CN110283935A - A kind of African swine fever virus LAMP detection kit and its application - Google Patents
A kind of African swine fever virus LAMP detection kit and its application Download PDFInfo
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- C12—BIOCHEMISTRY; BEER; SPIRITS; WINE; VINEGAR; MICROBIOLOGY; ENZYMOLOGY; MUTATION OR GENETIC ENGINEERING
- C12Q—MEASURING OR TESTING PROCESSES INVOLVING ENZYMES, NUCLEIC ACIDS OR MICROORGANISMS; COMPOSITIONS OR TEST PAPERS THEREFOR; PROCESSES OF PREPARING SUCH COMPOSITIONS; CONDITION-RESPONSIVE CONTROL IN MICROBIOLOGICAL OR ENZYMOLOGICAL PROCESSES
- C12Q1/00—Measuring or testing processes involving enzymes, nucleic acids or microorganisms; Compositions therefor; Processes of preparing such compositions
- C12Q1/68—Measuring or testing processes involving enzymes, nucleic acids or microorganisms; Compositions therefor; Processes of preparing such compositions involving nucleic acids
- C12Q1/6844—Nucleic acid amplification reactions
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- C—CHEMISTRY; METALLURGY
- C12—BIOCHEMISTRY; BEER; SPIRITS; WINE; VINEGAR; MICROBIOLOGY; ENZYMOLOGY; MUTATION OR GENETIC ENGINEERING
- C12Q—MEASURING OR TESTING PROCESSES INVOLVING ENZYMES, NUCLEIC ACIDS OR MICROORGANISMS; COMPOSITIONS OR TEST PAPERS THEREFOR; PROCESSES OF PREPARING SUCH COMPOSITIONS; CONDITION-RESPONSIVE CONTROL IN MICROBIOLOGICAL OR ENZYMOLOGICAL PROCESSES
- C12Q1/00—Measuring or testing processes involving enzymes, nucleic acids or microorganisms; Compositions therefor; Processes of preparing such compositions
- C12Q1/70—Measuring or testing processes involving enzymes, nucleic acids or microorganisms; Compositions therefor; Processes of preparing such compositions involving virus or bacteriophage
- C12Q1/701—Specific hybridization probes
Abstract
The present invention relates to a kind of African swine fever virus LAMP detection kits.For the reply 2018 African swine fever epidemic situations in China's discovery, the primer sets that the present invention uses African swine fever virus P72 gene to detect as LAMP, primer sets specific detection African swine fever virus gene P72, ASFV can effectively be detected, new technological means is provided for African swine fever prevention and control, is conducive to strain detection and entry and exit rapid screening.The quick detection of African swine fever virus may be implemented in the LAMP detection method, testing result can be estimated directly, only need heating that entire reaction can be realized, get rid of dependence of traditional nucleic acid detection technique for PCR instrument, and the method detection sensitivity height, high specificity, it is reproducible, detection speed it is fast, can be used as effective African swine fever on-site test means.
Description
Technical field:
The invention belongs to field of biotechnology, and in particular to a kind of African swine fever virus LAMP detection kit and its answer
With.
Background technique:
African swine fever (African swine fever, ASF) is by African swine fever virus (African swine fever
Virus, ASFV) caused by one kind is acute, hot, highly contagious disease, disease time is short, and case fatality rate is high.ASF is pair
Pig breeding industry endangers epidemic disease the most serious, is classified as statutory report epidemic disease by World Organization for Animal Health (OIE), is classified as by China
A kind of infectious disease.ASFV belongs to double-stranded DNA virus mesh African swine fever virus section African swine fever virus category, which only has one at present
A ASFV virus kind.The genome of ASFV is unimolecule linear DNA, length about 170~190kb.ASFV individual is larger, diameter
Up to 200nm, surface is icosahedral structure of virus and one layer of cyst membrane containing lipoid, therefore high temperature and some disinfections for destroying cyst membrane
Agent can effectively kill ASFV.But due to its complicated molecular structure, ASFV is to the more other cyst membranes of the resistance of disinfectant
Virus is slightly strong, and especially the time-to-live is longer in some pork products or blood.It is reported that ASFV blood, excrement and
The time-to-live is up to half a year in tissue, and the time-to-live is up to 3 months in raw meat or in not well-done pork product, this
ASFV is resulted in once being passed to, often in plague area long-term existence, causes secondary or secondary infection.The disease incidence of African swine fever
It can reach 100% with case fatality rate, and there is no effective vaccine to come out in world wide at present, diffusion and prevalence produce pig raising
Industry may cause crushing blow, and resulting indirect loss can not then be estimated.
