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Variants of SARS-CoV-2

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143-508: Variants of severe acute respiratory syndrome coronavirus 2 ( SARS-CoV-2 ) are viruses that, while similar to the original, have genetic changes that are of enough significance to lead virologists to label them separately. SARS-CoV-2 is the virus that causes coronavirus disease 2019 (COVID-19). Some have been stated, to be of particular importance due to their potential for increased transmissibility, increased virulence, or reduced effectiveness of vaccines against them. These variants contribute to

286-474: A bat SARS-like coronavirus and a pangolin coronavirus through cross-species transmission. The earliest available SARS-CoV-2 viral genomes were collected from patients in December 2019, and Chinese researchers compared these early genomes with bat and pangolin coronavirus strains to estimate the ancestral human coronavirus type; the identified ancestral genome type was labeled "S", and its dominant derived type

429-764: A variant of interest ( VOI ), or in some countries a variant under investigation ( VUI ). During or after fuller assessment as a variant of concern the variant is typically assigned to a lineage in the Pango nomenclature system and to clades in the Nextstrain and GISAID systems. Historically, the WHO regularly listed updates on variants of concern (VOC), which are variants with an increased rate of transmission, virulence, or resistance against mitigations, like vaccines. The variant submissions from member states are then submitted to GISAID , followed by field investigations of

572-601: A variant of interest ( VOI ), or in some countries a variant under investigation ( VUI ). During or after fuller assessment as a variant of concern the variant is typically assigned to a lineage in the Pango nomenclature system and to clades in the Nextstrain and GISAID systems. Historically, the WHO regularly listed updates on variants of concern (VOC), which are variants with an increased rate of transmission, virulence, or resistance against mitigations, like vaccines. The variant submissions from member states are then submitted to GISAID , followed by field investigations of

715-481: A 95% confidence or credibility level, unless otherwise stated. Currently, all estimates are approximations due to the limited availability of data for studies. For Alpha, Beta, Gamma and Delta, there is no change in test accuracy , and neutralising antibody activity is retained by some monoclonal antibodies. PCR tests continue to detect the Omicron variant. The WHO defines a previously circulating variant as

858-421: A 95% confidence or credibility level, unless otherwise stated. Currently, all estimates are approximations due to the limited availability of data for studies. For Alpha, Beta, Gamma and Delta, there is no change in test accuracy , and neutralising antibody activity is retained by some monoclonal antibodies. PCR tests continue to detect the Omicron variant. The WHO defines a previously circulating variant as

1001-474: 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

1144-552: A few nucleotides. Some of the potential consequences of emerging variants are the following: Variants that appear to meet one or more of these criteria may be labelled "variants under investigation" or "variants of interest" pending verification and validation of these properties. The primary characteristic of a variant of interest is that it shows evidence that demonstrates it is the cause of an increased proportion of cases or unique outbreak clusters; however, it must also have limited prevalence or expansion at national levels, or

1287-549: A few nucleotides. Some of the potential consequences of emerging variants are the following: Variants that appear to meet one or more of these criteria may be labelled "variants under investigation" or "variants of interest" pending verification and validation of these properties. The primary characteristic of a variant of interest is that it shows evidence that demonstrates it is the cause of an increased proportion of cases or unique outbreak clusters; however, it must also have limited prevalence or expansion at national levels, or

1430-413: A mink euthanasia campaign rendering it virtually extinct. Each SARS-CoV-2 virion is 60–140 nanometres (2.4 × 10 –5.5 × 10  in) in diameter; its mass within the global human populace has been estimated as being between 0.1 and 10 kilograms. Like other coronaviruses, SARS-CoV-2 has four structural proteins, known as the S ( spike ), E ( envelope ), M ( membrane ), and N ( nucleocapsid ) proteins;

1573-499: A range of animals—such as cats, ferrets, hamsters, non-human primates, minks, tree shrews, raccoon dogs, fruit bats, and rabbits—that are susceptible and permissive to SARS-CoV-2 infection. Some institutions have advised that those infected with SARS‑CoV‑2 restrict their contact with animals. On 1   February 2020, the World Health Organization (WHO) indicated that "transmission from asymptomatic cases

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1716-483: A risk it could be. It is currently regarded as a "variant under investigation", but pending further study, it may become a " variant of concern ". Ravi Gupta , from the University of Cambridge said in a BBC interview that lineage B.1.525 appeared to have "significant mutations" already seen in some of the other newer variants, which means their likely effect is to some extent more predictable. On 18 February 2021,

1859-607: A significant level, not having had a significant impact on the situation, or scientific evidence of the variant not having concerning properties. SARS-CoV-2 Severe acute respiratory syndrome coronavirus 2 ( SARS‑CoV‑2 ) is a strain of coronavirus that causes COVID-19 , the respiratory illness responsible for the COVID-19 pandemic . The virus previously had the provisional name 2019 novel coronavirus ( 2019-nCoV ), and has also been called human coronavirus 2019 ( HCoV-19 or hCoV-19 ). First identified in

2002-430: A single linear RNA segment. Coronaviruses infect humans, other mammals, including livestock and companion animals, and avian species. Human 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%). SARS-CoV-2 is the seventh known coronavirus to infect people, after 229E , NL63 , OC43 , HKU1 , MERS-CoV , and

2145-412: A site. The furin cleavage site PRRAR↓ is highly similar to that of the feline coronavirus , an alphacoronavirus 1 strain. Viral genetic sequence data can provide critical information about whether viruses separated by time and space are likely to be epidemiologically linked. With a sufficient number of sequenced genomes , it is possible to reconstruct a phylogenetic tree of the mutation history of

2288-458: A variant that "has demonstrated to no longer pose a major added risk to global public health compared to other circulating SARS-CoV-2 variants", but should still be monitored. On 15 March 2023, the WHO released an update on the tracking system of VOCs, announcing that only VOCs will be assigned Greek letters. The variants listed below had previously been designated as variants of concern, but were displaced by other variants. As of May 2022 ,

2431-455: A variant that "has demonstrated to no longer pose a major added risk to global public health compared to other circulating SARS-CoV-2 variants", but should still be monitored. On 15 March 2023, the WHO released an update on the tracking system of VOCs, announcing that only VOCs will be assigned Greek letters. The variants listed below had previously been designated as variants of concern, but were displaced by other variants. As of May 2022,

2574-650: A variant which was designated as lineage P.3. On the same day, it also confirmed the first COVID-19 case caused by the Gamma variant in the country. The Philippines had 98 cases of the Theta variant on 13 March. On 12 March it was announced that Theta had also been detected in Japan. On 17 March, the United Kingdom confirmed its first two cases, where PHE termed it VUI-21MAR-02. On 30 April 2021, Malaysia detected 8 cases of

2717-515: Is a common last name . In the event that the WHO uses the entirety of the Greek alphabet, the agency considered naming future variants after constellations . While there are many thousands of variants of SARS-CoV-2, subtypes of the virus can be put into larger groupings such as lineages or clades . Three main, generally used nomenclatures have been proposed: Each national public health institute may also institute its own nomenclature system for

