CN101863963B - Helicobacter pylori antigen epitope polypeptide and application thereof - Google Patents

Abstract

The invention discloses a helicobacter pylori urease B antigen epitope polypeptide and application thereof. The amino acid sequence of the antigen epitope polypeptide is the sequence 34 in a sequence table, and the coding gene sequence of the antigen epitope polypeptide is the sequence 25 in the sequence table. The antigen epitope polypeptide provided by the invention can stimulate an organism to generate helicobacter pylori resistance protective immunity reaction, thereby enhancing the effect of inhibiting helicobacter pylori infection, improving germ eliminating capacity of the organism, and playing an improving role in corresponding researches on development of vaccine and pathogenic mechanism and clinical diagnosis.

Description

A kind of helicobacter pylori antigen epitope polypeptide and application thereof

Technical field

The present invention relates to a kind of helicobacter pylori (Helicobacter pylori) urease B subunit (UreB) protein B cell antigen epitope polypeptide and application thereof.

Background technology

Nineteen eighty-two Australia scholar Warren separates from chronic active gastritis patient gastric mucosa first with Marshall and turns out helicobacter pylori (Helicabucter pylori, H.pylori), the New Times of stomach microbe research has been opened in the discovery of this bacterium.Helicobacter pylori distributes very extensive, and the crowd infection rate is up to about 50% in the world wide.Already confirmed, helicobacter pylori infection is the Etiological of chronic chronic gastritis, stomach ulcer, duodenal ulcer, and the persistent infection of helicobacter pylori is also closely related with the generation of adenocarcinoma of stomach (gastric adenocarcinoma) and gastric lymphoma (gastric lymphoma).1994, the World Health Organization was decided to be I class carcinogen (Type I carcinogen) with it.

Treatment for helicobacter pylori infection mainly is to adopt two kinds of Antibiotic combination proton pump inhibitors now, yet, this treatment means has shortcomings, as spend too high, the poor high risk with producing the drug resistance bacterial strain of patient compliance etc., especially antibiotic therapy can not prevent from infecting once again.So, generally believe that now vaccine is the effective means of controlling in the world helicobacter pylori infection.The full bacterium composition of helicobacter pylori is used in the research of early stage helicobacter pylori vaccine mostly, exists weak effect, is difficult for the shortcoming such as stdn.The at present research of helicobacter pylori vaccine antigen concentrates on the antigen that has immanoprotection action in the helicobacter pylori.On mouse model, confirm at present multiple Heliobacter pylori antigen, comprised vacuolating cytotoxin (VacA), cytotoxin-associated protein (CagA), heat shock protein(HSP) A and B (HspA and HspB), urease and catalase etc.Wherein urease albumen is regarded as the most promising helicobacter pylori vaccine candidate, is of most study.Urease not only provides provide protection to helicobacter pylori field planting under stomach inner acidic environment, and is a kind of conservative protein in the helicobacter pylori, and the conservative property between different strains reaches more than 98%.Existing a large amount of experimentation on animalies have proved that it is as security and the validity of vaccine antigen.Urease comprises urease A (UreA) and two subunits of B (UreB), and wherein UreB is the major function unit of urease, contains the avtive spot of urease, and its protectiveness is better than UreA.

Vaccine is the most cost-effective way of infection control disease, and vaccine inoculation can stimulate the body generation to be different from the specific immune response that natural infection causes, and can reach the purpose of prevention or treatment helicobacter pylori infection.At present urease vaccine prevention helicobacter pylori infection succeeds at many animal models, and external a plurality of study group report that oral helicobacter Pylori urease can prevent mouse infection cat Helicobacter pylori.Up to now; mainly be to adopt the method for simulating nature antigen to carry out the development of protein vaccine to the research of helicobacter pylori vaccine both at home and abroad; certain antigen molecule of single expression or the several antigen molecules of amalgamation and expression; also or with antigen molecule and mucosal adjuvant amalgamation and expression, can partly obtain the immanoprotection action in the certain period.At present, epiposition vaccine has become the direction of development infectious diseases and malignant tumour vaccine, and has shown unique advantage at aspects such as HIV, malaria, hepatitis B virus, tumours.Given this, selecting and recombinate to design vaccine in epitope levels, may be the vaccine form of a kind of effective prevention and treatment helicobacter pylori infection.Utilize the epi-position of helicobacter pylori protective antigen to design vaccine; by the specificity epitope on single or the series winding expression protective antigen; and be aided with the adjuvant that can effectively bring out mucosa-immune and come originally immunne response stronger, more special, when being different from natural infection of exciter; immunological tolerance might be broken, thereby the purpose of prevention or treatment helicobacter pylori infection can be reached.

Had great many of experiments to show, urease B subunit (UreB) not only has prophylactic effect to helicobacter pylori infection, but also can remove to a certain extent the helicobacter pylori that has infected in the body.Research finds that the monoclonal antibody for the different epi-positions of UreB can suppress the activity of urease, thereby the infection of blocking-up helicobacter pylori, but can not well suppress the activity of urease with complete urease immune animal, thereby can not stop the field planting of helicobacter pylori in stomach fully.

Summary of the invention

The purpose of this invention is to provide a kind of helicobacter pylori (Helicobacter pylori) urease B subunit (UreB) protein B cell antigen epitope polypeptide and application thereof.

Helicobacter Pylori urease B subunit neutrality B cell antigen epitope polypeptide provided by the invention derives from helicobacter Pylori urease B subunit (UreB), and name is called UP35,, be following 1) or 2) polypeptide:

1) polypeptide that is formed by the aminoacid sequence shown in the sequence in the sequence table 34;

2) with the aminoacid sequence of sequence in the sequence table 34 through replacement and/or disappearance and/or the interpolation of one or several amino-acid residue and have helicobacter Pylori urease epitope function by 1) polypeptide of deriving.

Sequence 34 is comprised of 15 amino-acid residues in the sequence table, derives from the upper 181-195 amino acids residue of helicobacter Pylori urease B subunit (UreB).

The replacement of described one or several amino-acid residue and/or disappearance and/or interpolation can be replacement and/or disappearance and/or the interpolation of 1-10 amino-acid residue; The replacement of described one or several amino-acid residue and/or disappearance and/or interpolation can occur in outside the said structure territory.

The encoding gene of above-mentioned epitope polypeptide also belongs to protection scope of the present invention, and described encoding gene is 1), 2), 3) or 4):

1) DNA of sequence 25 in the sequence table;

2) polynucleotide of the protein sequence of sequence 34 in the code sequence tabulation;

3) under stringent condition with 1) or 2) gene recombination and the gene of the described albumen of coding claim 1.

4) with sequence table in sequence 25 homologys 80% or more and the Nucleotide of the polypeptide of the helicobacter Pylori urease epitope function of encoding.

Above-mentioned stringent condition can be that (or the solution of 0.1 * SSC), 0.1%SDS is hybridized under 65 ℃ and washed film with 0.1 * SSPE in DNA or RNA hybrid experiment.

Sequence 25 in the sequence table is comprised of 45 Nucleotide, is encoding sequence from the 1st to 45 Nucleotide of 5 ' end.

The present invention also provides the immunological reagent of detection, prevention or treatment helicobacter pylori infection, its activeconstituents comprises above-mentioned epitope polypeptide, form multi-joint poly epiposition vaccine preparation such as this immunological reagent by the epitope polypeptide shown in the sequence 37 in the epitope polypeptide shown in the sequence 31, the sequence table in above-mentioned epitope polypeptide and the sequence table, the activeconstituents of this immunological reagent also can be separately the epitope polypeptide shown in the sequence 34 in the above-mentioned sequence table.The present invention also provides the medicine of the activity that suppresses urease, and its activeconstituents comprises above-mentioned epitope polypeptide and/or its antibody.Such as this medicine that is formed by the epitope polypeptide shown in the sequence 37 in the epitope polypeptide shown in the sequence 31, the sequence table in above-mentioned epitope polypeptide and the sequence table; This active constituents of medicine also can be separately above-mentioned epitope polypeptide and/or its antibody; This antibody is the antibody that the vitro culture hybridoma cell line obtains.

The present invention also provides the screening method of above-mentioned helicobacter Pylori urease B subunit neutrality B cell antigen epitope polypeptide, mainly may further comprise the steps:

(1) adopt the truncation method segmentation to make up the UreB antigen of helicobacter pylori and carry out the expression of target protein, by immunoblotting assay, tentatively determine monoclonal antibody A1H10, B3D9, A3C10 for the epi-position scope;

(2) according to the determined helicobacter Pylori urease B subunit monoclonal antibody of above-mentioned steps (1) A1H10, B3D9, A3C10 for the epitope region, carry out for the second time and brachymemma segmentation for the third time makes up UreB antigen, with monoclonal antibody A1H10, B3D9, A3C10 for epitope accurately be positioned at the specific position of UreB;

(3) chemosynthesis above-mentioned steps (2) is identified epitope out, by indirect elisa method, with further determine anti-helicobacter pylori urease B subunit monoclonal antibody A1H10, B3D9, A3C10 for epitope.

