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| SARS病毒的電子顯微鏡圖片 | |
病毒分類 
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| –未分級–: | 病毒 Virus |
| 域: | RNA病毒域 Riboviria |
| 界: | 正RNA病毒界 Orthornavirae |
| 門: | 小RNA病毒門 Pisuviricota |
| 綱: | 小南嵌套病毒綱 Pisoniviricetes |
| 目: | 網巢病毒目 Nidovirales |
| 科: | 冠狀病毒科 Coronaviridae |
| 屬: | 乙型冠狀病毒屬 Betacoronavirus |
| 亞屬: | SARS乙型冠狀病毒亞屬 Sarbecovirus |
| 種: | 嚴重急性呼吸道綜合徵相關冠狀病毒 Severe acute respiratory
syndrome-related coronavirus |
| 病毒株: | 嚴重急性呼吸綜合徵冠狀病毒 Severe acute respiratory syndrome coronavirus |
| 異名 | |
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嚴重急性呼吸綜合徵冠狀病毒(英語:Severe acute respiratory syndrome coronavirus)[2],簡稱SARS冠狀病毒(SARS-CoV)或SARS病毒,是冠狀病毒科乙型冠狀病毒屬嚴重急性呼吸綜合徵相關冠狀病毒種的一個分型,可引發嚴重急性呼吸綜合徵(SARS)[3]。2003年4月16日,世界衛生組織發布新聞稿,確認SARS冠狀病毒是SARS的病原體。紐約、舊金山、馬尼拉,香港和多倫多的實驗室存放了SARS冠狀病毒的標本。
2003年4月,美國疾病控制與預防中心和加拿大國家微生物學實驗室識別了SARS冠狀病毒的基因[4][5]。伊拉斯姆斯大學的研究者證實,SARS冠狀病毒滿足柯霍氏法則,因此可以確認是SARS的病原體。實驗中,感染該疾病的獼猴表現出和人類相同的症狀[6]。
新型冠狀病毒感染(COVID-19)有很多和SARS相似的病症,這種疾病的病原體被認為是嚴重急性呼吸綜合徵相關冠狀病毒的另一個分型,稱為嚴重急性呼吸系統綜合徵冠狀病毒2(SARS-CoV-2)。儘管SARS冠狀病毒和SARS-CoV-2被分類為同一個物種,SARS-CoV-2不是SARS冠狀病毒的直接後代,而是分別傳播給人類的。
疾病
SARS是SARS冠狀病毒引起的嚴重疾病,通常以肌肉疼痛、頭痛和發燒等全身症狀為特徵,並於2-14天內出現咳嗽、呼吸困難和肺炎等呼吸道症狀[7]。SARS患者血液中循環的淋巴細胞數量也常常會減少[8]。
2003年的SARS事件中,SARS冠狀病毒感染的確診患者中有9%死亡[9]。60歲以上人群死亡率更高,接近50%[9]。
歷史
2003年4月12日,溫哥華邁克爾·史密斯基因組科學中心的研究者完成了SARS冠狀病毒基因序列的繪製。[10]此後,其它課題組也確認了SARS冠狀病毒的序列。2003年5月底,研究者調查了在廣東市場上作為食品出售的野生動物樣本,並從果子狸的樣本中分離出了SARS冠狀病毒,但這些動物並不總能顯示出臨床體徵。初步結論是,SARS病毒越過了物種屏障,從果子狸傳播到人類。廣東省1萬多隻果子狸被捕殺。之後,鼬獾、貉和家貓也被發現是SARS病毒的宿主。2005年,兩項研究調查了中國蝙蝠攜帶的SARS類似冠狀病毒[11][12],這些病毒的系統發育分析表明,SARS冠狀病毒很可能起源於蝙蝠,並直接傳播給人類,或通過中國市場上的動物傳播給人類。蝙蝠未顯示任何明顯的疾病跡象,但可能是SARS類似冠狀病毒的天然宿主。2006年底,研究者建立了鼠類和人類中出現的SARS冠狀病毒之間的遺傳聯繫,並認為SARS已完成跨物種跳躍[13]。2017年,石正麗等人的研究發現,SARS病毒可能起源於雲南菊頭蝠攜帶的SARS相關冠狀病毒[14]。
病毒學
SARS冠狀病毒具有冠狀病毒科典型的複製策略。2003年的研究表明,SARS冠狀病毒主要的人類受體是血管緊張素轉化酶2(ACE2)[15]。
演化樹
截至2021年1月[update],SARS-CoV與相關病毒株的系統發生樹:
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SARS-CoV-2 79 % | ||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
蝙蝠病毒
果子狸病毒
人類病毒
參考文獻
引用
- ↑ ICTV Taxonomy history: Severe acute respiratory syndrome-related coronavirus (html). International Committee on Taxonomy of Viruses (ICTV). [2019-01-27] (英語).
