New Delhi:The faster spreading coronavirus strain first detected in the UK is unlikely to make vaccines less effective as of now but the preventives may need to be appropriately altered if more mutations occur over time, say scientists.
More than 40 countries, including India, have banned travel to and from the UK, a move several scientists said was necessary in view of the rapid spread of the new viral strain, VUI-202012/0, that was detected on September 21.
According to Jeremy Farrar, director of the London-based research charity Wellcome Trust UK, there is no indication at the moment that the new strain would evade treatments and vaccines.
'However, the mutation is a reminder of the power of the virus to adapt, and that cannot be ruled out in the future. Acting urgently to reduce transmission is critical,' Farrar said in a statement.
The European Centre for Disease Prevention and Control (ECDC) announced on Sunday that the rapid increase of a SARS-CoV-2 variant with multiple spike protein mutations have been observed in the UK.
'Preliminary modelling results communicated by the UK on December 19 suggest that the variant is significantly more transmissible than previously circulating variants, with an estimated increase in reproductive number (R) by 0.4 or greater with an estimated increased transmissibility of up to 70 per cent,' EDC said in a statement.
R number denotes the expected cases directly generated by one case in a population while transmissibility is the ability of a virus to be passed on from one person to another.
Read: No need to worry over UK virus mutation: Central government
The ECDC, however, said there is no indication of increased infection severity observed related to the variant. The assessment is challenged by the fact that the majority of cases were reported in people under 60 years who are less likely to develop severe symptoms, it said.
'The new strain of the virus is known to have 13 mutations in the spike protein of which the N501Y mutation is responsible for it spreading 70 per cent faster than earlier versions of the virus,' said Deepak Sehgal, professor and head of department of Life Sciences, Shiv Nadar University.
N501Y is the mutation. The 501st position in the spike protein's amino acid chain has altered from asparagine, denoted by the letter N, to tyrosine, represented by the letter Y, therefore N501Y, scientists explained.
Spike protein is a crown protein on the virus which comes in contact with human cells to enter and infect.
Sehgal noted that the new variant has mutations to the spike protein that the three leading vaccines are targeting. The three leading vaccines are Moderna, Pfizer and Oxford-AstraZeneca.
'However, vaccines produce antibodies against many regions in the spike protein, so it’s unlikely that a single change would make the vaccine less effective,' Sehgal told media.
Over time, as more mutations occur, the vaccine may need to be altered.
'This happens with seasonal flu, which mutates every year, and the vaccine is adjusted accordingly,' Sehgal explained. The SARS-CoV-2 virus, however, doesn’t mutate as quickly as the flu virus, he added.