CN111057695A - Nitrilase and preparation method and application thereof - Google Patents
Nitrilase and preparation method and application thereof Download PDFInfo
- Publication number
- CN111057695A CN111057695A CN201911328262.XA CN201911328262A CN111057695A CN 111057695 A CN111057695 A CN 111057695A CN 201911328262 A CN201911328262 A CN 201911328262A CN 111057695 A CN111057695 A CN 111057695A
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- China
- Prior art keywords
- nitrilase
- valeronitrile
- ala
- seq
- substrate
- Prior art date
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- 108010033272 Nitrilase Proteins 0.000 title claims abstract description 62
- 238000002360 preparation method Methods 0.000 title claims abstract description 10
- RFFFKMOABOFIDF-UHFFFAOYSA-N Pentanenitrile Chemical compound CCCCC#N RFFFKMOABOFIDF-UHFFFAOYSA-N 0.000 claims abstract description 26
- NQPDZGIKBAWPEJ-UHFFFAOYSA-N valeric acid Chemical compound CCCCC(O)=O NQPDZGIKBAWPEJ-UHFFFAOYSA-N 0.000 claims abstract description 22
- 108090000623 proteins and genes Proteins 0.000 claims abstract description 15
- SUSQOBVLVYHIEX-UHFFFAOYSA-N phenylacetonitrile Chemical compound N#CCC1=CC=CC=C1 SUSQOBVLVYHIEX-UHFFFAOYSA-N 0.000 claims abstract description 10
- 239000002773 nucleotide Substances 0.000 claims abstract description 8
- 125000003729 nucleotide group Chemical group 0.000 claims abstract description 8
- FWMNVWWHGCHHJJ-SKKKGAJSSA-N 4-amino-1-[(2r)-6-amino-2-[[(2r)-2-[[(2r)-2-[[(2r)-2-amino-3-phenylpropanoyl]amino]-3-phenylpropanoyl]amino]-4-methylpentanoyl]amino]hexanoyl]piperidine-4-carboxylic acid Chemical compound C([C@H](C(=O)N[C@H](CC(C)C)C(=O)N[C@H](CCCCN)C(=O)N1CCC(N)(CC1)C(O)=O)NC(=O)[C@H](N)CC=1C=CC=CC=1)C1=CC=CC=C1 FWMNVWWHGCHHJJ-SKKKGAJSSA-N 0.000 claims abstract description 6
- BTGRAWJCKBQKAO-UHFFFAOYSA-N adiponitrile Chemical compound N#CCCCCC#N BTGRAWJCKBQKAO-UHFFFAOYSA-N 0.000 claims abstract description 6
- 125000003275 alpha amino acid group Chemical group 0.000 claims abstract 3
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- 239000001361 adipic acid Substances 0.000 abstract description 2
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Abstract
The invention discloses a microbial nitrilase, and a preparation method and application thereof. Specifically, the amino acid sequence is disclosed as SEQ ID NO: 1 as a nitrilase; the nucleotide sequence is shown as SEQ ID NO: 2 as the nitrilase coding gene. The invention provides the SEQ ID NO: the protein shown in 1 has nitrilase activity, can effectively catalyze phenylacetonitrile, adiponitrile, butenenitrile, n-valeronitrile and the like to generate corresponding products such as phenylacetic acid, adipic acid, butenoic acid, n-valeric acid and the like, and has very high industrial application potential.
Description
Technical Field
The invention relates to the technical field of genetic engineering, and particularly relates to a novel nitrilase and application thereof.
Background
Nitrile compounds are important organic chemical raw materials and are toxic substances with pungent smells. In the process of synthesizing rubber and refining petroleum, sewage contains various nitrile compounds, and people tend to treat the nitrile compounds in the sewage by adopting a biological method which is harmless to the environment compared with by-products in the process of treating the nitrile compounds by a physical method and a chemical method. Compared with physical methods and chemical methods, the biological method has the characteristics of mild reaction conditions, stable operation and low cost. Since the 19 th century, biological treatment of organic matter in wastewater has become the dominant method in countries around the world. The metabolic function of the microorganism is utilized to degrade organic matters such as nitrile, phenols and the like in the wastewater into water, carbon dioxide and the like, thereby achieving the purification effect of the wastewater.
