Mers CoV






Middle East respiratory syndrome coronavirus

From Wikipedia, the free encyclopedia
This article is about the virus. For the disease, see Middle East respiratory syndrome. For the outbreak, see 2012 Middle East respiratory syndrome coronavirus outbreak. For general about the virus, see Coronavirus.
MERS-CoV particles as seen by negative stain electron microscopy. Virions contain characteristic club-like projections emanating from the viral membrane.
Virus classification
Group: Group IV ((+)ssRNA)
Order: Nidovirales
Family: Coronaviridae
Subfamily: Coronavirinae
Genus: Betacoronavirus
Species: MERS-CoV

The Middle East respiratory syndrome coronavirus (MERS-CoV),[1] also termed EMC/2012 (HCoV-EMC/2012), is positive-sense, single-stranded RNA novel species of the genus Betacoronavirus.

First called Novel coronavirus 2012 or simply novel coronavirus, it was first reported in 2012 after genome sequencing of a virus isolated from sputum samples from patients who fell ill in a 2012 outbreak of a new flu.

As of 14 May 2014, MERS-CoV cases have been reported in several countries, including Saudi Arabia, Malaysia, Jordan, Qatar, Egypt, the United Arab Emirates, Tunisia, Kuwait, Oman, the Philippines, Indonesia, the United Kingdom, the Netherlands and the United States.[2]




The virus MERS-CoV is a new member of the beta group of coronavirus, Betacoronavirus, lineage C. MERS-CoV genomes are phylogenetically classified into two clades, clade A and B. The earliest cases of MERS were of clade A clusters (EMC/2012 and Jordan-N3/2012), and new cases are genetically distinct (clade B).[3]

MERS-CoV is distinct from SARS and distinct from the common-cold coronavirus and known endemic human betacoronaviruses HCoV-OC43 and HCoV-HKU1.[4] Until 23 May 2013, MERS-CoV had frequently been referred to as a SARS-like virus,[5] or simply the novel coronavirus, and early it was referred to colloquially on messageboards as the “Saudi SARS”.


The first confirmed cases were reported in a hospital in Amman, Jordan, among health care workers and nursing staff in April 2012, where the cases were determined to be H2H transmission. Later a 60-year-old male patient with acute pneumonia and acute renal failure, died in Jeddah, Saudi Arabia, on 24 June 2012.[4] Egyptian virologist Dr. Ali Mohamed Zaki isolated and identified a previously unknown coronavirus from the man’s lungs.[6][7][8] Dr. Zaki then posted his findings on 24 September 2012 on ProMED-mail.[7][9][9] The isolated cells showed cytopathic effects (CPE), in the form of rounding and syncytia formation.[9]

A second case was found in September 2012. A 49-year-old male living in Qatar presented similar flu symptoms, and a sequence of the virus was nearly identical to that of the first case.[4] In November 2012, similar cases appeared in Qatar and Saudi Arabia. Additional cases were noted, with deaths associated, and rapid research and monitoring of this novel coronavirus began.

It is not certain whether the infections are the result of a single zoonotic event with subsequent human-to-human transmission, or if the multiple geographic sites of infection represent multiple zoonotic events from a common unknown source.

A study by Ziad Memish of Riyadh University and colleagues suggests that the virus arose sometime between July 2007 and June 2012, with perhaps as many as 7 separate zoonotic transmissions. Among animal reservoirs, CoV has a large genetic diversity yet the samples from patients suggest a similar genome, and therefore common source, though the data are limited. It has been determined through molecular clock analysis, that viruses from the EMC/2012 and England/Qatar/2012 date to early 2011 suggesting that these cases are descended from a single zoonotic event. It would appear the MERS-CoV has been circulating in the human population for greater than one year without detection and suggests independent transmission from an unknown source.[10][11]


In humans, the virus has a strong tropism for nonciliated bronchial epithelial cells, and it has been shown to effectively evade the innate immune responses and antagonize interferon (IFN) production in these cells. This tropism is unique in that most respiratory viruses target ciliated cells.[12][13]

