CN115340600A - New coronavirus RBD specific monoclonal antibody and application - Google Patents
New coronavirus RBD specific monoclonal antibody and application Download PDFInfo
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Abstract
The invention belongs to the technical field of monoclonal antibodies, and particularly discloses a new coronavirus RBD specific monoclonal antibody, wherein the amino acid sequence of a heavy chain is shown as SEQ ID NO. 1; the light chain amino acid sequence is shown as SEQ ID NO. 2. The invention also provides the application of the new coronavirus RBD specific monoclonal antibody. The invention has important scientific significance and application prospect for the prevention and clinical treatment of diseases caused by the novel coronavirus SARS-CoV-2 and the research and development of diagnostic reagents.
Description
Technical Field
The invention belongs to the technical field of monoclonal antibodies, and particularly relates to a novel coronavirus RBD specific monoclonal antibody and application thereof.
Background
Antibodies are immunoglobulin molecules composed of four polypeptide chains, including two heavy chains (H chains) and two light chains (L chains). The H chain consists of a heavy chain variable region (VH) and a heavy chain constant region consisting of three regions, CH1, CH2 and CH 3. The L chain consists of an L variable region (VL) and a light chain constant region consisting of a CL region. VH and VL can be further divided into hypervariable regions called Complementarity Determining Regions (CDRs) and conserved regions called Framework Regions (FR) that alternate.
The research shows that: the novel coronavirus (SARS-CoV-2) has four major structural proteins, spike protein (S protein), nucleocapsid protein (N protein), membrane protein (M protein), and envelope protein (E protein), respectively, wherein the S protein has two subunits: s1 and S2, receptor Binding Sites (RBDs) are located on the S1 subunit, and their primary function is to recognize host cell surface receptors, mediating fusion with host cells.
The Chinese patent application with the application publication number CN111303280A discloses a fully human monoclonal antibody with high neutralizing activity against SARS-CoV-2, which provides the fully human monoclonal antibody with a recognition region of S1 non-RBD region, but the fully human monoclonal antibody obtained by the patent has limited blocking effect on viruses because the new coronavirus invades a host cell and is combined with ACE2 of the host cell through RBD, and the patent obtains antibody cDNA by marking plasma cells, but compared with the plasma cells, the antibody cDNA reacts rapidly after the memory B cells are activated, so the memory B cells can initiate faster and stronger humoral immune response than the primary reaction, and the humoral immune response initiated by the plasma cells is limited.
Disclosure of Invention
In order to achieve the aim, the invention provides a novel monoclonal antibody specific to coronavirus RBD, and particularly, the heavy chain amino acid sequence of the antibody is shown as SEQ ID NO. 21; the light chain amino acid sequence is shown in SEQ ID NO:22 (monoclonal antibody 11-CQT 202). The heavy chain amino acid sequence can also be shown as SEQ ID NO. 23; the light chain amino acid sequence may also be shown as SEQ ID NO:24 (mAb 12-CQT 203). The heavy chain amino acid sequence can also be shown as SEQ ID NO. 25; the light chain amino acid sequence may also be shown as SEQ ID NO:26 (mAb 13-CQT 206). The heavy chain amino acid sequence can also be shown as SEQ ID NO. 27; the light chain amino acid sequence may also be shown as SEQ ID NO:28 (mAb 14-CQT 209). The heavy chain amino acid sequence can also be shown as SEQ ID NO. 29; the light chain amino acid sequence may also be shown as SEQ ID NO:30 (mAb 15-CQT 210). The heavy chain amino acid sequence can also be shown as SEQ ID NO. 31; the light chain amino acid sequence can also be shown as SEQ ID NO:32 (mAb 16-CQT 212). The heavy chain amino acid sequence can also be shown as SEQ ID NO. 33; the light chain amino acid sequence may also be shown as SEQ ID NO:34 (mAb 17-CQT 215). The heavy chain amino acid sequence can also be shown as SEQ ID NO 35; the light chain amino acid sequence may also be shown as SEQ ID NO:36 (mAb 18-CQT 216). The heavy chain amino acid sequence can also be shown as SEQ ID NO 37; the light chain amino acid sequence may also be shown in SEQ ID NO:38 (mAb 19-CQT 217). The heavy chain amino acid sequence can also be shown as SEQ ID NO: 39; the light chain amino acid sequence may also be shown as SEQ ID NO:40 (mAb 20-CQT 218).
