- Apr 2022
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twitter.com twitter.com
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nature. (2021, April 16). Coronavirus variants: Where do they come from? How do we spot them? What do they mean for COVID vaccines, and future of the pandemic? Https://t.co/NRbORu2hoF [Tweet]. @Nature. https://twitter.com/Nature/status/1383093697374474240
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- Mar 2022
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www.forbes.com www.forbes.com
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Haseltine, W. A. (n.d.). Birth Of The Omicron Family: BA.1, BA.2, BA.3. Each As Different As Alpha Is From Delta. Forbes. Retrieved 30 March 2022, from https://www.forbes.com/sites/williamhaseltine/2022/01/26/birth-of-the-omicron-family-ba1-ba2-ba3-each-as-different-as-alpha-is-from-delta/
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- Feb 2022
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twitter.com twitter.com
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Trevor Bedford. (2022, January 28). Omicron viruses can be divided into two major groups, referred to as PANGO lineages BA.1 and BA.2 or @nextstrain clades 21K and 21L. The vast majority of globally sequenced Omicron have been 21K (~630k) compared a small minority of 21L (~18k), but 21L is gaining ground. 1/15 [Tweet]. @trvrb. https://twitter.com/trvrb/status/1487105396879679488
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twitter.com twitter.com
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Prof. Akiko Iwasaki. (2022, January 27). Vaccines that reduce infection & disease are needed to combat the pandemic. Here, @tianyangmao @BenIsraelow et al. Describe our new mucosal booster strategy, Prime and Spike, to induce such immunity via nasal delivery of unadjuvanted spike vaccine 🧵 (1/) https://biorxiv.org/content/10.1101/2022.01.24.477597v1 https://t.co/bcB5MFph9F [Tweet]. @VirusesImmunity. https://twitter.com/VirusesImmunity/status/1486510697332842498
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- Jan 2022
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retractionwatch.com retractionwatch.com
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Marcus, A. A. (2022, January 13). COVID-19 spike protein paper earns an expression of concern. Retraction Watch. https://retractionwatch.com/2022/01/13/covid-19-spike-protein-paper-earns-an-expression-of-concern/
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- Dec 2021
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twitter.com twitter.com
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Eric Topol. (2021, November 27). View of key mutations of Omicron’s 50, with 30 in the spike protein, 15 in its receptor binding domain https://ft.com/content/42c5ff3d-e676-4076-9b9f-7243a00cba5e http://covariants.org @EllingUlrich @_b_meyer https://t.co/onMoNFVLFJ [Tweet]. @EricTopol. https://twitter.com/EricTopol/status/1464452102382448643
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www.gavi.org www.gavi.org
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What do we know about the new B.1.1.529 coronavirus variant and should we be worried? (n.d.). Retrieved 10 December 2021, from https://www.gavi.org/vaccineswork/what-we-know-about-new-b11529-coronavirus-variant-so-far
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www.bbc.co.uk www.bbc.co.uk
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New Covid variant: How worried should we be? (2021, November 25). BBC News. https://www.bbc.com/news/health-59418127
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www.theguardian.com www.theguardian.com
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Devlin, H., & Kollewe, J. (2021, November 26). BioNTech says it could tweak Covid vaccine in 100 days if needed. The Guardian. https://www.theguardian.com/society/2021/nov/26/biontech-says-it-could-tweak-covid-vaccine-in-100-days-if-needed
Tags
- lang:en
- mutation
- spike protein
- Pfizer
- Omicron
- variant
- transmissibility
- escape variant
- booster
- COVID-19
- research
- vaccine
- BioNTech
- immunity
- clinical trials
- development
- variant-specific booster
- effectiveness
- protection
- is:news
- science
Annotators
URL
theguardian.com/society/2021/nov/26/biontech-says-it-could-tweak-covid-vaccine-in-100-days-if-needed -
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www.abbott.com www.abbott.com
