Mutant strain of coronavirus found in the UK: is it more dangerous, what does it mean for the vaccine and other frequently asked questions?

CDC illustration of coronavirus. Image: CDC / Unsplash

A new variant of SARS-CoV-2, the virus that causes COVID-19 , is believed to be driving further transmission of the disease in some parts of the UK. The government has placed some regions, including London, under new, more strict coronavirus restrictions, known as Level 4. People in Level 4 areas will not be able to meet anyone outside their home for Christmas, while those in the rest of the country will only be able to meet on Christmas Day itself. Boris Johnson, the prime minister, and his top scientific advisers said the new variant could increase the transmission of COVID-19 up to 70 percent and increase R or reproduction number by 0.4 percent.

What is the significance of this new discovery? The conversation He asked Lucy van Dorp, a microbial genomics researcher and pathogen evolution expert, some key questions about what we know at the moment.

What do we know about this new variant?

The new UK variant, known as VUI – 202012/01 or B.1.1.7 lineage, was first identified in the county of Kent on 20 September. Matt Hancock, the health secretary, first announced the existence of the variant on December 14; It was later confirmed by England Public Health and the UK COVID-19 sequencing consortium.

The variant carries 14 defining mutations, including seven in the spike protein, the protein that mediates entry of the virus into human cells. This is a relatively large number of changes compared to the many variants we have in circulation globally.

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Illustration from CDC’s coronavirus . Image: CDC / Unsplash

To date, the genetic profiles, or genomes, of this variant have been sequenced and shared largely from the UK, but include some in Denmark and two cases in Australia. There have also been reports of case in the Netherlands. All of these countries have extensive genome sequencing efforts and it is quite possible that these observations do not reflect the true distribution of this variant of the virus, which could exist undetected elsewhere. We will know more as more genomes are generated and shared.

Thanks to efforts in data sharing, genomic surveillance, and COVID-19 From testing results in the UK, it appears that this variant is beginning to dominate existing versions of the virus and that it may be responsible for an increasing proportion of cases in some parts of the country, particularly in regions where we also have cases in rapid expansion. numbers.

MK LHL test data shows an increasing prevalence of the H69 / V70 variant in positive test data, which is incidentally detected by the commonly used 3-gene PCR test. pic.twitter.com/1U0pVR9Bhs

– Tony Cox (@The_Soup_Dragon) December 19, 2020

It is always very difficult to untangle cause and effect in these cases. For example, increases in the occurrence of certain mutations may be due to the viral lineages that carry them increase in frequency only because they are present in an area where transmission is high, for example, due to human activities or choice of interventions.

Although this is still a possibility, there are sufficiently clear observations thus far for this variant to warrant very careful characterization, surveillance, and interventions to curb transmission.

Is more dangerous?

Chris whitty, the chief physician, clearly stated that to date there is no evidence that this variant alters the severity of the disease, neither in terms of mortality nor the severity of the cases COVID-19 for the infected. Work is underway to confirm this.

How do virus mutations occur?

Mutations are a natural part of the evolution of the virus.. In the case of SARS-CoV-2, these mutations can arise due to random errors during the replication of the virus, be induced by antiviral proteins within infected people, or through a genetic mix, known as recombination. Although no signs of recombination are currently detected in SARS-CoV-2.

Most viral mutations are expected to have no impact. For example, when our team evaluated individual mutation replacements in more than 50,000 genomes from the first wave of the pandemic, we did not detect any that significantly altered viral fitness – the virus’s ability to survive and reproduce.

However, once in a while a mutation, or in this case a particular combination of mutations, can get lucky and give the virus a new advantage. Viruses carrying these combinations of mutations can be increased in frequency by natural selection given the appropriate epidemiological setting.

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Representative image.

Where did the variant come from?

Right now, we don’t know. To date, scientists have not identified any closely related viruses to support the theory that the variant had been introduced from abroad. The observed patterns of mutations further support a extended period of adaptive evolution most likely in the UK based on current data.

Similary mutation patterns these have been observed in the evolution of SARS-CoV-2 in chronically infected patients with weaker immune systems. The current hypothesis is that such a chronic infection scenario, in a single patient, may have played a role in the origin of this variant. This will continue to be investigated.

How many variations of SARS-CoV-2 have we found?

There are many thousands of SARS-CoV-2 lineages that differ on average only by a small number of defining mutations. It remains true that the SARS-CoV-2 currently in global circulation has little genomic diversity. The subtleties in the mutations carried in different lineages can, however, be very useful for reconstruct transmission patterns.

As an example, early work in the pandemic used lineage assignments to identify at least 1,000 introductions of SARS-CoV-2 in the UK.

Why is this different?

It is important to note that many of the mutations that define the UK variant have been observed in SARS-CoV-2 before and sometimes even quite early in the pandemic.

However, the UK variant or lineage is defined by an unusual number and combination of mutations. One of these mutations, N501Y, has previously been shown to increase the binding of the virus to receptors on our cells. N501Y was first sequenced in a virus in Brazil in April 2020 and is currently associated with a The SARS-CoV-2 variant is also increasing in frequency in South Africa % 8