The invention also provides the application of the new coronavirus RBD specific monoclonal antibody in the preparation of a reagent or vaccine or medicament for detecting or diagnosing SARS-CoV-2; also provides a nucleic acid molecule for encoding the new coronavirus RBD specific monoclonal antibody; also provides an expression cassette, a recombinant vector, a recombinant bacterium or a transgenic cell line containing the nucleic acid molecule; also provides the application of the expression cassette, the recombinant vector, the recombinant bacterium or the transgenic cell line in the preparation of products.
The invention also provides a product, which comprises the new coronavirus RBD specific monoclonal antibody; the product application is any one of the following (b 1) to (b 4): (b 1) binds to novel coronavirus SARS-CoV-2; (b 2) detecting binding of the novel coronavirus SARS-CoV-2; (b 3) binding to the S protein of the novel coronavirus SARS-CoV-2; (b4) S protein for detecting novel coronavirus SARS-CoV-2
The invention also provides a pharmaceutical composition which comprises the novel coronavirus RBD specific monoclonal antibody and a pharmaceutically acceptable excipient, diluent or carrier.
Preferably, the monoclonal antibody specific to the new coronavirus RBD is obtained by sorting specific memory B cells and amplifying the specific memory B cells by RT-PCR (reverse transcription-polymerase chain reaction).
The principle and the beneficial effects of the invention are as follows:
(1) The monoclonal antibody provided by the invention has RBD specificity, and compared with a monoclonal antibody aiming at an S1 non-RBD region, the monoclonal antibody provided by the invention is combined with RBD, thereby providing wider application value for screening antibody medicines, diagnosing, preventing and treating new coronary pneumonia.
(2) The monoclonal antibody provided by the invention is obtained by sorting RBD specific memory B cells, and compared with the prior art of sorting plasma cells, the monoclonal antibody prepared by the invention can initiate stronger humoral immune response. In addition, the invention only aims at RBD specific memory B cells to carry out subsequent RT-PCR, nested PCR and antibody function analysis, thereby greatly improving the specific binding capacity of the monoclonal antibody and the RBD.
Drawings
FIG. 1 is a diagram of cell sorting by flow cytometry analysis of memory B cells;
FIG. 2 is a cell sorting graph of RBD specific memory B cells analyzed by flow cytometry;
FIG. 3 is a gel electrophoresis of the PCR product of the antibody gene of a single cell;
FIG. 4 is an agarose gel electrophoresis of PCR amplified antibody gene expression cassettes containing CMV promoter, WPRE-gamma or WPRE-kappa elements;
FIG. 5 is a graph showing the result of RBD-specific detection.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings of the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
Example 1
This example provides a monoclonal antibody specific to the novel coronavirus RBD, the heavy chain amino acid sequence is shown in SEQ ID NO 21; the light chain amino acid sequence is shown in SEQ ID NO. 22.
The embodiment also provides the application of the new coronavirus RBD specific monoclonal antibody in the preparation of a reagent or a medicament for detecting or diagnosing SARS-CoV-2.
In practical production, the RBD-specific monoclonal antibody obtained in this example can be used to prepare a nucleic acid molecule, or an expression cassette, a recombinant vector, a recombinant bacterium or a transgenic cell line containing the nucleic acid molecule, or a pharmaceutical composition comprising the above-mentioned novel coronavirus RBD-specific monoclonal antibody and a pharmaceutically acceptable excipient, diluent or carrier.
In application, the related product prepared by the RBD-specific monoclonal antibody obtained in this example can be used in any one of the following (b 1) to (b 4): (b 1) binds to novel coronavirus SARS-CoV-2; (b 2) detecting binding of the novel coronavirus SARS-CoV-2; (b 3) binding to the S protein of the novel coronavirus SARS-CoV-2; (b 4) detecting the S protein of the novel coronavirus SARS-CoV-2.