Due to the clinical similarity between MERS-CoV and SARS-CoV, it was proposed that they may use the same cellular receptor; the exopeptidase, angiotensin converting enzyme 2 (ACE2).[14] However, it was later discovered that neutralization of ACE2 by recombinant antibodies does not prevent MERS-CoV infection.[15] Further research identified dipeptyl peptidase 4 (DPP4; also known as CD26) as a functional cellular receptor for MERS-CoV.[13] Unlike other known coronavirus receptors, the enzymatic activity of DPP4 is not required for infection. As would be expected, the amino acid sequence of DPP4 is highly conserved across species and is expressed in the human bronchial epithelium and kidneys.[13][16] Bat DPP4 genes appear to have been subject to a high degree of adaptive evolution as a response to coronavirus infections, so the lineage leading to MERS-CoV may have circulated in bat populations for a long period of time before being transmitted to people.[17]


On 13 February 2013, the World Health Organization stated “the risk of sustained person-to-person transmission appears to be very low.”[18] The cells MERS-CoV infects in the lungs only account for 20% of respiratory epithelial cells, so a large number of virions are likely needed to be inhaled to cause infection.[16]

As of 29 May 2013, the WHO is now warning that the MERS-CoV virus is a “threat to entire world.”[19] However, Dr. Anthony S. Fauci of the National Institutes of Health in Bethesda, Maryland, stated that as of now MERS-CoV “does not spread in a sustained person to person way at all.” Dr. Fauci stated that there is potential danger in that it is possible for the virus to mutate into a strain that does transmit from person to person.[20]

The infection of healthcare workers (HCW) leads to concerns of human to human transmission.[21]

The Centers for Disease Control and Prevention (CDC) list MERS as transmissible from human-to-human. From their FAQ, in answer to the question “Does MERS-CoV spread from person to person?”, they answer “MERS-CoV has been shown to spread between people who are in close contact. Transmission from infected patients to healthcare personnel has also been observed. Clusters of cases in several countries are being investigated.”.[22] There is also a New York Times article which provides some correlative context for this.[23]

Natural reservoir

Early research suggested the virus is related to one found in the Egyptian tomb bat. In September 2012 Ron Fouchier speculated that the virus might have originated in bats.[24] Work by epidemiologist Ian Lipkin of Columbia University in New York showed that the virus isolated from a bat looked to be a match to the virus found in humans.[25][26] [27] 2c betacoronaviruses were detected in Nycteris bats in Ghana and Pipistrellus bats in Europe that are phylogenetically related to the MERS-CoV virus.[28]

Recent work links camels to the virus. An ahead-of-print dispatch for the journal Emerging Infectious Diseases records research showing the coronavirus infection in dromedary camel calves and adults, 99.9% matching to the genomes of human clade B MERS-CoV.[29]

At least one person who has fallen sick with MERS was known to have come into contact with camels or recently drank camel milk.[30]

On 9 August 2013, a report in the journal The Lancet Infectious Diseases showed that 50 out of 50 (100%) blood serum from Omani camels and 15 of 105 (14%) from Spanish camels had protein-specific antibodies against the MERS-CoV spike protein. Blood serum from European sheep, goats, cattle, and other camelids had no such antibodies.[31] Countries like Saudi Arabia and the United Arab Emirates produce and consume large amounts of camel meat. The possibility exists that African or Australian bats harbor the virus and transmit it to camels. Imported camels from these regions might have carried the virus to the Middle East.[32]

In 2013 MERS-CoV was identified in three members of a dromedary camel herd held in a Qatar barn, which was linked to two confirmed human cases who have since recovered. The presence of MERS-CoV in the camels was confirmed by the National Institute of Public Health and Environment (RIVM) of the Ministry of Health and the Erasmus Medical Center (WHO Collaborating Center), the Netherlands. None of the camels showed any sign of disease when the samples were collected. The Qatar Supreme Council of Health advised in November 2013 that people with underlying health conditions, such as heart disease, diabetes, kidney disease, respiratory disease, the immunosuppressed, and the elderly, avoid any close animal contacts when visiting farms and markets, and to practice good hygiene, such as washing hands.[33]

A further study on dromedary camels from Saudi Arabia published in December 2013 revealed the presence of MERS-CoV in 90% of the evaluated dromedary camels (310), suggesting that dromedary camels not only could be the main reservoir of MERS-CoV, but also the animal source of MERS.[34]

According to the 27 March 2014 MERS-CoV summary update, recent studies support that camels serve as the primary source of the MERS-CoV infecting humans, while bats may be the ultimate reservoir of the virus. Evidence includes the frequency with which the virus has been found in camels to which human cases have been exposed, seriological data which shows widespread transmission in camels, and the similarity of the camel CoV to the human CoV.[35]


MERS-CoV is more closely related to the bat coronaviruses HKU4 and HKU5 (lineage 2C) than it is to SARS-CoV (lineage 2B) (2, 9), sharing more than 90% sequence identity with their closest relationships, bat coronaviruses HKU4 and HKU5 and therefore considered to belong to the same species by the International Committee on Taxonomy of Viruses (ICTV).


