An updated framework for SARS-CoV-2 variants reflects the unpredictability of viral evolution. Lorenzo Subissi , James Richard Otieno , Nathalie Worp , Homa Attar Cohen , Bas B Oude Munnink , Laith J Abu-Raddad , Erik Alm , Amal Barakat , Wendy S Barclay , Jinal N Bhiman , Leon Caly , Meera Chand , Mark Chen , Ann Cullinane , Tulio de Oliveira , Christian Drosten , Julian Druce , Paul Effler , Ihab El Masry , Adama Faye , Elodie Ghedin , Rebecca Grant , Bart L Haagmans , Christian Happi , Belinda L Herring , Emma B Hodcroft , Juniorcaius Ikejezie , Victoria Katawera , Zyleen Alnashir Kassamali , Yee-Sin Leo , Gabriel M Leung , Rebecca J Kondor , Marco Marklewitz , Jairo Mendez-Rico , Nada M Melhem , Vincent Munster , Karen Nahapetyan , Dhamari Naindoo , Djin-Ye Oh , Thomas P Peacock , Malik Peiris , Zhibin Peng , Leo L M Poon , Andrew Rambaut , Senjuti Saha , Yinzhong Shen , Marilda M Siqueira , Erik Volz , Sofonias K Tessema , Volker Thiel , Henda Triki , Sylvie van der Werf , Karin von Eije , Jane Cunningham , Marion P G Koopmans , Anne von Gottberg , Anurag Agrawal , Maria D Van Kerkhove Nature medicine(2024)
摘要
The World Health Organization framework for tracking SARS-CoV-2 variants has been updated to reflect the continued evolution of the virus; this framework could be adapted for other emerging respiratory diseases with epidemic and pandemic potential.
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