recombinant rbd protein  (Sino Biological)


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    Name:
    SARS CoV 2 2019 nCoV Spike RBD A522V His Recombinant Protein
    Description:
    A DNA sequence encoding the SARS CoV 2 2019 nCoV Spike RBD A522V His Recombinant Protein YP 009724390 1 Arg319 Phe541 A522V was expressed with a polyhistidine tag at the C terminus
    Catalog Number:
    40592-V08H16
    Price:
    None
    Category:
    recombinant protein
    Product Aliases:
    coronavirus spike Protein 2019-nCoV, cov spike Protein 2019-nCoV, ncov RBD Protein 2019-nCoV, ncov s1 Protein 2019-nCoV, ncov s2 Protein 2019-nCoV, ncov spike Protein 2019-nCoV, NCP-CoV RBD Protein 2019-nCoV, NCP-CoV s1 Protein 2019-nCoV, NCP-CoV s2 Protein 2019-nCoV, NCP-CoV Spike Protein 2019-nCoV, novel coronavirus RBD Protein 2019-nCoV, novel coronavirus s1 Protein 2019-nCoV, novel coronavirus s2 Protein 2019-nCoV, novel coronavirus spike Protein 2019-nCoV, RBD Protein 2019-nCoV, S1 Protein 2019-nCoV, S2 Protein 2019-nCoV, Spike RBD Protein 2019-nCoV
    Host:
    HEK293 Cells
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    Structured Review

    Sino Biological recombinant rbd protein
    Analysis of Recombinant Spike Proteins and Receptor-Binding Domain, Related to Star Methods, Protein Production (A) SDS-PAGE gel of recombinant SARS-CoV-2 spike ectodomain protein produced in ExpiCho cells and commercial recombinant SARS-CoV-2 <t>RBD.</t> (B) Transmission electron micrographs of recombinant SARS-CoV-2 spike ectodomain protein. (C) Size exclusion chromatography of recombinant SARS-CoV-2 spike ectodomain protein on a Superose 6 column. (D) SDS-PAGE gel of recombinant SARS-CoV-2 RBD produced in <t>ExpiHEK</t> cells. (E) Size exclusion chromatography of recombinant SARS-CoV-2 RBD on a Superdex200 column.
    A DNA sequence encoding the SARS CoV 2 2019 nCoV Spike RBD A522V His Recombinant Protein YP 009724390 1 Arg319 Phe541 A522V was expressed with a polyhistidine tag at the C terminus
    https://www.bioz.com/result/recombinant rbd protein/product/Sino Biological
    Average 94 stars, based on 1 article reviews
    Price from $9.99 to $1999.99
    recombinant rbd protein - by Bioz Stars, 2021-04
    94/100 stars

    Images

    1) Product Images from "SARS-CoV-2 Infection Depends on Cellular Heparan Sulfate and ACE2"

    Article Title: SARS-CoV-2 Infection Depends on Cellular Heparan Sulfate and ACE2

    Journal: Cell

    doi: 10.1016/j.cell.2020.09.033

    Analysis of Recombinant Spike Proteins and Receptor-Binding Domain, Related to Star Methods, Protein Production (A) SDS-PAGE gel of recombinant SARS-CoV-2 spike ectodomain protein produced in ExpiCho cells and commercial recombinant SARS-CoV-2 RBD. (B) Transmission electron micrographs of recombinant SARS-CoV-2 spike ectodomain protein. (C) Size exclusion chromatography of recombinant SARS-CoV-2 spike ectodomain protein on a Superose 6 column. (D) SDS-PAGE gel of recombinant SARS-CoV-2 RBD produced in ExpiHEK cells. (E) Size exclusion chromatography of recombinant SARS-CoV-2 RBD on a Superdex200 column.
    Figure Legend Snippet: Analysis of Recombinant Spike Proteins and Receptor-Binding Domain, Related to Star Methods, Protein Production (A) SDS-PAGE gel of recombinant SARS-CoV-2 spike ectodomain protein produced in ExpiCho cells and commercial recombinant SARS-CoV-2 RBD. (B) Transmission electron micrographs of recombinant SARS-CoV-2 spike ectodomain protein. (C) Size exclusion chromatography of recombinant SARS-CoV-2 spike ectodomain protein on a Superose 6 column. (D) SDS-PAGE gel of recombinant SARS-CoV-2 RBD produced in ExpiHEK cells. (E) Size exclusion chromatography of recombinant SARS-CoV-2 RBD on a Superdex200 column.

    Techniques Used: Recombinant, Binding Assay, SDS Page, Produced, Transmission Assay, Size-exclusion Chromatography

    Related Articles

    Enzyme-linked Immunosorbent Assay:

    Article Title: Rapid Development of SARS-CoV-2 Spike Protein Receptor-Binding Domain Self-Assembled Nanoparticle Vaccine Candidates
    Article Snippet: The thermal transition midpoint (T m ) and aggregation results from start to finish (T agg) were reported and analyzed in PR.ThermControl software (NanoTemper Technologies). .. Enzyme-Linked Immunosorbent Assay (ELISA) ELISA was performed to examine the binding ability of the purified SARS-CoV-2 RBD protein to the receptor ACE2 and the RBD-specific CB6 antibody. .. Purified RBD monomer and RBD-conjugated NPs were diluted to a concentration of 1 μg/mL to coat 96-well microplates (Corning) (100 μL/well) in triplicate overnight at 4 °C.

    Binding Assay:

    Article Title: Rapid Development of SARS-CoV-2 Spike Protein Receptor-Binding Domain Self-Assembled Nanoparticle Vaccine Candidates
    Article Snippet: The thermal transition midpoint (T m ) and aggregation results from start to finish (T agg) were reported and analyzed in PR.ThermControl software (NanoTemper Technologies). .. Enzyme-Linked Immunosorbent Assay (ELISA) ELISA was performed to examine the binding ability of the purified SARS-CoV-2 RBD protein to the receptor ACE2 and the RBD-specific CB6 antibody. .. Purified RBD monomer and RBD-conjugated NPs were diluted to a concentration of 1 μg/mL to coat 96-well microplates (Corning) (100 μL/well) in triplicate overnight at 4 °C.

    Purification:

    Article Title: Rapid Development of SARS-CoV-2 Spike Protein Receptor-Binding Domain Self-Assembled Nanoparticle Vaccine Candidates
    Article Snippet: The thermal transition midpoint (T m ) and aggregation results from start to finish (T agg) were reported and analyzed in PR.ThermControl software (NanoTemper Technologies). .. Enzyme-Linked Immunosorbent Assay (ELISA) ELISA was performed to examine the binding ability of the purified SARS-CoV-2 RBD protein to the receptor ACE2 and the RBD-specific CB6 antibody. .. Purified RBD monomer and RBD-conjugated NPs were diluted to a concentration of 1 μg/mL to coat 96-well microplates (Corning) (100 μL/well) in triplicate overnight at 4 °C.

