Coronavirus historical perspective: Difference between revisions
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=== Evolution of the Virus === | === Evolution of the Virus === | ||
* Genetic analyses performed at the time of the SARS epidemic showed that the virus underwent rapid adaptations in both animals and humans.<ref name="pmid14752165">{{cite journal |vauthors= |title=Molecular evolution of the SARS coronavirus during the course of the SARS epidemic in China |journal=Science |volume=303 |issue=5664 |pages=1666–9 |date=March 2004 |pmid=14752165 |doi=10.1126/science.1092002 |url=}}</ref> | * Genetic analyses performed at the time of the SARS epidemic showed that the virus underwent rapid adaptations in both animals and humans.<ref name="pmid14752165">{{cite journal |vauthors= |title=Molecular evolution of the SARS coronavirus during the course of the SARS epidemic in China |journal=Science |volume=303 |issue=5664 |pages=1666–9 |date=March 2004 |pmid=14752165 |doi=10.1126/science.1092002 |url=}}</ref><ref name="pmid15695582">{{cite journal |vauthors=Song HD, Tu CC, Zhang GW, Wang SY, Zheng K, Lei LC, Chen QX, Gao YW, Zhou HQ, Xiang H, Zheng HJ, Chern SW, Cheng F, Pan CM, Xuan H, Chen SJ, Luo HM, Zhou DH, Liu YF, He JF, Qin PZ, Li LH, Ren YQ, Liang WJ, Yu YD, Anderson L, Wang M, Xu RH, Wu XW, Zheng HY, Chen JD, Liang G, Gao Y, Liao M, Fang L, Jiang LY, Li H, Chen F, Di B, He LJ, Lin JY, Tong S, Kong X, Du L, Hao P, Tang H, Bernini A, Yu XJ, Spiga O, Guo ZM, Pan HY, He WZ, Manuguerra JC, Fontanet A, Danchin A, Niccolai N, Li YX, Wu CI, Zhao GP |title=Cross-host evolution of severe acute respiratory syndrome coronavirus in palm civet and human |journal=Proc. Natl. Acad. Sci. U.S.A. |volume=102 |issue=7 |pages=2430–5 |date=February 2005 |pmid=15695582 |pmc=548959 |doi=10.1073/pnas.0409608102 |url=}}</ref> | ||
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Revision as of 21:42, 30 January 2020
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Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1]; Associate Editor(s)-in-Chief: Sabawoon Mirwais, M.B.B.S, M.D.[2], Aditya Govindavarjhulla, M.B.B.S. [3]
Overview
Coronaviruses were first isolated from chickens in 1937. In 1965, Tyrrell and Bynoe used cultures of human ciliated embryonal trachea to propagate the first human coronavirus (HCoV) in vitro. There are now approximately 15 species in this family, which infect not only man but cattle, pigs, rodents, cats, dogs and birds (some are serious veterinary pathogens, especially chickens).
Historical Perspective
- Coronaviruses were first isolated from chickens in 1937.
- In 1965, Tyrrell and Bynoe used cultures of human ciliated embryonal trachea to propagate the first human coronavirus (HCoV) in vitro.
- There are now approximately 15 species in this family, which infect not only man but cattle, pigs, rodents, cats, dogs and birds (some are serious veterinary pathogens, especially chickens).[1]
SARS-CoV
- Coronavirus gained international popularity after the deadly SARS epidemic caused by SARS-CoV in 2002 - 2003.
- Prior to the SARS epidemic, two coronaviruses (HCoV-OC43 and HCoV-229E) were recognized to be responsible for causing upper respiratory tract infections with more severe outcomes in the elderly and the immunocompromised.[2]
- SARS-CoV however, not only caused severe respiratory illness with a mortality rate of 10% during the 2002 - 2003 epidemic but it also caused systemic disease affecting other organs and tissues.[3][4]
- SARS-CoV's striking feature was its ability to cross species enabling the virus to make its way from infecting animal handlers in the live animal retail markets to causing "superspreading events".[5]
- The recognition of SARS led the search for other pathogenic coronaviruses, which culminated in the discovery of HCoV-NL63 and HCoV-HKU1.
- HCoV-NL63 was isolated from hospitalized young children and HCoV-HKU1 was isolated from hospitalized elderly with comorbidities.[6][7][8]
- HCoV-NL63, infecting humans for centuries, has been shown that it diverged from HCoV-229E approximately 1000 years ago.[9]
Evolution of the Virus
- Genetic analyses performed at the time of the SARS epidemic showed that the virus underwent rapid adaptations in both animals and humans.[10][11]
References
- ↑ Garbino J, Crespo S, Aubert JD, Rochat T, Ninet B, Deffernez C, Wunderli W, Pache JC, Soccal PM, Kaiser L (October 2006). "A prospective hospital-based study of the clinical impact of non-severe acute respiratory syndrome (Non-SARS)-related human coronavirus infection". Clin. Infect. Dis. 43 (8): 1009–15. doi:10.1086/507898. PMID 16983613.