- ↑ 严重急性呼吸综合征冠状病毒. 術語在線. 全國科學技術名詞審定委員會. [2023-08-03].
- ↑ Thiel V (editor). Coronaviruses: Molecular and Cellular Biology 1st. Caister Academic Press. 2007. ISBN 978-1-904455-16-5.
- ↑ Remembering SARS: A Deadly Puzzle and the Efforts to Solve It. Centers for Disease Control and Prevention. 2013-04-11 [2013-08-03].
- ↑ Coronavirus never before seen in humans is the cause of SARS. United Nations World Health Organization. 2006-04-16 [2006-07-05].
- ↑ Fouchier RA, Kuiken T, Schutten M, et al. Aetiology: Koch's postulates fulfilled for SARS virus. Nature. 2003, 423 (6937): 240. Bibcode:2003Natur.423..240F. PMID 12748632. doi:10.1038/423240a.
- ↑ Chan-Yeung M; Xu RH. SARS: epidemiology. Respirology (Carlton, Vic.). November 2003, 8 (Suppl): S9–14. PMID 15018127. doi:10.1046/j.1440-1843.2003.00518.x.
- ↑ Yang M; Li CK; Li K; Hon KL; Ng MH; Chan PK; Fok TF. Hematological findings in SARS patients and possible mechanisms (review). International Journal of Molecular Medicine. August 2004, 14 (2): 311–5 [2020-02-17]. PMID 15254784. doi:10.3892/ijmm.14.2.311.
- ↑ 9.0 9.1 Sørensen MD; Sørensen B; Gonzalez-Dosal R; Melchjorsen CJ; Weibel J; Wang SARS-CoVJ; Jun CW; Huanming Y; Kristensen P. Severe acute respiratory syndrome (SARS): development of diagnostics and antivirals. Annals of the New York Academy of Sciences. May 2006, 1067 (1): 500–5. Bibcode:2006NYASA1067..500S. PMID 16804033. doi:10.1196/annals.1354.072.
- ↑ B.C. lab cracks suspected SARS code. CBCNews, Canada. April 2003 [2020-02-17].
- ↑ Li W, Shi Z, Yu M, et al. Bats are natural reservoirs of SARS-like coronaviruses. Science. 2005, 310 (5748): 676–9. Bibcode:2005Sci...310..676L. PMID 16195424. doi:10.1126/science.1118391.
- ↑ Lau SK, Woo PC, Li KS, et al. Severe acute respiratory syndrome coronavirus-like virus in Chinese horseshoe bats. Proc. Natl. Acad. Sci. U.S.A. 2005, 102 (39): 14040–5. Bibcode:2005PNAS..10214040L. PMC 1236580
. PMID 16169905. doi:10.1073/pnas.0506735102.
- ↑ Scientists prove SARS-civet cat link. China Daily. 2006-11-23 [2020-02-17].
- ↑ Hu, Ben; Zeng, Lei-Ping; Yang, Xing-Lou; Ge, Xing-Yi; Zhang, Wei; Li, Bei; Xie, Jia-Zheng; Shen, Xu-Rui; Zhang, Yun-Zhi. Drosten, Christian , 編. Discovery of a rich gene pool of bat SARS-related coronaviruses provides new insights into the origin of SARS coronavirus. PLOS Pathogens. 2017-11-30, 13 (11): e1006698 [2020-02-20]. ISSN 1553-7374. PMC 5708621 . PMID 29190287. doi:10.1371/journal.ppat.1006698 (英語).
