corynebacterium imitans ( Corynebacterium imitans ( Corynebacterium im
- the term "enhancement" of polypeptide activity means that the activity of the polypeptide is increased relative to the intrinsic activity.
- the enhancement may be used interchangeably with terms such as activation, up-regulation, overexpression, and increase.
- activation, enhancement, upregulation, overexpression, and increase may include those that exhibit an activity that was not originally possessed, or those that exhibit enhanced activity compared to intrinsic activity or activity before modification.
- intrinsic activity refers to the activity of a specific polypeptide originally possessed by the parent strain or non-transformed microorganism before transformation when the character changes due to genetic mutation caused by natural or artificial factors.
- activity before transformation and “Enhancement”, “upregulation”, “overexpression” or “increase” of the activity of a polypeptide compared to its intrinsic activity means the activity of a specific polypeptide originally possessed by the parent strain or non-transformed microorganism before transformation. And / or improved compared to the concentration (expression amount).
- the enhancement can be achieved by introducing a foreign polypeptide or by enhancing the activity and/or concentration (expression level) of an endogenous polypeptide. Whether or not the activity of the polypeptide is enhanced can be confirmed from an increase in the activity level, expression level, or amount of a product released from the corresponding polypeptide.
- Enhancement of the activity of the polypeptide can be applied by various methods well known in the art, and is not limited as long as the activity of the target polypeptide can be enhanced compared to the microorganism before transformation. Specifically, it may be using genetic engineering and / or protein engineering, which is well known to those skilled in the art, which is a routine method of molecular biology, but is not limited thereto (e.g., Sitnicka et al. Functional Analysis of Genes. Advances in Cell Biology. 2010, Vol. 2. 1-16, Sambrook et al. Molecular Cloning 2012, etc.).
- modification of the polynucleotide sequence encoding the polypeptide to enhance the activity of the polypeptide eg, modification of the polynucleotide sequence of the polypeptide gene to encode the modified polypeptide to enhance the activity of the polypeptide
- It may be a combination of two or more selected from 1) to 8), but is not particularly limited thereto.
- the increase in the intracellular copy number of the polynucleotide encoding the polypeptide is achieved by introducing into a microorganism a vector capable of replicating and functioning independently of the host, to which the polynucleotide encoding the polypeptide is operably linked. it could be Alternatively, it may be achieved by introducing one copy or two or more copies of a polynucleotide encoding the corresponding polypeptide into a chromosome of a microorganism.
- the introduction into the chromosome may be performed by introducing a vector capable of inserting the polynucleotide into the chromosome of the microorganism into the microorganism, but is not limited thereto.
- the vector is as described above.
- the expression control region may include a promoter, an operator sequence, a sequence encoding a ribosome binding site, and a sequence regulating termination of transcription and translation.
- the original promoter may be replaced with a strong promoter, but is not limited thereto.
- Examples of known strong promoters include the CJ1 to CJ7 promoter (US Patent US 7662943 B2), lac promoter, trp promoter, trc promoter, tac promoter, lambda phage PR promoter, PL promoter, tet promoter, gapA promoter, SPL7 promoter, SPL13 (sm3) promoter (US Patent US 10584338 B2), O2 promoter (US Patent US 10273491 B2), tkt promoter, yccA promoter, etc., but are not limited thereto.
- Modification of the nucleotide sequence encoding the initiation codon or 5'-UTR region of the gene transcript encoding the polypeptide is, for example, a nucleotide sequence encoding another initiation codon with a higher polypeptide expression rate than the endogenous initiation codon. It may be substituted, but is not limited thereto.
- Modification of the amino acid sequence or polynucleotide sequence of 4) and 5) above may include deletion, insertion, non-conservative or conservative substitution of the amino acid sequence of the polypeptide or the polynucleotide sequence encoding the polypeptide to enhance the activity of the polypeptide.
- the combination thereof may be a sequence mutation, or replacement with an amino acid sequence or polynucleotide sequence improved to have stronger activity, or an amino acid sequence or polynucleotide sequence improved to increase activity, but is not limited thereto.
- the replacement may be specifically performed by inserting the polynucleotide into a chromosome by homologous recombination, but is not limited thereto.