Nitrilases (Nitrilase, EC 3.5.5.1) are an important class of industrial enzymes belonging to the Nitrilase superfamily. Not only can degrade nitrile pollutants, but also can convert cheap nitrile compounds into intermediates of products with high added values, such as industry, food, medicine and the like, for example: acrylic acid, nicotinic acid, chiral mandelic acid, and the like. Since the 60's of the 20 th century, the american scientist Robinson and colleagues discovered the first nitrilase in the world, one continued to isolate and identify nitrilases from a variety of sources, such as: rhodococcus, Alcaligenes, Pseudomonas, Acinetobacter, and the like.
Disclosure of Invention
The invention aims to overcome the defects of the prior art and provide a novel nitrilase and application thereof.
The first purpose of the invention is to provide a polypeptide with an amino acid sequence shown as SEQ ID NO: 1 as a nitrilase.
The second purpose of the invention is to provide a nucleotide sequence shown as SEQ ID NO: 2 as the nitrilase coding gene.
A third object of the present invention is to provide the amino acid sequence as set forth in SEQ ID NO: 1 in catalyzing the hydrolysis of nitrile.
The fourth purpose of the invention is to provide an application of the recombinant vector in preparing n-pentanoic acid by using n-valeronitrile as a substrate for nitrile hydrolysis.
The fifth purpose of the invention is to provide the application of the engineering bacteria in preparing the n-pentanoic acid by using the n-valeronitrile as a substrate for nitrile hydrolysis.
In order to achieve the purpose, the invention is realized by the following technical scheme:
nitrile degrading bacteria (Nitrilorkaliphilus) ANL-iso2 (accession number DSM 45188) is a strain with nitrilase activity, and can hydrolyze various nitrile compounds such as phenylacetonitrile, adiponitrile, butenenitrile and n-valeronitrile to generate corresponding acid substrates. Therefore, the nitrile degrading bacteria (Nitrilliuptor alkal iphilus) ANL-iso2 (accession number DSM 45188) nitrilase gene was cloned and its expression in E.coli was highly efficient.
The invention provides an amino acid sequence derived from nitrile degrading bacteria (Nitrilorkaliphilus) ANL-iso2 (deposit number DSM 45188) as shown in SEQ ID NO: 1 shows nitrilase (Nit3) activity. In order to realize the soluble heterologous expression of nitrilase in prokaryotes such as escherichia coli and the like, a gene engineering conventional operation is carried out, and a synthetic method is adopted to obtain a polypeptide corresponding to the sequence shown in SEQ ID NO: 1, as shown in SEQ id no: 2, respectively.
The invention therefore claims the following:
the amino acid sequence is shown as SEQ ID NO: 1 as a nitrilase.
The nucleotide sequence is shown as SEQ ID NO: 2 as the nitrilase coding gene.
The amino acid sequence as set forth in SEQ ID NO: 1 for use in the hydrolysis of nitrile.
Preferably, one or more of phenylacetonitrile, adiponitrile, butenenitrile and n-valeronitrile are used as the substrate.
Preparing phenylacetic acid by using phenylacetonitrile as a substrate and using the nitrilase; preparing adipic acid by using adiponitrile as a substrate and the nitrilase; preparing butenoic acid by using butenenitrile as a substrate and using the nitrilase; and (3) taking n-valeronitrile as a substrate, and preparing n-pentanoic acid by using the nitrilase.
Preferably, the temperature for hydrolyzing nitrile by taking n-valeronitrile as a substrate is 25-65 ℃.
More preferably, the temperature for the hydrolysis of nitrile using n-valeronitrile as a substrate is 45 ℃.
Preferably, the pH value of the hydrolysis of the nitrile by using the n-valeronitrile as a substrate is 3-12.
More preferably, the pH for the hydrolysis of nitrile with n-valeronitrile as substrate is 8.0.
The invention also claims an application of the recombinant vector in preparation of n-pentanoic acid by using n-valeronitrile as a substrate for nitrile hydrolysis, wherein the recombinant vector contains a nucleotide sequence shown as SEQ ID NO: 2.