Existing laboratory testing method mainly has serological method and aetology method.Serological method mainly has indirectly
Enzyme-linked immunosorbent assay blocks enzyme-linked immunosorbent assay and indirect fluorescent antibody test etc., and wherein Enzyme-linked Immunosorbent Assay tries
Testing has had the kit of commercialization to sell.The aetology method of ASFV also has very much, the cell culture and separation of such as virus,
Direct immunofluorescence, double antibody sandwich ELISA, regular-PCR and fluorescence PCR method etc., the regular-PCR that wherein OIE recommends
It is the most commonly used with fluorescence PCR method.3 kinds of ASFV aetologies are referred in China's " African swine fever Prevention Technique specification (tentative) "
Detection method: double antibody enzyme-linked immunosorbent assays, polymerase chain reaction and real-time fluorescent polyase chain reaction
(OIE official website).In addition to this, ASF Control Technology development work dynamics is also increased, exploitation is simple, efficient, special as early as possible
Different diagnostic reagent and diagnostic method, and can mutually identify with other swinery epidemic diseases such as classic swine fever, highly pathogenic PRRSs.
Ring mediated isothermal amplification method (Loop mediated isothermal amplification method, LAMP)
It is a kind of emerging nucleic acid amplification technologies, it realizes the nucleic acid rapid amplifying under isothermy using unique design of primers.?
Also occur in existing periodical literature article, such as Jiang Yanzeng of more LAMP detection African swine fever etc. 1., Yang Ji fly etc. 2.,
Wang Caixia etc. 3., Wang Hua etc. 4. establish African swine fever virus loop-mediated isothermal amplification fast detection method, however, market
On there is not relevant product.In order to be sent out in the detection and product of the Technology application to ASFV in China within reply 2018
Existing African swine fever epidemic situation, the primer sets that this research uses African swine fever virus P72 gene to detect as LAMP, the primer sets
Specific detection African swine fever virus gene P72, can effectively detect ASFV, and new technology hand is provided for African swine fever prevention and control
Section is conducive to strain detection and entry and exit rapid screening, and testing result accuracy is high, reproducible.
Summary of the invention:
In order to solve African swine fever detection common detection methods low efficiency, Bu Nengshi stronger for the dependence of instrument
The technical issues of existing on-site test, the present invention is intended to provide a kind of African swine fever virus LAMP detection kit and application, described
The quick detection of African swine fever virus may be implemented in LAMP detection method, and testing result can be estimated directly, it is only necessary to heating
Realize entire reaction, get rid of dependence of traditional nucleic acid detection technique for PCR instrument, and the method detection sensitivity it is high,
High specificity, reproducible, detection speed is fast, can be used as effective African swine fever on-site test means.
The purpose of the present invention is to provide African swine fever virus LAMP detection primer group, the primer sets specific detection Africa
The encoding gene B646L gene of swine fever virus capsid protein p72.
Another object of the present invention is to provide African swine fever virus LAMP detection kit, which is mediated using ring
Isothermal amplification technique, can be effective by the detection of the encoding gene B646L gene to African swine fever virus capsid protein p72
ASFV is detected, new technological means is provided for African swine fever prevention and control, is conducive to the detection of different genotype strain and entry and exit is quick
Screening.
Third object of the present invention is to provide African swine fever virus LAMP detection method, which can quickly examine
ASF out, testing result accuracy is high, reproducible.The method can be used for the diagnosis of disease, such as the diagnosis of African swine fever;
It can be used for the diagnostic purpose of non-disease, for example, the confirmation of virus, viral Classification Identification etc. or fresh in scientific research
It whether there is African swine fever virus in pork or pork product.
To achieve the goals above, the present invention provides African swine fever virus LAMP detection primer group, and the primer sets include:
A pair of of outer primer, a pair of of inner primer, a pair of of ring primer.Its nucleotide sequence difference is as follows:
Outer primer:
4F3 ACGCAGAGATAAGCTT(SEQ ID No.1)
4B3 AAGGTAATCATCATCGC(SEQ ID No.2)
Inner primer:
4FIP TGATCGGATACGTAACGGGATAGAGATACAGCTCTTC(SEQ ID No.3)
4BIP CCGTAACTGCTCATGGTACGTAGTGGAAGGGTAT(SEQ ID No.4)
Ring primer
4LoopF ATAGATGAACATGCGTC(SEQ ID No.5)
4LoopB AGTTCTGCAGCTCTTA(SEQ ID No.6)
The present invention separately provides a kind of African swine fever virus LAMP detection kit, and the kit includes above-described draws
Object group.