Examples 2 to 10
Examples 2-10 differ from example 1 in that: the amino acid sequences of the RBD-specific monoclonal antibodies were varied, and the amino acid sequences of examples 2-10 are shown in the following table:
the RBD-specific monoclonal antibodies provided in examples 1-10 above were obtained by the following method: firstly, single RBD specific memory B cells are obtained by separating peripheral blood of a recovered patient with new coronary pneumonia, then mRNA of the RBD specific memory B cells is obtained, an antibody variable region gene expression cassette is constructed through RT-PCR and nested PCR, the antibody variable region gene expression cassette is transduced into 293T cells to express an antibody, supernatant is collected, RBD specificity of the supernatant is detected through an ELISA method, and RBD specific monoclonal antibodies are obtained by screening.
The method specifically comprises the following steps:
s1, collecting peripheral blood of a plurality of patients with the new coronary pneumonia, separating to obtain PBMC, and freezing and storing in a refrigerator at the temperature of-80 ℃ for later use.
S2, firstly removing Dead cells of PBMC obtained in the S1 by adopting Dead cell Dye (Dead Dye), then adopting CD19, mIg-G, mIg-D and S-RBD to stain and mark the memory B cells with high specificity and binding capacity on the live RBD in the PBMC, and screening out the memory B cells specific to the RBD; specific memory B cells were sorted using a flow cytometric sorter onto 96-well plates, one specific memory B cell per well, and frozen at-80 ℃ in a freezer for use.
Specifically, the preferred concentration range of the Dye staining of the Dead in the embodiment is 1-2 μ g/mL, and the preferred concentration range of the Dye staining of the Dead in the embodiment is 1.5 μ g/mL; CD19 is a B cell marker produced by Biolegend and is stained at a concentration ranging from 1 to 2. Mu.g/mL, and in this example, CD19 is preferably stained at a concentration of 1.5. Mu.g/mL. mIg-G is a B cell surface receptor produced by Biolegend, and the concentration range of the mIg-G during staining is 1-2 mu G/mL, and the concentration of the mIg-G during staining is 1.5 mu G/mL in the embodiment preferably; mIg-D is B cell surface receptor produced by Biolegend, and the concentration range when staining is 1-2 μ g/mL, and the concentration when staining mIg-D is 1.5 μ g/mL is preferred in the embodiment; S-RBD is a novel coronavirus produced by sinobiological, is a protein receptor domain, and is stained at a concentration ranging from 1 to 2. Mu.g/mL, and the concentration of S-RBD staining is preferably 1.5. Mu.g/mL in this example.
Sorting RBD-specific memory B cells by flow cytometry, by CD19, mCell sorting of Ig-G, mIg-D and S-RBD PBMC the cell sorting maps for B cells with specific memory for S-RBD are shown in FIGS. 1 and 2, where Batch ID 0428, 0505, 0522, 0528 in FIG. 2 are screening batches. The principle of screening RBD-specific memory B cells by using CD19, mIg-G, mIg-D and S-RBD in this example is as follows: PBMC were stained with Dead cell stain (Dead Dye), B cell marker CD19, memory B cell markers mIg-G positive and mIg-D negative, and memory B cells expressing RBD-specific IgG, then the CD19 cell population was divided from the cell population using a flow cytometer, and mIg-G was divided from the CD19 positive cell population + mIg-D - Cell population from mIg-G + mIg-D - Dividing the cell group into RBD positive memory B cells, and sorting the RBD positive memory B cells by a flow cytometric sorter.
S3, sorting to obtain mRNA of a single RBD specific memory B cell, and performing RT-PCR amplification to obtain antibody variable region cDNA. Specifically, when RT-PCR is used to amplify antibody variable region cDNA, the primer front segment of the primer designed in this example is designed with a universal Leader (see primer sequence table one and primer sequence table two), which effectively improves the amplification rate of antibody genes, and the experimental results are shown in fig. 3.
S4, amplifying the antibody variable region cDNA obtained from the S1-S3 by adopting nested PCR to construct an antibody variable region gene expression cassette.
S3 and S4 are performed by the following six sections in total: (1) extracting mRNA of RBD specific memory B cells; (2) single cell mRNA Reverse Transcription (RT); (3) adding G tail (TDT); (4) first round PCR (1 st PCR); (5) second round PCR (2 nd PCR); (6) PCR amplification of BCR-ORF to construct a gene expression cassette; (7) CMV, WPRE-gamma/kappa/l fragment amplification and CMV, BCR-V gamma/kappa/l ((6) product), WPRE-gamma/kappa/l Overlap PCR (Overlap PCR) pre-connection; (8) BCR-gamma ORF, BCR-kappa ORF and BCR-lPCR amplification.