    Recombinant:

    Article Title: SARS-CoV-2 Infection Depends on Cellular Heparan Sulfate and ACE2
    Article Snippet: A highly purified commercial preparation of RBD protein was used in some studies (SINO Biologics, Suppl. .. Fig. S2A) as well as recombinant RBD protein expressed in ExpiHEK cells (Suppl. .. Fig. S2D), both of which were judged > 98% pure by SDS-PAGE and SEC (Suppl.

    Article Title: Recombinant SARS-CoV-2 RBD with a built in T helper epitope induces strong neutralization antibody response
    Article Snippet: 3.2 S1-4 protein possessed antigenicity in vitro The antigenicity of S1-4 protein was demonstrated by WB analysis with a commercial recombinant RBD protein (Val16 - Arg685 of spike protein; 76.45 kDa) expressed in baculovirus-insect cells by Sino Biological (Beijing, China) as positive control ( ). .. Ten micrograms of S1-4 protein and commercial recombinant RBD protein were loaded onto the first three gels ( A – 4C), with the exception of 30 µg of the two proteins in the fourth gel ( D). .. Whether it was Rabbit monoclonal antibody against RBD ( B), Rat polyclonal antibody against inactivated SARS-CoV-2 ( C), or convalescent serum of COVID-19 patients ( D) as the primary antibody, there was an obvious band at about 30 kDa, suggesting the high antigenicity of S1-4 protein.

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    Sino Biological sars cov 2 rbd protein
    Immunogenicity evaluation of a single mRNA-RBD vaccination. a – c Groups of BALB/c mice ( n = 6) were immunized with a single injection of mRNA-RBD at different doses or with a placebo via the i.m. route. Sera at 4 weeks post immunization were collected. <t>SARS-CoV-2</t> RBD-specific IgG ( a ) and neutralizing antibody titers in sera against pseudovirus ( b ) and live virus ( c ) infection were determined. d – h C57BL/6 mice ( n = 6) were inoculated with a single mRNA-RBD vaccination or a placebo. Serum samples were collected from mice at 4 weeks following vaccination. RBD-specific IgG titers and pseudovirus-neutralizing antibodies were measured as shown in d and e , respectively. f An ELISPOT assay was performed to evaluate the capacity of splenocytes to secrete IFNγ following re-stimulation with SARS-CoV-2 RBD peptide pools. g , h An ICS assay was conducted to quantify the proportions of IFNγ-secreting CD8 + ( g ) and CD4 + ( h ) T cells. mRNA-RBD-L indicates the low dose (2 μg). mRNA-RBD-H indicates the high dose (15 μg). HCS represents human convalescent sera. Data are means ± SEM (standard error of the mean). Comparisons were performed by Student’s t -test (unpaired, two tailed). Placebo animals = black circles; mRNA-RBD-L vaccinated animals = blue triangles; mRNA-RBD-H vaccinated animals = red squares; HCS = brown circles; dotted line = the limit of detection. Data are one representative result of two independent experiments. Source data are provided as a Source Data file.
    Sars Cov 2 Rbd Protein, supplied by Sino Biological, used in various techniques. Bioz Stars score: 96/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/sars cov 2 rbd protein/product/Sino Biological
    Average 96 stars, based on 1 article reviews
    Price from $9.99 to $1999.99
    sars cov 2 rbd protein - by Bioz Stars, 2021-04
    96/100 stars
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    95
    Sino Biological sars cov 2 spike protein
    A replication-competent <t>VSV/SARS-CoV-2</t> chimera. A . Schematic representation of the rVSV/SARS-CoV-2/GFP genome in which G-encoding sequences were replaced by SARS-CoV-2 SΔ18 coding sequences. GFP-encoding sequences were introduced between the SARS-CoV-2 SΔ18 and L open reading frames. B . Representative images of 293T/ACE2(B) cells infected with the indicated volumes of plaque purified, adapted derivatives (2E1 and 1D7) of VSV/SARS-CoV-2/GFP following passage in the same cell line. Left and center images show contents of an entire well of a 96-well plate, the right image shows expanded view of the boxed areas containing individual plaques. C . Infectivity measurements of rVSV/SARS-CoV-2/GFP virus stocks on 293T/ACE2(B) or control 293T cells, quantified by measuring % GFP-positive cells at 16h after infection. Average and standard deviation from two technical replicates is shown. D . Schematic representation of the adaptive changes acquired in rVSV/SARS-CoV-2/GFP during passage. Changes in 1D7 and 2E1 are shown in blue and red, respectively.
    Sars Cov 2 Spike Protein, supplied by Sino Biological, used in various techniques. Bioz Stars score: 95/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/sars cov 2 spike protein/product/Sino Biological
    Average 95 stars, based on 1 article reviews
    Price from $9.99 to $1999.99
    sars cov 2 spike protein - by Bioz Stars, 2021-04
    95/100 stars
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    95
    Sino Biological sars cov 2 2019 ncov spike rbd antibody rabbit pab
    ELISA ( x -axis) vs. LFRET ( y -axis) results by disease severity. ( a ) Anti-NP IgA ELISA vs. anti-NP LFRET (N = 81, R = 0.25). ( b ) anti-NP IgG ELISA vs. anti-NP LFRET (N = 129, R = 0.62). ( c ) anti-NP IgM ELISA vs. anti-NP LFRET (N = 81, R = 0.13). ( d ) anti-SP IgA ELISA vs. anti-SP LFRET (N = 129, R = 0.53). ( e ) anti-SP IgG ELISA vs. anti-SP LFRET (N = 129, R = 0.62). ( f ) anti-SP IgM ELISA vs. anti-SP LFRET (N = 81, R = 0.56). Color of the dot indicates <t>SARS-CoV-2</t> PCR result and disease severity: cyan = PCR negative; yellow = non-hospitalized, PCR-positive; red = non-ICU hospitalized, PCR positive; black = hospitalized in ICU, PCR positive. Horizontal and vertical black lines indicate LFRET and ELISA cutoffs. On the x -axis, ELISA absorbance on a logarithmic scale and on the y -axis, LFRET signal on a logarithmic scale. SP = spike glycoprotein. NP = nucleoprotein. LFRET = protein L–based time-resolved Förster resonance energy transfer immunoassay. ELISA = enzyme immunoassay. R = Pearson’s correlation coefficient.
    Sars Cov 2 2019 Ncov Spike Rbd Antibody Rabbit Pab, supplied by Sino Biological, used in various techniques. Bioz Stars score: 95/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/sars cov 2 2019 ncov spike rbd antibody rabbit pab/product/Sino Biological
    Average 95 stars, based on 1 article reviews
    Price from $9.99 to $1999.99
    sars cov 2 2019 ncov spike rbd antibody rabbit pab - by Bioz Stars, 2021-04
    95/100 stars
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    Image Search Results


