Severe acute respiratory syndrome coronavirus 2
|Severe acute respiratory syndrome coronavirus 2|
|Transmission electron micrograph of SARS-CoV-2 virions with visible coronae|
|Illustration of a SARS-CoV-2 virion|
Severe acute respiratory syndrome coronavirus 2
Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) is the strain of coronavirus that causes coronavirus disease 2019 (COVID-19), a respiratory illness. Colloquially known as coronavirus, it was previously referred to by its provisional name 2019 novel coronavirus (2019-nCoV). As described by the National Institutes of Health, it is the successor to SARS-CoV-1. SARS-CoV-2 is a positive-sense single-stranded RNA virus. It is contagious in humans, and the World Health Organization (WHO) has designated the ongoing pandemic of COVID-19 a Public Health Emergency of International Concern.
Taxonomically, SARS-CoV-2 is a strain of severe acute respiratory syndrome-related coronavirus (SARSr-CoV). It is believed to have zoonotic origins and has close genetic similarity to bat coronaviruses, suggesting it emerged from a bat-borne virus. There is no evidence yet to link an intermediate animal reservoir, such as a pangolin, to its introduction to humans. The virus shows little genetic diversity, indicating that the spillover event introducing SARS-CoV-2 to humans is likely to have occurred in late 2019.
Epidemiological studies estimate each infection results in 1.4 to 3.9 new ones when no members of the community are immune and no preventive measures taken. The virus primarily spreads between people through close contact and via respiratory droplets produced from coughs or sneezes. It mainly enters human cells by binding to the receptor angiotensin converting enzyme 2 (ACE2).
During the initial outbreak in Wuhan, China, the virus was commonly referred to as "coronavirus", "Wuhan coronavirus", or "Wuhan virus". In January 2020, the World Health Organisation recommended "2019 novel coronavirus" (2019-nCov) as the provisional name for the virus. This was in accordance with WHO's 2015 guidance against using geographical locations (e.g. Wuhan), animal species, or groups of people in disease and virus names. On 11 February 2020, the International Committee on Taxonomy of Viruses adopted the official name "severe acute respiratory syndrome coronavirus 2" (SARS-CoV-2). To avoid confusion with the disease SARS, the WHO sometimes refers to SARS-CoV-2 as "the COVID-19 virus" in public health communications. The general public often call both SARS-CoV-2 and the disease it causes "coronavirus". In March 2020, U.S. President Donald Trump referred to the virus as the "Chinese virus" in tweets, interviews, and White House press briefings. Trump stopped using the term by 23 March 2020, citing issues of social stigma.
Infection and transmission
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Human-to-human transmission of SARS-CoV-2 was confirmed on 20 January 2020, during the COVID-19 pandemic. Transmission occurs primarily via respiratory droplets from coughs and sneezes within a range of about 1.8 metres (6 ft). Indirect contact via contaminated surfaces is another possible cause of infection. Preliminary research indicates that the virus may remain viable on plastic (polypropylene) and stainless steel (AISI 304) for up to three days, but does not survive on cardboard for more than one day or on copper for more than four hours; the virus is inactivated by soap, which destabilises its lipid bilayer. Viral RNA has also been found in stool samples and semen from infected individuals.
The degree to which the virus is infectious during the incubation period is uncertain, but research has indicated that the pharynx reaches peak viral load approximately four days after infection or the first week of symptoms, and declines after. On 1 February 2020, the World Health Organization (WHO) indicated that "transmission from asymptomatic cases is likely not a major driver of transmission". However, an epidemiological model of the beginning of the outbreak in China suggested that "pre-symptomatic shedding may be typical among documented infections" and that subclinical infections may have been the source of a majority of infections. Similarly, a study of ninety-four patients hospitalized in January and February 2020 estimated patients shed the greatest amount of virus two to three days before symptoms appear and that "a substantial proportion of transmission probably occurred before first symptoms in the index case".
There is some evidence of human-to-animal transmission of SARS-CoV-2, including examples in felids. Some institutions have advised those infected with SARS-CoV-2 to restrict contact with animals.
Reservoir and zoonotic origin
The first known infections from the SARS-CoV-2 strain were discovered in Wuhan, China. The original source of viral transmission to humans remains unclear, as does whether the strain became pathogenic before or after the spillover event. Because many of the first individuals found to be infected by the virus were workers at the Huanan Seafood Market, it has been suggested that the strain might have originated from the market. However, other research indicates that visitors may have introduced the virus to the market, which then facilitated rapid expansion of the infections.