Preferably, the kit includes above-described primer sets, archaeal dna polymerase, LAMP reaction solution, glycine betaine, sun
Property control and negative control.
Preferably, outer primer, ring primer, inner primer molar ratio be 4FIP:4BIP:4LoopF;4LoopB:4F3;4B3
It is 10: 10: 4: 4: 1: 1.
Preferably, the archaeal dna polymerase is Bst archaeal dna polymerase.
The LAMP reaction solution can be the buffer of commercialization purchase, such as Rong Yan biotechnology (China) company ribose
The LAMP turbidity amplification kit (product number: A3803A/ of buffer, Xin Haijiyin in nucleic acid amplification kit
A3803B) etc., or the LAMP reaction solution voluntarily prepared.
Preferably, the LAMP reaction solution contains 10mM dNTP, 10 × ThermoPol reaction buffer, 150mM
MgSO4Aqueous solution.
Preferably, the positive control is the Plasmid DNA containing target gene fragment, and negative control is sterile water, preferably
Using distilled water, tri-distilled water or DEPC water.
Preferably, the positive control is the Plasmid DNA containing p72 gene.
Preferably, the sequence of the p72 gene is as shown in SEQ ID No.7.
The present invention separately provides a kind of African swine fever virus LAMP detection method, includes the following steps:
(1) sample to be tested DNA is extracted;
(2) loop-mediated isothermal amplification: 25 μ L reaction systems of configuration, the reaction system contain above-described primer
Then group, archaeal dna polymerase, LAMP reaction solution and sample to be tested DNA are reacted with sterile water polishing to 25 μ L at 63-68 DEG C
30-60min;
(3) interpretation of result: observe by the naked eye whether solution in reaction tube becomes cloudy or by agarose gel electrophoresis point
Whether analysis there is scalariform band, as solution becomes cloudy or sentences if there is scalariform band by agarose gel electrophoresis in reaction tube
It is set to the positive, is otherwise feminine gender.
Preferably, color developing agent or fluorescent material can also be increased in loop-mediated isothermal amplification system, pass through face
Color change or fluorescence detection carry out the judgement of result.
Preferably, reaction temperature is 65 DEG C, reaction time 40min.
The African swine fever virus LAMP detection method can be used for the diagnosis of disease, such as the diagnosis of African swine fever;?
It can be used for the diagnostic purpose of non-disease.
Based on above technical scheme, the invention has the advantages that and the utility model has the advantages that
First, the present invention chooses target gene of the conserved genetic sequences p72 of African swine fever virus as detection, Neng Goujian
The accuracy of testing result can be guaranteed by surveying Multi-genotype and different strains, avoid the appearance of missing inspection, for pig farm or
Culturing area, which carries out purification work, to have great importance.
Second, the present invention uses LAMP technology, and specificity is high, is only capable of the genome of specific amplification African swine fever virus
Sequence, and design of primers science, avoid the formation of primer dimer, ensure that going on smoothly for reaction.
Third, African swine fever virus LAMP detection method high sensitivity of the invention, the lowest detection limit are 10 copies sun
Property Plasmid DNA, higher than the prior art report LAMP detection method, compared to OIE recommend PCR detection method, sensitivity
Improve nearly 50 times.
4th, it is easy to operate, complicated instrument is not needed, special reagent is not needed, it is only necessary to water bath with thermostatic control can react,
Reaction condition is mild;And muddiness, agarose gel electrophoresis, addition chromogenic reagent or addition can be observed by the naked eye
Fluorescent material carries out the approach abundant such as fluorescence detection and determines testing result, is not only suitable for pig farm on-site test, is also suitble to scientific research
Unit is used and is promoted.
Detailed description of the invention:
Fig. 1: digestion verification figure: 1, pUC57-P72 plasmid;2, pass through the plasmid pUC57-P72 after SalI-XbaI digestion;
M, Marker.
Fig. 2: LAMP testing result figure: 1, detect ddH2O;2, plasmid pUC57-P72 is detected as template;3, with
The DNA that SPF pig lymph node extracts carries out LAMP detection as template.
Fig. 3: LAMP testing result electrophoretogram: 1, detect ddH2O;2, plasmid pUC57-P72 is detected as template;3,
LAMP detection is carried out using the DNA that SPF pig lymph node extracts as template;M, Marker.
Fig. 4: LAMP sensitivity test result figure: 1, plasmid 1 × 107Copy/μ l;2, plasmid 1 × 106Copy/μ l;3, matter
Grain 1 × 105Copy/μ l;4, plasmid 1 × 104Copy/μ l;5, plasmid 1 × 103Copy/μ l;6, plasmid 1 × 102Copy/μ l;7,
Plasmid 1 × 101Copy/μ l;8, plasmid 1 × 100Copy/μ l;9, positive control plasmid pUC57-P72;10, negative control.