- the vector used at this time may further include a selection marker for checking whether the chromosome is inserted.
- the selectable marker is as described above.
- Introduction of a foreign polynucleotide exhibiting the activity of the polypeptide may be introduction of a foreign polynucleotide encoding a polypeptide exhibiting the same/similar activity as the polypeptide into a microorganism.
- the foreign polynucleotide is not limited in origin or sequence as long as it exhibits the same/similar activity as the polypeptide.
- the method used for the introduction can be performed by appropriately selecting a known transformation method by a person skilled in the art, and expression of the introduced polynucleotide in a host cell can generate a polypeptide and increase its activity.
- introduction refers to a method of delivering a polynucleotide encoding the acetohydroxy acid synthase subunit variant or a vector containing the polynucleotide to a microorganism. Such introduction can be easily performed according to a conventional method in the art.
- the CaCl 2 precipitation method the Hanahan method with increased efficiency by using a reducing material called DMSO (dimethyl sulfoxide) in the CaCl 2 method
- electroporation calcium phosphate precipitation method
- protoplast fusion method stirring using silicon carbide fibers method
- transformation method using PEG transformation or transfection methods commonly used in the art may be used without limitation.
- the delivered polynucleotide may be inserted into the chromosome of the microorganism or located outside the chromosome, as long as it can be expressed in the host cell.
- the polynucleotide may be introduced in any form as long as it can be introduced into a host cell and expressed.
- the polynucleotide may be introduced into a microorganism in the form of an expression cassette, which is a polynucleotide structure containing all elements necessary for self-expression, but is not limited thereto.
- the expression cassette usually includes a promoter operably linked to the open reading frame (hereinafter abbreviated as "ORF") of the gene, a transcription termination signal, a ribosome binding site, and a translation termination signal. .
- the expression cassette may be in the form of an expression vector capable of self-replication.
- the polynucleotide may be introduced into a microorganism in its own form and operably linked to a sequence necessary for expression in the microorganism, but is not particularly limited thereto.
- the codon optimization of the polynucleotide encoding the polypeptide is codon optimization of the endogenous polynucleotide to increase transcription or translation in the microorganism, or optimization of the codon of the foreign polynucleotide to achieve optimized transcription or translation in the microorganism. It may be codon optimization.
- Analyzing the tertiary structure of the polypeptide to select and modify or chemically modify the exposed site for example, by comparing the sequence information of the polypeptide to be analyzed with a database in which sequence information of known proteins is stored, depending on the degree of sequence similarity. It may be to determine a template protein candidate according to the method, confirm the structure based on this, and modify or modify an exposed portion to be chemically modified to be modified or modified.
- Such enhancement of polypeptide activity is an increase in the activity or concentration of the corresponding polypeptide based on the activity or concentration of the polypeptide expressed in the wild-type or unmodified microbial strain, or an increase in the amount of the product produced from the corresponding polypeptide. It may be, but is not limited thereto.
- Modification of some or all of the polynucleotides in the microorganism of the present application is (a) genome editing using homologous recombination or genetic scissors (engineered nuclease, e.g., CRISPR-Cas9) using a vector for chromosomal insertion into the microorganism and / or (b) It may be induced by light and/or chemical treatment, such as ultraviolet light and radiation, but is not limited thereto.
- a method of modifying part or all of the gene may include a method using DNA recombination technology.
- a part or all of a gene may be deleted by injecting a nucleotide sequence or vector containing a nucleotide sequence homologous to a target gene into the microorganism to cause homologous recombination.
- the injected nucleotide sequence or vector may include a dominant selection marker, but is not limited thereto.
- Another aspect of the present application provides a method for producing L-valine, comprising culturing the microorganism in a medium.
- the L-valine production method of the present application may include culturing a Corynebacterium glutamicum strain containing the variant of the present application or the polynucleotide of the present application or the vector of the present application in a medium, It is not limited thereto.
- the term "culture” means growing the microorganism of the present application under appropriately controlled environmental conditions.
- the culture process of the present application may be performed according to suitable media and culture conditions known in the art. This culturing process can be easily adjusted and used by those skilled in the art according to the selected strain.
- the culture may be batch, continuous and/or fed-batch, but is not limited thereto.