The preparation and reaction conditions of each part of reaction liquid are as follows:
(1) Using Dynabeads TM mRNA DIRECT TM The single cell mRNA extraction is carried out by a Purification Kit (Thermo Fisherscientific), and the method specifically comprises the following steps:
(1) centrifuging: taking out the 96-well plate with the single RBD specific memory B cell from a refrigerator at the temperature of-80 ℃, and centrifuging the plate at the speed of 600 Xg for 30s to ensure that the cell is centrifuged at the bottom of the well;
(2) cleaning: taking out a Dynabeads oligo (dT) 25 microsphere bottle, uniformly mixing the Dynabeads oligo (dT) 25 microsphere bottle by vortex, sucking enough microspheres according to 2 mu l/hole, placing the microspheres on a magnet block, standing for 30s, discarding supernatant, and resuspending the microspheres by using 500 mu l of lysine Buffer;
(3) preparation: adding the microspheres into a 50mL centrifuge tube according to 9. Mu.l/hole lysine Buffer, adding the 500. Mu.l microsphere suspension, and uniformly blowing by using a gun;
(4) subpackaging: subpackaging the microspheres by using an eight-connecting tube, and then adding the microspheres into a cell plate according to 9 mu l/hole by using a discharge gun;
(5) rinsing: pasting a membrane on a 96-well plate, and then rinsing the periphery of the tube wall for 2 cycles;
(6) and (3) incubation: standing at room temperature for 5min to fully release mRNA of RBD specific memory B cells and combine the mRNA to the microspheres, and after the incubation is finished, performing 600 Xg instantaneous centrifugation to enable the microspheres to be centrifuged at the bottom of the hole. Place 96-well plates in DynaMag TM -96side Magnet magnetic plate, pipette off supernatant;
(7) wash A: adding Washing Buffer A according to 8 mul/hole, walking the plate back and forth for 7-8 times to fully wash the microspheres, and discarding the supernatant;
(8) wash B: wash Buffer B was added at 8. Mu.l/well, the plate was walked back and forth 7-8 times to wash the microspheres thoroughly, the supernatant was discarded, and then the pre-prepared Reverse Transcription (RT) reaction was added at 10. Mu.l/well. The reagent preparation and reaction conditions are described in the following (2).
(2) Reverse Transcription (RT) (10. Mu.l system)
The reagents required for formulation are shown in table 1 below:
reaction conditions are as follows: 42 ℃ for 60min (mixing every 20 min);
after the reaction was completed, the 96-well plate was instantaneously centrifuged at 600 Xg, and then the 96-well plate was placed on DynaMag TM On a 96-side Magnet magnetic plate, the supernatant was aspirated off by a discharge gun, and then a previously prepared TDT reaction solution was added at 10. Mu.l/well, and the reagent preparation and reaction conditions were as described in (3) below.
(3) Add G tail (TDT) (10. Mu.l system)
The reagents required for formulation are shown in table 2 below:
name of reagent | Volume of |
H 2 O | 6.4μl |
5×TdT buffer | 2.0μl |
10mM dGTP | 0.5μl |
0.1%BSA | 1.0μl |
Sample | beads |
TdT | 0.1μl |
Total volume | 10μl |
The reaction conditions are as follows: 37 ℃ for 40min (every 20min mixing).
After the reaction, the reaction mixture was centrifuged at 600 Xg in a 96-well plate and then placed in DynaMag TM On a 96-side Magnet magnetic plate, the supernatant was aspirated off by a discharge gun, and then a first PCR (1 st PCR) reaction solution prepared in advance was added at 10. Mu.l/well, and the reagent preparation and reaction conditions were as described in the following (4).
(4) 1st PCR (10. Mu.l System) (see primer sequence Listing)
The reagents required for formulation are shown in table 3 below:
based on the PCR principle, the experimental reaction conditions of 1st PCR are as follows: (1) pre-denaturation at 95 ℃ for 3min; (2) denaturation at 95 ℃ for 15sec, annealing at 60 ℃ for 5sec, elongation at 72 ℃ for 1min,30-35cycles, preferably 30cycles in this example; (3) circulating at 72 deg.C for external extension for 5min, and storing at 4 deg.C.
