k mRNA in lipid nanoparticles, conceptual illustration mRNA in lipid nanoparticles, conceptual illustration. Closeup of molecules of mRNA messenger ribonucleic acid, yellow encapsulated in lipid nanoparticles as utilised in RNA vaccines. These nanoparticles consist of a double membrane containing multiple different types of lipids, such as phospholipids, cholesterol, and PEGylated lipids. When injected into humans, the RNA will be taken up and read by the bodys cells, causing them to produce copies of viral proteins. The viral proteins will provoke an immune response, priming the body against infection with the actual virus. The first RNA vaccine approved for human use, developed against the SARSCoV2 coronavirus by PfizerBioNTech, was approved in the UK on 2nd December 2020., CreditlineRAMON ANDRADE 3DCIENCIASCIENCE PHOTO LIBRARY Stock Photo - Afloimages
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mRNA in lipid nanoparticles, conceptual illustration mRNA in lipid nanoparticles, conceptual illustration. Close up of molecules of mRNA messenger ribonucleic acid, yellow encapsulated in lipid nanoparticles as utilised in RNA vaccines. These nanoparticles consist of a double membrane containing multiple different types of lipids, such as phospholipids, cholesterol, and PEGylated lipids. When injected into humans, the RNA will be taken up and read by the body s cells, causing them to produce copies of viral proteins. The viral proteins will provoke an immune response, priming the body against infection with the actual virus. The first RNA vaccine approved for human use, developed against the SARS CoV 2 coronavirus by Pfizer BioNTech, was approved in the UK on 2nd December 2020., Creditline:RAMON ANDRADE 3DCIENCIA SCIENCE PHOTO LIBRARY
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mRNA in lipid nanoparticles, conceptual illustration

mRNA in lipid nanoparticles, conceptual illustration. Close-up of molecules of mRNA (messenger ribonucleic acid, yellow) encapsulated in lipid nanoparticles as utilised in RNA vaccines. These nanoparticles consist of a double membrane containing multiple different types of lipids, such as phospholipids, cholesterol, and PEGylated lipids. When injected into humans, the RNA will be taken up and read by the body's cells, causing them to produce copies of viral proteins. The viral proteins will provoke an immune response, priming the body against infection with the actual virus. The first RNA vaccine approved for human use, developed against the SARS-CoV-2 coronavirus by Pfizer/BioNTech, was approved in the UK on 2nd December 2020., Creditline:RAMON ANDRADE 3DCIENCIA/SCIENCE PHOTO LIBRARY

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