- the term "medium” refers to a material in which nutrients necessary for culturing the microorganisms of the present application are mixed as main components, and supplies nutrients and growth factors, including water essential for survival and growth.
- the medium and other culture conditions used for culturing the microorganisms of the present application can be any medium without particular limitation as long as it is a medium used for the culture of ordinary microorganisms, but the microorganisms of the present application are suitable as carbon sources, nitrogen sources, personnel, and inorganic materials. It can be cultured while controlling temperature, pH, etc. under aerobic conditions in a conventional medium containing compounds, amino acids, and/or vitamins.
- culture media for strains of the genus Corynebacterium can be found in "Manual of Methods for General Bacteriology” by the American Society for Bacteriology (Washington D.C., USA, 1981).
- Examples of the carbon source in the present application include carbohydrates such as glucose, saccharose, lactose, fructose, sucrose, and maltose; sugar alcohols such as mannitol and sorbitol; organic acids such as pyruvic acid, lactic acid, citric acid and the like; Amino acids such as glutamic acid, methionine, lysine, and the like may be included.
- natural organic nutrients such as starch hydrolysate, molasses, blackstrap molasses, rice winter, cassava, sorghum pomace and corn steep liquor can be used, specifically glucose and sterilized pretreated molasses (i.e. converted to reducing sugar).
- Carbohydrates such as molasses
- other carbon sources in an appropriate amount may be used in various ways without limitation. These carbon sources may be used alone or in combination of two or more, but are not limited thereto.
- nitrogen source examples include inorganic nitrogen sources such as ammonia, ammonium sulfate, ammonium chloride, ammonium acetate, ammonium phosphate, ammonium carbonate, and ammonium nitrate; Amino acids such as glutamic acid, methionine, glutamine, etc., organic nitrogen sources such as peptone, NZ-amine, meat extract, yeast extract, malt extract, corn steep liquor, casein hydrolysate, fish or degradation products thereof, defatted soybean cake or degradation products thereof, etc. can be used These nitrogen sources may be used alone or in combination of two or more, but are not limited thereto.
- inorganic nitrogen sources such as ammonia, ammonium sulfate, ammonium chloride, ammonium acetate, ammonium phosphate, ammonium carbonate, and ammonium nitrate
- Amino acids such as glutamic acid, methionine, glutamine, etc.
- organic nitrogen sources such as peptone, NZ-amine,
- the number of persons may include monopotassium phosphate, dipotassium phosphate, or a sodium-containing salt corresponding thereto.
- the inorganic compound sodium chloride, calcium chloride, iron chloride, magnesium sulfate, iron sulfate, manganese sulfate, calcium carbonate, etc. may be used, and amino acids, vitamins, and/or appropriate precursors may be included. These components or precursors may be added to the medium either batchwise or continuously. However, it is not limited thereto.
- the pH of the medium can be adjusted by adding compounds such as ammonium hydroxide, potassium hydroxide, ammonia, phosphoric acid, sulfuric acid and the like to the medium in an appropriate manner during the cultivation of the microorganism of the present application.
- an antifoaming agent such as a fatty acid polyglycol ester.
- oxygen or oxygen-containing gas may be injected into the medium, or nitrogen, hydrogen or carbon dioxide gas may be injected without gas injection or nitrogen, hydrogen or carbon dioxide gas may be injected to maintain the anaerobic and non-aerobic state. It is not.
- the culture temperature may be maintained at 20 to 45 ° C, specifically 25 to 40 ° C, and may be cultured for about 10 to 160 hours, but is not limited thereto.
- L-valine produced by the culture of the present application may be secreted into the medium or remain in the cells.
- the L-valine production method of the present application includes preparing the microorganism of the present application, preparing a medium for culturing the strain, or a combination thereof (in any order), for example, Prior to the culturing step, it may be further included.
- the L-valine production method of the present application may further include recovering L-valine from the culture medium (culture medium) or the microorganism of the present application.
- the recovering step may be further included after the culturing step.
- the recovery may be to collect the desired L-valine using a suitable method known in the art according to the culture method of the microorganism of the present application, for example, a batch, continuous or fed-batch culture method.
- a suitable method known in the art according to the culture method of the microorganism of the present application, for example, a batch, continuous or fed-batch culture method.