The method that the present invention uses molecular biology binding molecule immunological experiment to identify, screening have obtained the epitope polypeptide that is made of 15 amino-acid residues, and be economical, effectively, for the screening of epitope provides reference.The present invention is that the exploitation honor of novel multi-joint poly epiposition vaccine has been decided the basis, also for bringing new thinking based on the exploitation of the causal organism diagnostic kit of albumen epi-position and the development for the treatment of preparation.Pathogenetic research has great importance the epitope that obtains to H.pylori, helps the infection of more effective prevention and control helicobacter pylori.

Antigen epitope polypeptide provided by the invention has good immunogenicity, in mouse model, can induce the specific humoral immune response that produces for this B cell epitope, the antiserum(antisera) that produces not only can in and the activity of urease, and can also with the urease generation specific antigen-antibody reaction of the natural bacterial strain of H.pylori.Adopt simultaneously the antibody that has produced among the serological analysis method confirmation clinical infection helicobacter pylori patients serum for this UreB epitope.

Antigen epitope polypeptide provided by the invention excites the antibody that produces in the Mice Body can suppress urease activity, for the research of urease epitope is had laid a good foundation.Antigen epitope polypeptide provided by the invention can stimulate body to produce the anti-helicobacter pylori protective immunological reaction; and can avoid producing the conformational epitope specific antibody; thereby strengthen the inhibition of helicobacter pylori infection and remove effect, to playing good pushing effect in the research of the research and development of corresponding vaccine, pathogenesis and the clinical diagnosis.The epitope of the protective immunological reaction of the anti-H.pylori of excitating organism of the present invention is in vitro detection and the of great value application that has that produces on the immunoprotection.

Description of drawings

(numeral is corresponding position in UreB for the corresponding site plan of the different brachymemma UreB fragments of Fig. 1, white bars represents with monoclonal antibody A1H10, B3D9 or A3C10 western blot reaction negative, and grey bar represents with monoclonal antibody A1H10, B3D9 or A3C10 western blot reaction positive)

Each brachymemma antigen pcr amplification result of Fig. 2 helicobacter pylori (H.pylori) urease B subunit; Wherein,

A: swimming lane 1 is nucleic acid (DNA) molecular weight standard (Marker); Swimming lane 2 is the pcr amplification product (400bp) of goal gene UP1; Swimming lane 3 is the pcr amplification product (430bp) of goal gene UP2; Swimming lane 4 is the pcr amplification product (450bp) of goal gene UP3; Swimming lane 5 is the pcr amplification product (660bp) of goal gene UP4;

B: swimming lane 1 is nucleic acid (DNA) molecular weight standard (Marker); Swimming lane 2 is the pcr amplification product (100bp) of goal gene U21; Swimming lane 3 is the pcr amplification product (85bp) of goal gene U22; Swimming lane 4 is the pcr amplification product (100bp) of goal gene U23; Swimming lane 5 is the pcr amplification product (115bp) of goal gene U24; Swimming lane 6 is the pcr amplification product (115bp) of goal gene U25; Swimming lane 7 is the pcr amplification product (100bp) of goal gene U26.

C: swimming lane 1 is nucleic acid (DNA) molecular weight standard (Marker); Swimming lane 2 is the pcr amplification product (60bp) of goal gene GST-UP32; Swimming lane 3 is the pcr amplification product (60bp) of goal gene GST-UP33; Swimming lane 4 is the pcr amplification product (60bp) of goal gene GST-UP34; Swimming lane 5 is the pcr amplification product (60bp) of goal gene GST-UP36; Swimming lane 6 is the pcr amplification product (60bp) of goal gene GST-UP38; Swimming lane 7 is the pcr amplification product (60bp) of goal gene GST-UP39

D: swimming lane 1 is nucleic acid (DNA) molecular weight standard (Marker); Swimming lane 2 is the pcr amplification product (330bp) of goal gene GST-UP31; Swimming lane 3 is the pcr amplification product (330bp) of goal gene GST-UP35; Swimming lane 4 is the pcr amplification product (330bp) of goal gene GST-UP37; The result shows that the PCR clonal expansion of each goal gene is respond well.

Fig. 3 is each brachymemma antigen gene recombinant bacterium TPTG abduction delivering SDS-PAGE electrophorogram of helicobacter pylori (H.pylori) urease B subunit; Wherein,

A: swimming lane 1 is protein molecular weight standard (Marker); Swimming lane 2 is induced 4h for the empty carrier bacterium; Swimming lane 3 is induced 4h for the recombinant bacterium of expressing the UP1 gene; Swimming lane 4 is induced 4h for expressing the UP2 gene recombination bacterium; Swimming lane 5 is induced 4h for expressing the UP3 gene recombination bacterium; Swimming lane 6 is induced 4h for expressing the UP4 gene recombination bacterium;

B: swimming lane 1 is protein molecular weight standard (Marker); Swimming lane 2 is induced 4h for Host Strains; Swimming lane 3 is induced 4h for the empty carrier bacterium; Swimming lane 4 is induced 4h for gene recombination bacterium UP21; Swimming lane 5 is induced 4h for gene recombination bacterium UP22; Swimming lane 6 is induced 4h for gene recombination bacterium UP23; Swimming lane 7 is induced 4h for gene recombination bacterium UP24; Swimming lane 8 is induced 4h for gene recombination bacterium UP25; Swimming lane 9 is induced 4h for gene recombination bacterium UP26;

C: swimming lane 1 is protein molecular weight standard (Marker); Swimming lane 2 is induced 4h for Host Strains; Swimming lane 3 is induced 4h for the empty carrier bacterium; Swimming lane 4 is induced 4h for gene recombination bacterium GST-UP32; Swimming lane 5 is induced 4h for gene recombination bacterium GST-UP33; Swimming lane 6 is induced 4h for gene recombination bacterium GST-UP34; Swimming lane 7 is induced 4h for gene recombination bacterium GST-UP36; Swimming lane 8 is induced 4h for gene recombination bacterium GST-UP38; Swimming lane 9,10 is induced 4h for gene recombination bacterium GST-UP39;

D: swimming lane 1 is protein molecular weight standard (Marker); Swimming lane 2 is induced 4h for Host Strains; Swimming lane 3 is induced 4h for the empty carrier bacterium; Swimming lane 4 is induced 4h for gene recombination bacterium GST-UP31; Swimming lane 5 is induced 4h for gene recombination bacterium GST-UP35; Swimming lane 6 is induced 4h for gene recombination bacterium GST-UP37

Fig. 4 is the UreB fragment of brachymemma and monoclonal antibody A1H10, B3D9, A3C10 western blot figure; Wherein, the brachymemma antigen (UP1, UP2, UP3 and UP4) and monoclonal antibody A1H10, B3D9 or A3C10 immunoblotting assay of the A partitioned representation first time; (1) the immunoblotting result of UP1, UP2, UP3 and UP4 and monoclonal antibody A1H10; (2) the immunoblotting result of UP1, UP2, UP3 and UP4 and monoclonal antibody B3D9; (3) the immunoblotting result of UP1, UP2, UP3 and UP4 and monoclonal antibody A3C10;

B is the brachymemma antigen (UP21, UP22, UP23, UP24, UP25 and UP26) and monoclonal antibody A1H10, B3D9 or A3C10 immunoblotting assay of for the second time partitioned representation; (1) the immunoblotting result of UP21, UP22, UP23, UP24, UP25 and UP26 and monoclonal antibody A1H10; (2) the immunoblotting result of UP21, UP22, UP23, UP24, UP25 and UP26 and monoclonal antibody B3D9; (3) the immunoblotting result of UP21, UP22, UP23, UP24, UP25 and UP26 and monoclonal antibody A3C10;

C is brachymemma antigen (GST-UP31, GST-UP32, the GST-UP33 of for the third time partitioned representation, GST-UP34, GST-UP35, GST-UP36, GST-UP37, GST-UP38 and GST-UP39) and monoclonal antibody A1H10, B3D9 or A3C10 immunoblotting assay; (1) the immunoblotting result of GST-UP31, GST-UP32, GST-UP33 and monoclonal antibody A1H10; (2) the immunoblotting result of GST-UP34, GST-UP35, GST-UP36 and monoclonal antibody B3D9; (3) the immunoblotting result of GST-UP37, GST-UP38, GST-UP39 and monoclonal antibody A3C10

Fig. 5 be fusion epitope peptide GST-UP32, GST-UP35, GST-UP38 respectively with A1H10, B3D9, the analysis of A3C10 indirect ELISA.

Fig. 6 is that monoclonal antibody A1H10, B3D9, A3C10 analyze the indirect ILISA of the identification of synthetic epitope peptide

Fig. 7 is that epitope peptide is to H.pylori patients serum's identification.

A:H.pylori patients serum and the ELISA reaction of merging epi-position GST-UP32, GST-UP35 and GST-UP38; The ELISA reaction of B:H.pylori patients serum and synthetic epitope peptide UP32, UP35 and UP38.

Fig. 8 is that mouse-anti fusion epitope peptide serum is to the identification of fusion epitope peptide, synthetic peptide, different natural H.pylori bacterial strain urease B subunit albumen; The anti-epi-position serum of A is analyzed with the Western blot of corresponding fusogenic peptide; The anti-epi-position serum of B reacts with the ELISA of corresponding synthetic peptide; The anti-epi-position serum of C and the reaction of natural H.pylori bacterial strain urease B subunit protein ELISA.