Fig. 5: LAMP sensitivity test result electrophoretogram: 1, positive control plasmid pUC57-P72;2, plasmid 1 × 107It copies
Shellfish/μ l;3, plasmid 1 × 106Copy/μ l;4, plasmid 1 × 105Copy/μ l;5, plasmid 1 × 104Copy/μ l;6, plasmid 1 ×
103Copy/μ l;7, plasmid 1 × 102Copy/μ l;8, plasmid 1 × 101Copy/μ l;9,1 × 100 copy of plasmid/μ l;10, sun
Property control plasmid pUC57-P72;11, negative control.
The repeated testing result figure of Fig. 6: LAMP test experience sample: 1, negative control (limpid);2, positive plasmid
pUC57-P72-1;3, positive plasmid pUC57-P72-2;4, positive plasmid pUC57-P72-3;5, positive plasmid pUC57-P72-
4;6, positive plasmid pUC57-P72-5;7, positive control.
Fig. 7: LAMP specific detection result figure: 1, African swine fever positive plasmid pUC57-P72;2, pig Japanese B encephalitis
Virus;3, swine fever virus;4, pig parvoviral;5, porcine pseudorabies virus;6, pig circular ring virus;7, transmissible gastroenteritis of swine disease
Poison;8, SPF pig lymph nodes;9, SPF Swine serums;10, negative control.
Specific embodiment:
Below in conjunction with specific embodiment, the present invention is further illustrated, but not limited to this.
Embodiment 1: sample, design of primers and preparation
1.1 plasmids, sample source and experiment place
It is raw by raw work according to the African swine fever virus P72 protein gene (shown in SEQ ID No.7) provided on Genebank
Object engineering (Shanghai) limited liability company synthetic plasmid pUC57-P72, dissolved dilution to 1.0 × 107Copy/μ L.
Pig Japanese B encephalitis virus, swine fever virus, pig parvoviral, porcine pseudorabies virus, pig circular ring virus, pig are infected
Property marcy agent by Shaanxi Nowe Li Hua Biotechnology Co., Ltd provide.
SPF pig lymph node, SPF Swine serum are acquired from Shaanxi Nowe Li Hua Biotechnology Co., Ltd.
The identification of 1.2 positive plasmids
Digestion is carried out to the site SalI-XbaI of positive plasmid pUC57-P72, verifies the correctness of plasmid.To positive matter
The site SalI-XbaI of grain pUC57-P72 carries out digestion identification, the results showed that, plasmid form is normal, target gene size just
Really, carrier size is correct, electrophoretic band is clear, without genome, without miscellaneous band.As a result as shown in Figure 1.
The design of 1.3 ASFV LAMP primers and screening
According to the ASFV strain P72 gene order that Genebank is announced, set by http://PrimerExplorer.jp
5 sets of primers are counted, primer sequence is as shown in table 1.It is synthesized by Sangon Biotech (Shanghai) Co., Ltd..Specific primer sequence
Column are as shown in table 1 below:
1 African swine fever virus LAMP detection primer group of table
Embodiment 2: the foundation of African swine fever virus LAMP detection kit
A kind of African swine fever virus LAMP detection kit, the kit include above-described primer sets.
Preferably, the kit includes primer sets described in above embodiments 1, Bst archaeal dna polymerase, LAMP reaction
Liquid, glycine betaine, positive control and negative control.
Preferably, the ratio of outer primer, ring primer, inner primer are as follows: outer primer, ring primer, inner primer molar ratio be
4FIP:4BIP:4LoopF;4LoopB:4F3;4B3 is 10: 10: 4: 4: 1: 1.Primer prepare when, 4FIP, 4BIP, 4LoopF,
4LoopB, 4F3,4B3, the optimum proportioning with deionized water are 10: 10: 4: 4: 1: 1: 250.
Preferably, the LAMP reaction solution contains 10mM dNTP, 10 × ThermoPol reaction buffer, 150mM
MgSO4Aqueous solution.
Preferably, the positive control is the Plasmid DNA containing target gene fragment, and negative control is sterile water, preferably
Using distilled water, tri-distilled water or DEPC water.
Preferably, the positive control is the Plasmid DNA containing p72 gene.
Preferably, the sequence of the p72 gene is as shown in SEQ ID No.7.
[points for attention]
1. in order to reduce cross contamination, ask division operation (the configuration operation of reagent and template preferably in the different areas into
Row).