The invention also claims an application of the engineering bacteria in preparation of n-pentanoic acid by using n-valeronitrile as a substrate to carry out nitrile hydrolysis, wherein the engineering bacteria carry the recombinant vector.
The preparation method of the thallus of the engineering bacteria comprises the following steps: inoculating the engineering bacteria to an LB liquid culture medium containing 50 mu g/mL ampicillin, culturing at 37 ℃ for 12h, then inoculating the engineering bacteria to a fresh LB liquid culture medium containing 50 mu g/mL ampicillin in an inoculation amount with a volume concentration of 2%, and culturing at 37 ℃ until the bacterial concentration OD600The value was 0.5, IPTG was added to the LB liquid medium to a final concentration of 0.5mM, induction culture was carried out at 15 ℃ for 20 hours, the culture was centrifuged at 4 ℃ and 8000rpm for 5 minutes, the supernatant was discarded, and the cells containing the recombinant nitrilase were collected.
The nitrilase coding gene Nit3 is connected with an expression vector pCold I DNA, and an expression recombinant plasmid pCold I DNA-Nit3 containing the nitrilase gene Nit3 is constructed. The expression recombinant plasmid pCold I DNA-Nit3 was transformed into E.coli BL21(DE3) strain to obtain recombinant E.coli BL21(DE3)/pCold I DNA-Nit3 containing recombinant plasmid pCold I DNA-Nit 3. Taking the recombinant bacteria as an enzyme source for biocatalysis. The recombinant strain BL21(DE3)/pCold I DNA-Nit3 shows high nitrilase activity, the optimum reaction temperature for purifying nitrilase is 45 ℃, the optimum reaction pH is 8.0, and the nitrilase can effectively convert substrate n-valeronitrile into n-pentanoic acid.
The preparation method of the nitrilase purification liquid of the recombinant strain comprises the following steps: collecting thalli in fermentation liquor, utilizing PB Buffer solution to resuspend and break cells, carrying out solid-liquid separation to obtain supernatant fluid, obtaining cell-free extract, preparing a sample for loading through a 0.45 mu m filter membrane, firstly Washing a Ni-NTA agarose gel column to balance with a Binding/Washing Buffer, Washing the column at the flow rate of 2mL/min, then loading the sample at the flow rate of 1mL/min, after complete adsorption, eluting with an elute Buffer at the flow rate of 2mL/min, and collecting eluent in each stage, namely nitrilase purified liquid.
Compared with the prior art, the invention has the following beneficial effects:
the invention provides the SEQ ID NO: the protein shown in 1 has nitrilase activity, can effectively catalyze n-valeronitrile to be converted into n-pentanoic acid, and the engineering bacteria prepared by using the protein has high nitrilase activity, short fermentation period and high catalysis efficiency, and is suitable for the requirement of industrial production of n-pentanoic acid.
Drawings
FIG. 1 is a SDS-PAGE pattern of the separation and purification of recombinant nitrilase; lane 1 (left to right): cell-free extract supernatant, lane 2: purified nitrilase eluate, lane 3: purified nitrilase eluate, lane 4: and (3) standard protein molecular weight Marker.
FIG. 2 shows the optimum reaction temperature for the recombinant nitrilase (reaction using n-valeronitrile as a substrate).
FIG. 3 shows the optimum reaction pH for the recombinant nitrilase (reaction using n-valeronitrile as a substrate).
Detailed Description
The invention is described in further detail below with reference to the drawings and specific examples, which are provided for illustration only and are not intended to limit the scope of the invention. The test methods used in the following examples are all conventional methods unless otherwise specified; the materials, reagents and the like used are, unless otherwise specified, commercially available reagents and materials.
Example 1 acquisition of nitrilase
First, experiment method
The data retrieval of NCBI database is utilized to obtain the genome data (NCBI Reference Sequence: NZ _ KQ033901.1) of nitrile group degrading bacteria (Nitrilorkaliphilus) ANL-iso2 (deposition number DSM 45188), and the genome is screened according to the prediction and annotation of functional genes to obtain a nitrilase gene (Nit 3). According to the amino acid sequence of the nitrilase, codon optimization is carried out according to the preferred codon of escherichia coli, and enzyme cutting sites Nde I and Xba I are designed according to the characteristics of expression vector pColdI DNA.
