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The dominance of the Covid variant JN.1 has raised concerns due to its ability to spread rapidly despite vaccination and previous infections. Emanuele Andreano and his colleagues at the Toscana Life Sciences Foundation in Italy have identified a single mutation in JN.1 that allowed it to evade the antibody response, leading to its global spread.

JN.1, a subvariant of the omicron variant, was first detected in Luxembourg in August 2023 and quickly became the most reported Covid-19 variant globally. Genetic sequencing revealed a mutation in its spike protein, which plays a crucial role in infecting host cells.

To investigate further, Andreano and his team analyzed antibodies from individuals who had received two or three doses of an mRNA Covid-19 vaccine and had previous infections with different variants. They found that only a small number of antibodies were able to prevent JN.1 from infecting cells, indicating the impact of the mutation on evading neutralizing antibodies.

A computer simulation showed that the mutation in JN.1’s spike protein hindered the interaction with antibodies, making it more difficult for the immune system to neutralize the virus. However, the study also found that individuals with “super hybrid” immunity, achieved through multiple vaccine doses and prior infections, were able to prevent JN.1 infections.

Despite its ability to evade antibodies, JN.1 does not cause more severe illness than previous variants. This is attributed to other components of the immune system, such as T-cells, that can still mitigate the effects of the virus. Jonathan Ball from the Liverpool School of Tropical Medicine emphasizes the overall strength of people’s immunity in combating the virus.

While the study sheds light on the impact of a single mutation on JN.1’s ability to evade neutralizing antibodies, further research is needed to validate these findings in larger populations. Dalan Bailey from The Pirbright Institute stresses the importance of replicating the study to gain a more comprehensive understanding of the virus’s behavior.

In conclusion, the study highlights the adaptability of the Covid-19 virus and the importance of continuous research to stay ahead of new variants. Understanding how mutations affect the virus’s ability to evade immunity is crucial in developing effective strategies to combat the ongoing pandemic.