› ssRNA viruses

› Group: IV; positive-sense, single-stranded RNA viruses

› Order: Nidovirales

› Family: Coronaviridae

› Subfamily: Coronavirinae

› Genus: Betacoronavirus[37]

› Species: Betacoronavirus 1 (commonly called Human coronavirus OC43), Human coronavirus HKU1, Murine coronavirus, Pipistrellus bat coronavirus HKU5, Rousettus bat coronavirus HKU9, Severe acute respiratory syndrome-related coronavirus, Tylonycteris bat coronavirus HKU4, MERS-CoV


  • Isolate:
  • Isolate:
  • NCBI


The virus grows readily on Vero cells and LLC-MK2 cells.[9]

Research / IP Controversy

Saudi officials had not given permission to Dr. Zaki to send a sample of the virus to Fouchier and they were angered when Fouchier claimed the patent on the full genetic sequence[39] of the Middle East respiratory syndrome coronavirus.[39]

The editor of The Economist observed, “Concern over security must not slow urgent work. Studying a deadly virus is risky. Not studying it is riskier.”[39] Dr. Zaki was fired from his job at the hospital as a result of sharing his sample and findings.[40][41][42][43]

At their annual meeting of the World Health Assembly in May 2013, WHO chief Margaret Chan declared that intellectual property, or patents on strains of new virus, should not impede nations from protecting their citizens by limiting scientific investigations. Deputy Health Minister Ziad Memish raised concerns that scientists who held the patent for the MERS-CoV virus would not allow other scientists to use patented material and were therefore delaying the development of diagnostic tests.[44] Erasmus MC responded that the patent application did not restrict public health research into MERS coronavirus,[45] and that the virus and diagnostic tests were shipped—free of charge—to all that requested such reagents.

Corona Map

On 2 May 2014, the Corona Map was launched becoming the first site to track the MERS coronavirus in realtime on the world map. The data is officially reported by WHO or the Ministry of Health of the respective country.[46]