Fig. 9 is monoclonal antibody A1H10, B3D9, A3C10 and the how anti-inhibition helicobacter Pylori urease of anti-fusion epi-position activity experiment.

Embodiment

Method among the following embodiment if no special instructions, is ordinary method.

Percentage composition among the following embodiment if no special instructions, is the quality percentage composition.

The evaluation of embodiment 1, anti-helicobacter pylori urease B subunit monoclonal antibody A1H10, B3D9, A3C10 antigen recognition epi-position

By the screening of brachymemma partitioned representation urease B fragment repeatedly epitope, each time blocked fragment at the position relationship of helicobacter Pylori urease B subunit as shown in Figure 1.

One, the partitioned representation and the preliminary evaluation of the epitope first time of UreB truncated protein

1, the helicobacter pylori UreB segmentation antigen UP1 (sequence 5) of brachymemma, UP2 (sequence 6), UP3 (sequence 7), UP4's (sequence 8) is recombinant expressed:

1) cultivation of helicobacter pylori (Helicobacter pylori)

Helicobacter pylori (Helicobacter pylori) 26695 (ATCC No.700392) is adopted solid culture, and substratum is: jejunum campylobacter bacterio-agar matrix (Chinese dysentery control agent delivery research centre, Shanghai) 43g/L, defiber sheep blood (by market purchasing live sheep after carotid artery is got blood with after the granulated glass sphere defiber processing and get final product) 50ml/L, antibiotic PXB (available from Merck) 0.38mg/L, vancomycin (available from Amresco) 10mg/L and amphotericin B (available from Sigma) 5mg/L.37 ℃ of little aerobic environment (5%O ₂, 10%CO ₂, 85%N ₂) the middle 48-72hr that cultivates, improved broth medium is collected thalline.

2) preparation of helicobacter pylori (Helicobacter pylori) genomic dna

Helicobacter pylori (Helicobacter pylori) 26695 extracting genome DNA are extracted the test kit specification sheets according to promega company bacterial genomes and are carried out.

3) primer sequence design

The genome sequence of the H.pylori international standard strain 26695 of having announced according to Genbank finds the gene order (gi:21637177) of UreB, utilize 4 pairs of Auele Specific Primers of Primer5.0 software design design, add respectively SacI and Hind III restriction enzyme site (underscore shows restriction enzyme site) in the upstream and downstream primer, their sequence is as follows:

The primer of the encoding gene (sequence 1 in the sequence table) of amplification UP1: UP1-F:C GAGCTCAAAAAGAT

TAGCAGAAAAG；UP1-R：CCC AAGCTTTTAAGCAGTTACGATC。

The primer of the encoding gene (sequence 2 in the sequence table) of amplification UP2: UP2-F:C GAGCTCAATCTTAG

CGTAGGTCC；UP2-R：CCC AAGCTTTTAGTCTGTGTGGATAG。

The primer of the encoding gene (sequence 3 in the sequence table) of amplification UP3: UP3-F:C GAGCTCATCAATC

ATGCGTTAG；UP3-R：CCC AAGCTTTTACCAAGTTCTAGTGATA。

The primer of the encoding gene (sequence 4 in the sequence table) of amplification UP4: UP4-F: GAGCTCATTTTCTCA

ATCACCAG；UP4-R：CCC AAGCTTGAAAATGCTAAAGAGTT。

4) pcr amplification goal gene

Take helicobacter pylori (Helicobacter pylori) 26695 pnca gene group DNA as template, add corresponding primer, obtain UreB segmentation fragment UP1 (encoding gene has the nucleotide sequence of sequence 1 in the sequence table) through 30 PCR cyclic amplifications, UP2 (nucleotide sequence of sequence 2 in the encoding gene ordered list), UP3 (encoding gene has the nucleotide sequence of sequence 3 in the sequence table), the encoding gene of UP4 (encoding gene has the nucleotide sequence of sequence 4 in the sequence table), show the theoretical in the same size of each purpose fragment and amplification gene through 1.0% agarose electrophoresis.

The pcr amplification result of each section goal gene is shown in A among Fig. 2, the PCR clonal expansion effect that shows goal gene UP1, UP2, UP3, UP4 encoding gene is better, amplified respectively the purpose fragment of about 400bp, 430bp, 450bp, 660bp size, shown that through order-checking sequence is correct.

2, the construction and expression of segmentation antigen UP1, UP2, UP3, UP4 expression plasmid

Use respectively SacI and Hind III double digestion and Transformed E .coli DH5 α after the plasmid pET-28a (+) (available from Merck) of enzyme double digestion is connected equally (available from sky root biochemistry) behind the PCR product UP1 that step 1 amplification is obtained, UP2, UP3, the UP4 encoding gene purifying, be to carry out the enzyme evaluation of cutting and check order behind the Screening of Media of 50 μ g/ml kalamycin resistances at final concentration, enzyme cut and checked order and identify and show correct recombinant vectors called after pET-UP1, pET-UP2, pET-UP3, pET-UP4.Extract recombinant plasmid pET-UP1, pET-UP2, pET-UP3, pET-UP4 and transform e. coli bl21 (biochemical available from the sky root) strain, after being the Screening of Media of 50 μ g/ml kalamycin resistances at final concentration, plasmid carries out enzyme and cuts evaluation, obtains identifying the recombinant bacterium of errorless expression UP1, UP2, UP3 or UP4.Get and identify that errorless recombinant bacterium is inoculated in the LB nutrient solution that 5ml contains kantlex 37 ℃ of shaking table overnight incubation.Contain the recombinant bacterium of the incubated overnight ratio transferred species in 1: 100 in the fresh LB nutrient solution of kantlex in 5ml next day, and 37 ℃, 200rpm is cultured to OD ₆₀₀Value is about at 0.6 o'clock and adds IPTG to final concentration 1.0mM, inducing culture 4h, get the 1ml culture, centrifugal collection thalline is with 80 μ l PBS (0.01mol/L, pH7.4) resuspended, add 5 times of SDS-PAGE sample-loading buffers of 20 μ l (contain in the 1L solution: 15.1g Tris alkali, the 94g glycine, 5gSDS), be mixed and boiled 5 minutes in the rear boiling water, centrifugal receipts supernatant carries out SDS-PAGE and analyzes.Simultaneously, take the e. coli bl21 recombinant bacterium that turns pET-28a (+) as contrast.SDS-PAGE detects the expression of recombinant protein, the screening efficient expression strain.

The abduction delivering qualification result is shown in A among Fig. 3, the result shows the differential protein band of expression that UP1 has at the about 28kD of relative molecular mass place at the about 21kD of relative molecular mass, UP4 at the about 20kD of relative molecular mass, UP3 at the about 18kD of relative molecular mass, UP2, with the fusion rotein in the same size of expection.

3, Western blot identifies the epi-position region of A1H10, B3D9, the identification of A3C10 monoclonal antibody

Western blot concrete operation step is as follows:

According to the method for step 2, the recombinant bacterium of culture expression UP1, UP2, UP3 or UP4 prepares the protein electrophoresis sample respectively, carries out 15% SDS-PAGE electrophoresis.Electrophoresis is complete, and 50V voltage is wet to be turned on 4h to the NC film.Add the PBST room temperature sealing 2h that contains 5% skim-milk, PBST washes 3 times, each 5min.The anti-UreB monoclonal antibody of the three strain mouse B3D9 (biotechnology communication, 2007 that add respectively dilution in 1: 5000; 18 (2): 246-8, Biologic Engineering Inst., Academy of Millitary Medical Sciences of P.L.A provided within the term of protection of patent), A1H10 (biotechnology communication, 2007; 18 (2): 246-8, Biologic Engineering Inst., Academy of Millitary Medical Sciences of P.L.A provided within the term of protection of patent), A3C10 (biotechnology communication, 2007; 18 (2): 246-8, Biologic Engineering Inst., Academy of Millitary Medical Sciences of P.L.A provided within the term of protection of patent), room temperature is placed 1h, and PBST washes 3 times.The goat anti-mouse igg (Sigma) that adds the HRP mark of dilution in 1: 50000, room temperature is placed 1h, and PBST washes 3 times.The DAB colour developing.

Western blot the results are shown in Figure A in 4, the immunoblotting result shows that the antigen and antibody specific association reaction has occured for restructuring UP2 albumen and mouse anti-UreB monoclonal antibody A1H10 and B3D9, the antigen and antibody specific association reaction has occured in restructuring UP3 and UP4 albumen and the anti-UreB monoclonal antibody of mouse A3C10, illustrated monoclonal antibody A1H10 and B3D9 for epitope be positioned at UreB albumen UP2, monoclonal antibody A3C10 for epitope be positioned at the position of UP3 and UP4 stack.

For the epitope with each section of three strain monoclonal antibodies identification UreB is limited to than in the little scope in school, we will express again for the first time can be carried out secondary expression and evaluation by the section of this three strains monoclonal antibody identification.