- the L-valine production method of the present application may additionally include a purification step.
- the purification may be performed using suitable methods known in the art.
- the recovery step and the purification step are performed continuously or discontinuously regardless of order, or simultaneously or integrated into one step. It can be performed, but is not limited thereto.
- Another aspect of the present application is a microorganism comprising a variant of the present application, a polynucleotide encoding the variant, a vector comprising the polynucleotide, or a polynucleotide of the present application; medium in which it was cultured; Or to provide a composition for producing L- valine comprising a combination of two or more of them.
- composition of the present application may further include any suitable excipient commonly used in amino acid production compositions, and such an excipient may be, for example, a preservative, a wetting agent, a dispersing agent, a suspending agent, a buffer, a stabilizer, or an isotonic agent. However, it is not limited thereto.
- composition of the present application variants, polynucleotides, vectors, strains, media and L-valine, etc. are as described in the other embodiments above.
- Another aspect of the present application provides a use of an acetohydroxy acid synthase subunit variant in which the amino acid corresponding to position 44 in the amino acid sequence of SEQ ID NO: 1 is substituted with another amino acid for L-valine production.
- Example 1 Selection of valine-producing ability-increasing mutants through artificial mutagenesis
- Example 1-1 Artificial mutagenesis through UV irradiation
- Corynebacterium glutamicum KCCM11201P (Korean Patent No. 10-1117022), a valine-producing strain, was spread on a nutrient medium containing agar and cultured at 30 ° C for 36 hours. . Hundreds of colonies obtained in this way were irradiated with UV at room temperature to induce random mutations in the genome of the strain.
- Example 1-2 Mutagenesis strain fermentation titer evaluation and strain selection
- Glucose 10g meat extract 5g, polypeptone 10g, sodium chloride 2.5g, yeast extract 5g, agar 20g, urea 2g (based on 1 liter of distilled water)
- strain name L-valine (g/L) control group KCCM11201P 2.8 experimental group C1 3.1 C2 3.3 C3 2.5 C4 2.4 C5 2.3 C6 1.2 C7 2.9 C8 3.4 C9 3.2 C10 3.2 C11 1.9 C12 2.4 C13 3.8 C14 4.5 C15 1.8 C16 2.3 C17 2.7 C18 2.6 C19 2.6 C20 3.5 C21 2.5
- KCCM11201P strain and Corynebacterium glutamicum ATCC14067 wild type strain were sequenced and compared with KCCM11201P strain and Corynebacterium glutamicum ATCC14067 wild type strain.
- ORF open reading frame
- the KCCM11201P strain and the C14 strain with increased valine-producing ability contained a nucleotide sequence mutation at a specific position in the ilvN gene open reading frame (ORF) region.
- ORF open reading frame
- the KCCM11201P strain had one mutation introduced at the 125th base from the initiation codon of the ilvN gene, changing from GCA to GTA, in which the 42nd amino acid alanine was substituted with valine.
- the C14 strain with the highest increase in valine production contained the same A42V mutation as the parent strain KCCM11201P, and in addition, one mutation was introduced at the base located at the 130th position from the initiation codon of the ilvN gene, changing the existing ACC to GCC, 44 It was confirmed that the th amino acid threonine was substituted with alanine.
- Example 3-1 Construction of ilvN mutation introduced in Corynebacterium glutamicum KCCM11201P strain and evaluation of L-valine production ability
- a vector containing the target mutation was constructed. Specifically, the genomic DNA of the C14 strain was extracted using the G-spin Total DNA Extraction Mini Kit (Intron, Cat. No 17045) according to the protocol provided in the kit, and the genomic DNA was used as a template. PCR was performed. PCR conditions were denatured at 94° C. for 5 minutes; After 25 cycles of denaturation at 94°C for 30 seconds, annealing at 55°C for 30 seconds, and polymerization at 72°C for 150 seconds; A polymerization reaction was performed at 72° C. for 7 minutes, and a 1010 bp PCR product (hereinafter referred to as “mutation introduced fragment 1”) was obtained using SEQ ID NO: 7 and SEQ ID NO: 8.