(5) Second round PCR (2 nd PCR) (10. Mu.l system) (see primer sequence Listing I and primer sequence Listing II)
The reagents required for formulation are shown in table 4 below:
name of reagent | Volume of |
H 2 O | 1.5μl |
2×GC Buffer | 5μl |
2.5mM dNTP | 1μl |
FP:MAC-AP3/AP3(10μM) | 0.5μl |
RP:Cg-nest/K20/CI-nest(10μM) | 0.5μl |
PrimesTAR | 0.5μl |
sample | 1μl |
Total volume | 10μl |
Based on the PCR principle, the experimental reaction conditions of 2nd PCR are as follows: (1) pre-denaturation at 95 ℃ for 3min; (2) denaturation at 95 ℃ for 15sec, annealing at 60 ℃ for 5s, elongation at 72 ℃ for 1min,30-35cycles, preferably 35cycles in this example; extension is carried out for 5min at 72 ℃ in a circulating way, and the product is stored at 4 ℃.
After the PCR is finished: mu.l of each well was subjected to 1.5% agarose gel electrophoresis. The cell pores in which the Gamma chain and the Kappa chain or Lamada chain are paired are sent for sequencing.
(6) Amplification and construction of antibody expression cassettes (BCR-ORF)
PCR amplification promoter region (CMV promoter), WPRE-gamma (antibody gamma chain) and WPRE-kappa (antibody kappa chain) in the following Table 5:
the PCR amplification conditions were: (1) pre-denaturation at 95 ℃ for 3min; (2) denaturation at 95 ℃ for 15sec, annealing at 56 ℃ for 15sec, extension at 72 ℃ for 1min,30 cycles; (3) extension is carried out for 5min at 72 ℃ in a circulating way, and the product is stored at 12 ℃.
(7) Amplification of CMV, WPRE-gamma/kappa/l fragment and pre-ligation of CMV, BCR-Vgamma/kappa/l, WPRE-gamma/kappa/l Overlap PCR (Overlap PCR)
The experimental system is shown in table 6 below:
the PCR amplification conditions were: pre-denaturation at 95 ℃ for 3min; denaturation at 95 ℃ for 15sec, annealing at 50 ℃ for 15sec, elongation at 72 ℃ for 1.5min,10cycles; circulating at 72 deg.C for external extension of 5min, and storing at 12 deg.C.
(8) PCR amplification of BCR-gamma ORF, BCR-kappa ORF, BCR-l
The experimental system is shown in table 7 below:
PCR amplification procedure: pre-denaturation at 95 ℃ for 3min; denaturation at 95 ℃ for 15sec, annealing at 58 ℃ for 15sec, extension at 72 ℃ for 1.5min,30cycles; extension is carried out for 5min at 72 ℃ in a circulating way, and the product is stored at 12 ℃.
After amplification, agarose gel electrophoresis is adopted, whether the size of the obtained antibody variable region gene is correct or not is analyzed by gel imaging, the experimental result is shown in figure 4, the Marker is in the middle position, and the band is in the position of 5000 bp.
BCR-gamma ORF and BCR-kappa/ORF ethanol precipitation: placing 30 μ l of PCR products of BCR-gamma ORF and BCR-kappa ORF in 8 connecting tubes respectively, adding 120 μ l of anhydrous ethanol and 6 μ l of sodium acetate solution, mixing well, and standing at-80 deg.C for 30min;10000rpm, centrifuging for 20min, discarding the supernatant, sequentially rinsing with 200 μ l of 70% ethanol and anhydrous ethanol once respectively, fully volatilizing the ethanol at 56 deg.C, adding 40 μ l of sterile water, oscillating to fully dissolve the precipitate, and detecting the concentration of antibody variable region gene.