Two, the partitioned representation and the further evaluation of the epitope second time of UreB truncated protein

The UreB truncated protein the second time partitioned representation and the method identified of the used method of the further evaluation of epitope and partitioned representation for the first time similar, used expression vector is PGEX-4T-2 (available from Amersham).

For the second time segmentation is divided into six sections UreB truncated protein UP21 (sequence 15 in the sequence table), UP22 (sequence 16 in the sequence table), UP23 (sequence 17 in the sequence table), UP24 (sequence 18 in the sequence table), UP25 (sequence 19 in the sequence table) and UP26 (sequence 20 in the sequence table), each encoding gene primer table of expressing UP21, UP22, UP23, UP24, UP25, UP26 is as follows, add respectively EcoR I and Xho I restriction enzyme site in the upstream and downstream primer, underscore shows restriction enzyme site.

The primer pair of amplification UP21 encoding gene (sequence 9 in the sequence table): UP21F:

CCG GAATTCTAGATGGCGTTAAAAA；UP21R：CCG CTCGAGTCATGTGTCAATACCA。

The primer pair of amplification UP22 encoding gene (sequence 10 in the sequence table): UP22F:CCG GAATTCTCGGT

GGTATTGACA；UP22R：CCG CTCGAGTTAGGTTGTTACACCGCTT。

The primer pair of amplification UP23 encoding gene (sequence 11 in the sequence table): UP23F:CCG GAATTCTAAG

CGGTGTAACAAC；UP23R：CCG CTCGAGTTATTTTAAATTTCTTCTG。

The primer pair of amplification UP24 encoding gene (sequence 12 in the sequence table): UP24F:CCG GAATTCTAACT

ATCACTCCAGGCA；UP24R：CCG CTCGAGTTACGCGTCGTTAGAAG。

The primer pair of amplification UP25 encoding gene (sequence 13 in the sequence table): UP25F:CCG GAATTCTAGCT

TCTAACGACGCG；UP25R：CCG CTCGAGTTATAACGCATGATTGATT。

The primer pair of amplification UP26 encoding gene (sequence 14 in the sequence table): UP26F:

CG GAATTCTACCTCAAACCATTGCGGC；UP26R：

CCG CTCGAGTTAACCCACACGACCCATAG。

The pcr amplification result amplifies respectively UP21, UP22, UP23, UP24, UP25, UP26 encoding gene shown in Fig. 2 B, the purpose fragment of the about 100bp of their size, 85bp, 100bp, 115bp, 115bp, 100bp size.

According to the method for the step 2 in the step 1 recombinant vectors of construction expression UP21, UP22, UP23, UP24, UP25 or UP26 respectively, the carrier that just will set out is replaced pET-28a (+) by PGEX-4T-2.Evaluation shows correct recombinant vectors called after PGEX-UP21, PGEX-UP22, PGEX-UP23, PGEX-UP24, PGEX-UP25, PGEX-UP26.According to the described method abduction delivering of the step 2 of step 1 UP21, UP22, UP23, UP24, UP25 or UP26 albumen, and carry out the expression that SDS-PAGE detects recombinant protein, the screening efficient expression strain.

Protein induced expression identification result shows that gene recombination bacterium through after inducing, has the protein expression band of increase at about 28KDa～29KDa place shown in B among Fig. 3, consistent with the target protein molecular size range.

Method with reference to the step 3 of step 1 is carried out UP21, UP22, UP23, UP24, UP25 or UP26 albumen Westernblot detect, Western blot result is shown in B among Fig. 4, restructuring UP23 albumen can be identified by the anti-UreB monoclonal antibody of mouse A1H10, UP24 albumen can be identified by the anti-UreB monoclonal antibody of mouse B3D9, UP26 albumen can be identified by the anti-UreB monoclonal antibody of mouse A3C10, specific reaction band appears, show monoclonal antibody A1H10 for epitope be positioned at UreB albumen UP23, monoclonal antibody B3D9 for epitope be positioned at UP24, monoclonal antibody A3C10 for epitope be positioned at UP26.

For the epitope with each section of three strain monoclonal antibodies identification UreB accurately navigates to less scope, carry out less segmentation evaluation with being accredited as for the second time positive fragment equally.

Three, the accurate location of for the third time partitioned representation of UreB truncated protein and epitope

For the third time segmentation is divided into nine sections UreB truncated proteins, it is as follows to express the primer table, GST-UP32 (the UP32 sequence is sequence 31 in the sequence table), GST-UP33 (the UP33 sequence is sequence 32 in the sequence table), GST-UP34 (the UP34 sequence is sequence 33 in the sequence table), GST-UP36 (the UP36 sequence is sequence 35 in the sequence table), GST-UP38 (the UP38 sequence is sequence 37 in the sequence table), add respectively EcoR I and Xho I restriction enzyme site in GST-UP39 (the UP39 sequence is sequence 38 in the sequence table) the upstream and downstream primer, GST-UP31 (the UP31 sequence is sequence 30 in the sequence table), GST-UP35 (the UP35 sequence is sequence 34 in the sequence table), add respectively BstB I and Xho I restriction enzyme site (underscore shows restriction enzyme site) in GST-UP37 (the UP37 sequence is sequence 36 in the sequence table) the upstream and downstream primer

The primer pair of amplification GST-UP31 encoding gene (the UP31 coding gene sequence is sequence 21 in the sequence table): GST-UP31F:

GAAAATG TTCGAAGATCGTTTATGTCA；GST-UP31R：

CCG CTCGAGATCAGCAGGACCAGTTCCGCCACCAATCATGGTTGTTACACCGCTACGCG

GAACCAGATC。

The primer pair of amplification GST-UP32 encoding gene (the UP32 coding gene sequence is sequence 22 in the sequence table): GST-UP32F:

CG GAATTCTAGGTGGCGGAACTGGTCCTGCTGATGGC；GST-UP32R：

CCG CTCGAGTCAGATAGTAGTCGCATTAGTGCCATCAGCAGGAC。

The primer pair of amplification GST-UP33 encoding gene (the UP33 coding gene sequence is sequence 23 in the sequence table): GST-UP33F:

CCG GAATTCTCGGCACTAATGCGACTACTATCACTCCAGGC；GST-UP33R：

CCG CTCGAGCTATTTTAAATTTCTTCTGCCTGGAGTGAT。

The primer pair of amplification GST-UP34 encoding gene (the UP34 coding gene sequence is sequence 24 in the sequence table): GST-UP34F:

CCG GAATTCTGACTATCACTCCAGGCAGAAGAAATTTAAAA；

GST-UP34R：CCG CTCGAGTTACGCTCTGAGCATCCATTTTAAATTTCT。

The primer pair of amplification GST-UP35 encoding gene (the UP35 coding gene sequence is sequence 25 in the sequence table): GST-UP35F:

GAAAATGTTCGAAGATCGTTTATGTCA；GST-UP35R：

CCGCTCGAGGAAACCTAAGTTCATAGAATATTCTTCAGCCGCTCTGAGCATCCAACGCG

GAACCAGATC。

The primer pair of amplification GST-UP36 encoding gene (the UP36 coding gene sequence is sequence 26 in the sequence table): GST-UP36F:

CG GAATTCTAATGAACTTAGGTTTCTTGGCTAAAGGTAACGC；

GST-UP36R：CCG CTCGAGTTACGCGTCGTTAGAAGCGTTACCTTTA。

The primer pair of amplification GST-UP37 encoding gene (the UP37 coding gene sequence is sequence 27 in the sequence table): GST-UP37F:

GAAAATGTTCGAAGATCGTTTATGTCA；GST-UP37R：

CCGCTCGAGCCCCATGTCATGCAAAGTGTCTTCAGCCGCAATGGTTTGAGGACGCGGAA

CCAGATC。

The primer pair of amplification GST-UP38 encoding gene (the UP38 coding gene sequence is sequence 28 in the sequence table): GST-UP38F:

CG GAATTCTAACTTTGCATGACATGGGGATTTTCTCAATCAC；GST-UP38R：

CCG CTCGAGTTAAGAGTCAGAGCTGGTGATTGAGAAAATCC。

The primer pair of amplification GST-UP39 encoding gene (the UP39 coding gene sequence is sequence 29 in the sequence table): GST-UP39F:

G GAATTCTAATTTTCTCAATCACCAGCTCTGACTCTCAAGCTATGGG；GST-UP39R：

CCG CTCGAGTTAACCCACACGACCCATAGCTTGA。

GST-UP32, GST-UP33, GST-UP34, GST-UP36, GST-UP38, GST-UP39 directly anneal synthetic with two long primers, GST-UP31, GST-UP35, GST-UP37 obtain with conventional PCR method amplification take PGEX-4T-2 as template.

The pcr amplification result is shown in Fig. 2 C, 2D, amplified the specificity purpose fragment of the about 60bp size of encoding gene of GST-UP32, GST-UP33, GST-UP34, GST-UP36, GST-UP38, GST-UP39, amplification obtains the encoding gene of GST-UP31, GST-UP35, GST-UP37 and is the specificity purpose fragment of about 330bp size.