- pDZ vector (Korean Registered Patent No. 10-0924065 and International Patent Publication No. 2008-033001) treated with restriction enzyme XbaI (New England Biolabs, Beverly, MA) and Infusion Cloning Kit (Takara Bio Inc., Otsu, Japan) and then transformed into E. coli DH5 ⁇ . After transforming the prepared gene into E. coli DH5 ⁇ , selecting it in kanamycin-containing LB medium, obtaining DNA with a DNA-spin plasmid DNA purification kit (iNtRON), and vector pDZ-ilvN containing the mutant introduction fragment 1 (A42V+T44A) was prepared.
- iNtRON DNA-spin plasmid DNA purification kit
- primer base sequence SEQ ID NO: 7 cggggatcctctaga AGGACGGTACTCAAATACTAAACTTC SEQ ID NO: 8 cggggatcctctaga GACAACTACATTATTATTTATACCACA
- the pDZ-ilvN (A42V + T44A) was transformed into Corynebacterium glutamicum KCCM11201P by homologous recombination on the chromosome (van der Rest et al., Appl Microbiol Biotechnol 52:541-545, 1999).
- a strain in which the vector was inserted into the chromosome by recombination of the homologous sequence was selected in a medium containing 25 mg/L of kanamycin.
- PCR using SEQ ID NO: 7 and SEQ ID NO: 8 was performed on the Corynebacterium glutamicum transformant after the secondary recombination was completed, and alanine was detected at amino acid position 42 of SEQ ID NO: 1 in the ORF of the ilvN gene on the chromosome. Strains in which threonine was substituted with alanine at amino acid position 44 with valine were identified.
- the recombinant strain was named Corynebacterium glutamicum KCCM11201P :: ilvN (A42V+T44A).
- Flask evaluation was performed to compare the valine-producing ability of Corynebacterium glutamicum KCCM11201P, KCCM11201P:: ilvN (A42V+T44A), which are valine-producing strains. After each strain was subcultured in a nutrient medium, each strain was inoculated into a 250 ml corner-baffle flask containing 25 ml of production medium, and cultured with shaking at 30° C. for 72 hours at 200 rpm. Then, the concentration of L- valine was analyzed using HPLC, and the analyzed concentration of L- valine is shown in Table 3 below.
- Glucose 10g meat extract 5g, polypeptone 10g, sodium chloride 2.5g, yeast extract 5g, agar 20g, urea 2g (based on 1 liter of distilled water)
- KCCM11201P and KCCM11201P :: ilvN (A42V+T44A) L-valine production capacity strain L-valine (g/L) batch 1 batch 2 batch 3 average KCCM11201P 2.7 2.7 2.8 2.7 KCCM11201P:: ilvN (A42V+T44A) 3.3 3.2 3.1 3.2
- Example 3-2 Construction of ilvN mutation introduced in Corynebacterium glutamicum KCCM11201P strain and evaluation of L-valine production ability
- a vector containing the target mutation was constructed. Specifically, the genomic DNA of the Corynebacterium glutamicum wild type ATCC14067 strain was extracted using the G-spin Total DNA Extraction Mini Kit (Intron, Cat. No 17045) according to the protocol provided in the kit, PCR was performed using the genomic DNA as a template. PCR conditions were denatured at 94° C.
- mutant introduction fragment 2 a 515 bp PCR product
- SEQ ID NO: 11 and SEQ ID NO: 12 PCR products of 518 bp hereinafter, referred to as “mutation introduction fragment 3”.
- primer base sequence SEQ ID NO: 9 cggggatcctctaga AGGACGGTACTCAAATACTAAACTTC SEQ ID NO: 10 GGCCTTTGCAGACACGAGGGACACGAGG SEQ ID NO: 11 TGTCCCTCGTGTCTGCAAAGGCCGAAACACTCGGC SEQ ID NO: 12 cggggatcctctaga GACAACTACATTATTATTTATACCACA
- the pDZ-ilvN (T44A) was transformed into Corynebacterium glutamicum KCCM11201P by homologous recombination on the chromosome (van der Rest et al., Appl Microbiol Biotechnol 52:541-545, 1999). By the homologous recombination, the A42V mutation was restored and the T44A mutation was introduced.
- a strain in which the vector was inserted into the chromosome by recombination of the homologous sequence was selected in a medium containing 25 mg/L of kanamycin.