2. each area's article be it is dedicated, can not cross-reference, prevent from polluting.
3. work clothes should be worn in experimentation, band gloves, mask.
Embodiment 3: the foundation of African swine fever LAMP detection method
The foundation of 3.1 LAMP reaction systems
According to the kit of embodiment 2,25 μ l reactants of African swine fever virus LAMP detection are determined using the above primer
The content and ratio of each component, place it in thermostatic container and are expanded in system.Observe by the naked eye white opacity and gel
Electrophoresis combines, and judges testing result.Wherein 25 μ L are shown in reaction system such as table 2.
2 25 μ L reaction system of table
3.2 LAMP reaction
3.2.1 the determination in LAMP reaction time
According to above-mentioned fixed LAMP reaction system, it is assumed that under conditions of 65 DEG C, by positive plasmid pUC57-P72 points
Not carry out 20min, 30min, 40min, 50min, 60min specific amplification, record as a result, determine optimum reacting time.
It is 10 by concentration4The positive plasmid pUC57-P72 of copy at 65 DEG C, respectively 20min, 30min, 40min,
Specific amplification is carried out under the time of 50min, 60min, the results showed that, 40min and after, positive plasmid pUC57-
White opacity (see Fig. 2) is presented in P72LAMP reaction tube, through gel electrophoresis, it is seen that scalariform band (see Fig. 3) i.e. testing result
For the positive.Therefore, optimum reacting time 40min.
3.2.2 the determination of LAMP reaction temperature
According to above-mentioned fixed reaction system and reaction time.It is respectively 10 by concentration4With 102Copy positive plasmid
PUC57-P72 at 60-70 DEG C, setting 61 DEG C, 63 DEG C, 65 DEG C, 67 DEG C, 69 DEG C of five temperature reacted, observation test knot
Fruit determines optimal reaction temperature.
The result shows that white opacity is presented in positive plasmid pUC57-P72LAMP reaction tube under conditions of 65 DEG C.Cause
This, optimal reaction temperature is 65 DEG C.
3.2.3 the sensitivity technique of African swine fever virus LAMP detection kit
Plasmid pUC57-P72 ddH is lyophilized in the African swine fever positive2O is by the abundant dissolved dilution of plasmid to 1 × 107A copy
Number, dissolved plasmid saves in -20 DEG C, spare.1 × 10 will be diluted to7Copy/μ l plasmid does 10-1~10-7Gradient
Dilution carries out LAMP amplification to the positive plasmid sample of different copy numbers respectively.
African swine fever positive plasmid pUC57-P72 is from 10-1~10-6It is amplifiable in diluted plasmid again to arrive expected sun
Property, the plasmid number that can be measured is 10 copies/μ l (see Fig. 4-5).3 are shown in Table to the sensitivity results of above-mentioned sample detection.
The sensitivity Detection result of 3 LAMP test experience sample of table
As it can be seen that the sensitivity of African swine fever virus LAMP detection kit constructed by the present invention is 10 copies/μ l, it can
The minimum plasmid number measured is 10 copies/μ L.Compared to OIE recommend PCR detection method about 500 copy sensitivity (referring to ginseng
Examine document 1.), sensitivity of the invention improves about 50 times.
3.3 the sensitivity tests of African swine fever virus LAMP detection kit
5 parts of sensibility quality-control samples: African swine fever positive plasmid pUC57-P72-1, African swine fever sun are detected with kit
It is property grain pUC57-P72-2, African swine fever positive plasmid pUC57-P72-3, African swine fever positive plasmid pUC57-P72-4, non-
Respectively plasmid ddH is lyophilized in 5 kind of 4 μ g African swine fever positive by continent swine fever positive plasmid pUC57-P72-52O is abundant by plasmid
Dissolved dilution is to 1 × 107A copy number repeats detection 3 times.
5 parts of sensibility quality-control samples are detected with the African swine fever virus LAMP detection kit that this research is developed, repeat to examine
It surveys 3 times, the sensibility quality-control sample of 5 parts of 3 detections is positive (see Fig. 6).Sensitivity and repetition to above-mentioned sample detection
Property the results are shown in Table 4.
The repeated testing result of 4 LAMP test experience sample of table
The specific test of 3.4 African swine fever virus LAMP detection kits
Using conventional method extract pig Japanese B encephalitis virus, swine fever virus, pig parvoviral, porcine pseudorabies virus,
Pig circular ring virus, transmissible gastro-enteritis virus, SPF pig lymph node, SPF Swine serum nucleic acid as template, with positive plasmid
The African swine fever virus LAMP detection kit that pUC57-P72 applies this research to develop together is detected respectively, observes its spy
It is anisotropic.