According to the method for the step 2 in the step 1 recombinant vectors of construction expression GST-UP31, GST-UP32, GST-UP33, GST-UP34, GST-UP35, GST-UP36, GST-UP37, GST-UP38, GST-UP39 respectively, the carrier that just will set out is replaced pET-28a (+) by PGEX-4T-2.Evaluation shows correct recombinant vectors called after PGEX-UP31, PGEX-UP32, PGEX-UP33, PGEX-UP34, PGEX-UP35, PGEX-UP36, PGEX-UP37, PGEX-UP38, PGEX-UP39.Colibacillus engineering according to the described method construction expression of the step 2 of step 1 GST-UP31, GST-UP32, GST-UP33, GST-UP34, GST-UP35, GST-UP36, GST-UP37, GST-UP38, GST-UP39 target protein, and abduction delivering GST-UP31, GST-UP32, GST-UP33, GST-UP34, GST-UP35, GST-UP36, GST-UP37, GST-UP38, GST-UP39 and carry out the expression that SDS-PAGE detects recombinant protein, the screening efficient expression strain.

Protein induced expression identification result shows that gene recombination bacterium through after inducing, has the protein expression band of increase at about 27KDa～28KDa place shown in D among C, Fig. 3 among Fig. 3, consistent with the target protein molecular size range.

With reference to the method for the step 3 of step 1 to GST-UP31, GST-UP32, GST-UP33, GST-UP34, GST-UP35, GST-UP36, GST-UP37, GST-UP38, GST-UP39 carries out Western blot and detects, Western blot result is shown in C among Fig. 4, the result shows that the specific binding reaction has occured for restructuring GST-UP32 albumen and monoclonal antibody A1H10, the specific binding reaction has occured in GST-UP35 albumen and monoclonal antibody B3D9, the specific binding reaction has occured in GST-UP38 albumen and monoclonal antibody A3C10, show that the corresponding epi-position of monoclonal antibody A1H10 explanation monoclonal antibody is GST-UP32, the corresponding epi-position of monoclonal antibody B3D9 is GST-UP35, and the corresponding epi-position of monoclonal antibody A3C10 is GST-UP38.

Four, enzyme linked immunosorbent assay (ELISA) method is determined the epi-position of monoclonal antibody A1H10, B3D9, A3C10

Simultaneously, determine the epi-position of monoclonal antibody A1H10, B3D9, A3C10 with enzyme linked immunosorbent assay (ELISA) method, with the fusion epi-position Protein G ST-UP32 by GSTrap 4B affinity column purifying, GST-UP35, GST-UP38 coated elisa plate respectively, with detect monoclonal antibody A1H10, B3D9, A3C10 for epi-position.Concrete operation step is as follows:

1, recombinant protein preparation of samples:

Expression GST-UP32, the GST-UP35 of above-mentioned structure, the colibacillus engineering of GST-UP38 target protein are rule 37 ℃ of activation 16-20h in containing on the corresponding antibiotic LB flat board; Choose mono-clonal and be inoculated in the 5ml LB substratum, 37 ℃ are shaken bacterium and spend the night; Be transferred in fresh LB substratum with 1: 100 (weight ratio) inoculum size next day, and 37 ℃ are shaken bacterium to OD600 ≈ 1.0, adds IPTG (final concentration 1mM) inducing culture 3-4h; Collect thalline, every liter of bacterium liquid is resuspended with the solution of the STE (10mM Tris HCl pH8.0,150m M NaCl, 1mM EDTA, pH 8.0) of 50mL precooling approximately; The ultrasonication thalline, 15000g, the centrifugal collection supernatant of 10min, merge epi-position albumen by GSTrap 4B affinity column purifying, specifically adding an amount of Triton x-100 in supernatant is 1% to final concentration, h) 0.45 μ m filter membrane syringe filtering, and 4 ℃ of supernatants save backup; In the 8mL supernatant, add 1mL precooling 1X PBS (140mM NaCl, 2.7mM KCl, 10mMNa ₂HPO4,1.8mM KH ₂PO4, pH 7.3) washed GST resin, shake its adhesion protein of command of execution 0.5h gently.The solution that will contain gst fusion protein injects the good chromatography column of balance, when the solution that contains fusion rotein all enters in the post, precooling PBS washing with 30 times of volumes, the gsh elutriant (pH8.0 among the gsh of 10mM, the Tris-HCl of 50mM) that adds the freshly prepared 15mM of 1mL, leave standstill 10min after having hanged gently, collect elutriant, repeat twice of wash-out; Get respectively the effluent liquid that contains gst fusion protein (PGEX-4T-2 expressing protein purifying) of equivalent, the target protein of washings and wash-out carries out SDS-PAGE with analysis purposes albumen; Collection contains the wash-out part of target protein; Then by PBS dialysis or remove free gsh, sample carries out gathering gel photograph behind the SDS-PAGE, analyzes with BandScan5.0 software, and detecting the fusion rotein purity that surperficial purifying obtains is more than 90%.

2, determine the epi-position of monoclonal antibody A1H10, B3D9, A3C10 with enzyme linked immunosorbent assay (ELISA) method

1) antigen coated: respectively antigen (albumen that step 1 obtains) being diluted with coating buffer is the suspension of 3 μ g/mL, adds elisa plate, and negative control (being the gst fusion protein of purifying) is set in the 100ul/ hole simultaneously, 4 ℃ of coated spending the night;

2) washing: wash each hole of elisa plate 3 times with washings PBST, each 5 minutes, drain;

3) sealing: every hole adds each the 200 μ L of PBST solution that contain 5% skim-milk, puts 37 ℃ and hatches 2h;

4) add monoclonal antibody A1H10, B3D9, the A3C10 that suitably dilutes (1: 400-1: 1000 times) with insulation liquid (the PBST solution that contains 0.5% skim-milk), 100 μ l/ holes, each extent of dilution respectively adds two holes.Put 37 ℃ and hatch 2h, washing: with step 2);

5) add enzyme conjugates (two is anti-): add reacting hole, every hole 100 μ L with being incubated the anti-mouse two anti-suitably dilutions (1: 50000) of liquid with horseradish peroxidase-labeled.Put 37 ℃ and hatch 1h, washing: same step (2);

6) colour developing: add chromogenic substrate solution, every hole 100 μ L, room temperature lucifuge colour developing 5-10min;

7) termination reaction: add stop buffer 2M/L H ₂SO ₄, every hole 50 μ L;

8) measure OD value: measure the OD value of each reacting hole with enzyme connection detector in the 492nm wavelength, record the result;

9) result judges: with the GST OD of purifying ₄₉₂Mean value merges epi-position albumen OD as negative control ₄₉₂〉=2.1 times of negative control values (P/N 〉=2.1) be considered as monoclonal antibody for epitope.

Above-mentioned reaction result is consistent with Western blot result, as shown in Figure 5, show that the specific binding reaction has occured for monoclonal antibody A1H10, B3D9, A3C10 and fusion epi-position Protein G ST-UP32, GST-UP35, GST-UP38, instruction book clonal antibody A1H10, the corresponding epi-position of B3D9, A3C10 are respectively GST-UP32, GST-UP35, GST-UP38.

Embodiment 2, synthetic epitope polypeptide with further conclusive evidence monoclonal antibody A1H10, B3D9, A3C10 for epitope

1, epitope peptide is synthetic

For determined monoclonal antibody identification epi-position among the embodiment 1, adopt the synthetic epitope polypeptide of chemical synthesis (sending BeiJing ZhongKe inferior photo bio company limited to synthesize), called after UP32 (aminoacid sequence is sequence 31 in the sequence table), UP35 (aminoacid sequence is sequence 34 in the sequence table), UP38 (aminoacid sequence is sequence 37 in the sequence table) purity are more than 90% respectively, and resultant quantity is 4mg.

2, the ELISA method determine monoclonal antibody A1H10, B3D9, A3C10 for epitope

With synthetic 3 epitope polypeptide UP32, UP35, UP38 (10 μ g/ml) coated elisa plate (100ul/ hole) respectively, with detect A1H10, B3D9, A3C10 monoclonal antibody for epi-position.Concrete operation step is with the step 4 of embodiment 1.

Reaction result as shown in Figure 6, show that the specific binding reaction has occured for monoclonal antibody A1H10, B3D9, A3C10 and fusion epi-position Protein G ST-UP32, GST-UP35, GST-UP38, instruction book clonal antibody A1H10, the corresponding epi-position of B3D9, A3C10 are respectively UP32, UP35, UP38.

Embodiment 3, fusion epitope peptide and synthetic epitope peptide and patients serum's identification experiment

In order to detect the specific antibody that whether produces the epitope that identifies for the present invention among the clinical infection H.pylori patients serum, we are with fusion epitope peptide (the 3 μ g/ml) GST-UP32 of embodiment 1 preparation, GST-UP35, epitope peptide (the 10 μ g/ml) UP32 that GST-UP38 and embodiment 2 synthesize, UP35, UP38 is coated elisa plate (100ul/ hole) respectively, this laboratory to collect and with S001 helicobacter Pylori urease detection kit (colloidal gold method, Beijing Kang Mei days letter Bioisystech Co., Ltd) 3 parts and the 2 portions normal human serums of patients serum that are accredited as the UreB positive carry out elisa assay as primary antibodie (1: 100), and concrete operation step is with the step 4 of embodiment 1.