Research into the natural reservoir of the virus strain that caused the 2002–2004 SARS outbreak has resulted in the discovery of many SARS-like bat coronaviruses, most originating in the Rhinolophus genus of horseshoe bats. Phylogenetic analysis indicates that samples taken from Rhinolophus sinicus show a resemblance of 80% to SARS-CoV-2. Phylogenetic analysis also indicates that a virus from Rhinolophus affinis, collected in Yunnan province and designated RaTG13, has a 96% resemblance to SARS-CoV-2.
Bats were initially considered to be the most likely natural reservoir of SARS-CoV-2, but differences between the bat coronavirus sampled at the time and SARS-CoV-2 suggested that humans were infected via an intermediate host. Arinjay Banerjee at McMaster University notes that "the SARS virus shared 99.8% of its genome with a civet coronavirus, which is why civets were considered the source." Although studies had suggested some likely candidates, the number and identities of intermediate hosts remains uncertain. Nearly half of the strain's genome had a phylogenetic lineage distinct from known relatives.
A metagenomics study published in 2019 previously revealed that SARS-CoV, the strain of the virus that causes SARS, was the most widely distributed coronavirus among a sample of Sunda pangolins. On 7 February 2020, South China Agricultural University in Guangzhou announced that researchers had discovered a pangolin sample with a particular coronavirus; a single nucleic acid sequence of the virus was "99% similar" to that of a protein-coding RNA of SARS-CoV-2. The authors state that "the receptor-binding domain of the S protein [that binds to the cell surface receptor during infection] of the newly discovered Pangolin-CoV is virtually identical to that of 2019-nCoV, with one amino acid difference." Pangolins are protected under Chinese law, but their poaching and trading for use in traditional Chinese medicine remains common.
A phylogenetics study published in 2020 indicates that pangolins are a reservoir host of SARS-CoV-2-like coronaviruses. However, there is no evidence to link pangolins as an intermediate host of SARS-CoV-2 at this moment. While there is scientific consensus that bats are the ultimate source of coronaviruses, it is hypothesized that a SARS-CoV-2-like coronavirus originated in pangolins, jumped back to bats, and then jumped to humans, resulting in SARS-CoV-2. Based on whole genome sequence similarity, a pangolin coronavirus candidate strain was found to be less similar than RaTG13, but more similar than other bat coronaviruses to SARS-CoV-2. Therefore, based on maximum parsimony, a specific population of bats is more likely to have directly transmitted SARS-CoV-2 to humans than a pangolin, while an evolutionary ancestor to bats was the source of general coronaviruses. Microbiologists and geneticists in Texas have independently found evidence of reassortment in coronaviruses suggesting involvement of pangolins in the origin of SARS-CoV-2.
It is unlikely that SARS-CoV-2 was genetically engineered. According to computational simulations on protein folding, the RBD of the spike protein of SARS-CoV-2 should have unremarkable binding affinity. In actuality, however, it has very efficient binding to the human ACE2 receptor. Additionally, the backbone of the virus does not resemble any previously described in scientific literature used for genetic modification. The possibility that the virus could have gained the necessary adaptations through cell culture in a laboratory setting is challenged by scientists who assert that "the generation of the predicted O-linked glycans... suggest[s] the involvement of an immune system."
Phylogenetics and taxonomy
Genomic organisation of isolate Wuhan-Hu-1, the earliest sequenced sample of SARS-CoV-2
|NCBI genome ID|
|Genome size||29,903 bases|
|Year of completion||2020|
SARS-CoV-2 belongs to the broad family of viruses known as coronaviruses. It is a positive-sense single-stranded RNA (+ssRNA) virus, with a single linear RNA segment. Other coronaviruses are capable of causing illnesses ranging from the common cold to more severe diseases such as Middle East respiratory syndrome (MERS, fatality rate ~34%). It is the seventh known coronavirus to infect people, after 229E, NL63, OC43, HKU1, MERS-CoV, and the original SARS-CoV.
Like the SARS-related coronavirus strain implicated in the 2003 SARS outbreak, SARS-CoV-2 is a member of the subgenus Sarbecovirus (beta-CoV lineage B). Its RNA sequence is approximately 30,000 bases in length. SARS-CoV-2 is unique among known betacoronaviruses in its incorporation of a polybasic cleavage site, a characteristic known to increase pathogenicity and transmissibility in other viruses.