The experimental results showed that detecting pig Japanese B encephalitis virus (JEV), swine fever virus (CSFV), pig with the kit
Parvovirus (PPV), porcine pseudorabies virus (PRV), pig circular ring virus (PCV), transmissible gastro-enteritis virus (TGEV),
As a result SPF pig lymph node, SPF Swine serum are all negative.Known African swine fever positive plasmid pUC57-P72-2 is detected, as a result
For the positive.It the results are shown in Table 5, Fig. 7.
The specific assay of 5 ASFV LAMP of table
Embodiment 4: the remolding sensitivity of African swine fever LAMP detection method compared with
In research process of the present invention, a large amount of Optimization Work is carried out for primer, has obtained multiple groups primer, and compare
The multiple groups primer of the prior art, primer sets sequence such as the following table 6 for specifically comparing:
The primer sets sequence (control group 1--6) of 6 prior art of table
Note: the sequence of the above control group 1-4 is primer sequence in the prior art, is specifically shown in the correlation of background technology part
Document, control group 5 (SEQ ID No:8-13) are that preferable one group of primer is screened in our company's R&D process, and control group 6 is not
The primer sets of the primer containing ring.
Using the method for " sensitivity technique of 3.2.3 African swine fever virus LAMP detection kit " in above embodiments 3
Determine the primer of the embodiment of the present invention 1 and the sensibility of the above control group 1-6, specific testing result such as the following table 7.
The sensitivity Detection result of 7 LAMP test experience sample of table
Copy number | 108 | 107 | 106 | 105 | 104 | 103 | 102 | 101 | 100 |
Embodiment 1 | + | + | + | + | + | + | + | + | - |
Control 1 | + | + | + | + | + | + | + | - | - |
Control 2 | + | + | + | + | + | + | + | - | - |
Control 3 | + | + | + | + | + | + | - | - | - |
Control 4 | + | + | + | + | + | + | - | - | - |
Control 5 | + | + | + | + | + | + | - | - | - |
Control 6 | + | + | + | + | + | + | + | - | - |
As it can be seen that the sensitivity of African swine fever virus LAMP detection kit constructed by the present invention is 10 copies/μ l, it can
The minimum plasmid number measured is 10 copies/μ L.In primer sets 1-4 and our company's product development process compared with prior art
Other primers of screening and the primer sets for not adding ring primer, the primer sets of the embodiment of the present invention 1 have higher sensitive
Degree has more importantly meaning for African swine fever epidemic situation early stage or preclinical detection.
Above embodiments are a further detailed description of the invention, and provide embodiment only for illustrating the present invention, without
It is to limit the scope of the invention.
Bibliography:
1. Jiang Yanzeng, the foundation of African swine fever virus the loop-mediated isothermal amplification fast detection method, " Chinese Academy of Agricultural Sciences
Academic dissertation ", page 31.
2. Yang Ji flies etc., the foundation and application of African swine fever virus loop-mediated isothermal amplification Fast Detection Technique, " China is dynamic
Object infectious disease journal ", 2011,19 (4): 7-12.
3. Wang Caixia etc., loop-mediated isothermal amplification technology quickly detects African swine fever virus, " animal medicine progress ", 2010
The 2nd phase of volume 31 year: 15-19.
4. Wang Hua etc., the foundation of African swine fever virus ring mediated isothermal amplification diagnostic method, " Chinese veterinary science ",
2010,40 (09): 940-944.
