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Transmission and evolution of the Middle East respiratory syndrome coronavirus in Saudi Arabia: a descriptive genomic study
Matthew Cotten, Simon J Watson, Paul Kellam, Abdullah A Al-Rabeeah, Hatem Q Makhdoom, Abdullah Assiri, Jaffar A Al-Tawfiq, Rafat F Alhakeem, Hossam Madani, Fahad A AlRabiah, Sami Al Hajjar, Wafa N Al-nassir, Ali Albarrak, Hesham Flemban, Hanan H Balkhy, Sarah Alsubaie, Anne L Palser, Astrid Gall, Rachael Bashford-Rogers, Andrew Rambaut, Alimuddin I Zumla, Ziad A Memish The Lancet 20 September 2013 (Article in Press DOI: 10.1016/S0140-6736(13)61887-5)
Background
Since June, 2012, Middle East respiratory syndrome coronavirus (MERS-CoV) has, worldwide, caused 104 infections in people including 49 deaths, with 82 cases and 41 deaths reported from Saudi Arabia. In addition to confirming diagnosis, we generated the MERS-CoV genomic sequences obtained directly from patient samples to provide important information on MERS-CoV transmission, evolution, and origin.
Methods
Full genome deep sequencing was done on nucleic acid extracted directly from PCR-confirmed clinical samples. Viral genomes were obtained from 21 MERS cases of which 13 had 100%, four 85?95%, and four 30?50% genome coverage. Phylogenetic analysis of the 21 sequences, combined with nine published MERS-CoV genomes, was done.
Findings
Three distinct MERS-CoV genotypes were identified in Riyadh. Phylogeographic analyses suggest the MERS-CoV zoonotic reservoir is geographically disperse. Selection analysis of the MERS-CoV genomes reveals the expected accumulation of genetic diversity including changes in the S protein. The genetic diversity in the Al-Hasa cluster suggests that the hospital outbreak might have had more than one virus introduction.
Interpretation
We present the largest number of MERS-CoV genomes (21) described so far. MERS-CoV full genome sequences provide greater detail in tracking transmission. Multiple introductions of MERS-CoV are identified and suggest lower R0 values. Transmission within Saudi Arabia is consistent with either movement of an animal reservoir, animal products, or movement of infected people. Further definition of the exposures responsible for the sporadic introductions of MERS-CoV into human populations is urgently needed.
Full text available with free registration and login at: http://www.thelancet.com/journals/lancet/article/PIIS0140-6736%2813%2961887-5/abstract
Or from ScienceDirect at: http://www.sciencedirect.com/science...40673613618875
Matthew Cotten, Simon J Watson, Paul Kellam, Abdullah A Al-Rabeeah, Hatem Q Makhdoom, Abdullah Assiri, Jaffar A Al-Tawfiq, Rafat F Alhakeem, Hossam Madani, Fahad A AlRabiah, Sami Al Hajjar, Wafa N Al-nassir, Ali Albarrak, Hesham Flemban, Hanan H Balkhy, Sarah Alsubaie, Anne L Palser, Astrid Gall, Rachael Bashford-Rogers, Andrew Rambaut, Alimuddin I Zumla, Ziad A Memish The Lancet 20 September 2013 (Article in Press DOI: 10.1016/S0140-6736(13)61887-5)
Background
Since June, 2012, Middle East respiratory syndrome coronavirus (MERS-CoV) has, worldwide, caused 104 infections in people including 49 deaths, with 82 cases and 41 deaths reported from Saudi Arabia. In addition to confirming diagnosis, we generated the MERS-CoV genomic sequences obtained directly from patient samples to provide important information on MERS-CoV transmission, evolution, and origin.
Methods
Full genome deep sequencing was done on nucleic acid extracted directly from PCR-confirmed clinical samples. Viral genomes were obtained from 21 MERS cases of which 13 had 100%, four 85?95%, and four 30?50% genome coverage. Phylogenetic analysis of the 21 sequences, combined with nine published MERS-CoV genomes, was done.
Findings
Three distinct MERS-CoV genotypes were identified in Riyadh. Phylogeographic analyses suggest the MERS-CoV zoonotic reservoir is geographically disperse. Selection analysis of the MERS-CoV genomes reveals the expected accumulation of genetic diversity including changes in the S protein. The genetic diversity in the Al-Hasa cluster suggests that the hospital outbreak might have had more than one virus introduction.
Interpretation
We present the largest number of MERS-CoV genomes (21) described so far. MERS-CoV full genome sequences provide greater detail in tracking transmission. Multiple introductions of MERS-CoV are identified and suggest lower R0 values. Transmission within Saudi Arabia is consistent with either movement of an animal reservoir, animal products, or movement of infected people. Further definition of the exposures responsible for the sporadic introductions of MERS-CoV into human populations is urgently needed.
Full text available with free registration and login at: http://www.thelancet.com/journals/lancet/article/PIIS0140-6736%2813%2961887-5/abstract
Or from ScienceDirect at: http://www.sciencedirect.com/science...40673613618875
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