See also


  1. De Groot RJ et al. (15 May 2013). “Middle East Respiratory Syndrome Coronavirus (MERS-CoV): Announcement of the Coronavirus Study Group”. Journal of Virology 87 (14): 7790–2. doi:10.1128/JVI.01244-13. PMC 3700179. PMID 23678167.
  2. “Patient with deadly MERS virus waited hours in Florida ER”. 2014-05-14. Retrieved 2014-05-14.
  3. “MERS Coronaviruses in Dromedary Camels, Egypt”. June 2014. Retrieved 22 Apr 2014.
  4. “ECDC Rapid Risk Assessment – Severe respiratory disease associated with a novel coronavirus”. 19 Feb 2013. Retrieved 22 Apr 2014.
  5. Saey, Tina Hesman (27 February 2013). “Scientists race to understand deadly new virus: SARS-like infection causes severe illness, but may not spread quickly”. Science News 183 (6). p. 5.
  6. Ali Mohamed Zaki; Sander van Boheemen; Theo M. Bestebroer; Albert D.M.E. Osterhaus; Ron A.M. Fouchier (8 November 2012). “Isolation of a novel coronavirus from a man with pneumonia in Saudi Arabia” (PDF). New England Journal of Medicine 367 (19): 1814. doi:10.1056/NEJMoa1211721.
  7. Falco, Miriam (24 September 2012). “New SARS-like virus poses medical mystery”. CNN. Retrieved 27 September 2012.
  8. Dziadosz, Alexander (13 May 2013). “The doctor who discovered a new SARS-like virus says it will probably trigger an epidemic at some point, but not necessarily in its current form .”. Reuters. Retrieved 25 May 2013.
  9. “See Also”. ProMED-mail. 2012-09-20. Retrieved 2013-05-31.
  10. “Full-Genome Deep Sequencing and Phylogenetic Analysis of Novel Human Betacoronavirus – Vol. 19 No. 5 – May 2013 – CDC”. Emerging Infectious Diseases. 2013-05-19. Retrieved 2013-06-01.
  11. Lau SK, Lee P, Tsang AK, Yip CC, Tse H, Lee RA, Molecular epidemiology of human coronavirus OC43 reveals evolution of different genotypes over time and recent emergence of a novel genotype due to natural recombination. J Virol. 2011;85:11325–37. DOIExtract
  12. Kindler, E.; Jónsdóttir, H. R.; Muth, D.; Hamming, O. J.; Hartmann, R.; Rodriguez, R.; Geffers, R.; Fouchier, R. A.; Drosten, C. (2013). “Efficient Replication of the Novel Human Betacoronavirus EMC on Primary Human Epithelium Highlights Its Zoonotic Potential”. MBio 4 (1): e00611–12. doi:10.1128/mBio.00611-12. PMC 3573664. PMID 23422412.
  13. Raj, V. S.; Mou, H.; Smits, S. L.; Dekkers, D. H.; Müller, M. A.; Dijkman, R.; Muth, D.; Demmers, J. A.; Zaki, A. (March 2013). “Dipeptidyl peptidase 4 is a functional receptor for the emerging human coronavirus-EMC”. Nature 495 (7440): 251–4. doi:10.1038/nature12005. PMID 23486063.
  14. Jia, HP; Look, DC; Shi, L; Hickey, M; Pewe, L; Netland, J; Farzan, M; Wohlford-Lenane, C; Perlman, S (2005-12-xx). “ACE2 Receptor Expression and Severe Acute Respiratory Syndrome Coronavirus Infection Depend on Differentiation of Human Airway Epithelia”. Journal of Virology ( 79 (23): 14614–14621. doi:10.1128/JVI.79.23.14614-14621.2005. PMC 1287568. PMID 16282461.
  15. Müller, MA.; Raj, VS.; Muth, D.; Meyer, B.; Kallies, S.; Smits, SL.; Wollny, R.; Bestebroer, TM.; Specht, S. (11 December 2012). “Human coronavirus EMC does not require the SARS-coronavirus receptor and maintains broad replicative capability in mammalian cell lines”. MBio 3 (6): e00515–12. doi:10.1128/mBio.00515-12. PMC 3520110. PMID 23232719.
  16. “Receptor for new coronavirus found”. 2013-03-13. Retrieved 2013-03-18.
  17. Cui, J.; Eden, J. S.; Holmes, E. C.; Wang, L. F. (2013). “Adaptive evolution of bat dipeptidyl peptidase 4 (dpp4): Implications for the origin and emergence of Middle East respiratory syndrome coronavirus”. Virology Journal 10: 304. doi:10.1186/1743-422X-10-304.
  18. WHO: Novel coronavirus infection – update (13 February 2013) (accessed 13 February 2013)
  19. “WHO calls Middle Eastern virus, MERS, ‘threat to the entire world’ as death toll rises to 27”. Daily Mail. 29 May 2013. Retrieved 29 May 2013.
  20. “Fauci: New Virus Not Yet a ‘threat to the world’ (video)”. Washington Times. 2012-08-31. Retrieved 2013-05-31.
  21. Knickmeyer, Ellen; Al Omran, Ahmed (20 Apr 2014). “Concerns Spread as New Saudi MERS Cases Spike”. Retrieved 22 Apr 2014.