2860-458: Is a common last name . In the event that the WHO uses the entirety of the Greek alphabet, the agency considered naming future variants after constellations . While there are many thousands of variants of SARS-CoV-2, subtypes of the virus can be put into larger groupings such as lineages or clades . Three main, generally used nomenclatures have been proposed: Each national public health institute may also institute its own nomenclature system for

3003-559: Is a descendant of B.1.1.28, the name B.1.1.28.1 is not permitted and thus the resultant name is P.1), and has 17 unique amino acid changes, 10 of which in its spike protein, including the three concerning mutations: N501Y , E484K and K417T. The N501Y and E484K mutations favour the formation of a stable RBD-hACE2 complex, thus, enhancing the binding affinity of RBD to hACE2. However, the K417T mutation disfavours complex formation between RBD and hACE2, which has been demonstrated to reduce

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3146-500: Is a descendant of B.1.1.28, the name B.1.1.28.1 is not permitted and thus the resultant name is P.1), and has 17 unique amino acid changes, 10 of which in its spike protein, including the three concerning mutations: N501Y , E484K and K417T. The N501Y and E484K mutations favour the formation of a stable RBD-hACE2 complex, thus, enhancing the binding affinity of RBD to hACE2. However, the K417T mutation disfavours complex formation between RBD and hACE2, which has been demonstrated to reduce

3289-508: Is airborne and primarily spreads between people through close contact and via aerosols and respiratory droplets that are exhaled when talking, breathing, or otherwise exhaling, as well as those produced from coughs and sneezes. It enters human cells by binding to angiotensin-converting enzyme 2 (ACE2), a membrane protein that regulates the renin–angiotensin system. During the initial outbreak in Wuhan , China, various names were used for

3432-501: Is also known as 20I (V1), 20I/501Y.V1 (formerly 20B/501Y.V1), or 501Y.V1. From October to December 2020, its prevalence doubled every 6.5 days, the presumed generational interval. It is correlated with a significant increase in the rate of COVID-19 infection in United Kingdom , associated partly with the N501Y mutation. There was some evidence that this variant had 40–80% increased transmissibility (with most estimates lying around

3575-441: Is also known as 20I (V1), 20I/501Y.V1 (formerly 20B/501Y.V1), or 501Y.V1. From October to December 2020, its prevalence doubled every 6.5 days, the presumed generational interval. It is correlated with a significant increase in the rate of COVID-19 infection in United Kingdom , associated partly with the N501Y mutation. There was some evidence that this variant had 40–80% increased transmissibility (with most estimates lying around

3718-477: 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 it 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 destabilizes its lipid bilayer . Viral RNA has also been found in stool samples and semen from infected individuals. The degree to which

3861-425: Is approximately 30,000 bases in length, relatively long for a coronavirus—which in turn carry the largest genomes among all RNA families. Its genome consists nearly entirely of protein-coding sequences, a trait shared with other coronaviruses. A distinguishing feature of SARS‑CoV‑2 is its incorporation of a polybasic site cleaved by furin , which appears to be an important element enhancing its virulence. It

4004-642: Is currently not known when the index case or "patient zero" occurred, the choice of reference sequence for a given study is relatively arbitrary, with different notable research studies' choices varying as follows: The variant first sampled and identified in Wuhan, China is considered by researchers to differ from the progenitor genome by three mutations. Subsequently, many distinct lineages of SARS-CoV-2 have evolved. The following table presents information and relative risk level for currently and formerly circulating variants of concern (VOC). The intervals assume

4147-585: Is currently not known when the index case or "patient zero" occurred, the choice of reference sequence for a given study is relatively arbitrary, with different notable research studies' choices varying as follows: The variant first sampled and identified in Wuhan, China is considered by researchers to differ from the progenitor genome by three mutations. Subsequently, many distinct lineages of SARS-CoV-2 have evolved. The following table presents information and relative risk level for currently and formerly circulating variants of concern (VOC). The intervals assume

4290-453: Is likely not a major driver of transmission". One meta-analysis found that 17% of infections are asymptomatic, and asymptomatic individuals were 42% less likely to transmit the virus. 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

4433-425: Is more frequently resulting in serious illness in those cases. The South African health department also indicated that the variant may be driving the second wave of the COVID-19 epidemic in the country due to the variant spreading at a more rapid pace than other earlier variants of the virus. Scientists noted that the variant contains several mutations that allow it to attach more easily to human cells because of

Variants of SARS-CoV-2 - Misplaced Pages Continue

4576-421: Is more frequently resulting in serious illness in those cases. The South African health department also indicated that the variant may be driving the second wave of the COVID-19 epidemic in the country due to the variant spreading at a more rapid pace than other earlier variants of the virus. Scientists noted that the variant contains several mutations that allow it to attach more easily to human cells because of

4719-628: Is of the same lineage in the Pango nomenclature system, but has an additional E484K mutation. As of 17 March 2021, there were 39 confirmed cases of VOC -21FEB-02 in the UK. On 4 March 2021, scientists reported B.1.1.7 with E484K mutations in the state of Oregon . In 13 test samples analysed, one had this combination, which appeared to have arisen spontaneously and locally, rather than being imported. Other names for this variant include B.1.1.7+E484K and B.1.1.7 Lineage with S:E484K. On 18 December 2020,

4862-522: Is of the same lineage in the Pango nomenclature system, but has an additional E484K mutation. As of 17 March 2021, there were 39 confirmed cases of VOC -21FEB-02 in the UK. On 4 March 2021, scientists reported B.1.1.7 with E484K mutations in the state of Oregon . In 13 test samples analysed, one had this combination, which appeared to have arisen spontaneously and locally, rather than being imported. Other names for this variant include B.1.1.7+E484K and B.1.1.7 Lineage with S:E484K. On 18 December 2020,

5005-510: Is the protein responsible for allowing the virus to attach to and fuse with the membrane of a host cell; specifically, its S1 subunit catalyzes attachment, the S2 subunit fusion. SARS-CoV-2 variant of concern Variants of severe acute respiratory syndrome coronavirus 2 ( SARS-CoV-2 ) are viruses that, while similar to the original, have genetic changes that are of enough significance to lead virologists to label them separately. SARS-CoV-2

5148-400: Is the virus that causes coronavirus disease 2019 (COVID-19). Some have been stated, to be of particular importance due to their potential for increased transmissibility, increased virulence, or reduced effectiveness of vaccines against them. These variants contribute to the continuation of the COVID-19 pandemic . As of 24 September 2024 , the variants of interest as specified by

5291-553: The 2002–2004 SARS outbreak . There are animal-borne coronavirus strains more closely related to SARS-CoV-2, the most closely known relative being the BANAL-52 bat coronavirus. SARS-CoV-2 is of zoonotic origin; its close genetic similarity to bat coronaviruses suggests it emerged from such a bat-borne virus . Research is ongoing as to whether SARS‑CoV‑2 came directly from bats or indirectly through any intermediate hosts. The virus shows little genetic diversity , indicating that

5434-538: The 501.V2 variant , also known as 501.V2, 20H (V2), 20H/501Y.V2 (formerly 20C/501Y.V2), 501Y.V2, VOC-20DEC-02 (formerly VOC -202012/02), or lineage B.1.351, was first detected in South Africa and reported by the country's health department . It has been labelled as Beta variant by WHO. Researchers and officials reported that the prevalence of the variant was higher among young people with no underlying health conditions, and by comparison with other variants it