The Leader primers used for S3 and S4 are referred to as the following primer sequence I:
the J-region primers used for S3 and S4 are described in the following primer sequence Listing:
primer ID | sequence |
IGHJ_01 | GATGGGCCCTTGGTGGAGGGTGAGGAGACGGTGACCAGGGTGCCCTGGCCCCAGT |
IGHJ_02 | GATGGGCCCTTGGTGGAGGGTGAGGAGACAGTGACCAGGGTGCCACGGCCCCAGA |
IGHJ_03 | GATGGGCCCTTGGTGGAGGGTGAAGAGACGGTGACCATTGTCCCTTGGCCCCAGA |
IGHJ_04 | GATGGGCCCTTGGTGGAGGGTGAGGAGACGGTGACCGTGGTCCCTTGCCCCCAGA |
IGKJ_01 | GATGGTGCAGCCACAGTTCGTTTGATTTCCACCTTGGTCCCTTGGCCGAACGTCC |
IGKJ_02 | GATGGTGCAGCCACAGTTCGTTTGATTTCCACCTTGGTCCCTTGGCCGAACGTCC |
IGKJ_03 | GATGGTGCAGCCACAGTTCGTTTGATATCCACTTTGGTCCCAGGGCCGAAAGTGA |
IGKJ_04 | GATGGTGCAGCCACAGTTCGTTTGATCTCCACCTTGGTCCCTCCGCCGAAAGTGA |
IGKJ_05 | GATGGTGCAGCCACAGTTCGTTTAATCTCCAGTCGTGTCCCTTGGCCGAAGGTGA |
IGLJ_01 | GGGGCAGCCTTGGGCTGACCTAGGACGGTGACCTTGGTCCCAGTTCCGAAGACAT |
IGLJ_02 | GGGGCAGCCTTGGGCTGACCTAGGACGGTCAGCTTGGTCCCTCCGCCGAATACCA |
IGLJ_03 | GGGGCAGCCTTGGGCTGACCTAAAATGATCAGCTGGGTTCCTCCACCAAATACAA |
IGLJ_04 | GGGGCAGCCTTGGGCTGACCTAGGACGGTCAGCTCGGTCCCCTCACCAAACACCC |
IGLJ_05 | GGGGCAGCCTTGGGCTGACCTAGGACGGTCAGCTCCGTCCCCTCACCAAACACCC |
IGLJ_06 | GGGGCAGCCTTGGGCTGACCGAGGACGGTCACCTTGGTGCCACTGCCGAACACAT |
IGLJ_07 | GGGGCAGCCTTGGGCTGACCGAGGACGGTCAGCTGGGTGCCTCCTCCGAACACAG |
IGLJ_08 | GGGGCAGCCTTGGGCTGACCGAGGGCGGTCAGCTGGGTGCCTCCTCCGAACACAG |
and S5, transducing the antibody variable region gene expression cassette obtained in the S4 into 293T cells for 48 hours to express the antibody, collecting supernatant, detecting the RBD specificity of the supernatant by an ELISA method, and screening the RBD-specific fully human monoclonal antibody.
(A) Antigen was diluted with PBS (final concentration 2. Mu.g/mL), 10. Mu.l/well, and coated onto 384-well ELISA plates overnight at 4 ℃ or 2h at 37 ℃ (4 ℃ overnight is preferred in this example). NOTE: after the addition, the liquid is instantly centrifuged to ensure that the liquid is at the bottom.
The experimental system is shown in table 8 below:
name of reagent | Goods number | Original concentration | Final concentration | Dilution ratio |
SARS-COV-2RBD | Cat:40592-V08H | 200μg/mL | 2μg/mL | 1:100 |
Goat pab to Hu IgG-ALP | Cat:ab97221 | 1mg/mL | 2μg/mL | 1:500 |
(B) PBST (0.05% Tween 20, cat #, TB220) was prepared: 1L of PBS was added with 0.5mL of Tween 20;
PBST machine washed plates (Thermoscientific wellwash versas) or hand washed (plates that were machine washed were still manually tapped/centrifuged for 1min using a microplate centrifuge (MPC-P25) to make the plates invisible to water and air bubbles).
And (3) sealing: 80 μ l of 5% BSA (BioFroxx, cat. NO:4240GR 100) (prepared in PBST) was added to the washed plate and incubated at 37 ℃ for 1h. PBST machine washing board or hand washing.
