COVID-19 Variant N440K Spreading More in Southern States, Says CSIR-CCMB

The Hyderabad-based Centre for Cellular and Molecular Biology (CSIR-CCMB) said there is emerging evidence that coronavirus variant N440K is spreading "a lot more" in southern states in the country.

Coronavirus Representational Image (Photo Credits: File Image)

Hyderabad, February 20: The Hyderabad-based Centre for Cellular and Molecular Biology (CSIR-CCMB) said there is emerging evidence that coronavirus variant N440K is spreading "a lot more" in southern states in the country.

Scientists from CSIR-CCMB, in a recent publication, have presented an exhaustive analysis of over 5,000 coronavirus variants in India and how they have evolved over the course of the pandemic. France Reports 24,116 New COVID-19 Cases, 328 Deaths in Pas 24 Hours.

"The novel variants that are worrying many countries globally have been identified with only a low prevalence in India so far. These include the variants with immune-escape E484K mutation and the N501Y mutation with higher transmission rate. However, their apparent low prevalence might be simply because not enough sequencing has been done. More coronavirus genomes need to be sequenced across the country to accurately identify the emergence of these and other new variants", said Dr Rakesh Mishra, Director, CCMB and corresponding author on the study.

According to a release by CSIR-CCMB, the study also finds that a few novel variants are spreading more in some states of India.

"We now have emerging evidence that N440K is spreading a lot more in southern states. Closer surveillance is needed to understand its spread properly. Accurate and timely detection of new variants that may show greater infectivity or worse clinical symptoms, including immune escape, will be extremely important to preempt disastrous consequences," said Dr Mishra.

In the paper, the authors explain how different coronavirus variants gained prevalence in India during the last year.

"One of the variants called the A3i had mutations that were predicted to make its spread slower. The study confirms that it was overtaken by the globally prevalent A2a variant, carrying the D614G mutation, by June 2020. The A2a variant has remained in global dominance for the major part of the year 2020.

The recently discovered variants in many countries have raised concerns because of their mutations in the Spike protein, that makes the coat of the virus and come in contact with the human cells," read the release.

"The Spike protein is required for binding to the receptors on human cells. Mutations in this protein can help the virus in some cases. It can increase viral transmission rates by enhancing its affinity to human receptors. Some of these coronavirus variants can also be immune-escape and cause reinfection. Our immune systems cannot identify them from previous infections because of the changes in their protein structures," it said.

The paper documents the Spike mutation landscape of SARS-CoV-2, showcasing the ones that have emerged with high prevalence in the country and abroad.

"Spike protein mutations have implications in COVID-19 surveillance and management, vaccines, therapeutics, and the emergence of re-infections. We need to have a focused approach towards monitoring the virus mutations. India has not been sequencing SARS-CoV-2 isolates to full capacity, having deposited only about 6,400 genomes so far. The Indian government's initiative of INSACOG, which aims to sequence 5 per cent of all positive cases, should soon address this," said Dr Divya Tej Sowpati, the co-corresponding author.

Dr Surabhi Srivastava, the lead author of the study said the success in the development and administration of vaccines is promising but other non-therapeutic prevention measures, such as masks and physical distancing, will still prove to be the most effective in curbing further spread of the disease.

Lesser spread of the virus also decreases the scope for emergence and accumulation of harmful mutants, she said.

"The take-home of this comprehensive work is that due to the natural process of mutation, variants will keep emerging. The best way to control the potential damage is to exercise extensive genome surveillance and take measures to prevent the spread of new variants as and when detected," read the release.

(This is an unedited and auto-generated story from Syndicated News feed, LatestLY Staff may not have modified or edited the content body)

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