5577-473: The 501.V2 variant , also known as 501.V2, 20H (V2), 20H/501Y.V2 (formerly 20C/501Y.V2), 501Y.V2, VOC-20DEC-02 (formerly VOC -202012/02), or lineage B.1.351, was first detected in South Africa and reported by the country's health department . It has been labelled as Beta variant by WHO. Researchers and officials reported that the prevalence of the variant was higher among young people with no underlying health conditions, and by comparison with other variants it

5720-653: The Department of Health of the Philippines confirmed the detection of two mutations of COVID-19 in Central Visayas after samples from patients were sent to undergo genome sequencing. The mutations were later named as E484K and N501Y, which were detected in 37 out of 50 samples, with both mutations co-occurrent in 29 out of these. On 13 March, the Department of Health confirmed the mutations constitutes

5863-676: 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 and the name HCoV-19 was included in some research articles. Referring to COVID-19 as the "Wuhan virus" has been described as dangerous by WHO officials, and as xenophobic by many journalists and academics. Human-to-human transmission of SARS‑CoV‑2

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6006-669: The Oxford–AstraZeneca vaccine is effective against the Gamma variant, although the exact level of efficacy has not yet been released. Preliminary data from a study conducted by Instituto Butantan suggest that CoronaVac is effective against the Gamma variant as well, and as of July 2021 has yet to be expanded to obtain definitive data. On 16 March 2022, the WHO has de-escalated the Gamma variant and its subvariants to "previously circulating variants of concern". The Delta variant, also known as B.1.617.2, G/452R.V3, 21A or 21A/S:478K,

6149-551: The Oxford–AstraZeneca vaccine is effective against the Gamma variant, although the exact level of efficacy has not yet been released. Preliminary data from a study conducted by Instituto Butantan suggest that CoronaVac is effective against the Gamma variant as well, and as of July 2021 has yet to be expanded to obtain definitive data. On 16 March 2022, the WHO has de-escalated the Gamma variant and its subvariants to "previously circulating variants of concern". The Delta variant, also known as B.1.617.2, G/452R.V3, 21A or 21A/S:478K,

6292-612: The University of Cambridge said in a BBC interview that lineage B.1.525 appeared to have "significant mutations" already seen in some of the other newer variants, which means their likely effect is to some extent more predictable. On 18 February 2021, the Department of Health of the Philippines confirmed the detection of two mutations of COVID-19 in Central Visayas after samples from patients were sent to undergo genome sequencing. The mutations were later named as E484K and N501Y, which were detected in 37 out of 50 samples, with both mutations co-occurrent in 29 out of these. On 13 March,

6435-589: The World Health Organization are BA.2.86 and JN.1, and the variants under monitoring are JN.1.7, KP.2, KP.3, KP.3.1.1, JN.1.18, LB.1, and XEC. The origin of SARS-CoV-2 has not been identified. However, the emergence of SARS-CoV-2 may have resulted from recombination events between a bat SARS-like coronavirus and a pangolin coronavirus through cross-species transmission. The earliest available SARS-CoV-2 viral genomes were collected from patients in December 2019, and Chinese researchers compared these early genomes with bat and pangolin coronavirus strains to estimate

6578-469: The index case ". The authors later published a correction that showed that shedding began earlier than first estimated, four to five days before symptoms appear. There is uncertainty about reinfection and long-term immunity. It is not known how common reinfection is, but reports have indicated that it is occurring with variable severity. The first reported case of reinfection was a 33-year-old man from Hong Kong who first tested positive on 26 March 2020,

6721-483: The nasal cavity is seemingly the dominant initial site of infection, with subsequent aspiration -mediated virus-seeding into the lungs in SARS‑CoV‑2 pathogenesis. They found that there was an infection gradient from high in proximal towards low in distal pulmonary epithelial cultures, with a focal infection in ciliated cells and type 2 pneumocytes in the airway and alveolar regions respectively. Studies have identified

6864-420: The spillover event introducing SARS‑CoV‑2 to humans is likely to have occurred in late 2019. Epidemiological studies estimate that in the period between December 2019 and September 2020 each infection resulted in an average of 2.4–3.4 new infections when no members of the community were immune and no preventive measures were taken. However, some subsequent variants have become more infectious. The virus

7007-594: The Delta variant occurred among the fully vaccinated. In June 2021, reports began to appear of a variant of Delta with the K417N mutation. The mutation, also present in the Beta and Gamma variants, raised concerns about the possibility of reduced effectiveness of vaccines and antibody treatments and increased risk of reinfection. The variant, called "Delta with K417N" by Public Health England, includes two clades corresponding to

7150-436: The Delta variant occurred among the fully vaccinated. In June 2021, reports began to appear of a variant of Delta with the K417N mutation. The mutation, also present in the Beta and Gamma variants, raised concerns about the possibility of reduced effectiveness of vaccines and antibody treatments and increased risk of reinfection. The variant, called "Delta with K417N" by Public Health England, includes two clades corresponding to

7293-498: The Department of Health confirmed the mutations constitutes a variant which was designated as lineage P.3. On the same day, it also confirmed the first COVID-19 case caused by the Gamma variant in the country. The Philippines had 98 cases of the Theta variant on 13 March. On 12 March it was announced that Theta had also been detected in Japan. On 17 March, the United Kingdom confirmed its first two cases, where PHE termed it VUI-21MAR-02. On 30 April 2021, Malaysia detected 8 cases of

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7436-576: The Epsilon variant accounted for 36 per cent of samples collected at Cedars-Sinai Medical Center, and by January 2021, the Epsilon variant accounted for 50 per cent of samples. In a joint press release by University of California, San Francisco , California Department of Public Health , and Santa Clara County Public Health Department , the variant was also detected in multiple counties in Northern California. From November to December 2020,

7579-448: The Epsilon variant accounted for 36 per cent of samples collected at Cedars-Sinai Medical Center, and by January 2021, the Epsilon variant accounted for 50 per cent of samples. In a joint press release by University of California, San Francisco , California Department of Public Health , and Santa Clara County Public Health Department , the variant was also detected in multiple counties in Northern California. From November to December 2020,

7722-670: The L452R (previously also detected in other unrelated lineages) was of particular concern. From 17 March to 29 June 2021, the CDC listed B.1.429 and the related B.1.427 as "variants of concern". As of July 2021, Epsilon is no longer considered a variant of interest by the WHO, as it was overtaken by Alpha. From September 2020 to January 2021, it was 19% to 24% more transmissible than earlier variants in California. Neutralisation against it by antibodies from natural infections and vaccinations

7865-502: The L452R (previously also detected in other unrelated lineages) was of particular concern. From 17 March to 29 June 2021, the CDC listed B.1.429 and the related B.1.427 as "variants of concern". As of July 2021, Epsilon is no longer considered a variant of interest by the WHO, as it was overtaken by Alpha. From September 2020 to January 2021, it was 19% to 24% more transmissible than earlier variants in California. Neutralisation against it by antibodies from natural infections and vaccinations