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Evaluating Omicron and Other COVID Variants to Ensure Test Effectiveness. (n.d.). Abbott. Retrieved December 3, 2021, from https://www.abbott.com/corpnewsroom/diagnostics-testing/monitoring-covid-variants-to-ensure-test-effectiveness.html
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- Oct 2021
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www.nature.com www.nature.com
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Sun, W., Liu, Y., Amanat, F., González-Domínguez, I., McCroskery, S., Slamanig, S., Coughlan, L., Rosado, V., Lemus, N., Jangra, S., Rathnasinghe, R., Schotsaert, M., Martinez, J. L., Sano, K., Mena, I., Innis, B. L., Wirachwong, P., Thai, D. H., Oliveira, R. D. N., … Palese, P. (2021). A Newcastle disease virus expressing a stabilized spike protein of SARS-CoV-2 induces protective immune responses. Nature Communications, 12(1), 6197. https://doi.org/10.1038/s41467-021-26499-y
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- Aug 2021
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www.thelancet.com www.thelancet.com
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Shrotri, M., Navaratnam, A. M. D., Nguyen, V., Byrne, T., Geismar, C., Fragaszy, E., Beale, S., Fong, W. L. E., Patel, P., Kovar, J., Hayward, A. C., & Aldridge, R. W. (2021). Spike-antibody waning after second dose of BNT162b2 or ChAdOx1. The Lancet, 398(10298), 385–387. https://doi.org/10.1016/S0140-6736(21)01642-1
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- Aug 2020
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medrxiv.org medrxiv.org
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Ferretti, A. P., Kula, T., Wang, Y., Nguyen, D. M., Weinheimer, A., Dunlap, G. S., Xu, Q., Nabilsi, N., Perullo, C. R., Cristofaro, A. W., Whitton, H. J., Virbasius, A., Olivier, K. J., Baiamonte, L. B., Alistar, A. T., Whitman, E. D., Bertino, S. A., Chattopadhyay, S., & MacBeath, G. (2020). COVID-19 Patients Form Memory CD8+ T Cells that Recognize a Small Set of Shared Immunodominant Epitopes in SARS-CoV-2. MedRxiv, 2020.07.24.20161653. https://doi.org/10.1101/2020.07.24.20161653
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www.nature.com www.nature.com
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Corbett, K. S., Edwards, D. K., Leist, S. R., Abiona, O. M., Boyoglu-Barnum, S., Gillespie, R. A., Himansu, S., Schäfer, A., Ziwawo, C. T., DiPiazza, A. T., Dinnon, K. H., Elbashir, S. M., Shaw, C. A., Woods, A., Fritch, E. J., Martinez, D. R., Bock, K. W., Minai, M., Nagata, B. M., … Graham, B. S. (2020). SARS-CoV-2 mRNA vaccine design enabled by prototype pathogen preparedness. Nature, 1–8. https://doi.org/10.1038/s41586-020-2622-0
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www.biorxiv.org www.biorxiv.org
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Martino, C., Kellman, B. P., Sandoval, D. R., Clausen, T. M., Marotz, C. A., Song, S. J., Wandro, S., Zaramela, L. S., Benítez, R. A. S., Zhu, Q., Armingol, E., Vázquez-Baeza, Y., McDonald, D., Sorrentino, J. T., Taylor, B., Belda-Ferre, P., Liang, C., Zhang, Y., Schifanella, L., … Knight, R. (2020). Bacterial modification of the host glycosaminoglycan heparan sulfate modulates SARS-CoV-2 infectivity. BioRxiv, 2020.08.17.238444. https://doi.org/10.1101/2020.08.17.238444
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www.jpeds.com www.jpeds.com
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Yonker, L. M., Neilan, A. M., Bartsch, Y., Patel, A. B., Regan, J., Arya, P., Gootkind, E., Park, G., Hardcastle, M., John, A. S., Appleman, L., Chiu, M. L., Fialkowski, A., Flor, D. D. la, Lima, R., Bordt, E. A., Yockey, L. J., D’Avino, P., Fischinger, S., … Fasano, A. (2020). Pediatric SARS-CoV-2: Clinical Presentation, Infectivity, and Immune Responses. The Journal of Pediatrics, 0(0). https://doi.org/10.1016/j.jpeds.2020.08.037
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www.biorxiv.org www.biorxiv.org
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Glasgow, A., Glasgow, J., Limonta, D., Solomon, P., Lui, I., Zhang, Y., Nix, M. A., Rettko, N. J., Lim, S. A., Zha, S., Yamin, R., Kao, K., Rosenberg, O. S., Ravetch, J. V., Wiita, A. P., Leung, K. K., Zhou, X. X., Hobman, T. C., Kortemme, T., & Wells, J. A. (2020). Engineered ACE2 receptor traps potently neutralize SARS-CoV-2. BioRxiv, 2020.07.31.231746. https://doi.org/10.1101/2020.07.31.231746