With a sufficient number of sequenced genomes, it is possible to reconstruct a phylogenetic tree of the mutation history of a family of viruses. By 12 January 2020, five genomes of SARS-CoV-2 had been isolated from Wuhan and reported by the Chinese Center for Disease Control and Prevention (CCDC) and other institutions; the number of genomes increased to 42 by 30 January 2020. A phylogenetic analysis of those samples showed they were "highly related with at most seven mutations relative to a common ancestor", implying that the first human infection occurred in November or December 2019. As of 7 May 2020,[update] 4,690 SARS-CoV-2 genomes sampled on six continents were publicly available.
On 11 February 2020, the International Committee on Taxonomy of Viruses announced that according to existing rules that compute hierarchical relationships among coronaviruses on the basis of five conserved sequences of nucleic acids, the differences between what was then called 2019-nCoV and the virus strain from the 2003 SARS outbreak were insufficient to make them separate viral species. Therefore, they identified 2019-nCoV as a strain of Severe acute respiratory syndrome-related coronavirus.
Each SARS-CoV-2 virion is 50–200 nanometres in diameter. Like other coronaviruses, SARS-CoV-2 has four structural proteins, known as the S (spike), E (envelope), M (membrane), and N (nucleocapsid) proteins; the N protein holds the RNA genome, and the S, E, and M proteins together create the viral envelope. The spike protein, which has been imaged at the atomic level using cryogenic electron microscopy, is the protein responsible for allowing the virus to attach to and fuse with the membrane of a host cell.
Protein modeling experiments on the spike protein of the virus soon suggested that SARS-CoV-2 has sufficient affinity to the receptor angiotensin converting enzyme 2 (ACE2) on human cells to use them as a mechanism of cell entry. By 22 January 2020, a group in China working with the full virus genome and a group in the United States using reverse genetics methods independently and experimentally demonstrated that ACE2 could act as the receptor for SARS-CoV-2. Studies have shown that SARS-CoV-2 has a higher affinity to human ACE2 than the original SARS virus strain. SARS-CoV-2 may also use basigin to assist in cell entry.
Initial spike protein priming by transmembrane protease, serine 2 (TMPRSS2) is essential for entry of SARS-CoV-2. After a SARS-CoV-2 virion attaches to a target cell, the cell's protease TMPRSS2 cuts open the spike protein of the virus, exposing a fusion peptide. The virion then releases RNA into the cell and forces the cell to produce and disseminate copies of the virus, which infect more cells.
Based on the low variability exhibited among known SARS-CoV-2 genomic sequences, the strain is thought to have been detected by health authorities within weeks of its emergence among the human population in late 2019. The earliest case of infection currently known is date back to 17 November 2019 or possibly 1 December 2019. The virus subsequently spread to all provinces of China and to more than 150 other countries in Asia, Europe, North America, South America, Africa, and Oceania. Human-to-human transmission of the virus has been confirmed in all these regions. On 30 January 2020, SARS-CoV-2 was designated a Public Health Emergency of International Concern by the WHO, and on 11 March 2020 the WHO declared it a pandemic.
The basic reproduction number (<math>R_0</math>) of the virus has been estimated to be between 1.4 and 3.9. This means each infection from the virus is expected to result in 1.4 to 3.9 new infections when no members of the community are immune and no preventive measures are taken. The reproduction number may be higher in densely populated conditions such as those found on cruise ships. Many forms of preventive efforts may be employed in specific circumstances in order to reduce the propagation of the virus.
There have been about 82,000 confirmed cases of infection in mainland China. While the proportion of infections that result in confirmed cases or progress to diagnosable disease remains unclear, one mathematical model estimated that 75,815 people were infected on 25 January 2020 in Wuhan alone, at a time when the number of confirmed cases worldwide was only 2,015. Before 24 February 2020, over 95% of all deaths from COVID-19 worldwide had occurred in Hubei province, where Wuhan is located. As of 17 May 2020, the percentage had decreased to 1.0%.
As of 17 May 2020, there have been 4,687,320 total confirmed cases of SARS-CoV-2 infection in the ongoing pandemic. The total number of deaths attributed to the virus is 313,127. Many recoveries from confirmed infections go unreported, but at least 1,720,446 people have recovered from confirmed infections.
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