8008-495: The N protein holds the RNA genome, and the S, E, and M proteins together create the viral envelope . Coronavirus S proteins are glycoproteins and also type I membrane proteins (membranes containing a single transmembrane domain oriented on the extracellular side). They are divided into two functional parts (S1 and S2). In SARS-CoV-2, the spike protein, which has been imaged at the atomic level using cryogenic electron microscopy ,

8151-463: The Pango lineages AY.1 and AY.2. It has been nicknamed "Delta plus" from "Delta plus K417N". The name of the mutation, K417N, refers to an exchange whereby lysine (K) is replaced by asparagine (N) at position 417. On 22 June, India's Ministry of Health and Family Welfare declared the "Delta plus" variant of COVID-19 a variant of concern, after 22 cases of the variant were reported in India. After

8294-406: The Pango lineages AY.1 and AY.2. It has been nicknamed "Delta plus" from "Delta plus K417N". The name of the mutation, K417N, refers to an exchange whereby lysine (K) is replaced by asparagine (N) at position 417. On 22 June, India's Ministry of Health and Family Welfare declared the "Delta plus" variant of COVID-19 a variant of concern, after 22 cases of the variant were reported in India. After

8437-454: The S2 domain of the spike protein). As of 5 March 2021, it had been detected in 23 countries. It has also been reported in Mayotte , the overseas department/region of France. The first cases were detected in December 2020 in the UK and Nigeria, and as of 15 February 2021, it had occurred in the highest frequency among samples in the latter country. As of 24 February 56 cases were found in

8580-659: The S2 domain of the spike protein). As of 5 March 2021, it had been detected in 23 countries. It has also been reported in Mayotte , the overseas department/region of France. The first cases were detected in December 2020 in the UK and Nigeria, and as of 15 February 2021, it had occurred in the highest frequency among samples in the latter country. As of 24 February 56 cases were found in the UK. Denmark, which sequences all its COVID-19 cases, found 113 cases of this variant from 14 January to 21 February 2021, of which seven were directly related to foreign travel to Nigeria. As of July 2021, UK experts are studying it to ascertain how much of

8723-401: The SARS‑CoV‑2 genome (matches above 90 percent may sound high, but in genomic terms it is a wide evolutionary gap ). In addition, despite similarities in a few critical amino acids, pangolin virus samples exhibit poor binding to the human ACE2 receptor. SARS‑CoV‑2 belongs to the broad family of viruses known as coronaviruses . It is a positive-sense single-stranded RNA (+ssRNA) virus, with

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8866-559: The Theta variant in Sarawak. As of July 2021, Theta is no longer considered a variant of interest by the WHO. The proportion of USA cases represented by the Iota variant had declined sharply by the end of July 2021 as the Delta variant became dominant. The variants listed below were once listed under variants under monitoring, but were reclassified due to either no longer circulating at

9009-399: The Theta variant in Sarawak. As of July 2021, Theta is no longer considered a variant of interest by the WHO. The proportion of USA cases represented by the Iota variant had declined sharply by the end of July 2021 as the Delta variant became dominant. The variants listed below were once listed under variants under monitoring, but were reclassified due to either no longer circulating at

9152-432: The UK. Denmark, which sequences all its COVID-19 cases, found 113 cases of this variant from 14 January to 21 February 2021, of which seven were directly related to foreign travel to Nigeria. As of July 2021, UK experts are studying it to ascertain how much of a risk it could be. It is currently regarded as a "variant under investigation", but pending further study, it may become a " variant of concern ". Ravi Gupta , from

9295-416: The WHO as alpha , beta , gamma , delta and omicron variants. Early in the pandemic, the relatively low number of infections (compared with later stages of the pandemic) resulted in fewer opportunities for mutation of the viral genome and, therefore, fewer opportunities for the occurrence of differentiated variants. Since the occurrence of variants was rarer, the observation of S-protein mutations in

9438-441: The WHO did so on 7 June 2022. As of 15 March 2023 , The WHO defines a VOI as a variant "with genetic changes that are predicted or known to affect virus characteristics such as transmissibility, virulence, antibody evasion, susceptibility to therapeutics and detectability" and that is circulating more than other variants in over one WHO region to such an extent that a global public health risk can be suggested. Furthermore,

9581-438: The WHO did so on 7 June 2022. As of 15 March 2023, The WHO defines a VOI as a variant "with genetic changes that are predicted or known to affect virus characteristics such as transmissibility, virulence, antibody evasion, susceptibility to therapeutics and detectability" and that is circulating more than other variants in over one WHO region to such an extent that a global public health risk can be suggested. Furthermore,

9724-514: The WHO lists the following under "previously circulating variants of concern": First detected in October 2020 during the COVID-19 pandemic in the United Kingdom from a sample taken the previous month in Kent, lineage B.1.1.7, labelled Alpha variant by the WHO, was previously known as the first Variant Under Investigation in December 2020 (VUI – 202012/01) and later notated as VOC-202012/01. It

9867-403: The WHO lists the following under "previously circulating variants of concern": First detected in October 2020 during the COVID-19 pandemic in the United Kingdom from a sample taken the previous month in Kent, lineage B.1.1.7, labelled Alpha variant by the WHO, was previously known as the first Variant Under Investigation in December 2020 (VUI – 202012/01) and later notated as VOC-202012/01. It

10010-560: The actual impact on the course of the disease is uncertain. A pre-print study by the Oswaldo Cruz Foundation published in early April found that the real-world performance of people with the initial dose of the Sinovac 's Coronavac Vaccine had approximately 50% efficacy rate. They expected the efficacy to be higher after the 2nd dose. As of July 2021, the study is ongoing. Preliminary data from two studies indicate that

10153-429: The actual impact on the course of the disease is uncertain. A pre-print study by the Oswaldo Cruz Foundation published in early April found that the real-world performance of people with the initial dose of the Sinovac 's Coronavac Vaccine had approximately 50% efficacy rate. They expected the efficacy to be higher after the 2nd dose. As of July 2021, the study is ongoing. Preliminary data from two studies indicate that

10296-598: The amino acid sequence P RR A . This sequence is upstream of an arginine and serine which forms the S1/S2 cleavage site ( P RR A R ↓ S ) of the spike protein. Although such sites are a common naturally-occurring feature of other viruses within the Subfamily Orthocoronavirinae, it appears in few other viruses from the Beta-CoV genus, and it is unique among members of its subgenus for such

10439-439: The ancestral human coronavirus type; the identified ancestral genome type was labeled "S", and its dominant derived type was labeled "L" to reflect the mutant amino acid changes. Independently, Western researchers carried out similar analyses but labeled the ancestral type "A" and the derived type "B". The B-type mutated into further types including B.1, which is the ancestor of the major global variants of concern, labeled in 2021 by

10582-474: The announcement, leading virologists said there was insufficient data to support labelling the variant as a distinct variant of concern, pointing to the small number of patients studied. In the UK in July 2021, AY.4.2 was identified. Alongside those previously mentioned it also gained the nickname 'Delta Plus', on the strength of its extra mutations, Y145H and A222V. These are not unique to it, but distinguish it from