- PCR using SEQ ID NO: 9 and SEQ ID NO: 12 was performed on the Corynebacterium glutamicum transformant after the secondary recombination was completed, and threonine was detected at amino acid position 44 of SEQ ID NO: 1 in the ORF of the ilvN gene on the chromosome. Strains substituted with alanine were identified. The recombinant strain was named Corynebacterium glutamicum KCCM11201P :: ilvN (T44A).
- the concentration of L-valine was analyzed by culturing in the same manner as in Example 3-1, and the analyzed L-valine concentration is shown in Table 5 below.
- Example 3-3 Construction of ilvN mutation-introduced strain in Corynebacterium glutamicum CJ7V strain and evaluation of L-valine production ability
- genomic DNA of strain ATCC14067 was extracted using a G-spin Total DNA Extraction Mini Kit (Intron, Cat. No 17045) according to the protocol provided in the kit.
- PCR was performed using the genomic DNA as a template.
- gene fragments (A and B) were obtained using a primer pair of SEQ ID NOs: 13 and 14 and a primer pair of SEQ ID NOs: 15 and 16, respectively.
- PCR conditions were denatured at 94° C. for 5 minutes; After 25 cycles of denaturation at 94°C for 30 seconds, annealing at 55°C for 30 seconds, and polymerization at 72°C for 60 seconds; Polymerization was performed at 72° C. for 7 minutes.
- primer base sequence SEQ ID NO: 13 cggggatcctctagaAGGACGGTACTCAAATACTAAACTTC SEQ ID NO: 14 TGCCGAGTGTTTCGGTCTTTACAGACACGAGGGACACG SEQ ID NO: 15 TGTCTGTAAAGACCGAAACACTCGGCATCAA SEQ ID NO: 16 cggggatcctctagaGACAACTACATTATTATTTATACCACA
- the pDZ-ilvN (A42V) was transformed into wild type Corynebacterium glutamicum ATCC14067 by homologous recombination on the chromosome (van der Rest et al., Appl Microbiol Biotechnol 52:541-545, 1999).
- a strain in which the vector was inserted into the chromosome by recombination of the homologous sequence was selected in a medium containing 25 mg/L of kanamycin.
- the gene fragment was amplified through PCR using SEQ ID NO: 13 and SEQ ID NO: 16 for the Corynebacterium glutamicum transformant after the secondary recombination was completed, and the mutant insertion strain was confirmed through gene sequence analysis. .
- the recombinant strain was named Corynebacterium glutamicum CJ7V.
- strains were prepared by transforming the respective vectors into the Corynebacterium glutamicum CJ7V in the same manner as in Example 3-1 and Example 3-2, and respectively Corynebacterium glutamicum CJ7V: : ilvN (T44A), CJ7V:: ilvN (A42V+T44A).
- concentration of L-valine was analyzed by culturing in the same manner as in Example 3-1, and the analyzed L-valine concentration is shown in Table 7 below.