  22. [1], Centers for Disease Control and Prevention FAQ on MERS
  23. DENISE GRADY (June 19, 2013). “Investigation Follows Trail of a Virus in Hospitals”.
  24. Doucleff, Michaeleen (28 September 2012). “Holy Bat Virus! Genome Hints At Origin Of SARS-Like Virus”. NPR. Retrieved 29 September 2012.
  25. Abedine, Saad (13 March 2013). “Death toll from new SARS-like virus climbs to 9”. CNN. Retrieved 2013-03-13.
  26. Doucleff, Michaeleen (28 September 2012). “Holy Bat Virus! Genome Hints At Origin Of SARS-Like Virus”. NPR. Retrieved 29 September 2012.
  27. jobs (2013-08-23). “Deadly coronavirus found in bats : Nature News & Comment”. Retrieved 2014-01-19.
  28. Augustina Annan; Heather J. Baldwin; Victor Max Corman (March 2013). “Human Betacoronavirus 2c EMC/2012–related Viruses in Bats, Ghana and Europe”. Emerging Infectious Disease journal – CDC 19 (3). Retrieved 20 March 2013.
  29. Hemida first=Maged G; Chu, Daniel KW; Poon, Ranawaka; Perera, Mohammad A A; Ng, Hoiyee-Y (Jul 2014). “MERS coronavirus in dromedary camel herd, Saudi Arabia.”. Retrieved 22 Apr 2014. “The full-genome sequence of MERS-CoV from dromedaries in this study is 99.9% similar to genomes of human clade B MERS-CoV.”
  30. Roos, Robert (17 Apr 2014). “MERS outbreaks grow; Malaysian case had camel link”. Retrieved 22 Apr 2014.
  31. Reusken, C. B. E. M.; Haagmans, B. L.; Müller, M. A.; Gutierrez, C.; Godeke, G. J.; Meyer, B.; Muth, D.; Raj, V. S.; Smits-De Vries, L.; Corman, V. M.; Drexler, J. F.; Smits, S. L.; El Tahir, Y. E.; De Sousa, R.; van Beek, J.; Nowotny, N.; van Maanen, K.; Hidalgo-Hermoso, E.; Bosch, B. J.; Rottier, P.; Osterhaus, A.; Gortázar-Schmidt, C.; Drosten, C.; Koopmans, M. P. G. (2013). “Middle East respiratory syndrome coronavirus neutralising serum antibodies in dromedary camels: a comparative serological study”. Lancet (Elsevier Ltd). doi:10.1016/S1473-3099.2813.2970164-6.
  32. “Camels May Transmit New Middle Eastern Virus”. 8 August 2013. Retrieved 8 August 2013.
  33. “Three camels hit by MERS coronavirus in Qatar”. Qatar Supreme Council of Health. Retrieved 28 November 2013.
  34. Hemida, MG (2013). “Middle East Respiratory Syndrome (MERS) coronavirus seroprevalence in domestic livestock in Saudi Arabia, 2010 to 2013”. Euro Surveillance 18 (50).
  35. “Middle East respiratory syndrome coronavirus (MERS‐CoV)Summary and literature update – as of 27 March2014”. 27 Mar 2014. Retrieved 24 Apr 2014.
  36. Roos, Robert (25 September 2013). UK agency picks name for new coronavirus isolate (Report). University of Minnesota, Minneapolis, MN: Center for Infectious Disease Research & Policy (CIDRAP).
  37. Bermingham, A.; Chand, MA.; Brown, CS.; Aarons, E.; Tong, C.; Langrish, C.; Hoschler, K.; Brown, K.; Galiano, M. (27 September 2012). “Severe respiratory illness caused by a novel coronavirus, in a patient transferred to the United Kingdom from the Middle East, September 2012” (PDF). Euro Surveillance 17 (40): 20290. PMID 23078800.
  38. “New Coronavirus Has Many Potential Hosts, Could Pass from Animals to Humans Repeatedly”. ScienceDaily. Retrieved 13 December 2012.
  39. “Pandemic preparedness: Coming, ready or not”. The Economist. 20 April 2013.
  40. “Egyptian Virologist Who Discovered New SARS-Like Virus Fears Its Spread”. Mpelembe. 13 May 2013. Retrieved 25 May 2013.
  41. Ian Sample; Mark Smith (15 March 2013). “Coronavirus victim’s widow tells of grief as scientists scramble for treatment”. The Guardian. Retrieved 25 May 2013.
  42. Sample, Ian (15 March 2013). “Coronavirus: Is this the next pandemic?”. The Guardian. Retrieved 25 May 2 13.
  43. Yang, Jennifer (21 October 2012). “How medical sleuths stopped a deadly new SARS-like virus in its tracks”. Toronto Star. Retrieved 25 May 2013.
  44. “WHO urges information sharing over novel coronavirus”. BBC News. 23 May 2013.
  45. “Erasmus MC: no restrictions for public health research into MERS coronavirus” (Press release). Rotterdam: Erasmus MC. 24 May 2013.
  46. “Corona Map” (Press release). 2 May 2014.

External links


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