Reaction result as shown in Figure 7, merge epi-position albumen and synthetic epitope peptide and all with 3 parts of Serum from Patients with Helicobacter Pylori Infections positive reaction has occured, all do not react with 2 portions of normal human serums, the antibody that has produced among the helicobacter pylori infection patient for epitope peptide of the present invention is described, this development for multivalence epitope vaccine and diagnostic reagent provides new thinking.

The polyclonal antiserum of embodiment 4, epitope antigen is to the identification of synthetic peptide and natural UreB albumen

1, the preparation of Mouse Antisera

1) animal immune

Choose the 6-8 female BALB/C mice of SPF level in age in week, fusion epi-position Protein G ST-UP32, GST-UP35 and GST-UP38 purified in the subcutaneous multi-point injection embodiment 1 in back carry out immunity, and 3 times immunizing antigen dosage only is 100 μ g/.During first immunisation antigen added fully subcutaneous multi-point injection behind the mixing and emulsifying of equivalent complete Freund's adjuvant (CFA), booster immunization is twice every 2 weeks added equivalent incomplete Freund's adjuvant (IFA) emulsification again with antigen after.Set up simultaneously and only inject in contrast immune group of PBS damping fluid (pH7.0,50mmol/L) and GST protein immunization group, immune programme for children is identical, every group of 5 mouse.Rear 10 days ear edge vein exploitating bloods of 3 immunity detect antiserum titre, reach comparatively ideal titre after, finish rear 14 days in immune programme for children, polyclonal antiserum after getting blood and collecting immunity.

2) indirect elisa method detects antibody titer

The detection that antagonist is tired adopts indirect elisa method to carry out.GST-UP32, GST-UP35, GST-UP38 fusion rotein with purifying are diluted to 3 μ g/ml with coating buffer, are coated in the enzyme plate, every hole 100 μ l, 4 ℃ of coated spending the night.Add different extent of dilution antiserum(antisera) to be checked next day, the normal mouse serum that diluted take 1: 100 is contrast, two anti-be the HRP mark sheep anti-mouse igg of dilution in 1: 50000, chromogenic substrate is O-Phenylene Diamine (OPD), colour developing is the result measure at wavelength 490nm place with microplate reader, and P/N is positive greater than 2.1.

The result shows, after three immunity, the antibody titer of each experimental group can reach 1: 25600-1: 51200, and the PBS control group does not merge the epi-position reaction with any one substantially, illustrates that the present invention makes up the well humoral immunoresponse(HI) of excitating organism of fusion epi-position albumen.

2, the ELISA method detects the identification of polyclonal antiserum and different epi-position synthetic peptides and natural UreB albumen

1) preparation of protein sample

(1) cultivation of helicobacter pylori

The cultivation of helicobacter pylori international standard bacterial strain NCTC I 1637 (available from the state-run standard type culture collection institute (NCTC) of Britain), helicobacter pylori (Helicobacter pylori) 26695 is with the step 1 in the step 1 of embodiment 1).

(2) preparation of helicobacter pylori NCTC I 1637,26695 whole bacterial protein samples

Scrape helicobacter pylori international standard bacterial strain NCTC I 1637 or helicobacter pylori (Helicobacter pylori) 26695 thalline with meat soup from helicobacter pylori solid culture plate, 4 ℃, the centrifugal 10min of 5000g collects thalline, less salt PBS damping fluid (pH7.0 with precooling, 50mmol/L) wash 3 times, be 4 ℃ at every turn, the centrifugal 10min of 5000g, use at last less salt PBS (pH7.0,50mmol/L) resuspended.Ice-bath ultrasonic 10min makes cell thoroughly broken.Then the solution room temperature is placed 0.5h, abundant solubilising protein, 8000g is centrifugal, and 20min removes insolubles.Collect supernatant, be whole bacterial protein solution.

2) enzyme-linked immunosorbent assay detects the identification of polyclonal antiserum and the natural UreB albumen of different epi-position synthetic peptides

Epitope peptide UP32, UP35, UP38 and helicobacter pylori NCTC I 1637, the 26695 whole bacterial protein samples that embodiment 2 is synthetic are with the coated elisa plate of the amount in 1000ng/100ul/ hole.Primary antibodie is the Mouse Antisera (1: 100) of fusion protein immunization, and concrete experimental procedure is with embodiment 1.

Reaction result found that shown in Fig. 8 A, 8B the Mouse Antisera of immunity can be identified corresponding epi-position synthetic peptide well, also can react with natural UreB simultaneously.

3, the western blot of polyclonal antiserum and natural UreB albumen analyzes

With the capable SDS-PAGE electrophoresis of above-mentioned ready helicobacter pylori 26695 whole bacterial protein samples, transferring film, then with embodiment 1 in behind purified fusion epi-position Protein G ST-UP32, GST-UP35 and the GST-UP38 immune mouse antiserum(antisera) carry out immunoblotting assay, (be the polypeptide of 106-377 position on the UreB albumen with the fusion epi-position albumen of purifying and the UreB albumen UreBM of brachymemma, according to the method expression and purification of embodiment 1, the amplimer of its encoding gene is F:

C GAGCTCAATCTTAGCGTAGGTCC ( SacI); R:CCC AAGCTTCCAAGTTCTAGTGATAA ( The Hind III); Utilize this primer, take helicobacter pylori (Helicobacter pylori) 26695 genomes as template, expand and the target gene fragment, insert again to make up between the SacI of pET28a (+) carrier and the Hind III restriction enzyme site and obtain recombinant vectors, express after recombinant vectors transformed BL21, purifying just can obtain the UreBM for positive control) as positive control, the while, as negative control, antiserum(antisera) diluted all the other concrete operation steps with embodiment 1 by 1: 200 times with BSA.

The result is shown in Fig. 8 C, positive reaction has occured in the UreB albumen UreBM of the fusion epi-position albumen of antiserum(antisera) and purifying and brachymemma, and with the UreaB of natural helicobacter pylori 26695 specific antigen-antibody reaction has occured also, occur and have no positive reaction with BSA, explanation can be identified natural UreB albumen by the antiserum(antisera) that merges the preparation of epi-position protein immunization BALB/e mouse, further specifying the epi-position that we identify out is effective epi-position, can be used as the candidate molecules of epiposition vaccine.

Embodiment 5, monoclonal antibody and polyvalent antibody suppress the urease activity test

The extract that contains urease activity comes from the centrifugal supernatant of the broken thing of helicobacter pylori NCTC 11637 full bacterium of above-mentioned preparation.Getting the extract that contains urease is diluted among the 25 μ l PBS (pH7.0), respectively with the embodiment 4 that is diluted in equally 25 μ l PBS (pH7.0) in GST-UP32, GST-UP35 and the GST-UP38 polyclonal antiserum, monoclonal antibody A1H10, B3D9, A3C10 of preparation hatch altogether in elisa plate, 4 ℃ are spent the night.Get and contain 500mM urea, 0.02% phenol red and 50mM phosphate buffered saline buffer (pH6.8) 50 μ l 0.1mM DTT are added in the enzyme connection hole, measure the OD value at 560nm place behind the incubated at room 5h.Simultaneously with the how anti-mouse serum of anti-GST, with the mice serum of PBS immunity among the embodiment 4 in contrast.Inhibiting rate (%)=(without the OD value behind the OD value of antibody-Jia antibody)/(without the OD value of antibody) * 100.

Test-results as shown in Figure 9, compare with control group, monoclonal antibody A1H10, B3D9, A3C10 have significant restraining effect to urease, and when dosage reached 25 μ g, inhibiting rate all can reach 70%, GST-UP32, GST-UP35 and GST-UP38 polyclonal antiserum also have certain restraining effect to urease, when the antibody dosage that adds was 30 μ g, inhibiting rate all can reach 50%, and this inhibition has dose-dependently, along with the increase that adds antibody dosage, inhibiting rate is in rising trend.

Provable according to above test, the present invention utilize the segmentation truncation method make up segmentation antigen and with western blot method determined each monoclonal antibody for epitope.Behind the epi-position immune animal that the present invention identifies out, the specific humoral immune response of excitating organism effectively, confirmed that they have good immunogenicity, and the antiserum(antisera) that produces has certain urease activity restraining effect, and can avoid producing the conformational epitope specific antibody, enhancing is to the inhibition of helicobacter pylori infection and remove effect, to playing good pushing effect in the research of the research and development of corresponding vaccine, pathogenesis and the clinical diagnosis.Simultaneously, the antiserum(antisera) that epi-position of the present invention produces can react with the urease of natural Helicobacter pylori Strains, shows that epi-position of the present invention can be applied to the causal organism diagnosis of albumen epi-position.