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Abstract
Description
균주명 | L-발린(g/L) | |
대조군 | KCCM11201P | 2.8 |
실험군 | C1 | 3.1 |
C2 | 3.3 | |
C3 | 2.5 | |
C4 | 2.4 | |
C5 | 2.3 | |
C6 | 1.2 | |
C7 | 2.9 | |
C8 | 3.4 | |
C9 | 3.2 | |
C10 | 3.2 | |
C11 | 1.9 | |
C12 | 2.4 | |
C13 | 3.8 | |
C14 | 4.5 | |
C15 | 1.8 | |
C16 | 2.3 | |
C17 | 2.7 | |
C18 | 2.6 | |
C19 | 2.6 | |
C20 | 3.5 | |
C21 | 2.5 |
프라이머 | 염기 서열 |
서열번호 7 | cggggatcctctaga AGGACGGTACTCAAATACTAAACTTC |
서열번호 8 | cggggatcctctaga GACAACTACATTATTATTATACCACA |
균주 | L-발린 (g/L) | |||
배치 1 | 배치 2 | 배치 3 | 평균 | |
KCCM11201P | 2.7 | 2.7 | 2.8 | 2.7 |
KCCM11201P::ilvN(A42V+T44A) | 3.3 | 3.2 | 3.1 | 3.2 |
프라이머 | 염기 서열 |
서열번호 9 | cggggatcctctaga AGGACGGTACTCAAATACTAAACTTC |
서열번호 10 | GGCCTTTGCAGACACGAGGGACACGAGG |
서열번호 11 | TGTCCCTCGTGTCTGCAAAGGCCGAAACACTCGGC |
서열번호 12 | cggggatcctctaga GACAACTACATTATTATTATACCACA |
균주 | L-발린 (g/L) | |||
배치 1 | 배치 2 | 배치 3 | 평균 | |
KCCM11201P | 2.7 | 2.7 | 2.8 | 2.7 |
KCCM11201P::ilvN(T44A) | 2.9 | 3.0 | 2.9 | 2.9 |
KCCM11201P::ilvN(A42V+T44A) | 3.2 | 3.3 | 3.1 | 3.2 |
프라이머 | 염기 서열 |
서열번호 13 | cggggatcctctagaAGGACGGTACTCAAATACTAAACTTC |
서열번호 14 | TGCCGAGTGTTTCGGTCTTTACAGACACGAGGGACACG |
서열번호 15 | TGTCTGTAAAGACCGAAACACTCGGCATCAA |
서열번호 16 | cggggatcctctagaGACAACTACATTATTATTATACCACA |
균주 | L-발린 (g/L) | |||
배치 1 | 배치 2 | 배치 3 | 평균 | |
CJ7V | 3.5 | 3.5 | 3.6 | 3.5 |
CJ7V::ilvN(T44A) | 3.9 | 3.8 | 3.8 | 3.8 |
CJ7V::ilvN (A42V+T44A) | 4.1 | 4.0 | 4.0 | 4.0 |
Claims (14)
- 서열번호 1의 아미노산 서열에서 44번째 위치에 상응하는 아미노산이 다른 아미노산으로 치환된 아세토하이드록시산 신타아제 소단위체(ilvN) 변이체.
- 제1항에 있어서, 상기 변이체는 추가적으로 서열번호 1의 아미노산 서열에서 42번째 위치에 상응하는 아미노산이 다른 아미노산으로 치환된 것인, 변이체.
- 제1항에 있어서, 상기 변이체는 서열번호 1의 44번째 위치에 상응하는 아미노산이 알라닌으로 치환된 것인, 변이체.
- 제2항에 있어서, 상기 변이체는 서열번호 1의 44번째 위치에 상응하는 아미노산이 알라닌으로, 42번째 위치에 상응하는 아미노산이 발린으로 치환된 것인, 변이체.
- 제1항에 있어서, 상기 변이체는 서열번호 3으로 기재된 아미노산 서열로 이루어지는, 변이체.
- 제2항에 있어서, 상기 변이체는 서열번호 5로 기재된 아미노산 서열로 이루어지는, 변이체.
- 제1항 내지 제6항 중 어느 한 항의 변이체를 코딩하는 폴리뉴클레오티드.
- 제7항의 폴리뉴클레오티드를 포함하는, 발현 벡터.
- 제1항 내지 제6항 중 어느 한 항의 변이체 또는 상기 변이체를 코딩하는 폴리뉴클레오티드를 포함하는, 미생물.
- 제9항에 있어서, 상기 미생물은 서열번호 1의 폴리펩티드 또는 이를 코딩하는 폴리뉴클레오티드를 포함하는 미생물과 비교하여 L-발린 생산능이 증가된, 미생물.
- 제9항에 있어서, 상기 미생물은 코리네박테리움 속 미생물인, 미생물.
- 제11항에 있어서, 상기 코리네박테리움 속 미생물은 코리네박테리움 글루타미쿰(Corynebacterium glutamicum)인, 미생물.
- 제9항의 미생물을 배지에서 배양하는 단계를 포함하는, L-발린 생산 방법.
- 제13항에 있어서, 상기 배지에서 목적 물질을 회수하는 단계;를 추가적으로 포함하는, 방법.
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EP22861500.1A EP4375369A1 (en) | 2021-08-23 | 2022-03-30 | Novel acetohydroxy acid synthase subunit variant and method for producing l-valine using same |
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