    Immunogenicity evaluation of a single mRNA-RBD vaccination. a – c Groups of BALB/c mice ( n = 6) were immunized with a single injection of mRNA-RBD at different doses or with a placebo via the i.m. route. Sera at 4 weeks post immunization were collected. SARS-CoV-2 RBD-specific IgG ( a ) and neutralizing antibody titers in sera against pseudovirus ( b ) and live virus ( c ) infection were determined. d – h C57BL/6 mice ( n = 6) were inoculated with a single mRNA-RBD vaccination or a placebo. Serum samples were collected from mice at 4 weeks following vaccination. RBD-specific IgG titers and pseudovirus-neutralizing antibodies were measured as shown in d and e , respectively. f An ELISPOT assay was performed to evaluate the capacity of splenocytes to secrete IFNγ following re-stimulation with SARS-CoV-2 RBD peptide pools. g , h An ICS assay was conducted to quantify the proportions of IFNγ-secreting CD8 + ( g ) and CD4 + ( h ) T cells. mRNA-RBD-L indicates the low dose (2 μg). mRNA-RBD-H indicates the high dose (15 μg). HCS represents human convalescent sera. Data are means ± SEM (standard error of the mean). Comparisons were performed by Student’s t -test (unpaired, two tailed). Placebo animals = black circles; mRNA-RBD-L vaccinated animals = blue triangles; mRNA-RBD-H vaccinated animals = red squares; HCS = brown circles; dotted line = the limit of detection. Data are one representative result of two independent experiments. Source data are provided as a Source Data file.

    Journal: Nature Communications

    Article Title: A single-dose mRNA vaccine provides a long-term protection for hACE2 transgenic mice from SARS-CoV-2

    doi: 10.1038/s41467-021-21037-2

    Figure Lengend Snippet: Immunogenicity evaluation of a single mRNA-RBD vaccination. a – c Groups of BALB/c mice ( n = 6) were immunized with a single injection of mRNA-RBD at different doses or with a placebo via the i.m. route. Sera at 4 weeks post immunization were collected. SARS-CoV-2 RBD-specific IgG ( a ) and neutralizing antibody titers in sera against pseudovirus ( b ) and live virus ( c ) infection were determined. d – h C57BL/6 mice ( n = 6) were inoculated with a single mRNA-RBD vaccination or a placebo. Serum samples were collected from mice at 4 weeks following vaccination. RBD-specific IgG titers and pseudovirus-neutralizing antibodies were measured as shown in d and e , respectively. f An ELISPOT assay was performed to evaluate the capacity of splenocytes to secrete IFNγ following re-stimulation with SARS-CoV-2 RBD peptide pools. g , h An ICS assay was conducted to quantify the proportions of IFNγ-secreting CD8 + ( g ) and CD4 + ( h ) T cells. mRNA-RBD-L indicates the low dose (2 μg). mRNA-RBD-H indicates the high dose (15 μg). HCS represents human convalescent sera. Data are means ± SEM (standard error of the mean). Comparisons were performed by Student’s t -test (unpaired, two tailed). Placebo animals = black circles; mRNA-RBD-L vaccinated animals = blue triangles; mRNA-RBD-H vaccinated animals = red squares; HCS = brown circles; dotted line = the limit of detection. Data are one representative result of two independent experiments. Source data are provided as a Source Data file.

    Article Snippet: Briefly, a monoclonal antibody specific for SARS-CoV-2 RBD protein was pre-coated onto plate wells.

    Techniques: Mouse Assay, Injection, Infection, Enzyme-linked Immunospot, Two Tailed Test

    Duration and long-term protection of humoral response induced by mRNA-RBD. a Passive immunization and challenge schedule. The blue and red arrow indicates the time of vaccination and sera transfer, respectively. b , c Groups of BALB/c mice ( n = 10) received 15 μg of mRNA-RBD or a placebo. Half of the mice per group were euthanized at 8 weeks (short term) post vaccination, and massive sera were collected for further passive immunization. The other mice of the group were bled as desired and eventually euthanized at 26 weeks (long term) post vaccination to collect massive sera for further passive immunization. All serum samples were detected for IgG ( b ) and neutralizing antibodies ( c ) titers. d–e hACE2 transgenic mice ( n = 5) were administered 350 μl per mouse of pooled short- and long-term immune sera and one day later were challenged with 1 × 10 5 FFU of SARS-CoV-2 via the i.n. route. d The hACE2 mice weight change was recorded after challenge. e Virus titers in lung. mRNA-RBD-H indicates the high-dose vaccine (15 μg). Data are means ± SEM (standard error of the mean). Comparisons were performed by Student’s t -test (unpaired, two tailed). Placebo animals = black circles; animals for long-term study = blue triangles; animals for short-term study = red squares; dotted line = the limit of detection. Data are one representative result of two independent experiments. Source data are provided as a Source Data file.

    Journal: Nature Communications

    Article Title: A single-dose mRNA vaccine provides a long-term protection for hACE2 transgenic mice from SARS-CoV-2

    doi: 10.1038/s41467-021-21037-2

    Figure Lengend Snippet: Duration and long-term protection of humoral response induced by mRNA-RBD. a Passive immunization and challenge schedule. The blue and red arrow indicates the time of vaccination and sera transfer, respectively. b , c Groups of BALB/c mice ( n = 10) received 15 μg of mRNA-RBD or a placebo. Half of the mice per group were euthanized at 8 weeks (short term) post vaccination, and massive sera were collected for further passive immunization. The other mice of the group were bled as desired and eventually euthanized at 26 weeks (long term) post vaccination to collect massive sera for further passive immunization. All serum samples were detected for IgG ( b ) and neutralizing antibodies ( c ) titers. d–e hACE2 transgenic mice ( n = 5) were administered 350 μl per mouse of pooled short- and long-term immune sera and one day later were challenged with 1 × 10 5 FFU of SARS-CoV-2 via the i.n. route. d The hACE2 mice weight change was recorded after challenge. e Virus titers in lung. mRNA-RBD-H indicates the high-dose vaccine (15 μg). Data are means ± SEM (standard error of the mean). Comparisons were performed by Student’s t -test (unpaired, two tailed). Placebo animals = black circles; animals for long-term study = blue triangles; animals for short-term study = red squares; dotted line = the limit of detection. Data are one representative result of two independent experiments. Source data are provided as a Source Data file.

    Article Snippet: Briefly, a monoclonal antibody specific for SARS-CoV-2 RBD protein was pre-coated onto plate wells.