Sequence table

<160>38

<210>1

<211>390

<212>DNA

＜213〉helicobacter pylori (Helicobacter pylori)

<400>1

atgaaaaaga ttagcagaaa agaatatgtt tctatgtatg gccctactac aggcgataaa 60

gtgagattgg gcgatacaga cttgatcgct gaagtagaac atgactacac catttatggc 120

gaagagctta aattcggtgg cggtaaaacc ctgagagaag gcatgagcca atccaacaac 180

cctagcaaag aagaattgga tctaatcatc actaacgctt taatcgtgga ttacaccggt 240

atttataaag cggatattgg tattaaagat ggcaaaatcg ctggcattgg taaaggcggt 300

aacaaagaca tgcaagatgg cgttaaaaac aatcttagcg taggtcctgc tactgaagcc 360

ttagccggtg aaggtttgat cgtaactgct 390

<210>2

<211>420

<212>DNA

＜213〉helicobacter pylori (Helicobacter pylori)

<400>2

aatcttagcg taggtcctgc tactgaagcc ttagccggtg aaggtttgat cgtaactgct 60

ggtggtattg acacacacat ccacttcatt tcaccccaac aaatccctac agcttttgca 120

agcggtgtaa caaccatgat tggtggcgga actggtcctg ctgatggcac taatgcgact 180

actatcactc caggcagaag aaatttaaaa tggatgctca gagcggctga agaatattct 240

atgaacttag gtttcttggc taaaggtaac gcttctaacg acgcgagctt agtcgatcaa 300

attgaagctg gtgcgattgg ctttaaaatc cacgaagact ggggcaccac tccttctgca 360

atcaatcatg cgttagatgt tgcagacaaa tacgatgtgc aagtcgctat ccacacagac 420

<210>3

<211>441

<212>DNA

＜213〉helicobacter pylori (Helicobacter pylori)

<400>3

atcaatcatg cgttagatgt tgcagacaaa tacgatgtgc aagtcgctat ccacacagac 60

actttgaatg aagccggttg cgtggaagac actatggcag ctattgccgg acgcactatg 120

cacactttcc acactgaagg tgctggcggc ggacacgctc ctgatattat taaagtagct 180

ggtgaacaca acattcttcc cgcttccact aaccccacta tccctttcac tgtgaataca 240

gaagcagaac acatggacat gcttatggtg tgccaccact tggataaaag cattaaagaa 300

gatgttcagt tcgctgattc aaggatccgc cctcaaacca ttgcggctga agacactttg 360

catgacatgg ggattttctc aatcaccagc tctgactctc aagctatggg tcgtgtgggt 420

gaagttatca ctagaacttg g 441

<210>4

<211>648

<212>DNA

＜213〉helicobacter pylori (Helicobacter pylori)

<400>4

attttctcaa tcaccagctc tgactctcaa gctatgggtc gtgtgggtga agttatcact 60

agaacttggc aaacagctga caaaaacaaa aaagaatttg gccgcttgaa agaagaaaaa 120

ggcgataacg acaacttcag gatcaaacgc tacttgtcta aatacaccat taacccagcg 180

atcgctcatg ggattagcga gtatgtaggt tctgtagaag tgggcaaagt ggctgacttg 240

gtattgtgga gtcccgcatt ctttggcgta aaacccaaca tgatcatcaa aggcgggttc 300

attgcgttga gtcaaatggg tgacgcgaac gcttctatcc ctaccccaca accagtttat 360

tacagagaaa tgttcgctca tcatggtaaa gccaaatacg atgcaaacat cacttttgtg 420

tctcaagcgg cttatgacaa aggcattaaa gaagaattag ggcttgaaag acaagtgttg 480

ccggtaaaaa attgcagaaa catcactaaa aaagacatgc aattcaacga cactaccgct 540

cacattgaag tcaatcctga aacttaccat gtgttcgtgg atggcaaaga agtaacttct 600

aaaccagcca ataaagtgag cttggcgcaa ctctttagca ttttctag 648

<210>5

<211>130

<212>PRT

＜213〉helicobacter pylori (Helicobacter pylori)

<400>5

Met Lys Lys Ile Ser Arg Lys Glu Tyr Val Ser Met Tyr Gly Pro Thr

1 5 10 15

Thr Gly Asp Lys Val Arg Leu Gly Asp Thr Asp Leu Ile Ala Glu Val

20 25 30

Glu His Asp Tyr Thr Ile Tyr Gly Glu Glu Leu Lys Phe Gly Gly Gly

35 40 45

Lys Thr Leu Arg Glu Gly Met Ser Gln Ser Asn Asn Pro Ser Lys Glu

50 55 60

Glu Leu Asp Leu Ile Ile Thr Asn Ala Leu Ile Val Asp Tyr Thr Gly

65 70 75 80

Ile Tyr Lys Ala Asp Ile Gly Ile Lys Asp Gly Lys Ile Ala Gly Ile

85 90 95

Gly Lys Gly Gly Asn Lys Asp Met Gln Asp Gly Val Lys Asn Asn Leu

100 105 110

Ser Val Gly Pro Ala Thr Glu Ala Leu Ala Gly Glu Gly Leu Ile Val

115 120 125

Thr Ala

130

<210>6

<211>140

<212>PRT

＜213〉helicobacter pylori (Helicobacter pylori)

<400>6

Asn Leu Ser Val Gly Pro Ala Thr Glu Ala Leu Ala Gly Glu Gly Leu

1 5 10 15

Ile Val Thr Ala Gly Gly Ile Asp Thr His Ile His Phe Ile Ser Pro

20 25 30

Gln Gln Ile Pro Thr Ala Phe Ala Ser Gly Val Thr Thr Met Ile Gly

35 40 45

Gly Gly Thr Gly Pro Ala Asp Gly Thr Asn Ala Thr Thr Ile Thr Pro

50 55 60

Gly Arg Arg Asn Leu Lys Trp Met Leu Arg Ala Ala Glu Glu Tyr Ser

65 70 75 80

Met Asn Leu Gly Phe Leu Ala Lys Gly Asn Ala Ser Asn Asp Ala Ser

85 90 95

Leu Val Asp Gln Ile Glu Ala Gly Ala Ile Gly Phe Lys Ile His Glu

100 105 110

Asp Trp Gly Thr Thr Pro Ser Ala Ile Asn His Ala Leu Asp Val Ala

115 120 125

Asp Lys Tyr Asp Val Gln Val Ala Ile His Thr Asp

130 135 140

<210>7

<211>147

<212>PRT

＜213〉helicobacter pylori (Helicobacter pylori)

<400>7

Ile Asn His Ala Leu Asp Val Ala Asp Lys Tyr Asp Val Gln Val Ala

1 5 10 15

Ile His Thr Asp Thr Leu Asn Glu Ala Gly Cys Val Glu Asp Thr Met

20 25 30

Ala Ala Ile Ala Gly Arg Thr Met His Thr Phe His Thr Glu Gly Ala

35 40 45

Gly Gly Gly His Ala Pro Asp Ile Ile Lys Val Ala Gly Glu His Asn

50 55 60

Ile Leu Pro Ala Ser Thr Asn Pro Thr Ile Pro Phe Thr Val Asn Thr

65 70 75 80

Glu Ala Glu His Met Asp Met Leu Met Val Cys His His Leu Asp Lys

85 90 95

Ser Ile Lys Glu Asp Val Gln Phe Ala Asp Ser Arg Ile Arg Pro Gln

100 105 110

Thr Ile Ala Ala Glu Asp Thr Leu His Asp Met Gly Ile Phe Ser Ile

115 120 125

Thr Ser Ser Asp Ser Gln Ala Met Gly Arg Val Gly Glu Val Ile Thr

130 135 140

Arg Thr Trp

145

<210>8

<211>215

<212>PRT

＜213〉helicobacter pylori (Helicobacter pylori)

<400>8

Ile Phe Ser Ile Thr Ser Ser Asp Ser Gln Ala Met Gly Arg Val Gly

1 5 10 15

Glu Val Ile Thr Arg Thr Trp Gln Thr Ala Asp Lys Asn Lys Lys Glu

20 25 30

Phe Gly Arg Leu Lys Glu Glu Lys Gly Asp Asn Asp Asn Phe Arg Ile

35 40 45

Lys Arg Tyr Leu Ser Lys Tyr Thr Ile Asn Pro Ala Ile Ala His Gly

50 55 60

Ile Ser Glu Tyr Val Gly Ser Val Glu Val Gly Lys Val Ala Asp Leu

65 70 75 80

Val Leu Trp Ser Pro Ala Phe Phe Gly Val Lys Pro Asn Met Ile Ile

85 90 95

Lys Gly Gly Phe Ile Ala Leu Ser Gln Met Gly Asp Ala Asn Ala Ser

100 105 110

Ile Pro Thr Pro Gln Pro Val Tyr Tyr Arg Glu Met Phe Ala His His

115 120 125

Gly Lys Ala Lys Tyr Asp Ala Asn Ile Thr Phe Val Ser Gln Ala Ala

130 135 140

Tyr Asp Lys Gly Ile Lys Glu Glu Leu Gly Leu Glu Arg Gln Val Leu

145 150 155 160

Pro Val Lys Asn Cys Arg Asn Ile Thr Lys Lys Asp Met Gln Phe Asn

165 170 175

Asp Thr Thr Ala His Ile Glu Val Asn Pro Glu Thr Tyr His Val Phe

180 185 190

Val Asp Gly Lys Glu Val Thr Ser Lys Pro Ala Asn Lys Val Ser Leu

195 200 205

Ala Gln Leu Phe Ser Ile Phe

210 215

<210>9

<211>90

<212>DNA

＜213〉helicobacter pylori (Helicobacter pylori)

