The development is aimed at creating universal protection against coronaviruses, including all known variants of COVID-19, as well as viruses circulating among animals and potentially capable of causing new outbreaks of diseases among humans.

Scientists note that traditional vaccines are created based on existing virus strains. However, due to the constant mutations of the infectious agents, the effectiveness of such drugs may decrease over time, which requires their regular updating.

In the new study, experts used genetic data from a variety of coronaviruses collected as part of monitoring programs for potential viral threats. Artificial intelligence analyzed this data and developed a so-called "superantigen", a key element of the vaccine that can train the immune system to recognize a wide range of viruses, including their future mutations.

According to the authors of the project, this approach will ensure protection not only from existing viruses, but also from new infections that may occur as a result of virus transmission from animals to humans.

The results of the study are published in the scientific journal Journal of Infection. At the first stage of clinical trials involving 39 volunteers, scientists assessed the safety of the vaccine. In the near future, it is planned to conduct a second stage of research involving about 200 people, which will determine the effectiveness of the drug and its ability to form a broad immune response.

In addition to a universal vaccine against coronaviruses, the research team is already working on the development of similar drugs to protect against influenza and Ebola.