    Techniques: Mouse Assay, Transgenic Assay, Two Tailed Test

    Protection efficacy of mRNA-RBD in hACE2 transgenic mice against SARS-CoV-2. a-d Groups of hACE2 transgenic mice ( n = 6) received one (prime group) or two (boost group) doses of mRNA-RBD-H or placebo via the i.m. route. Four weeks post initial vaccination, mice were challenged with 1 × 10 5 FFU of SARS-CoV-2 virus. a Mice immunization and challenge schedule. The blue arrows indicate the time of vaccination. b , c Sera collected at 4 weeks post initial vaccination were examined for IgG ( b ) and neutralizing antibody ( c ) titers. d Mice weight change after challenge. e Virus titers in lungs of challenged mice ( n = 4). f Representative histopathology (H E) of lungs in SARS-CoV-2-infected hACE2 mice (5 dpi). Infiltration of lymphocytes within alveolar spaces is indicated by yellow arrows. Scale bar, 100 μm. g Representative immunohistochemistry (IHC) of lung tissues with SARS-CoV-2 N-specific monoclonal antibodies. Virus is indicated by yellow arrows. Scale bar, 100 μm. mRNA-RBD-H indicates the high-dose vaccine (15 μg). Data are means ± SEM (standard error of the mean). Comparisons were performed by Student’s t -test (unpaired, two tailed). Placebo animals = black circles; one injection-animals = blue triangles; two injections-vaccinated animals = red squares; dotted line = the limit of detection. Data are one representative result of two independent experiments. Source data are provided as a Source Data file.

    Journal: Nature Communications

    Article Title: A single-dose mRNA vaccine provides a long-term protection for hACE2 transgenic mice from SARS-CoV-2

    doi: 10.1038/s41467-021-21037-2

    Figure Lengend Snippet: Protection efficacy of mRNA-RBD in hACE2 transgenic mice against SARS-CoV-2. a-d Groups of hACE2 transgenic mice ( n = 6) received one (prime group) or two (boost group) doses of mRNA-RBD-H or placebo via the i.m. route. Four weeks post initial vaccination, mice were challenged with 1 × 10 5 FFU of SARS-CoV-2 virus. a Mice immunization and challenge schedule. The blue arrows indicate the time of vaccination. b , c Sera collected at 4 weeks post initial vaccination were examined for IgG ( b ) and neutralizing antibody ( c ) titers. d Mice weight change after challenge. e Virus titers in lungs of challenged mice ( n = 4). f Representative histopathology (H E) of lungs in SARS-CoV-2-infected hACE2 mice (5 dpi). Infiltration of lymphocytes within alveolar spaces is indicated by yellow arrows. Scale bar, 100 μm. g Representative immunohistochemistry (IHC) of lung tissues with SARS-CoV-2 N-specific monoclonal antibodies. Virus is indicated by yellow arrows. Scale bar, 100 μm. mRNA-RBD-H indicates the high-dose vaccine (15 μg). Data are means ± SEM (standard error of the mean). Comparisons were performed by Student’s t -test (unpaired, two tailed). Placebo animals = black circles; one injection-animals = blue triangles; two injections-vaccinated animals = red squares; dotted line = the limit of detection. Data are one representative result of two independent experiments. Source data are provided as a Source Data file.

    Article Snippet: Briefly, a monoclonal antibody specific for SARS-CoV-2 RBD protein was pre-coated onto plate wells.

    Techniques: Transgenic Assay, Mouse Assay, Histopathology, Infection, Immunohistochemistry, Two Tailed Test, Injection

    Construction and characterization of mRNA-RBD vaccine. a Schematic of the mRNA-RBD vaccine design. The SARS-CoV-2 mRNA encodes the signal peptide (SP), receptor-binding domain (RBD) from SARS-CoV-2 strain Wuhan/IVDC-HB-01/2019. b mRNA-RBD was transfected into HEK293T cells. RBD expression in the cell lysate and supernatant was analyzed by western blotting. c Particle size of LNPs by dynamic light scattering. d A representative cryo-electron microscopy image of a LNPs solution following mRNA encapsulation. Scale bar, 100 nm. e Zeta potential for LNPs at pH 4.0 and 7.4. For b and d , two independent experiments were carried out with similar results. For c and e , one representative result from three independent experiments is shown. Source data are provided as a Source Data file.

    Journal: Nature Communications

    Article Title: A single-dose mRNA vaccine provides a long-term protection for hACE2 transgenic mice from SARS-CoV-2

    doi: 10.1038/s41467-021-21037-2

    Figure Lengend Snippet: Construction and characterization of mRNA-RBD vaccine. a Schematic of the mRNA-RBD vaccine design. The SARS-CoV-2 mRNA encodes the signal peptide (SP), receptor-binding domain (RBD) from SARS-CoV-2 strain Wuhan/IVDC-HB-01/2019. b mRNA-RBD was transfected into HEK293T cells. RBD expression in the cell lysate and supernatant was analyzed by western blotting. c Particle size of LNPs by dynamic light scattering. d A representative cryo-electron microscopy image of a LNPs solution following mRNA encapsulation. Scale bar, 100 nm. e Zeta potential for LNPs at pH 4.0 and 7.4. For b and d , two independent experiments were carried out with similar results. For c and e , one representative result from three independent experiments is shown. Source data are provided as a Source Data file.

    Article Snippet: Briefly, a monoclonal antibody specific for SARS-CoV-2 RBD protein was pre-coated onto plate wells.

    Techniques: Binding Assay, Transfection, Expressing, Western Blot, Electron Microscopy

    A replication-competent VSV/SARS-CoV-2 chimera. A . Schematic representation of the rVSV/SARS-CoV-2/GFP genome in which G-encoding sequences were replaced by SARS-CoV-2 SΔ18 coding sequences. GFP-encoding sequences were introduced between the SARS-CoV-2 SΔ18 and L open reading frames. B . Representative images of 293T/ACE2(B) cells infected with the indicated volumes of plaque purified, adapted derivatives (2E1 and 1D7) of VSV/SARS-CoV-2/GFP following passage in the same cell line. Left and center images show contents of an entire well of a 96-well plate, the right image shows expanded view of the boxed areas containing individual plaques. C . Infectivity measurements of rVSV/SARS-CoV-2/GFP virus stocks on 293T/ACE2(B) or control 293T cells, quantified by measuring % GFP-positive cells at 16h after infection. Average and standard deviation from two technical replicates is shown. D . Schematic representation of the adaptive changes acquired in rVSV/SARS-CoV-2/GFP during passage. Changes in 1D7 and 2E1 are shown in blue and red, respectively.