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Bangaru, S., Ozorowski, G., Turner, H. L., Antanasijevic, A., Huang, D., Wang, X., Torres, J. L., Diedrich, J. K., Tian, J.-H., Portnoff, A. D., Patel, N., Massare, M. J., Yates, J. R., Nemazee, D., Paulson, J. C., Glenn, G., Smith, G., & Ward, A. B. (2020). Structural analysis of full-length SARS-CoV-2 spike protein from an advanced vaccine candidate. BioRxiv, 2020.08.06.234674. https://doi.org/10.1101/2020.08.06.234674
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www.newscientist.com www.newscientist.com
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Marshall, M. (n.d.). Everything you need to know about Russia’s coronavirus vaccine claims. New Scientist. Retrieved August 18, 2020, from https://www.newscientist.com/article/2251722-everything-you-need-to-know-about-russias-coronavirus-vaccine-claims/
Tags
- concern
- efficacy
- transparency
- lang:en
- strategy
- development
- spike protein
- public health
- safety
- immunology
- is:news
- Russia
- COVID-19
- vaccine
- bad science
Annotators
URL
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www.biorxiv.org www.biorxiv.org
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Ou, T., Mou, H., Zhang, L., Ojha, A., Choe, H., & Farzan, M. (2020). Hydroxychloroquine-mediated inhibition of SARS-CoV-2 entry is attenuated by TMPRSS2. BioRxiv, 2020.07.22.216150. https://doi.org/10.1101/2020.07.22.216150
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science.sciencemag.org science.sciencemag.org
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Hsieh, C.-L., Goldsmith, J. A., Schaub, J. M., DiVenere, A. M., Kuo, H.-C., Javanmardi, K., Le, K. C., Wrapp, D., Lee, A. G., Liu, Y., Chou, C.-W., Byrne, P. O., Hjorth, C. K., Johnson, N. V., Ludes-Meyers, J., Nguyen, A. W., Park, J., Wang, N., Amengor, D., … McLellan, J. S. (2020). Structure-based design of prefusion-stabilized SARS-CoV-2 spikes. Science. https://doi.org/10.1126/science.abd0826
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jamanetwork.com jamanetwork.com
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Havers, F. P., Reed, C., Lim, T., Montgomery, J. M., Klena, J. D., Hall, A. J., Fry, A. M., Cannon, D. L., Chiang, C.-F., Gibbons, A., Krapiunaya, I., Morales-Betoulle, M., Roguski, K., Rasheed, M. A. U., Freeman, B., Lester, S., Mills, L., Carroll, D. S., Owen, S. M., … Thornburg, N. J. (2020). Seroprevalence of Antibodies to SARS-CoV-2 in 10 Sites in the United States, March 23-May 12, 2020. JAMA Internal Medicine. https://doi.org/10.1001/jamainternmed.2020.4130
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biorxiv.org biorxiv.org
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Clausen, T. M., Sandoval, D. R., Spliid, C. B., Pihl, J., Painter, C. D., Thacker, B. E., Glass, C. A., Narayanan, A., Majowicz, S. A., Zhang, Y., Torres, J. L., Golden, G. J., Porell, R., Garretson, A. F., Laubach, L., Feldman, J., Yin, X., Pu, Y., Hauser, B., … Esko, J. D. (2020). SARS-CoV-2 Infection Depends on Cellular Heparan Sulfate and ACE2. BioRxiv, 2020.07.14.201616. https://doi.org/10.1101/2020.07.14.201616
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- Jul 2020
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www.biorxiv.org www.biorxiv.org
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Yurkovetskiy, L., Wang, X., Pascal, K. E., Tomkins-Tinch, C., Nyalile, T., Wang, Y., Baum, A., Diehl, W. E., Dauphin, A., Carbone, C., Veinotte, K., Egri, S. B., Schaffner, S. F., Lemieux, J. E., Munro, J., Rafique, A., Barve, A., Sabeti, P. C., Kyratsous, C. A., … Luban, J. (2020). Structural and Functional Analysis of the D614G SARS-CoV-2 Spike Protein Variant. BioRxiv, 2020.07.04.187757. https://doi.org/10.1101/2020.07.04.187757
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www.cell.com www.cell.com
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How scientists know COVID-19 is way deadlier than the flu. (2020, July 2). Science. https://www.nationalgeographic.com/science/2020/07/coronavirus-deadlier-than-many-believed-infection-fatality-rate-cvd/
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- May 2020
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www.ncbi.nlm.nih.gov www.ncbi.nlm.nih.gov
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Wang, C., Li, W., Drabek, D. et al. A human monoclonal antibody blocking SARS-CoV-2 infection. Nat Commun 11, 2251 (2020). https://doi.org/10.1038/s41467-020-16256-y
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