Antigenic shift

Antigenic shift is the process by which two or more different strains of a virus, or strains of two or more different viruses, combine to form a new subtype having a mixture of the surface antigens of the two or more original strains. The term is often applied specifically to influenza, as that is the best-known example, but the process is also known to occur with other viruses, such as visna virus in sheep.^[1] Antigenic shift is a specific case of reassortment or viral shift that confers a phenotypic change.

Antigenic shift is contrasted with antigenic drift, which is the natural mutation over time of known strains of influenza (or other things, in a more general sense) which may lead to a loss of immunity, or in vaccine mismatch. Antigenic drift occurs in all types of influenza including influenza A, influenza B and influenza C. Antigenic shift, however, occurs only in influenza A because it infects more than just humans.^[2] Affected species include other mammals and birds, giving influenza A the opportunity for a major reorganization of surface antigens. Influenza B and C principally infect humans, minimizing the chance that a reassortment will change its phenotype drastically.^[3]

In the 1940s, Maurice Hilleman discovered antigenic shift, which is important for the emergence of new viral pathogens as it is a pathway that viruses may follow to enter a new niche.^[4]^[5]

^ Narayan, O; Griffin, DE; Chase, J (1977). "Antigenic shift of visna virus in persistently infected sheep". Science. 197 (4301): 376–378. Bibcode:1977Sci...197..376N. doi:10.1126/science.195339. PMID 195339.)
^ Treanor, John (15 January 2004). "Influenza vaccine--outmaneuvering antigenic shift and drift". New England Journal of Medicine. 350 (3): 218–220. doi:10.1056/NEJMp038238. PMID 14724300.
^ Zambon, Maria C. (November 1999). "Epidemiology and pathogenesis of influenza". Journal of Antimicrobial Chemotherapy. 44 (Supp B): 3–9. doi:10.1093/jac/44.suppl_2.3. PMID 10877456.
^ Oransky, Ivan (14 May 2005). "Maurice R Hilleman". The Lancet. 365 (9472): 1682. doi:10.1016/S0140-6736(05)66536-1. ISSN 0140-6736. PMID 15912596. S2CID 46630955.
^ Kurth, Reinhard (April 2005). "Maurice R. Hilleman (1919–2005)". Nature. 434 (7037): 1083. doi:10.1038/4341083a. ISSN 1476-4687. PMID 15858560. S2CID 26364385.

[1] Narayan, O; Griffin, DE; Chase, J (1977). "Antigenic shift of visna virus in persistently infected sheep". Science. 197 (4301): 376–378. Bibcode:1977Sci...197..376N. doi:10.1126/science.195339. PMID 195339.)

[Treanor-2] Treanor, John (15 January 2004). "Influenza vaccine--outmaneuvering antigenic shift and drift". New England Journal of Medicine. 350 (3): 218–220. doi:10.1056/NEJMp038238. PMID 14724300.

[Zambon-3] Zambon, Maria C. (November 1999). "Epidemiology and pathogenesis of influenza". Journal of Antimicrobial Chemotherapy. 44 (Supp B): 3–9. doi:10.1093/jac/44.suppl_2.3. PMID 10877456.

[4] Oransky, Ivan (14 May 2005). "Maurice R Hilleman". The Lancet. 365 (9472): 1682. doi:10.1016/S0140-6736(05)66536-1. ISSN 0140-6736. PMID 15912596. S2CID 46630955.

[5] Kurth, Reinhard (April 2005). "Maurice R. Hilleman (1919–2005)". Nature. 434 (7037): 1083. doi:10.1038/4341083a. ISSN 1476-4687. PMID 15858560. S2CID 26364385.

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Antigenic shift

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