Second, experimental results
The nitrilase gene Nit3 (nucleotide sequence shown in SEQ ID: 2) was synthesized by a general procedure of genetic engineering in a total synthesis manner, and the amino acid sequence of the encoded enzyme is shown in SEQ ID: 1.
Example 2 construction of recombinant expression vector pCold I DNA-Nit3 and construction of recombinant engineering bacteria
First, experiment method
The fragment containing the Nit3 gene (nucleotide sequence shown in SEQ ID: 2) was subjected to double digestion and recovery treatment with Nde I and Xba I restriction enzymes, and ligated with a commercial vector pCold I DNA treated with the same restriction enzymes at 16 ℃ for 6h using T4 DNA ligase to construct an intracellular recombinant expression vector pCold I DNA-Nit 3. The constructed intracellular expression vector pCold I DNA-Nit3 is transformed into E.coli BL21(DE3) recipient bacteria, coated on an LB agar plate containing ampicillin (the final concentration is 50 mu g/mL), cultured overnight at 37 ℃, and randomly picked out from colonies growing on the plate the next day, cloned and extracted to carry out agarose gel electrophoresis identification.
Second, experimental results
Obtain recombinant gene engineering bacteria E.coli BL21(DE3)/pCold I DNA-Nit 3.
Example 3 preparation of cells containing nitrilase Nit3
First, experiment method
The genetically engineered bacterium E.coli BL21(DE3)/pCold I DNA-Nit3 constructed in example 2 was inoculated into LB liquid medium containing 50. mu.g/mL ampicillin, cultured at 37 ℃ for 12 hours, inoculated into fresh LB liquid medium containing 50. mu.g/mL ampicillin in a 2% inoculum size (v/v), and cultured at 37 ℃ until the cell concentration OD600About 0.5, adding IPTG with the final concentration of 0.5mM into LB liquid culture medium, inducing and culturing at 15 ℃ for 20h, centrifuging the culture solution at 4 ℃ and 8000rpm for 5min, discarding the supernatant, and collecting wet thalli containing recombinant nitrilase, namely Escherichia coli BL21(DE3)/pCold I DNA-Nit3 wet thalli containing intracellular expression of recombinant nitrilase. And then SDS-PAGE electrophoresis is carried out to verify the size and the expression condition of the target protein.
Second, experimental results
SDS-PAGE shows that the Escherichia coli BL21(DE3) containing pCold I DNA-Nit3 can efficiently express target protein with the size of 40000 daltons by induction.
EXAMPLE 4 isolation and purification of recombinant nitrilase and enzymatic characterization
First, experiment method
The fermentation broth of the recombinant bacteria was centrifuged at 8000rpm for 5min at 4 ℃ to remove the supernatant. The cells collected by centrifugation were suspended in PB buffer (0.2M, pH7.4) to prepare a suspension. And (3) crushing the bacterial suspension in an ice bath by using an ultrasonic crusher, working for 30min under the power of 200W, and stopping working for 2s and 4s in each cycle. The sample was stained with crystal violet and observed under a microscope until complete lysis of the cells was indicated. Centrifuging the cell disruption solution at 4 deg.C and 12,000rpm for 10min to obtain supernatant as cell-free extractive solution. Filtering the cell-free extract with a 0.45-micrometer filter membrane to prepare a sample, firstly Washing a Ni-NTA agarose gel column with a Binding/Washing Buffer until the balance is achieved, Washing the column at the flow rate of 2mL/min, then loading the sample at the flow rate of 1mL/min, after complete adsorption, eluting with an Elution Buffer at the flow rate of 2mL/min, collecting the eluates at each stage, obtaining a nitrilase purification solution, and then carrying out SDS-PAGE electrophoresis to detect the expression and purification conditions of the target protein. And carrying out degradation reaction by using purified liquid of nitrilase by using n-valeronitrile as a substrate.