10725-422: The announcement, leading virologists said there was insufficient data to support labelling the variant as a distinct variant of concern, pointing to the small number of patients studied. In the UK in July 2021, AY.4.2 was identified. Alongside those previously mentioned it also gained the nickname 'Delta Plus', on the strength of its extra mutations, Y145H and A222V. These are not unique to it, but distinguish it from

10868-469: The binding affinity. The new variant was absent in samples collected from March to November 2020 in Manaus , Amazonas state, but it was detected for the same city in 42% of the samples from 15 to 23 December 2020, followed by 52.2% during 15–31 December and 85.4% during 1–9 January 2021. A study found that infections by Gamma can produce nearly ten times more viral load compared to persons infected by one of

11011-415: The binding affinity. The new variant was absent in samples collected from March to November 2020 in Manaus , Amazonas state, but it was detected for the same city in 42% of the samples from 15 to 23 December 2020, followed by 52.2% during 15–31 December and 85.4% during 1–9 January 2021. A study found that infections by Gamma can produce nearly ten times more viral load compared to persons infected by one of

11154-404: The city of Wuhan , Hubei, China, the World Health Organization designated the outbreak a public health emergency of international concern from January 30, 2020, to May 5, 2023. SARS‑CoV‑2 is a positive-sense single-stranded RNA virus that is contagious in humans. SARS‑CoV‑2 is a strain of the species Betacoronavirus pandemicum (SARSr-CoV), as is SARS-CoV-1 , the virus that caused

11297-459: The classification would be elevated to a " variant of concern ". If there is clear evidence that the effectiveness of prevention or intervention measures for a particular variant is substantially reduced, that variant is termed a "variant of high consequence". SARS-CoV-2 variants are grouped according to their lineage and component mutations. Many organisations, including governments and news outlets, referred colloquially to concerning variants by

11440-455: The classification would be elevated to a " variant of concern ". If there is clear evidence that the effectiveness of prevention or intervention measures for a particular variant is substantially reduced, that variant is termed a "variant of high consequence". SARS-CoV-2 variants are grouped according to their lineage and component mutations. Many organisations, including governments and news outlets, referred colloquially to concerning variants by

11583-411: The continuation of the COVID-19 pandemic . As of 24 September 2024, the variants of interest as specified by the World Health Organization are BA.2.86 and JN.1, and the variants under monitoring are JN.1.7, KP.2, KP.3, KP.3.1.1, JN.1.18, LB.1, and XEC. The origin of SARS-CoV-2 has not been identified. However, the emergence of SARS-CoV-2 may have resulted from recombination events between

11726-405: The country in which they were first identified. After months of discussions, the World Health Organization announced Greek-letter names for important strains on 31 May 2021, so they could be easily referred to in a simple, easy to say, and non-stigmatising fashion. This decision may have partially been taken because of criticism from governments on using country names to refer to variants of

11869-399: The country in which they were first identified. After months of discussions, the World Health Organization announced Greek-letter names for important strains on 31 May 2021, so they could be easily referred to in a simple, easy to say, and non-stigmatising fashion. This decision may have partially been taken because of criticism from governments on using country names to refer to variants of

12012-418: The differences between what was then called 2019-nCoV and the virus from the 2003 SARS outbreak were insufficient to make them separate viral species . Therefore, they identified 2019-nCoV as a virus of Severe acute respiratory syndrome–related coronavirus . In July 2020, scientists reported that a more infectious SARS‑CoV‑2 variant with spike protein variant G614 has replaced D614 as the dominant form in

12155-495: The evolution of SARS-CoV-2's genome (by means of random mutations) led to mutant specimens of the virus (i.e., genetic variants), observed to be more transmissible, to be naturally selected. Notably, both the Alpha and the Delta variants were observed to be more transmissible than previously identified viral strains. Some SARS-CoV-2 variants are considered to be of concern as they maintain (or even increase) their replication fitness in

12298-790: The face of rising population immunity, either by infection recovery or via vaccination. Some of the variants of concern show mutations in the RBD of the S-protein. The term variant of concern ( VOC ) for SARS-CoV-2 , which causes COVID-19 , is a category used for variants of the virus where mutations in their spike protein receptor binding domain (RBD) substantially increase binding affinity (e.g., N501Y) in RBD-hACE2 complex (genetic data), while also being linked to rapid spread in human populations (epidemiological data). Before being allocated to this category, an emerging variant may have been labeled

12441-624: The face of rising population immunity, either by infection recovery or via vaccination. Some of the variants of concern show mutations in the RBD of the S-protein. The term variant of concern ( VOC ) for SARS-CoV-2 , which causes COVID-19 , is a category used for variants of the virus where mutations in their spike protein receptor binding domain (RBD) substantially increase binding affinity (e.g., N501Y) in RBD-hACE2 complex (genetic data), while also being linked to rapid spread in human populations (epidemiological data). Before being allocated to this category, an emerging variant may have been labeled

12584-645: The first human infection occurred in November or December 2019. Examination of the topology of the phylogenetic tree at the start of the pandemic also found high similarities between human isolates. As of 21 August 2021, 3,422 SARS‑CoV‑2 genomes, belonging to 19 strains, sampled on all continents except Antarctica 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 based on five conserved sequences of nucleic acids,

12727-495: The first infection, but the mechanisms that could account for this are not known. No natural reservoir for SARS-CoV-2 has been identified. Prior to the emergence of SARS-CoV-2 as a pathogen infecting humans, there had been two previous zoonosis -based coronavirus epidemics, those caused by SARS-CoV-1 and MERS-CoV . The first known infections from SARS‑CoV‑2 were discovered in Wuhan, China. The original source of viral transmission to humans remains unclear, as does whether

12870-527: The following three mutations in the receptor-binding domain (RBD) in the spike glycoprotein of the virus: N501Y , K417N, and E484K . The N501Y mutation has also been detected in the United Kingdom. On 16 March 2022, the WHO has de-escalated the Beta variant and its subvariants to "previously circulating variants of concern". The Gamma variant or lineage P.1, termed Variant of Concern 21JAN-02 (formerly VOC-202101/02) by Public Health England, 20J (V3) or 20J/501Y.V3 by Nextstrain , or just 501Y.V3,

13013-515: The following three mutations in the receptor-binding domain (RBD) in the spike glycoprotein of the virus: N501Y , K417N, and E484K . The N501Y mutation has also been detected in the United Kingdom. On 16 March 2022, the WHO has de-escalated the Beta variant and its subvariants to "previously circulating variants of concern". The Gamma variant or lineage P.1, termed Variant of Concern 21JAN-02 (formerly VOC-202101/02) by Public Health England, 20J (V3) or 20J/501Y.V3 by Nextstrain , or just 501Y.V3,

13156-482: The frequency of the variant in sequenced cases from Northern California rose from 3% to 25%. In a preprint, CAL.20C is described as belonging to clade 20C and contributing approximately 36% of samples, while an emerging variant from the 20G clade accounts for some 24% of the samples in a study focused on Southern California. Note, however, that in the US as a whole, the 20G clade predominates, as of January 2021. Following