    Journal: bioRxiv

    Article Title: Measuring SARS-CoV-2 neutralizing antibody activity using pseudotyped and chimeric viruses

    doi: 10.1101/2020.06.08.140871

    Figure Lengend Snippet: A replication-competent VSV/SARS-CoV-2 chimera. A . Schematic representation of the rVSV/SARS-CoV-2/GFP genome in which G-encoding sequences were replaced by SARS-CoV-2 SΔ18 coding sequences. GFP-encoding sequences were introduced between the SARS-CoV-2 SΔ18 and L open reading frames. B . Representative images of 293T/ACE2(B) cells infected with the indicated volumes of plaque purified, adapted derivatives (2E1 and 1D7) of VSV/SARS-CoV-2/GFP following passage in the same cell line. Left and center images show contents of an entire well of a 96-well plate, the right image shows expanded view of the boxed areas containing individual plaques. C . Infectivity measurements of rVSV/SARS-CoV-2/GFP virus stocks on 293T/ACE2(B) or control 293T cells, quantified by measuring % GFP-positive cells at 16h after infection. Average and standard deviation from two technical replicates is shown. D . Schematic representation of the adaptive changes acquired in rVSV/SARS-CoV-2/GFP during passage. Changes in 1D7 and 2E1 are shown in blue and red, respectively.

    Article Snippet: To construct a replication competent rVSV/SARS-CoV-2 chimeric virus clone, a codon-optimized cDNA sequence encoding the SARS-CoV-2 spike protein (SinoBiological) but lacking the C-terminal 18 codons was inserted, using Gibson cloning, into a recombinant VSV background that contains GFP immediately upstream of the L (polymerase) following a strategy we previously described for the exchange of VSV-G with HIV-1 Env proteins ( ).

    Techniques: Infection, Purification, Standard Deviation

    Examples of neutralization of HIV-1 and VSV pseudotyped virus particles by monoclonal antibodies targeting SARS-CoV-2 S. A . Images of Huh7.5 cells following infection with rVSVΔG/NG-NanoLuc pseudotyped virus (∼10 3 IU/well) in the presence of the indicated concentrations of a human monoclonal antibody (C144) targeting SARS-CoV-2 S RBD. B . Quantification of rVSVΔG/NG-NanoLuc pseudotyped virus infection (measured by flow cytometry (% mNeonGreen positive cells, green) or by NanoLuc luciferase activity (RLU, blue) in the presence of the indicated concentrations of a human monoclonal antibody (C102) targeting SARS-CoV-2 S RBD, or a control monoclonal antibody against the Zika virus envelope glycoprotein. C . Quantification of HIV-1 NL ΔEnv-NanoLuc or CCNanoLuc/GFP pseudotyped virus infection on the indicated cell lines in the presence of the indicated concentrations of a human monoclonal antibody (C121) targeting SARS-CoV-2 S RBD Infectivity was quantified by measuring NanoLuc luciferase levels (RLU).

    Journal: bioRxiv

    Article Title: Measuring SARS-CoV-2 neutralizing antibody activity using pseudotyped and chimeric viruses

    doi: 10.1101/2020.06.08.140871

    Figure Lengend Snippet: Examples of neutralization of HIV-1 and VSV pseudotyped virus particles by monoclonal antibodies targeting SARS-CoV-2 S. A . Images of Huh7.5 cells following infection with rVSVΔG/NG-NanoLuc pseudotyped virus (∼10 3 IU/well) in the presence of the indicated concentrations of a human monoclonal antibody (C144) targeting SARS-CoV-2 S RBD. B . Quantification of rVSVΔG/NG-NanoLuc pseudotyped virus infection (measured by flow cytometry (% mNeonGreen positive cells, green) or by NanoLuc luciferase activity (RLU, blue) in the presence of the indicated concentrations of a human monoclonal antibody (C102) targeting SARS-CoV-2 S RBD, or a control monoclonal antibody against the Zika virus envelope glycoprotein. C . Quantification of HIV-1 NL ΔEnv-NanoLuc or CCNanoLuc/GFP pseudotyped virus infection on the indicated cell lines in the presence of the indicated concentrations of a human monoclonal antibody (C121) targeting SARS-CoV-2 S RBD Infectivity was quantified by measuring NanoLuc luciferase levels (RLU).

    Article Snippet: To construct a replication competent rVSV/SARS-CoV-2 chimeric virus clone, a codon-optimized cDNA sequence encoding the SARS-CoV-2 spike protein (SinoBiological) but lacking the C-terminal 18 codons was inserted, using Gibson cloning, into a recombinant VSV background that contains GFP immediately upstream of the L (polymerase) following a strategy we previously described for the exchange of VSV-G with HIV-1 Env proteins ( ).

    Techniques: Neutralization, Infection, Flow Cytometry, Luciferase, Activity Assay

    Measurement of neutralization activity in COVID19 convalescent donor plasma. A . Plasma neutralization of SARS-CoV-2: serial 5-fold dilutions of plasma samples from convalescent donors were incubated with SARS-CoV-2 n=3 replicates and residual infectivity determined using VeroE6 target cells, expressed as % infected cells by immunostaining. B . Plasma neutralization of HIV-1 NL ΔEnv-NanoLuc pseudotyped virus using 293T/ACE2*(B) target cells, rVSVΔG/NG-NanoLuc pseudotyped virus using Huh7.5 target cells or replication competent rVSV/SARS-CoV-2/GFP using 293T/ACE2(B) target cells. Residual infectivity was quantified by measuring either NanoLuc luciferase (RLU) or the % GFP-positive cells, as indicated. C . Correlation between NT 50 values for each of the 20 plasmas for each of the surrogate viruses (x-axis) and NT 50 values for the same plasmas for SARS-CoV-2 (y-axis).

    Journal: bioRxiv

    Article Title: Measuring SARS-CoV-2 neutralizing antibody activity using pseudotyped and chimeric viruses

    doi: 10.1101/2020.06.08.140871

    Figure Lengend Snippet: Measurement of neutralization activity in COVID19 convalescent donor plasma. A . Plasma neutralization of SARS-CoV-2: serial 5-fold dilutions of plasma samples from convalescent donors were incubated with SARS-CoV-2 n=3 replicates and residual infectivity determined using VeroE6 target cells, expressed as % infected cells by immunostaining. B . Plasma neutralization of HIV-1 NL ΔEnv-NanoLuc pseudotyped virus using 293T/ACE2*(B) target cells, rVSVΔG/NG-NanoLuc pseudotyped virus using Huh7.5 target cells or replication competent rVSV/SARS-CoV-2/GFP using 293T/ACE2(B) target cells. Residual infectivity was quantified by measuring either NanoLuc luciferase (RLU) or the % GFP-positive cells, as indicated. C . Correlation between NT 50 values for each of the 20 plasmas for each of the surrogate viruses (x-axis) and NT 50 values for the same plasmas for SARS-CoV-2 (y-axis).

    Article Snippet: To construct a replication competent rVSV/SARS-CoV-2 chimeric virus clone, a codon-optimized cDNA sequence encoding the SARS-CoV-2 spike protein (SinoBiological) but lacking the C-terminal 18 codons was inserted, using Gibson cloning, into a recombinant VSV background that contains GFP immediately upstream of the L (polymerase) following a strategy we previously described for the exchange of VSV-G with HIV-1 Env proteins ( ).