Second, experimental results
The expression and purification of the target protein by SDS-PAGE electrophoresis are shown in FIG. 1, and the apparent molecular weight is 42000 daltons.
When n-valeronitrile was used as a substrate, the optimum reaction temperature for nitrilase was 45 ℃ (as shown in FIG. 2), and the optimum reaction pH was 8.0 (as shown in FIG. 3). Under the optimal reaction conditions, the enzyme activity of the purified recombinant nitrilase is 0.78 mu mol/(mg. min).
EXAMPLE 5 degradation of nitriles by recombinant nitrilases
First, experiment method
A purified nitrilase solution was obtained in accordance with the method of example 4, and then degradation of other nitriles was examined by using the purified nitrilase solution, and the relative activity (relative activity) of the nitrilase was calculated by performing degradation at 45 ℃ and pH 8.0.
Second, experimental results
Table 1:
as shown in Table 1, the nitrilase (Nit3) has stronger hydrolysis capacities to acetonitrile, adiponitrile and butenenitrile, respectively 132%, 120% and 107%, and relative enzyme activity to acetonitrile of 89% under the same hydrolysis conditions relative to the hydrolysis efficiency of the substrate which is n-valeronitrile, and the nitrilase Nit3 has a very wide substrate spectrum and has higher hydrolase activity to various nitrile compounds.
Sequence listing
<110> Zhongshan university
<120> nitrilase, preparation method and application thereof
<160>2
<170>SIPOSequenceListing 1.0
<210>1
<211>353
<212>PRT
<213>Nitriliruptor alkaliphilus
<400>1
Met Ser Asn Thr Thr Arg Val Val Arg Ala Ala Ala Ile Gln Ala Glu
1 5 10 15
Pro Val Trp Phe Asp Ala Asp Ala Thr Val Glu Lys Ala Val Thr Leu
20 25 30
Ile Ala Glu Ala Ala Gly Gln Gly Ala Asp Val Val Ala Phe Pro Glu
35 40 45
Thr Phe Ile Pro Gly Tyr Pro Trp Trp Ile Trp Leu Asp Ser Pro Ala
50 55 60
Trp Gly Met Gln Phe Val His Arg Tyr His Glu Ala Ser Ile Arg Val
65 70 75 80
Asp Gly Pro Glu Leu Gln Arg Ile Gln Ala Ala Ala Arg Asp His Asp
85 90 95
Ile Thr Val Val Ala Gly Phe Ser Glu Arg Asp Gly Gly Ser Leu Tyr
100 105 110
Met Ala Gln Ala Ile Ile Gly Ala Asp Gly Glu Leu Val Ala Thr Arg
115 120 125
Arg Lys Leu Lys Pro Thr His Val Glu Arg Thr Val Phe Gly Glu Gly
130 135 140
Asp Gly Ser Asp Leu Gln Val His Glu Leu Pro Ile Gly Arg Val Gly
145 150 155 160
Ala Leu Asn Cys Trp Glu His Phe Gln Pro Leu Thr Lys Tyr Ala Met
165 170 175
Tyr Ser Met Asn Glu Gln Ile His Val Ala Ser Trp Pro Ser Phe Ser
180 185 190
Val Tyr Arg Gly Ala Ala Tyr Ala Leu Gly Pro Glu Met Asn Asn Ala
195 200 205
Ala Ser Gln Met Tyr Ala Ala Glu Gly Gln Val Phe Val Leu Ala Pro
210 215 220
Cys Gly Val Val Gly Ala Ala Gly Ile Glu Gln Phe Cys Asp Thr Asp
225 230 235 240
Leu Lys Gln Gln Leu Leu Leu Pro Gly Gly Gly Phe Ala Arg Ile Tyr
245 250 255
Gly Pro Asp Gly Ser Pro Leu Ala Glu Pro Leu Pro Glu Thr Glu Glu
260 265 270
Gly Ile Leu Tyr Ala Asp Leu Asp Leu Ser Met Ile Ser Ile Ala Lys
275 280 285
Ser Ala Ala Asp Pro Val Gly His Tyr Ser Arg Pro Asp Val Thr Arg