- ↑ Peiris JS, Guan Y, Yuen KY (December 2004). "Severe acute respiratory syndrome". Nat. Med. 10 (12 Suppl): S88–97. doi:10.1038/nm1143. PMID 15577937.
- ↑ Gu J, Gong E, Zhang B, Zheng J, Gao Z, Zhong Y, Zou W, Zhan J, Wang S, Xie Z, Zhuang H, Wu B, Zhong H, Shao H, Fang W, Gao D, Pei F, Li X, He Z, Xu D, Shi X, Anderson VM, Leong AS (August 2005). "Multiple organ infection and the pathogenesis of SARS". J. Exp. Med. 202 (3): 415–24. doi:10.1084/jem.20050828. PMC 2213088. PMID 16043521.
- ↑ Guan Y, Zheng BJ, He YQ, Liu XL, Zhuang ZX, Cheung CL, Luo SW, Li PH, Zhang LJ, Guan YJ, Butt KM, Wong KL, Chan KW, Lim W, Shortridge KF, Yuen KY, Peiris JS, Poon LL (October 2003). "Isolation and characterization of viruses related to the SARS coronavirus from animals in southern China". Science. 302 (5643): 276–8. doi:10.1126/science.1087139. PMID 12958366.
- ↑ Fouchier RA, Hartwig NG, Bestebroer TM, Niemeyer B, de Jong JC, Simon JH, Osterhaus AD (April 2004). "A previously undescribed coronavirus associated with respiratory disease in humans". Proc. Natl. Acad. Sci. U.S.A. 101 (16): 6212–6. doi:10.1073/pnas.0400762101. PMC 395948. PMID 15073334.
- ↑ van der Hoek L, Pyrc K, Jebbink MF, Vermeulen-Oost W, Berkhout RJ, Wolthers KC, Wertheim-van Dillen PM, Kaandorp J, Spaargaren J, Berkhout B (April 2004). "Identification of a new human coronavirus". Nat. Med. 10 (4): 368–73. doi:10.1038/nm1024. PMID 15034574.
- ↑ Woo PC, Lau SK, Chu CM, Chan KH, Tsoi HW, Huang Y, Wong BH, Poon RW, Cai JJ, Luk WK, Poon LL, Wong SS, Guan Y, Peiris JS, Yuen KY (January 2005). "Characterization and complete genome sequence of a novel coronavirus, coronavirus HKU1, from patients with pneumonia". J. Virol. 79 (2): 884–95. doi:10.1128/JVI.79.2.884-895.2005. PMC 538593. PMID 15613317.
- ↑ Pyrc K, Dijkman R, Deng L, Jebbink MF, Ross HA, Berkhout B, van der Hoek L (December 2006). "Mosaic structure of human coronavirus NL63, one thousand years of evolution". J. Mol. Biol. 364 (5): 964–73. doi:10.1016/j.jmb.2006.09.074. PMID 17054987.
- ↑ "Molecular evolution of the SARS coronavirus during the course of the SARS epidemic in China". Science. 303 (5664): 1666–9. March 2004. doi:10.1126/science.1092002. PMID 14752165.
- ↑ Song HD, Tu CC, Zhang GW, Wang SY, Zheng K, Lei LC, Chen QX, Gao YW, Zhou HQ, Xiang H, Zheng HJ, Chern SW, Cheng F, Pan CM, Xuan H, Chen SJ, Luo HM, Zhou DH, Liu YF, He JF, Qin PZ, Li LH, Ren YQ, Liang WJ, Yu YD, Anderson L, Wang M, Xu RH, Wu XW, Zheng HY, Chen JD, Liang G, Gao Y, Liao M, Fang L, Jiang LY, Li H, Chen F, Di B, He LJ, Lin JY, Tong S, Kong X, Du L, Hao P, Tang H, Bernini A, Yu XJ, Spiga O, Guo ZM, Pan HY, He WZ, Manuguerra JC, Fontanet A, Danchin A, Niccolai N, Li YX, Wu CI, Zhao GP (February 2005). "Cross-host evolution of severe acute respiratory syndrome coronavirus in palm civet and human". Proc. Natl. Acad. Sci. U.S.A. 102 (7): 2430–5. doi:10.1073/pnas.0409608102. PMC 548959. PMID 15695582.