    Techniques: Neutralization, Activity Assay, Incubation, Infection, Immunostaining, Luciferase

    Generation of and HIV-1 pseudotype infection of ACE2-expressing cell lines. A . 293T cells were stably transduced with a lentivirus vector CSIB, expressing either wild type ACE2 or catalytically active mutant ACE2*. Following selection, cells were used as uncloned bulk populations (B) or single cell clones were isolated. Flow cytometry histograms show staining with an antibody against huACE2 (purple) or an isotype control (grey). B . HT1080 cells were stably transduced as in A and a single cell clone used throughout this study is shown, stained as in A. C . Infectivity of CCNanoLuc/GFP viruses, pseudotyped with either full length or C-terminally truncated SARS-CoV and SARS-CoV-2 S proteins on 293T/ACE2*(B) cells. Virus particles generated in the absence of an S protein (No S) were used as background controls. Infectivity was quantified by measuring NanoLuc luciferase activity (RLU). Average and standard deviation from two technical replicates is shown. D . Infectivity of HIV-1 NL ΔEnv-NanoLuc in the various cell lines. Virus generated in the absence of S is used as a background control and infectivity was quantified by measuring NanoLuc luciferase activity (RLU). Average and standard deviation from two technical replicates is shown. E . Same as D except that CCNanoLuc/GFP virus was used F . Effect of virus ultracentrifugation on the infectivity of HIV-1-based pseudotyped virus particles. 293T/ACE2*(B) cells were infected with equivalent doses of unconcentrated HIV-1 NL ΔEnv-NanoLuc, or the same virus that had be pelleted through 20% sucrose and then diluted to the original volume.

    Journal: bioRxiv

    Article Title: Measuring SARS-CoV-2 neutralizing antibody activity using pseudotyped and chimeric viruses

    doi: 10.1101/2020.06.08.140871

    Figure Lengend Snippet: Generation of and HIV-1 pseudotype infection of ACE2-expressing cell lines. A . 293T cells were stably transduced with a lentivirus vector CSIB, expressing either wild type ACE2 or catalytically active mutant ACE2*. Following selection, cells were used as uncloned bulk populations (B) or single cell clones were isolated. Flow cytometry histograms show staining with an antibody against huACE2 (purple) or an isotype control (grey). B . HT1080 cells were stably transduced as in A and a single cell clone used throughout this study is shown, stained as in A. C . Infectivity of CCNanoLuc/GFP viruses, pseudotyped with either full length or C-terminally truncated SARS-CoV and SARS-CoV-2 S proteins on 293T/ACE2*(B) cells. Virus particles generated in the absence of an S protein (No S) were used as background controls. Infectivity was quantified by measuring NanoLuc luciferase activity (RLU). Average and standard deviation from two technical replicates is shown. D . Infectivity of HIV-1 NL ΔEnv-NanoLuc in the various cell lines. Virus generated in the absence of S is used as a background control and infectivity was quantified by measuring NanoLuc luciferase activity (RLU). Average and standard deviation from two technical replicates is shown. E . Same as D except that CCNanoLuc/GFP virus was used F . Effect of virus ultracentrifugation on the infectivity of HIV-1-based pseudotyped virus particles. 293T/ACE2*(B) cells were infected with equivalent doses of unconcentrated HIV-1 NL ΔEnv-NanoLuc, or the same virus that had be pelleted through 20% sucrose and then diluted to the original volume.

    Article Snippet: To construct a replication competent rVSV/SARS-CoV-2 chimeric virus clone, a codon-optimized cDNA sequence encoding the SARS-CoV-2 spike protein (SinoBiological) but lacking the C-terminal 18 codons was inserted, using Gibson cloning, into a recombinant VSV background that contains GFP immediately upstream of the L (polymerase) following a strategy we previously described for the exchange of VSV-G with HIV-1 Env proteins ( ).

    Techniques: Infection, Expressing, Stable Transfection, Transduction, Plasmid Preparation, Mutagenesis, Selection, Clone Assay, Isolation, Flow Cytometry, Staining, Generated, Luciferase, Activity Assay, Standard Deviation

    Measurement of neutralization potency of human monoclonal antibodies. A . Neutralization of SARS-CoV-2: the indicated concentrations of monoclonal antibodies were incubated with SARS-CoV-2 n=3 replicates and residual infectivity determined using Vero E6 target cells, expressed as % infected cells, by immunostaining B . Monoclonal antibody neutralization of HIV-1 NL ΔEnv-NanoLuc pseudotyped virus using 293T/ACE2*(B) target cells, rVSVΔG/NG-NanoLuc pseudotyped virus using Huh7.5 target cells or replication competent rVSV/SARS-CoV-2/GFP using 293T/ACE2(B) target cells. Residual infectivity was quantified by measuring either NanoLuc luciferase (RLU) or the % GFP positive cells, as indicated. C . Correlation between IC 50 values for each of the 15 monoclonal antibodies for each of the surrogate viruses (x-axis) and IC 50 values for the same antibodies for SARS-CoV-2 (y-axis).

    Journal: bioRxiv

    Article Title: Measuring SARS-CoV-2 neutralizing antibody activity using pseudotyped and chimeric viruses

    doi: 10.1101/2020.06.08.140871

    Figure Lengend Snippet: Measurement of neutralization potency of human monoclonal antibodies. A . Neutralization of SARS-CoV-2: the indicated concentrations of monoclonal antibodies were incubated with SARS-CoV-2 n=3 replicates and residual infectivity determined using Vero E6 target cells, expressed as % infected cells, by immunostaining B . Monoclonal antibody neutralization of HIV-1 NL ΔEnv-NanoLuc pseudotyped virus using 293T/ACE2*(B) target cells, rVSVΔG/NG-NanoLuc pseudotyped virus using Huh7.5 target cells or replication competent rVSV/SARS-CoV-2/GFP using 293T/ACE2(B) target cells. Residual infectivity was quantified by measuring either NanoLuc luciferase (RLU) or the % GFP positive cells, as indicated. C . Correlation between IC 50 values for each of the 15 monoclonal antibodies for each of the surrogate viruses (x-axis) and IC 50 values for the same antibodies for SARS-CoV-2 (y-axis).

    Article Snippet: To construct a replication competent rVSV/SARS-CoV-2 chimeric virus clone, a codon-optimized cDNA sequence encoding the SARS-CoV-2 spike protein (SinoBiological) but lacking the C-terminal 18 codons was inserted, using Gibson cloning, into a recombinant VSV background that contains GFP immediately upstream of the L (polymerase) following a strategy we previously described for the exchange of VSV-G with HIV-1 Env proteins ( ).