- ↑ Li, Wenhui; Moore, Michael J.; Vasilieva, Natalya; Sui, Jianhua; Wong, Swee Kee; Berne, Michael A.; Somasundaran, Mohan; Sullivan, John L.; Luzuriaga, Katherine. Angiotensin-converting enzyme 2 is a functional receptor for the SARS coronavirus. Nature. 2003-11, 426 (6965): 450–454 [2020-02-20]. ISSN 0028-0836. doi:10.1038/nature02145 (英語).
- ↑ Kim Y, Son K, Kim YS, Lee SY, Jheong W, Oem JK. Complete genome analysis of a SARS-like bat coronavirus identified in the Republic of Korea.. Virus Genes. 2019, 55 (4): 545–549. PMC 7089380 . PMID 31076983. doi:10.1007/s11262-019-01668-w.
- ↑ 17.0 17.1 Li, W. Bats Are Natural Reservoirs of SARS-Like Coronaviruses. Science. 2005, 310 (5748): 676–679. ISSN 0036-8075. doi:10.1126/science.1118391.
- ↑ 18.0 18.1 Xing‐Yi Ge, Ben Hu, and Zheng‐Li Shi. BAT CORONAVIRUSES. Lin-Fa Wang and Christopher Cowled (編). Bats and Viruses: A New Frontier of Emerging Infectious Diseases, First Edition.. John Wiley & Sons. 2015.
- ↑ He B, Zhang Y, Xu L, Yang W, Yang F, Feng Y; et al. Identification of diverse alphacoronaviruses and genomic characterization of a novel severe acute respiratory syndrome-like coronavirus from bats in China.. J Virol. 2014, 88 (12): 7070–82. PMC 4054348 . PMID 24719429. doi:10.1128/JVI.00631-14.
- ↑ 20.0 20.1 Lau, Susanna K. P.; Feng, Yun; Chen, Honglin; Luk, Hayes K. H.; Yang, Wei-Hong; Li, Kenneth S. M.; Zhang, Yu-Zhen; Huang, Yi; et al. Severe Acute Respiratory Syndrome (SARS) Coronavirus ORF8 Protein Is Acquired from SARS-Related Coronavirus from Greater Horseshoe Bats through Recombination. Journal of Virology. 2015, 89 (20): 10532–10547. ISSN 0022-538X. doi:10.1128/JVI.01048-15.
- ↑ 21.0 21.1 Xing-Yi Ge; Jia-Lu Li; Xing-Lou Yang; et al. Isolation and characterization of a bat SARS-like coronavirus that uses the ACE2 receptor. Nature. 2013, 503 (7477): 535–8. Bibcode:2013Natur.503..535G. PMC 5389864 . PMID 24172901. doi:10.1038/nature12711.
- ↑ Yang XL, Hu B, Wang B, Wang MN, Zhang Q, Zhang W; et al. Isolation and Characterization of a Novel Bat Coronavirus Closely Related to the Direct Progenitor of Severe Acute Respiratory Syndrome Coronavirus.. J Virol. 2016, 90 (6): 3253–6. PMC 4810638 . PMID 26719272. doi:10.1128/JVI.02582-15.
來源
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- Rota, P. A. Characterization of a Novel Coronavirus Associated with Severe Acute Respiratory Syndrome. Science. 2003-05-30, 300 (5624): 1394–1399. doi:10.1126/science.1085952.
- Marra, M. A. The Genome Sequence of the SARS-Associated Coronavirus. Science. 2003-05-30, 300 (5624): 1399–1404. doi:10.1126/science.1085953.
- Snijder, Eric J.; Bredenbeek, Peter J.; Dobbe, Jessika C.; Thiel, Volker; Ziebuhr, John; Poon, Leo L.M.; Guan, Yi; Rozanov, Mikhail; Spaan, Willy J.M. Unique and Conserved Features of Genome and Proteome of SARS-coronavirus, an Early Split-off From the Coronavirus Group 2 Lineage. Journal of Molecular Biology. 2003-08, 331 (5): 991–1004 [2020-02-20]. doi:10.1016/S0022-2836(03)00865-9 (英語).
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- Thiel V (編). Coronaviruses: Molecular and Cellular Biology 1st. Caister Academic Press. 2007. ISBN 978-1-904455-16-5.
- Enjuanes L, et al. Coronavirus Replication and Interaction with Host. Animal Viruses: Molecular Biology. Caister Academic Press. 2008. ISBN 978-1-904455-22-6.