Sequence table
<110>Shaanxi Nowe Li Hua Biotechnology Co., Ltd
<120>a kind of African swine fever virus LAMP detection kit and its application
<160> 13
<170> SIPOSequenceListing 1.0
<210> 1
<211> 16
<212> DNA
<213> 4F3(ASFV)
<400> 1
acgcagagat aagctt 16
<210> 2
<211> 17
<212> DNA
<213> 4B3(ASFV)
<400> 2
aaggtaatca tcatcgc 17
<210> 3
<211> 37
<212> DNA
<213> 4FIP(ASFV)
<400> 3
tgatcggata cgtaacggga tagagataca gctcttc 37
<210> 4
<211> 34
<212> DNA
<213> 4BIP(ASFV)
<400> 4
ccgtaactgc tcatggtacg tagtggaagg gtat 34
<210> 5
<211> 17
<212> DNA
<213> 4LoopF(ASFV)
<400> 5
atagatgaac atgcgtc 17
<210> 6
<211> 16
<212> DNA
<213> 4LoopB(ASFV)
<400> 6
agttctgcag ctctta 16
<210> 7
<211> 2366
<212> DNA
<213> P72(ASFV)
<400> 7
gtcacggacg ttgtaaaacg acggccagtg aattcgagct cggtacctcg cgaatgcatc 60
tagaatggca tcaggaggag ctttttgtct tattgctaac gatgggaagg ccgacaagat 120
tatattggcc caagacttgc tgaatagcag gatctctaac attaaaaatg tgaacaaaag 180
ttatgggaaa cccgatcccg aacccacttt gagtcaaatc gaagaaacac atttggtgca 240
ttttaatgcg cattttaagc cttatgttcc agtagggttt gaatacaata aagtacgccc 300
gcatacgggt acccccacct tgggaaacaa gcttaccttt ggtattcccc agtacggaga 360
ctttttccat gatatggtgg gccatcatat attgggtgca tgtcattcat cctggcagga 420
tgctccgatt cagggcacgt cccagatggg ggcccatggg cagcttcaaa cgtttcctcg 480
caacggatat gactgggaca accaaacacc cttagagggc gccgtttaca cgcttgtaga 540
tccttttgga agacccattg tacccggcac aaagaatgcg taccgaaact tggtttacta 600
ctgcgaatac cccggagaac gactttatga aaacgtaaga ttcgatgtaa atggaaattc 660
cctagacgaa tatagttcgg atgtcacaac gcttgtgcgc aaattttgca tcccagggga 720
taaaatgact ggatataagc acttggttgg ccaggaggta tcggtggagg gaaccagtgg 780
ccctctccta tgcaacattc atgatttgca caagccgcac caaagcaaac ctattcttac 840
cgatgaaaat gatacgcagc gaacgtgtag ccataccaac ccgaaatttc tttcacagca 900
ttttcccgag aactctcaca atatccaaac agcaggtaaa caagatatta ctcctatcac 960
ggacgcaacg tatctggaca taagacgtaa tgttcattac agctgtaatg gacctcaaac 1020
ccctaaatac tatcagcccc ctcttgcgct ctggattaag ttgcgctttt ggtttaatga 1080
gaacgtgaac cttgctattc cctcagtatc cattcccttc ggcgagcgct ttatcaccat 1140
aaagcttgca tcgcaaaagg atttggtgaa tgaatttcct ggactttttg tacgccagtc 1200
acgttttata gctggacgcc ccagtagacg caatatacgc tttaaaccat ggtttatccc 1260
aggagtcatt aatgaaatct cgctcacgaa taatgaactt tacatcaata acctgtttgt 1320
aacccctgaa atacacaacc tttttgtaaa acgcgttcgc ttttcgctga tacgtgtcca 1380
taaaacgcag gtgacccaca ccaacaataa ccaccacgat gaaaaactaa tgtctgctct 1440
taaatggccc attgaatata tgtttatagg attaaaacct acctggaaca tctccgatca 1500
aaatcctcat caacaccgag attggcacaa gttcggacat gttgttaacg ccattatgca 1560
gcccactcac cacgcagaga taagctttca ggatagagat acagctcttc cagacgcatg 1620
ttcatctata tctgatatta gccccgttac gtatccgatc acattaccta ttattaaaaa 1680
catttccgta actgctcatg gtatcaatct tatcgataaa tttccatcaa agttctgcag 1740
ctcttacata cccttccact acggaggcaa tgcgattaaa acccccgatg atccgggtgc 1800
gatgatgatt acctttgctt tgaagccacg ggaggaatac caacccagtg gtcatattaa 1860
cgtatccaga gcaagagaat tttatattag ttgggacacg gattacgtgg ggtctatcac 1920
tacggctgat cttgtggtat cggcatctgc tattaacttt cttcttcttc agaacggttc 1980
agctgtgctg cgttacagta cctaagtcga ctgcagaggc ctgcatgcaa gcttggcgta 2040
atcatggtca tagctgtttc ctgtgtgaaa ttgttatccg ctcacaattc cacacaacat 2100
acgagccgga agcataaagt gtaaagcctg ggggtgccta atgagtgagc taactcacat 2160
taattgcgtt gcgctcactg cccgctttcc agtcgggaaa cctgtcgtgc cagctgcatt 2220
aatgaatcgg ccaacgcgcg gggagaggcg gtttgcgtat tggggcgctc ttccgcttcc 2280
tcgctcactg actcgctgcg ctcggtcgtt cggctgcggc gagcggtatc agctcactca 2340
aaggcggtaa tacggtatcc acagaa 2366
<210> 8
<211> 16
<212> DNA
<213> 1F3(ASFV)
<400> 8
actgctcatg gtatca 16
<210> 9
<211> 16
<212> DNA
<213> 1B3(ASFV)
<400> 9
atagcagatg ccgata 16
<210> 10
<211> 34
<212> DNA
<213> 1FIP(ASFV)
<400> 10
ggtaatcatc atcgcaccat acccttccac tacg 34
<210> 11
<211> 36
<212> DNA
<213> 1BIP(ASFV)
<400> 11