    Techniques: Neutralization, Incubation, Infection, Immunostaining, Luciferase

    Two-plasmid and three-plasmid HIV-1-based pseudotyped viruses. A . Schematic representation of the modified HIV-1 NL ΔEnv-NanoLuc genome in which a deletion in env was introduced and Nef-coding sequences were replaced by those encoding a NanoLuc luciferase reporter. Infectious virus particles were generated by cotransfection of pHIV-1 NL4 ΔEnv-NanoLuc and a plasmid encoding the SARS-CoV-2 S lacking the 19 amino acids at the C-terminus of the cytoplasmic tail (SΔ19). B . Schematic representation of constructs used to generate SARS-CoV-2 S pseudotyped HIV-1-based particles in which HIV-1 NL GagPol, an HIV-1 reporter vector (pCCNanoLuc/GFP) encoding both NanoLuc luciferase and EGFP reporter and the SARS-CoV-2 SΔ19 are each expressed on separate plasmids. C . Infectivity measurements of HIV-1 NL ΔEnv-NanoLuc particles (generated using the plasmids depicted in A) on the indicated cell lines. Infectivity was quantified by measuring NanoLuc luciferase activity (Relative Light Units, RLU) following infection of cells in 96-well plates with the indicated volumes of pseudotyped viruses. The mean and standard deviation of two technical replicates is shown. Target cells 293T/ACE2cl.22 and HT1080/ACE2cl.14 are single-cell clones engineered to express human ACE2 (see Fig S1A ). Virus particles generated in the absence of viral envelope glycoproteins were used as background controls. D . Same as, C but viruses were generated using the 3 plasmids depicted in B. E . Infectivity meaurements of CCNanoLuc/GFP containing SARS-CoV-2 pseudotyped particles generated using plasmids depicted in B on 293ACE2*(B) cells, quantified by measuring NanoLuc luciferase activity (RLU) or GFP levels (% of GFP positive cells). Mean and standard deviation from two technical replicates is shown.

    Journal: bioRxiv

    Article Title: Measuring SARS-CoV-2 neutralizing antibody activity using pseudotyped and chimeric viruses

    doi: 10.1101/2020.06.08.140871

    Figure Lengend Snippet: Two-plasmid and three-plasmid HIV-1-based pseudotyped viruses. A . Schematic representation of the modified HIV-1 NL ΔEnv-NanoLuc genome in which a deletion in env was introduced and Nef-coding sequences were replaced by those encoding a NanoLuc luciferase reporter. Infectious virus particles were generated by cotransfection of pHIV-1 NL4 ΔEnv-NanoLuc and a plasmid encoding the SARS-CoV-2 S lacking the 19 amino acids at the C-terminus of the cytoplasmic tail (SΔ19). B . Schematic representation of constructs used to generate SARS-CoV-2 S pseudotyped HIV-1-based particles in which HIV-1 NL GagPol, an HIV-1 reporter vector (pCCNanoLuc/GFP) encoding both NanoLuc luciferase and EGFP reporter and the SARS-CoV-2 SΔ19 are each expressed on separate plasmids. C . Infectivity measurements of HIV-1 NL ΔEnv-NanoLuc particles (generated using the plasmids depicted in A) on the indicated cell lines. Infectivity was quantified by measuring NanoLuc luciferase activity (Relative Light Units, RLU) following infection of cells in 96-well plates with the indicated volumes of pseudotyped viruses. The mean and standard deviation of two technical replicates is shown. Target cells 293T/ACE2cl.22 and HT1080/ACE2cl.14 are single-cell clones engineered to express human ACE2 (see Fig S1A ). Virus particles generated in the absence of viral envelope glycoproteins were used as background controls. D . Same as, C but viruses were generated using the 3 plasmids depicted in B. E . Infectivity meaurements of CCNanoLuc/GFP containing SARS-CoV-2 pseudotyped particles generated using plasmids depicted in B on 293ACE2*(B) cells, quantified by measuring NanoLuc luciferase activity (RLU) or GFP levels (% of GFP positive cells). Mean and standard deviation from two technical replicates is shown.

    Article Snippet: To construct a replication competent rVSV/SARS-CoV-2 chimeric virus clone, a codon-optimized cDNA sequence encoding the SARS-CoV-2 spike protein (SinoBiological) but lacking the C-terminal 18 codons was inserted, using Gibson cloning, into a recombinant VSV background that contains GFP immediately upstream of the L (polymerase) following a strategy we previously described for the exchange of VSV-G with HIV-1 Env proteins ( ).

    Techniques: Plasmid Preparation, Modification, Luciferase, Generated, Cotransfection, Construct, Infection, Activity Assay, Standard Deviation, Clone Assay

    ELISA ( x -axis) vs. LFRET ( y -axis) results by disease severity. ( a ) Anti-NP IgA ELISA vs. anti-NP LFRET (N = 81, R = 0.25). ( b ) anti-NP IgG ELISA vs. anti-NP LFRET (N = 129, R = 0.62). ( c ) anti-NP IgM ELISA vs. anti-NP LFRET (N = 81, R = 0.13). ( d ) anti-SP IgA ELISA vs. anti-SP LFRET (N = 129, R = 0.53). ( e ) anti-SP IgG ELISA vs. anti-SP LFRET (N = 129, R = 0.62). ( f ) anti-SP IgM ELISA vs. anti-SP LFRET (N = 81, R = 0.56). Color of the dot indicates SARS-CoV-2 PCR result and disease severity: cyan = PCR negative; yellow = non-hospitalized, PCR-positive; red = non-ICU hospitalized, PCR positive; black = hospitalized in ICU, PCR positive. Horizontal and vertical black lines indicate LFRET and ELISA cutoffs. On the x -axis, ELISA absorbance on a logarithmic scale and on the y -axis, LFRET signal on a logarithmic scale. SP = spike glycoprotein. NP = nucleoprotein. LFRET = protein L–based time-resolved Förster resonance energy transfer immunoassay. ELISA = enzyme immunoassay. R = Pearson’s correlation coefficient.

    Journal: Viruses

    Article Title: A 10-Minute “Mix and Read” Antibody Assay for SARS-CoV-2

    doi: 10.3390/v13020143

    Figure Lengend Snippet: ELISA ( x -axis) vs. LFRET ( y -axis) results by disease severity. ( a ) Anti-NP IgA ELISA vs. anti-NP LFRET (N = 81, R = 0.25). ( b ) anti-NP IgG ELISA vs. anti-NP LFRET (N = 129, R = 0.62). ( c ) anti-NP IgM ELISA vs. anti-NP LFRET (N = 81, R = 0.13). ( d ) anti-SP IgA ELISA vs. anti-SP LFRET (N = 129, R = 0.53). ( e ) anti-SP IgG ELISA vs. anti-SP LFRET (N = 129, R = 0.62). ( f ) anti-SP IgM ELISA vs. anti-SP LFRET (N = 81, R = 0.56). Color of the dot indicates SARS-CoV-2 PCR result and disease severity: cyan = PCR negative; yellow = non-hospitalized, PCR-positive; red = non-ICU hospitalized, PCR positive; black = hospitalized in ICU, PCR positive. Horizontal and vertical black lines indicate LFRET and ELISA cutoffs. On the x -axis, ELISA absorbance on a logarithmic scale and on the y -axis, LFRET signal on a logarithmic scale. SP = spike glycoprotein. NP = nucleoprotein. LFRET = protein L–based time-resolved Förster resonance energy transfer immunoassay. ELISA = enzyme immunoassay. R = Pearson’s correlation coefficient.