290 295 300
Leu Leu Leu Asn Thr Thr Arg Ala Pro Arg Val Glu Ala Met Arg Thr
305 310 315 320
Pro Leu Met Asp Val Ala Ala Ala Ala Val Pro Asp Pro Glu Pro Ala
325 330 335
Pro Ala Gly Ile Ala Asp Gly Asp Ala Arg Val Ala Ala Arg His Gly
340 345 350
Ser
<210>2
<211>1062
<212>DNA
<213>Nitriliruptor alkaliphilus
<400>2
atgtcgaaca ccacgcgtgt cgtccgcgcc gcggcgatcc aggcagaacc cgtctggttc 60
gacgccgacg ccacggtcga aaaggccgtg acgttgatcg cggaagccgc cggccagggc 120
gccgacgtgg ttgccttccc ggagacgttc atcccggggt atccgtggtg gatttggctg 180
gactcccccg cttggggcat gcagttcgtg catcgctacc acgaggcctc catccgcgtg 240
gacgggcccg aactgcagcg gatccaggcc gcggcgcggg accacgacat caccgtggtg 300
gccgggttca gtgaacgcga cggcggctcg ctgtacatgg cccaggcgat catcggggcc 360
gacggggagc tcgtcgcaac gcggcgcaag ctcaagccca cccacgtcga acgcaccgtc 420
ttcggtgagg gtgacggcag cgaccttcag gtccacgaac tgccgatcgg gcgcgtcggt 480
gccctcaact gttgggagca cttccagccg ttgaccaagt acgcgatgta cagcatgaac 540
gagcagatcc acgtcgcgtc gtggccgagc ttctccgtct accgcggggc ggcgtacgca 600
ctgggccccg agatgaacaa cgccgccagc cagatgtacg ccgcggaggg ccaggtgttc 660
gtgctcgccc cctgcggtgt cgtcggggcg gccggcatcg agcagttctg cgacaccgat 720
ctgaagcagc aactgttgct gcccggcgga ggtttcgcac ggatctacgg tccggatggc 780
agcccgctag cggagccgct ccccgagacc gaggaaggga tcctctacgc cgacctcgat 840
ctgtcgatga tctcgatcgc caaatctgcc gcagacccag tcggccacta ctcccggccc 900
gacgtgaccc ggctgttgct gaacacgaca cgggcaccac gcgtggaggc catgcggacg 960
ccgttgatgg atgtcgcggc agctgcggtg ccggacccgg agcccgctcc cgccggtatc 1020
gccgatgggg acgcacgtgt tgcagcccgg catggaagct ga 1062
Claims (10)
1. The amino acid sequence is shown as SEQ ID NO: 1 as a nitrilase.
2. The nucleotide sequence is shown as SEQ ID NO: 2 as the nitrilase coding gene.
3. The amino acid sequence as set forth in claim 1 as set forth in SEQ ID NO: 1 in catalyzing the hydrolysis of nitrile.
4. Use according to claim 3, characterized in that one or several of phenylacetonitrile, adiponitrile, butenenitrile and n-valeronitrile are used as substrates.
5. The use according to claim 3 or 4, wherein the temperature for the hydrolysis of nitrile using n-valeronitrile as a substrate is 25 to 65 ℃.
6. The use according to claim 5, wherein the nitrile hydrolysis temperature using n-valeronitrile as a substrate is 45 ℃.
7. The use according to claim 3 or 4, wherein the pH for the hydrolysis of nitrile using n-valeronitrile as a substrate is 3 to 12.
8. The use according to claim 7, wherein the nitrile hydrolysis reaction using n-valeronitrile as a substrate has a pH of 8.0.
9. Use of a recombinant vector for the production of n-pentanoic acid by the hydrolysis of n-valeronitrile as a substrate, wherein the recombinant vector comprises the nucleotide sequence of claim 2 as set forth in SEQ ID NO: 2.
10. Use of an engineered bacterium carrying a recombinant vector according to claim 9 for the preparation of n-pentanoic acid by nitrilehydration using n-valeronitrile as a substrate.
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