13299-432: The frequency of the variant in sequenced cases from Northern California rose from 3% to 25%. In a preprint, CAL.20C is described as belonging to clade 20C and contributing approximately 36% of samples, while an emerging variant from the 20G clade accounts for some 24% of the samples in a study focused on Southern California. Note, however, that in the US as a whole, the 20G clade predominates, as of January 2021. Following

13442-600: The increasing numbers of Epsilon in California, the variant has been detected at varying frequencies in most US states. Small numbers have been detected in other countries in North America, and in Europe, Asia and Australia. After an initial increase, its frequency rapidly dropped from February 2021 as it was being outcompeted by the more transmissible Alpha . In April, Epsilon remained relatively frequent in parts of northern California, but it had virtually disappeared from

13585-482: The increasing numbers of Epsilon in California, the variant has been detected at varying frequencies in most US states. Small numbers have been detected in other countries in North America, and in Europe, Asia and Australia. After an initial increase, its frequency rapidly dropped from February 2021 as it was being outcompeted by the more transmissible Alpha . In April, Epsilon remained relatively frequent in parts of northern California, but it had virtually disappeared from

13728-510: The middle to higher end of this range), and early analyses suggested an increase in lethality, though later work found no evidence of increased virulence. As of May 2021, the Alpha variant had been detected in some 120 countries. On 16 March 2022, the WHO has de-escalated the Alpha variant and its subvariants to "previously circulating variants of concern". Variant of Concern 21FEB-02 (previously written as VOC -202102/02), described by Public Health England (PHE) as "B.1.1.7 with E484K"

13871-502: The middle to higher end of this range), and early analyses suggested an increase in lethality, though later work found no evidence of increased virulence. As of May 2021, the Alpha variant had been detected in some 120 countries. On 16 March 2022, the WHO has de-escalated the Alpha variant and its subvariants to "previously circulating variants of concern". Variant of Concern 21FEB-02 (previously written as VOC -202102/02), described by Public Health England (PHE) as "B.1.1.7 with E484K"

14014-617: The much larger clades . Several different clade nomenclatures have been proposed. Nextstrain divides the variants into five clades (19A, 19B, 20A, 20B, and 20C), while GISAID divides them into seven (L, O, V, S, G, GH, and GR). Several notable variants of SARS-CoV-2 emerged in late 2020. The World Health Organization has currently declared five variants of concern , which are as follows: Other notable variants include 6 other WHO-designated variants under investigation and Cluster 5 , which emerged among mink in Denmark and resulted in

14157-627: The natural reservoir of the virus that caused the 2002–2004 SARS outbreak has resulted in the discovery of many SARS-like bat coronaviruses , most originating in horseshoe bats . The closest match by far, published in Nature (journal) in February 2022, were viruses BANAL-52 (96.8% resemblance to SARS‑CoV‑2), BANAL-103 and BANAL-236, collected in three different species of bats in Feuang , Laos. An earlier source published in February 2020 identified

14300-530: The original SARS-CoV . Like the SARS-related coronavirus implicated in the 2003 SARS outbreak, SARS‑CoV‑2 is a member of the subgenus Sarbecovirus ( beta-CoV lineage B). Coronaviruses undergo frequent recombination. The mechanism of recombination in unsegmented RNA viruses such as SARS-CoV-2 is generally by copy-choice replication, in which gene material switches from one RNA template molecule to another during replication. The SARS-CoV-2 RNA sequence

14443-461: The original Delta variant. On 7 June 2022, the WHO has de-escalated the Delta variant and its subvariants to "previously circulating variants of concern". The Epsilon variant or lineage B.1.429, also known as CAL.20C or CA   VUI1, 21C or 20C/S:452R, is defined by five distinct mutations (I4205V and D1183Y in the ORF1ab gene, and S13I, W152C, L452R in the spike protein's S-gene), of which

14586-402: The original Delta variant. On 7 June 2022, the WHO has de-escalated the Delta variant and its subvariants to "previously circulating variants of concern". The Epsilon variant or lineage B.1.429, also known as CAL.20C or CA   VUI1, 21C or 20C/S:452R, is defined by five distinct mutations (I4205V and D1183Y in the ORF1ab gene, and S13I, W152C, L452R in the spike protein's S-gene), of which

14729-657: The original version of the virus and could spread quicker or as quickly as Alpha. It carries L452R and P681R mutations in Spike; unlike Kappa it carries T478K but not E484Q. On 3 June 2021, Public Health England reported that twelve of the 42 deaths from the Delta variant in England were among the fully vaccinated, and that it was spreading almost twice as fast as the Alpha variant. Also on 11 June, Foothills Medical Centre in Calgary, Canada reported that half of their 22 cases of

14872-489: The original version of the virus and could spread quicker or as quickly as Alpha. It carries L452R and P681R mutations in Spike; unlike Kappa it carries T478K but not E484Q. On 3 June 2021, Public Health England reported that twelve of the 42 deaths from the Delta variant in England were among the fully vaccinated, and that it was spreading almost twice as fast as the Alpha variant. Also on 11 June, Foothills Medical Centre in Calgary, Canada reported that half of their 22 cases of

15015-544: The other lineages identified in Brazil (B.1.1.28 or B.1.195). Gamma also showed 2.2 times higher transmissibility with the same ability to infect both adults and older persons, suggesting P.1 and P.1-like lineages are more successful at infecting younger humans irrespective of sex. A study of samples collected in Manaus between November 2020 and January 2021, indicated that the Gamma variant is 1.4–2.2 times more transmissible and

15158-437: The other lineages identified in Brazil (B.1.1.28 or B.1.195). Gamma also showed 2.2 times higher transmissibility with the same ability to infect both adults and older persons, suggesting P.1 and P.1-like lineages are more successful at infecting younger humans irrespective of sex. A study of samples collected in Manaus between November 2020 and January 2021, indicated that the Gamma variant is 1.4–2.2 times more transmissible and

15301-1819: The pandemic. Coronavirus genomes and subgenomes encode six open reading frames (ORFs). In October 2020, researchers discovered a possible overlapping gene named ORF3d , in the SARS‑CoV‑2 genome . It is unknown if the protein produced by ORF3d has any function, but it provokes a strong immune response. ORF3d has been identified before, in a variant of coronavirus that infects pangolins . A phylogenetic tree based on whole-genome sequences of SARS-CoV-2 and related coronaviruses is: ( Bat ) Rc-o319 , 81% to SARS-CoV-2, Rhinolophus cornutus , Iwate , Japan Bat SL-ZXC21 , 88% to SARS-CoV-2, Rhinolophus pusillus , Zhoushan , Zhejiang Bat SL-ZC45 , 88% to SARS-CoV-2, Rhinolophus pusillus , Zhoushan, Zhejiang Pangolin SARSr-CoV-GX, 85.3% to SARS-CoV-2, Manis javanica , smuggled from Southeast Asia Pangolin SARSr-CoV-GD, 90.1% to SARS-CoV-2, Manis javanica , smuggled from Southeast Asia Bat RshSTT182, 92.6% to SARS-CoV-2, Rhinolophus shameli , Steung Treng , Cambodia Bat RshSTT200, 92.6% to SARS-CoV-2, Rhinolophus shameli , Steung Treng, Cambodia (Bat) RacCS203 , 91.5% to SARS-CoV-2, Rhinolophus acuminatus , Chachoengsao , Thailand (Bat) RmYN02 , 93.3% to SARS-CoV-2, Rhinolophus malayanus , Mengla , Yunnan (Bat) RpYN06 , 94.4% to SARS-CoV-2, Rhinolophus pusillus , Xishuangbanna , Yunnan (Bat) RaTG13 , 96.1% to SARS-CoV-2, Rhinolophus affinis , Mojiang , Yunnan (Bat) BANAL-52 , 96.8% to SARS-CoV-2, Rhinolophus malayanus , Vientiane , Laos SARS-CoV-2 SARS-CoV-1 , 79% to SARS-CoV-2 There are many thousands of variants of SARS-CoV-2, which can be grouped into