    Article Snippet: At 48 h, the medium was analyzed for the presence of SARS-CoV-2 SP by dot blotting; briefly via drying 2.5 µL of the supernatant onto a nitrocellulose membrane, which then was blocked (3% skim milk in Tris-buffered saline with 0.05% Tween-20), washed, probed with rabbit anti-RBD (40592-T62, Sino Biological, Beijing, China), washed, probed with anti-rabbit IRDye800 (LI-COR Biosciences, Lincoln, NE, USA), washed, and read using Odyssey Infrared Imaging System (LI-COR Biosciences).

    Techniques: Enzyme-linked Immunosorbent Assay, Polymerase Chain Reaction, Förster Resonance Energy Transfer

    Microneutralization vs. LFRET and ELISA. Microneutralization titers are on the x -axis and LFRET signal or ELISA absorbance on the y -axis. Logarithmic scale is used on both axes. ( a ) Microneutralization titer vs. anti-SP LFRET signal (N = 107, ρ = 0.87). ( b – d ) Microneutralization titer vs. anti-SP IgG, IgA and IgM ELISA (N = 107, 107 and 67, ρ = 0.68, 0.86 and 0.81). ( e ) Microneutralization titer vs. anti-NP LFRET signal (N = 107, ρ = 0.83). ( f – h ) Microneutralization titer vs. anti-NP IgG, IgA and IgM ELISA (N = 107, 67 and 67, ρ = 0.81, 0.69 and 0.61). Color of the dots indicate SARS-CoV-2 PCR result and disease severity: cyan = PCR negative; yellow = non-hospitalized, PCR-positive; red = non-ICU hospitalized, PCR positive; black = hospitalized in ICU, PCR positive. Horizontal black lines indicate LFRET/ELISA cutoffs. SP = spike glycoprotein. NP = nucleoprotein. LFRET = protein L–based time-resolved Förster resonance energy transfer immunoassay. ELISA = enzyme immunoassay. ρ = Spearman’s rank correlation coefficient.

    Journal: Viruses

    Article Title: A 10-Minute “Mix and Read” Antibody Assay for SARS-CoV-2

    doi: 10.3390/v13020143

    Figure Lengend Snippet: Microneutralization vs. LFRET and ELISA. Microneutralization titers are on the x -axis and LFRET signal or ELISA absorbance on the y -axis. Logarithmic scale is used on both axes. ( a ) Microneutralization titer vs. anti-SP LFRET signal (N = 107, ρ = 0.87). ( b – d ) Microneutralization titer vs. anti-SP IgG, IgA and IgM ELISA (N = 107, 107 and 67, ρ = 0.68, 0.86 and 0.81). ( e ) Microneutralization titer vs. anti-NP LFRET signal (N = 107, ρ = 0.83). ( f – h ) Microneutralization titer vs. anti-NP IgG, IgA and IgM ELISA (N = 107, 67 and 67, ρ = 0.81, 0.69 and 0.61). Color of the dots indicate SARS-CoV-2 PCR result and disease severity: cyan = PCR negative; yellow = non-hospitalized, PCR-positive; red = non-ICU hospitalized, PCR positive; black = hospitalized in ICU, PCR positive. Horizontal black lines indicate LFRET/ELISA cutoffs. SP = spike glycoprotein. NP = nucleoprotein. LFRET = protein L–based time-resolved Förster resonance energy transfer immunoassay. ELISA = enzyme immunoassay. ρ = Spearman’s rank correlation coefficient.

    Article Snippet: At 48 h, the medium was analyzed for the presence of SARS-CoV-2 SP by dot blotting; briefly via drying 2.5 µL of the supernatant onto a nitrocellulose membrane, which then was blocked (3% skim milk in Tris-buffered saline with 0.05% Tween-20), washed, probed with rabbit anti-RBD (40592-T62, Sino Biological, Beijing, China), washed, probed with anti-rabbit IRDye800 (LI-COR Biosciences, Lincoln, NE, USA), washed, and read using Odyssey Infrared Imaging System (LI-COR Biosciences).

    Techniques: Enzyme-linked Immunosorbent Assay, Polymerase Chain Reaction, Förster Resonance Energy Transfer

    Simplified protocol for SARS-CoV-2 NP and SP LFRET assay. Eu-NP/-SP = Europium-labeled nucleoprotein/spike glycoprotein. AF-L = Alexa Fluor™ 647 -labeled protein L. TR-FRET = time-resolved Förster resonance energy transfer. RT = room temperature. TBS+BSA (50 mM Tris-HCl, 150 mM NaCl, pH 7.4, 0.2% BSA) was used for all dilutions. On-plate dilutions were 5 nM Eu-NP/500 nM AF-L/serum 1/25 for anti-NP and 5 nM Eu-SP/250 nM AF-L/serum 1/100 for anti-SP LFRET. For further details see the prior publication [ 5 ].

    Journal: Viruses

    Article Title: A 10-Minute “Mix and Read” Antibody Assay for SARS-CoV-2

    doi: 10.3390/v13020143

    Figure Lengend Snippet: Simplified protocol for SARS-CoV-2 NP and SP LFRET assay. Eu-NP/-SP = Europium-labeled nucleoprotein/spike glycoprotein. AF-L = Alexa Fluor™ 647 -labeled protein L. TR-FRET = time-resolved Förster resonance energy transfer. RT = room temperature. TBS+BSA (50 mM Tris-HCl, 150 mM NaCl, pH 7.4, 0.2% BSA) was used for all dilutions. On-plate dilutions were 5 nM Eu-NP/500 nM AF-L/serum 1/25 for anti-NP and 5 nM Eu-SP/250 nM AF-L/serum 1/100 for anti-SP LFRET. For further details see the prior publication [ 5 ].

    Article Snippet: At 48 h, the medium was analyzed for the presence of SARS-CoV-2 SP by dot blotting; briefly via drying 2.5 µL of the supernatant onto a nitrocellulose membrane, which then was blocked (3% skim milk in Tris-buffered saline with 0.05% Tween-20), washed, probed with rabbit anti-RBD (40592-T62, Sino Biological, Beijing, China), washed, probed with anti-rabbit IRDye800 (LI-COR Biosciences, Lincoln, NE, USA), washed, and read using Odyssey Infrared Imaging System (LI-COR Biosciences).

    Techniques: Labeling, Förster Resonance Energy Transfer