(C) Sample adding and standard substance. Wherein, the standard substance: 10 μ l/well stock concentration 1 μ g/mL, gradient dilutions 250ng/mL, 125ng/mL, 62.5ng/mL, 31.25ng/mL, 15.63ng/mL, 7.81ng/mL, 3.9ng/mL, and 1.95ng/mL. (dilution of blocking solution); sample preparation: cell supernatants transfected with antibody genes. Negative control/blank wells: blocking solution 10. Mu.l/well.
Incubate at 37 ℃ for 30min. PBST machine washing board or hand washing.
(D) Secondary antibody was added at a concentration of 10. Mu.l/well, followed by incubation at 37 ℃ for 30min.
The experimental system is shown in table 9 below:
name of Secondary antibody | Goods number | Original concentration | Final concentration | Dilution ratio |
goat-anti-human IgG-ALP | A18808 | 1.5mg/ml | 0.3μg/ml | 1:5000 |
Goat pab to Hu IgG-ALP | Ab98532 | 0.5mg/ml | 0.25μg/ml | 1:2000 |
PBST machine washing board or hand washing. Mu.l/well of PNPP (disodium p-nitrophenylphosphate) and OD (450 mm) values were measured using (Thermoscientific Muttiskan GO) for 5min,10 min, 15min, 20min, 25min, 30min, 35min, 40min, 45min, 50min, 55min and 60 min. 50mg PNPP powder (Thermo, prod # 34045) +40mL ddH 2 O +10mL of Diethanol amine substrate Buffer (5X), PNPP was stored protected from light at 4 ℃.
As shown in FIG. 5, the test results showed that the test was positive when the OD value was more than 0.1.
The foregoing is merely a preferred embodiment of this invention, which is intended to be illustrative, not limiting; those skilled in the art will appreciate that many variations, modifications, and even equivalent variations are possible within the spirit and scope of the invention as defined in the appended claims.
Claims (10)
1. The monoclonal antibody specific to RBD of the novel coronavirus of claim 1 wherein the heavy chain amino acid sequence is further represented by SEQ ID NO. 21; the light chain amino acid sequence can also be shown as SEQ ID NO. 22.
2. The monoclonal antibody specific to the novel coronavirus RBD according to claim 1, wherein the heavy chain amino acid sequence is further represented by SEQ ID NO. 23; the light chain amino acid sequence can also be shown as SEQ ID NO. 24.
3. The monoclonal antibody specific to the novel coronavirus RBD according to claim 1, wherein the heavy chain amino acid sequence is further represented by SEQ ID NO 25; the light chain amino acid sequence can also be shown as SEQ ID NO. 26.
4. The monoclonal antibody specific to new coronavirus RBD according to claim 1, wherein the heavy chain amino acid sequence is further represented by SEQ ID NO. 27; the light chain amino acid sequence can also be shown as SEQ ID NO 28.
5. The monoclonal antibody specific to RBD of the novel coronavirus of claim 1 wherein the heavy chain amino acid sequence is further represented by SEQ ID NO. 29; the light chain amino acid sequence can also be shown as SEQ ID NO 30.
6. The monoclonal antibody specific to the novel coronavirus RBD according to claim 1, wherein the heavy chain amino acid sequence is further represented by SEQ ID NO 31; the light chain amino acid sequence can also be shown as SEQ ID NO. 32.
7. The monoclonal antibody specific to RBD of the novel coronavirus of claim 1 wherein the heavy chain amino acid sequence is further represented by SEQ ID NO. 33; the light chain amino acid sequence can also be shown as SEQ ID NO. 34.
8. The monoclonal antibody specific to the novel coronavirus RBD according to claim 1, wherein the heavy chain amino acid sequence is further represented by SEQ ID NO 35; the light chain amino acid sequence can also be shown as SEQ ID NO: 36.
9. The monoclonal antibody specific to RBD of the novel coronavirus of claim 1 wherein the heavy chain amino acid sequence is further represented by SEQ ID NO. 37; the light chain amino acid sequence can also be shown as SEQ ID NO 38.
10. The monoclonal antibody specific to RBD of the novel coronavirus of claim 1 wherein the heavy chain amino acid sequence is further represented by SEQ ID NO 39; the light chain amino acid sequence can also be shown as SEQ ID NO: 40.
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