<400>9

gatggcgtta aaaacaatct tagcgtaggt cctgctactg aagccttagc cggtgaaggt 60

ttgatcgtaa ctgctggtgg tattgacaca 90

<210>10

<211>75

<212>DNA

＜213〉helicobacter pylori (Helicobacter pylori)

<400>10

ggtggtattg acacacacat ccacttcatt tcaccccaac aaatccctac agcttttgca 60

agcggtgtaa caacc 75

<210>11

<211>90

<212>DNA

<213>11

<400>11

agcggtgtaa caaccatgat tggtggcgga actggtcctg ctgatggcac taatgcgact 60

actatcactc caggcagaag aaatttaaaa 90

<210>12

<211>105

<212>DNA

＜213〉helicobacter pylori (Helicobacter pylori)

<400>12

actatcactc caggcagaag aaatttaaaa tggatgctca gagcggctga agaatattct 60

atgaacttag gtttcttggc taaaggtaac gcttctaacg acgcg 105

<210>13

<211>105

<212>DNA

＜213〉helicobacter pylori (Helicobacter pylori)

<400>13

gcttctaacg acgcgagctt agtcgatcaa attgaagctg gtgcgattgg ctttaaaatc 60

cacgaagact ggggcaccac tccttctgca atcaatcatg cgtta 105

<210>14

<211>90

<212>DNA

＜213〉helicobacter pylori (Helicobacter pylori)

<400>14

cctcaaacca ttgcggctga agacactttg catgacatgg ggattttctc aatcaccagc 60

tctgactctc aagctatggg tcgtgtgggt 90

<210>15

<211>30

<212>PRT

＜213〉helicobacter pylori (Helicobacter pylori)

<400>15

Asp Gly Val Lys Asn Asn Leu Ser Val Gly Pro Ala Thr Glu Ala Leu

1 5 10 15

Ala Gly Glu Gly Leu Ile Val Thr Ala Gly Gly Ile Asp Thr

20 25 30

<210>16

<211>25

<212>PRT

＜213〉helicobacter pylori (Helicobacter pylori)

<400>16

Gly Gly Ile Asp Thr His Ile His Phe Ile Ser Pro Gln Gln Ile Pro

1 5 10 15

Thr Ala Phe Ala Ser Gly Val Thr Thr

20 25

<210>17

<211>30

<212>PRT

＜213〉helicobacter pylori (Helicobacter pylori)

<400>17

Ser Gly Val Thr Thr Met Ile Gly Gly Gly Thr Gly Pro Ala Asp Gly

1 5 10 15

Thr Asn Ala Thr Thr Ile Thr Pro Gly Arg Arg Asn Leu Lys

20 25 30

<210>18

<211>35

<212>PRT

＜213〉helicobacter pylori (Helicobacter pylori)

<400>18

Thr Ile Thr Pro Gly Arg Arg Asn Leu Lys Trp Met Leu Arg Ala Ala

1 5 10 15

Glu Glu Tyr Ser Met Asn Leu Gly Phe Leu Ala Lys Gly Asn Ala Ser

20 25 30

Asn Asp Ala

35

<210>19

<211>35

<212>PRT

＜213〉helicobacter pylori (Helicobacter pylori)

<400>19

Ala Ser Asn Asp Ala Ser Leu Val Asp Gln Ile Glu Ala Gly Ala Ile

1 5 10 15

Gly Phe Lys Ile His Glu Asp Trp Gly Thr Thr Pro Ser Ala Ile Asn

20 25 30

His Ala Leu

35

<210>20

<211>30

<212>PRT

＜213〉helicobacter pylori (Helicobacter pylori)

<400>20

Pro Gln Thr Ile Ala Ala Glu Asp Thr Leu His Asp Met Gly Ile Phe

1 5 10 15

Ser Ile Thr Ser Ser Asp Ser Gln Ala Met Gly Arg Val Gly

20 25 30

<210>21

<211>45

<212>DNA

＜213〉helicobacter pylori (Helicobacter pylori)

<400>21

agcggtgtaa caaccatgat tggtggcgga actggtcctg ctgat 45

<210>22

<211>45

<212>DNA

＜213〉helicobacter pylori (Helicobacter pylori)

<400>22

ggtggcggaa ctggtcctgc tgatggcact aatgcgacta ctatc 45

<210>23

<211>45

<212>DNA

＜213〉helicobacter pylori (Helicobacter pylori)

<400>23

ggcactaatg cgactactat cactccaggc agaagaaatt taaaa 45

<210>24

<211>45

<212>DNA

＜213〉helicobacter pylori (Helicobacter pylori)

<400>24

actatcactc caggcagaag aaatttaaaa tggatgctca gagcg 45

<210>25

<211>45

<212>DNA

＜213〉helicobacter pylori (Helicobacter pylori)

<400>25

tggatgctca gagcggctga agaatattct atgaacttag gtttc 45

<210>26

<211>45

<212>DNA

＜213〉helicobacter pylori (Helicobacter pylori)

<400>26

atgaacttag gtttcttggc taaaggtaac gcttctaacg acgcg 45

<210>27

<211>42

<212>DNA

＜213〉helicobacter pylori (Helicobacter pylori)

<400>27

cctcaaacca ttgcggctga agacactttg catgacatgg gg 42

<210>28

<211>45

<212>DNA

＜213〉helicobacter pylori (Helicobacter pylori)

<400>28

actttgcatg acatggggat tttctcaatc accagctctg actct 45

<210>29

<211>48

<212>DNA

＜213〉helicobacter pylori (Helicobacter pylori)

<400>29

attttctcaa tcaccagctc tgactctcaa gctatgggtc gtgtgggt 48

<210>30

<211>15

<212>PRT

＜213〉helicobacter pylori (Helicobacter pylori)

<400>30

Ser Gly Val Thr Thr Met Ile Gly Gly Gly Thr Gly Pro Ala Asp

1 5 10 15

<210>31

<211>15

<212>PRT

＜213〉helicobacter pylori (Helicobacter pylori)

<400>31

Gly Gly Gly Thr Gly Pro Ala Asp Gly Thr Asn Ala Thr Thr Ile

1 5 10 15

<210>32

<211>15

<212>PRT

＜213〉helicobacter pylori (Helicobacter pylori)

<400>32

Gly Thr Asn Ala Thr Thr Ile Thr Pro Gly Arg Arg Asn Leu Lys

1 5 10 15

<210>33

<211>15

<212>PRT

＜213〉helicobacter pylori (Helicobacter pylori)

<400>33

Thr Ile Thr Pro Gly Arg Arg Asn Leu Lys Trp Met Leu Arg Ala

1 5 10 15

<210>34

<211>15

<212>PRT

＜213〉helicobacter pylori (Helicobacter pylori)

<400>34

Trp Met Leu Arg Ala Ala Glu Glu Tyr Ser Met Asn Leu Gly Phe

1 5 10 15

<210>35

<211>15

<212>PRT

＜213〉helicobacter pylori (Helicobacter pylori)

<400>35

Met Asn Leu Gly Phe Leu Ala Lys Gly Asn Ala Ser Asn Asp Ala

1 5 10 15

<210>36

<211>14

<212>PRT

＜213〉helicobacter pylori (Helicobacter pylori)

<400>36

Pro Gln Thr Ile Ala Ala Glu Asp Thr Leu His Asp Met Gly

1 5 10

<210>37

<211>15

<212>PRT

＜213〉helicobacter pylori (Helicobacter pylori)

<400>37

Thr Leu His Asp Met Gly Ile Phe Ser Ile Thr Ser Ser Asp Ser

1 5 10 15

<210>38

<211>16

<212>PRT

＜213〉helicobacter pylori (Helicobacter pylori)

<400>38

Ile Phe Ser Ile Thr Ser Ser Asp Ser Gln Ala Met Gly Arg Val Gly

1 5 10 15

Claims (10)

1. a peptide species, the polypeptide that is formed by the aminoacid sequence shown in the sequence in the sequence table 34.

2. the encoding gene of polypeptide claimed in claim 1.

3. encoding gene according to claim 2, it is characterized in that: described encoding gene is the DNA of sequence 25 in the sequence table.

4. the application of polypeptide claimed in claim 1 in the immunological reagent of preparation prevention or treatment helicobacter pylori infection.

5. application according to claim 4 is characterized in that: described immunological reagent is the epiposition vaccine preparation.

6. according to claim 4 or 5 described application, it is characterized in that: described immunological reagent is multi-joint poly epiposition vaccine preparation.

7. the application of polypeptide claimed in claim 1 in the medicine of the activity of preparation inhibition urease.

8. the application of polypeptide claimed in claim 1 in preparation helicobacter pylori vitro detection reagent.

9. detect, prevent or treat the immunological reagent of helicobacter pylori infection, its activeconstituents comprises polypeptide claimed in claim 1.

10. suppress the medicine of the activity of urease, its activeconstituents comprises polypeptide claimed in claim 1.

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