15444-412: The purposes of tracking specific variants. For example, Public Health England designated each tracked variant by year, month and number in the format [YYYY] [MM]/[NN], prefixing 'VUI' or 'VOC' for a variant under investigation or a variant of concern respectively. This system has now been modified and now uses the format [YY] [MMM]-[NN], where the month is written out using a three-letter code. As it

15587-410: The purposes of tracking specific variants. For example, Public Health England designated each tracked variant by year, month and number in the format [YYYY] [MM]/[NN], prefixing 'VUI' or 'VOC' for a variant under investigation or a variant of concern respectively. This system has now been modified and now uses the format [YY] [MMM]-[NN], where the month is written out using a three-letter code. As it

15730-550: The receptor-binding domain (RBD) region interacting with ACE2 was also not frequent. As time went on, the evolution of SARS-CoV-2's genome (by means of random mutations) led to mutant specimens of the virus (i.e., genetic variants), observed to be more transmissible, to be naturally selected. Notably, both the Alpha and the Delta variants were observed to be more transmissible than previously identified viral strains. Some SARS-CoV-2 variants are considered to be of concern as they maintain (or even increase) their replication fitness in

15873-423: The relatively low number of infections (compared with later stages of the pandemic) resulted in fewer opportunities for mutation of the viral genome and, therefore, fewer opportunities for the occurrence of differentiated variants. Since the occurrence of variants was rarer, the observation of S-protein mutations in the receptor-binding domain (RBD) region interacting with ACE2 was also not frequent. As time went on,

16016-528: The role of pangolins as an intermediate host was initially posited (a study published in July 2020 suggested that pangolins are an intermediate host of SARS‑CoV‑2-like coronaviruses ), subsequent studies have not substantiated their contribution to the spillover. Evidence against this hypothesis includes the fact that pangolin virus samples are too distant to SARS-CoV-2: isolates obtained from pangolins seized in Guangdong were only 92% identical in sequence to

16159-505: The same E484K-mutation as found in the Gamma, Zeta, and Beta variants, and also carries the same ΔH69/ΔV70 deletion (a deletion of the amino acids histidine and valine in positions 69 and 70) as found in Alpha, N439K variant (B.1.141 and B.1.258) and Y453F variant ( Cluster 5 ). Eta differs from all other variants by having both the E484K-mutation and a new F888L mutation (a substitution of phenylalanine (F) with leucine (L) in

16302-440: The same E484K-mutation as found in the Gamma, Zeta, and Beta variants, and also carries the same ΔH69/ΔV70 deletion (a deletion of the amino acids histidine and valine in positions 69 and 70) as found in Alpha, N439K variant (B.1.141 and B.1.258) and Y453F variant ( Cluster 5 ). Eta differs from all other variants by having both the E484K-mutation and a new F888L mutation (a substitution of phenylalanine (F) with leucine (L) in

16445-509: The source of a majority of infections. That may explain how out of 217 on board a cruise liner that docked at Montevideo , only 24 of 128 who tested positive for viral RNA showed symptoms. Similarly, a study of ninety-four patients hospitalized in January and February 2020 estimated patients began shedding virus two to three days before symptoms appear and that "a substantial proportion of transmission probably occurred before first symptoms in

16588-558: The source. For a virus recently acquired through a cross-species transmission, rapid evolution is expected. The mutation rate estimated from early cases of SARS-CoV-2 was of 6.54 × 10 per site per year. Coronaviruses in general have high genetic plasticity , but SARS-CoV-2's viral evolution is slowed by the RNA proofreading capability of its replication machinery. For comparison, the viral mutation rate in vivo of SARS-CoV-2 has been found to be lower than that of influenza. Research into

16731-562: The south of the state and had never been able to establish a foothold elsewhere; only 3.2% of all cases in the United States were Epsilon, whereas more than two-thirds were Alpha. The Eta variant or lineage B.1.525, also called VUI -21FEB-03 (previously VUI-202102/03) by Public Health England (PHE) and formerly known as UK1188, 21D or 20A/S:484K, does not carry the same N501Y mutation found in Alpha , Beta and Gamma , but carries

16874-443: The south of the state and had never been able to establish a foothold elsewhere; only 3.2% of all cases in the United States were Epsilon, whereas more than two-thirds were Alpha. The Eta variant or lineage B.1.525, also called VUI -21FEB-03 (previously VUI-202102/03) by Public Health England (PHE) and formerly known as UK1188, 21D or 20A/S:484K, does not carry the same N501Y mutation found in Alpha , Beta and Gamma , but carries

17017-403: The update stated that "VOIs will be referred to using established scientific nomenclature systems such as those used by Nextstrain and Pango". Viruses generally acquire mutations over time, giving rise to new variants. When a new variant appears to be growing in a population, it can be labelled as an "emerging variant". In the case of SARS-CoV-2, new lineages often differ from one another by just

17160-402: The update stated that "VOIs will be referred to using established scientific nomenclature systems such as those used by Nextstrain and Pango". Viruses generally acquire mutations over time, giving rise to new variants. When a new variant appears to be growing in a population, it can be labelled as an "emerging variant". In the case of SARS-CoV-2, new lineages often differ from one another by just

17303-544: The variant. Updated definitions, published on the 4 October 2023, add variants of interest (VOI) and variants under monitoring (VUM) to the World Health Organization's working definitions for SARS-CoV-2 variants. Other organisations such as the CDC in the United States typically define their variants of concern slightly differently; for example, the CDC de-escalated the Delta variant on 14 April 2022, while

17446-413: The variant. Updated definitions, published on the 4 October 2023, add variants of interest (VOI) and variants under monitoring (VUM) to the World Health Organization's working definitions for SARS-CoV-2 variants. Other organisations such as the CDC in the United States typically define their variants of concern slightly differently; for example, the CDC de-escalated the Delta variant on 14 April 2022, while

17589-498: The virus RaTG13 , collected in bats in Mojiang , Yunnan, China to be the closest to SARS‑CoV‑2, with 96.1% resemblance. None of the above are its direct ancestor. Bats are considered the most likely natural reservoir of SARS‑CoV‑2. Differences between the bat coronavirus and SARS‑CoV‑2 suggest that humans may have been infected via an intermediate host; although the source of introduction into humans remains unknown. Although

17732-550: The virus became pathogenic before or after the spillover event . Because many of the early infectees were workers at the Huanan Seafood Market , it has been suggested that the virus 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. A March 2021 WHO-convened report stated that human spillover via an intermediate animal host

