Anti-SARS-CoV-2 Spike RBD (Clone 2196) - HRP
Product Code:
LEI-LT8010
LEI-LT8010
Host Type:
Virus
Virus
Antibody Isotype:
Human IgG1
Human IgG1
Antibody Clonality:
Monoclonal
Monoclonal
Antibody Clone:
2196
2196
Regulatory Status:
RUO
RUO
Target Species:
- SARS-CoV-2
- Virus
Application:
Enzyme-Linked Immunosorbent Assay (ELISA)
Enzyme-Linked Immunosorbent Assay (ELISA)
Shipping:
Blue Ice
Blue Ice
Storage:
This horseradish peroxidase conjugated mon°Clonal antibody is stable when stored at 2-8°C. Do not freeze.
This horseradish peroxidase conjugated mon°Clonal antibody is stable when stored at 2-8°C. Do not freeze.
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Code | Size | Price |
---|
LEI-LT8010-50ug | 50 ug | £432.00 |
Quantity:
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This product comes from: US.
Typical lead time: 14-21 working days.
Contact us for more accurate information.
Typical lead time: 14-21 working days.
Contact us for more accurate information.
- Further Information
- References
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Further Information
Antigen Distribution:
The spike RBD is expressed on the surface of SARS-CoV-2.
Concentration:
0.5 mg/ml
Conjugate/Tag/Label:
Horseradish Peroxidase (HRPO)
Format:
This recombinant HRP-conjugated antibody is formulated in 0.01 M phosphate buffered saline (150 mM NaCl) PBS pH 7.2 - 7.4, 1% BSA. (Warning: Use of sodium azide as a preservative will inhibit the enzyme activity of horseradish peroxidase)
Formulation:
This recombinant HRP-conjugated antibody is formulated in 0.01 M phosphate buffered saline (150 mM NaCl) PBS pH 7.2 - 7.4, 1% BSA. (Warning: Use of sodium azide as a preservative will inhibit the enzyme activity of horseradish peroxidase)
Immunogen:
Sequenced from human survivors of COVID-19 (SARS-CoV-2)
Long Description:
Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), the causative agent of coronavirus disease 2019 (COVID-19), is an enveloped, single-stranded, positive-sense RNA virus that belongs to the Coronaviridae family 1. The SARS-CoV-2 genome, which shares 79.6% identity with SARS-CoV, encodes four essential structural proteins: the spike (S), envelope (E), membrane (M), and nucleocapsid protein (N) 2. The S protein is a transmembrane, homotrimeric, class I fusion glycoprotein that mediates viral attachment, fusion, and entry into host cells 3. Each ~180 kDa monomer contains two functional subunits, S1 (~700 a.a) and S2 (~600 a.a), that mediate viral attachment and membrane fusion, respectively. S1 contains two major domains, the N-terminal (NTD) and C-terminal domains (CTD). The CTD contains the receptor-binding domain (RBD), which binds to the angiotensin-converting enzyme 2 (ACE2) receptor on host cells 3-5. Although both SARS-CoV and SARS-CoV-2 bind the ACE2 receptor, the RBDs only share ~73% amino acid identity, and the SARS-CoV-2 RBD binds with a higher affinity compared to SARS-CoV 3, 6. The RBD is dynamic and undergoes hinge-like conformational changes, referred to as the ?down? or ?up? conformations, which hide or expose the receptor-binding motifs, respectively 7. Following receptor binding, S1 destabilizes, and TMPRSS2 cleaves S2, which undergoes a pre- to post-fusion conformation transition, allowing for membrane fusion 8, 9.
Monoclonal RBD-specific antibodies can block ACE2 binding 10, 11, and anti-RBD neutralizing antibodies are present in the sera of convalescent COVID19 patients 12, identifying the RBD as an attractive candidate for vaccines and therapeutics. In addition, the RBD is poorly conserved, making it a promising antigen for diagnostic tests 13 14. Serologic tests for the RBD are highly sensitive and specific for detecting SARS-CoV-2 antibodies in COVID19 patients 13 15. Furthermore, the levels of anti-RBD antibodies correlated with SARS-CoV-2 neutralizing antibodies, suggesting the RBD could be used to predict an individual's risk of disease 13.
NCBI Gene:
43740568
Target:
SARS-CoV-2 RBD
References
1. Zhou, P., Yang, X., Wang, X. et al. Nature 579, 270?273. 2020.
2. Wu, F., Zhao, S., Yu, B. et al. Nature 579, 265?269. 2020.
3. Wrapp D, Wang N, Corbett KS, et al. bioRxiv. 2020.02.11.944462. 2020.
4. Walls AC, Park YJ, Tortorici MA, Wall A, McGuire AT, Veesler D. Cell. 181(2):281-292.e6. 2020.
5. Li W, Zhang C, Sui J, et al. EMBO J. 24(8):1634-1643. 2005.
6. Shang, J., Ye, G., Shi, K. et al. Nature 581, 221?224. 2020.
7. Gui M, Song W, Zhou H, et al. Cell Res. 27(1):119-129. 2017.
8. Walls AC, Tortorici MA, Snijder J, et al. Proc Natl Acad Sci U S A. 114(42):11157-11162. 2017.
9. Hoffmann M, Kleine-Weber H, Schroeder S, et al. Cell. 181(2):271-280.e8. 2020.
10. Huo J, Zhao Y, Ren J, et al. Cell Host Microbe. S1931-3128(20)30351-6. 2020.
11. Tai, W., He, L., Zhang, X. et al. Cell Mol Immunol 17, 613?620. 2020.
12. Cao Y, Su B, Guo X, et al. Cell. 182(1):73-84.e16. 2020.
13. Premkumar L, Segovia-Chumbez B, Jadi R, et al. medRxiv; 2020.
14. Quinlan BD, Mou H, Zhang L, et al. bioRxiv; 2020.
15. Olba NM, Muller MA, Li W, et al. medRxiv; 2020.