ttaacgtatc cagagcaaga agccgtagtg atagac 36
<210> 12
<211> 16
<212> DNA
<213> 1LoopF(ASFV)
<400> 12
ttaatcgcat tgcctc 16
<210> 13
<211> 19
<212> DNA
<213> 1LoopB(ASFV)
<400> 13
ttatattagt tgggacacg 19
Claims (9)
1. a kind of African swine fever virus LAMP detection kit, the kit includes primer described in SEQ ID No:1-6, tool
Body primer sequence is as follows:
Outer primer:
4F3 ACGCAGAGATAAGCTT(SEQ ID No.1)
4B3 AAGGTAATCATCATCGC(SEQ ID No.2)
Inner primer:
4FIP TGATCGGATACGTAACGGGATAGAGATACAGCTCTTC(SEQ ID No.3)
4BIP CCGTAACTGCTCATGGTACGTAGTGGAAGGGTAT(SEQ ID No.4)
Ring primer
4LoopF ATAGATGAACATGCGTC(SEQ ID No.5)
4LoopB AGTTCTGCAGCTCTTA(SEQ ID No.6).
2. African swine fever virus LAMP detection kit according to claim 1, which is characterized in that the kit includes
Primer sets, archaeal dna polymerase, LAMP reaction solution, glycine betaine, positive control and negative control described in claim 1.
3. African swine fever virus LAMP detection kit according to claim 1, which is characterized in that outer primer, ring primer,
The molar ratio of inner primer is 4FIP:4BIP:4LoopF;4LoopB:4F3;4B3 is 10: 10: 4: 4: 1: 1.
4. African swine fever virus LAMP detection kit according to claim 2, which is characterized in that the archaeal dna polymerase
For Bst archaeal dna polymerase.
5. African swine fever virus LAMP detection kit according to claim 2, which is characterized in that the LAMP reaction solution
Contain 10mM dNTP, 10 × ThermoPol reaction buffer, 150mM MgSO4Aqueous solution.
6. African swine fever virus LAMP detection kit according to claim 2, which is characterized in that the positive control is
Plasmid DNA containing target gene fragment, negative control are sterile water, it is preferred to use distilled water, tri-distilled water or DEPC water.
7. African swine fever virus LAMP detection kit according to claim 2, which is characterized in that the positive control is
Plasmid DNA containing p72 gene.
8. African swine fever virus LAMP detection kit according to claim 2, which is characterized in that the p72 gene
Sequence is as shown in SEQ ID No.7.
9. application of the kit according to claim 1-8 in food inspection, which is characterized in that by the examination
Agent box is used for the detection of live fresh pork, Frozen Pork or pork product, judges the original of live fresh pork, Frozen Pork or meat products
Expect that meat is polluted with the presence or absence of African swine fever virus.
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CN112941234A (en) * | 2021-03-01 | 2021-06-11 | 中国科学院长春应用化学研究所 | Reaction liquid and kit for detecting African swine fever virus and application |
CN113234862A (en) * | 2021-06-16 | 2021-08-10 | 龙岩学院 | African swine fever virus LAMP detection primer group and kit |
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CN110724762A (en) * | 2019-10-21 | 2020-01-24 | 华中农业大学 | LAMP detection primer and detection method for African swine fever virus |
CN110885905A (en) * | 2019-11-12 | 2020-03-17 | 华南农业大学 | LAMP (loop-mediated isothermal amplification) detection primer and kit for distinguishing African swine fever virus wild strains and gene deletion strains |
CN110885905B (en) * | 2019-11-12 | 2023-09-12 | 华南农业大学 | LAMP detection primer and kit for distinguishing wild strain and gene deletion strain of African swine fever virus |
CN110791591A (en) * | 2019-11-18 | 2020-02-14 | 华南农业大学 | LAMP (loop-mediated isothermal amplification) detection primer and kit for distinguishing African swine fever virus wild strain and double-gene deletion vaccine strain |
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CN113234862A (en) * | 2021-06-16 | 2021-08-10 | 龙岩学院 | African swine fever virus LAMP detection primer group and kit |
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