17875-426: 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 in the first week of symptoms and declines thereafter. The duration of SARS-CoV-2 RNA shedding is generally between 3 and 46 days after symptom onset. A study by a team of researchers from the University of North Carolina found that

18018-587: The virus may be airborne as well, with aerosols potentially being able to transmit the virus. During human-to-human transmission, between 200 and 800 infectious SARS‑CoV‑2 virions are thought to initiate a new infection. If confirmed, aerosol transmission has biosafety implications because a major concern associated with the risk of working with emerging viruses in the laboratory is the generation of aerosols from various laboratory activities which are not immediately recognizable and may affect other scientific personnel. Indirect contact via contaminated surfaces

18161-422: The virus. Another case study described a 25-year-old man from Nevada who tested positive for SARS‑CoV‑2 on 18 April 2020 and on 5 June 2020 (separated by two negative tests). Since genomic analyses showed significant genetic differences between the SARS‑CoV‑2 variant sampled on those two dates, the case study authors determined this was a reinfection. The man's second infection was symptomatically more severe than

18304-421: The virus; some names used by different sources included "the coronavirus" or "Wuhan coronavirus". In January 2020, the World Health Organization (WHO) 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, animal species, or groups of people in disease and virus names. On 11 February 2020,

18447-430: The virus; the WHO mentioned the potential for mentioning country names to cause stigma. After using all the letters from Alpha to Mu (see below), in November 2021 the WHO skipped the next two letters of the Greek alphabet, Nu and Xi, and used Omicron, prompting speculation that Xi was skipped to avoid offending Chinese leader Xi Jinping . The WHO gave as the explanation that Nu is too easily confounded with "new" and Xi

18590-428: The virus; the WHO mentioned the potential for mentioning country names to cause stigma. After using all the letters from Alpha to Mu (see below), in November 2021 the WHO skipped the next two letters of the Greek alphabet, Nu and Xi, and used Omicron, prompting speculation that Xi was skipped to avoid offending Chinese leader Xi Jinping . The WHO gave as the explanation that Nu is too easily confounded with "new" and Xi

18733-592: Was a globally dominant variant that spread to at least 185 countries. It was first discovered in India . Descendant of lineage B.1.617, which also includes the Kappa variant under investigation, it was first discovered in October 2020 and has since spread internationally. On 6 May 2021, British scientists declared B.1.617.2 (which notably lacks mutation at E484Q) as a "variant of concern", labelling it VOC-21APR-02, after they flagged evidence that it spreads more quickly than

18876-483: Was a globally dominant variant that spread to at least 185 countries. It was first discovered in India . Descendant of lineage B.1.617, which also includes the Kappa variant under investigation, it was first discovered in October 2020 and has since spread internationally. On 6 May 2021, British scientists declared B.1.617.2 (which notably lacks mutation at E484Q) as a "variant of concern", labelling it VOC-21APR-02, after they flagged evidence that it spreads more quickly than

19019-414: Was confirmed on 20 January 2020 during the COVID-19 pandemic . Transmission was initially assumed to occur primarily via respiratory droplets from coughs and sneezes within a range of about 1.8 metres (6 ft). Laser light scattering experiments suggest that speaking is an additional mode of transmission and a far-reaching one, indoors, with little air flow. Other studies have suggested that

19162-798: Was detected in Tokyo on 6 January 2021 by the National Institute of Infectious Diseases (NIID). It has been labelled as Gamma variant by WHO. The new variant was first identified in four people who arrived in Tokyo having travelled from the Brazilian Amazonas state on 2 January 2021. On 12 January 2021, the Brazil-UK CADDE Centre confirmed 13 local cases of the new Gamma variant in the Amazon rainforest. This variant of SARS-CoV-2 has been named lineage P.1 (although it

19305-479: Was detected in Tokyo on 6 January 2021 by the National Institute of Infectious Diseases (NIID). It has been labelled as Gamma variant by WHO. The new variant was first identified in four people who arrived in Tokyo having travelled from the Brazilian Amazonas state on 2 January 2021. On 12 January 2021, the Brazil-UK CADDE Centre confirmed 13 local cases of the new Gamma variant in the Amazon rainforest. This variant of SARS-CoV-2 has been named lineage P.1 (although it

19448-452: Was discharged on 15 April 2020 after two negative tests, and tested positive again on 15 August 2020 (142 days later), which was confirmed by whole-genome sequencing showing that the viral genomes between the episodes belong to different clades . The findings had the implications that herd immunity may not eliminate the virus if reinfection is not an uncommon occurrence and that vaccines may not be able to provide lifelong protection against

19591-411: Was labeled "L" to reflect the mutant amino acid changes. Independently, Western researchers carried out similar analyses but labeled the ancestral type "A" and the derived type "B". The B-type mutated into further types including B.1, which is the ancestor of the major global variants of concern, labeled in 2021 by the WHO as alpha , beta , gamma , delta and omicron variants. Early in the pandemic,

19734-610: Was moderately reduced, but it remained detectable in most diagnostic tests. Epsilon (CAL.20C) was first observed in July 2020 by researchers at the Cedars-Sinai Medical Center , California , in one of 1,230 virus samples collected in Los Angeles County since the start of the COVID-19 epidemic . It was not detected again until September when it reappeared among samples in California, but numbers remained very low until November. In November 2020,

19877-457: Was moderately reduced, but it remained detectable in most diagnostic tests. Epsilon (CAL.20C) was first observed in July 2020 by researchers at the Cedars-Sinai Medical Center , California , in one of 1,230 virus samples collected in Los Angeles County since the start of the COVID-19 epidemic . It was not detected again until September when it reappeared among samples in California, but numbers remained very low until November. In November 2020,

20020-435: Was shown to be capable of evading 25–61% of inherited immunity from previous coronavirus diseases, leading to the possibility of reinfection after recovery from an earlier COVID-19 infection. As for the fatality ratio, infections by Gamma were also found to be 10–80% more lethal. A study found that people fully vaccinated with Pfizer or Moderna have significantly decreased neutralisation effect against Gamma, although

20163-432: Was shown to be capable of evading 25–61% of inherited immunity from previous coronavirus diseases, leading to the possibility of reinfection after recovery from an earlier COVID-19 infection. As for the fatality ratio, infections by Gamma were also found to be 10–80% more lethal. A study found that people fully vaccinated with Pfizer or Moderna have significantly decreased neutralisation effect against Gamma, although

20306-496: Was suggested that the acquisition of the furin-cleavage site in the SARS-CoV-2 S protein was essential for zoonotic transfer to humans. The furin protease recognizes the canonical peptide sequence R X[ R / K ] R ↓X where the cleavage site is indicated by a down arrow and X is any amino acid . In SARS-CoV-2 the recognition site is formed by the incorporated 12 codon nucleotide sequence CCT CGG CGG GCA which corresponds to

20449-541: Was the most likely explanation, with direct spillover from bats next most likely. Introduction through the food supply chain and the Huanan Seafood Market was considered another possible, but less likely, explanation. An analysis in November 2021, however, said that the earliest-known case had been misidentified and that the preponderance of early cases linked to the Huanan Market argued for it being

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