Johnston Atholl virus

Johnston-Atholl virus (VJA) is a virus from the family Flaviviridae, which belongs to the ecological group of arboviruses. It has the antigenic group Kvaranfil and has no generic affiliation. However, the pathogenicity of VJA in humans has not been established.

Johnston Atholl virus was discovered in 1967 through a study of blood samples collected from patients with fever and other symptoms associated with infection in the Atholl region of the Indian Ocean island. The virus was named after the researchers who discovered it.

VJA is classified as a virus in the ecological arbovirus group because it is transmitted through the bite of Aedes mosquitoes. Viruses of this group cause diseases associated with fevers and can be dangerous to human health.

The antigenic group of VJA - Quaranfil - means that the virus has several antigens that can be found in its composition. This may help diagnose and treat infection caused by the virus.

However, VJA is not generic, meaning it does not belong to any specific genus of virus. This may be due to the fact that VJA is a new virus that has not yet been fully studied.

The pathogenicity of VJA in humans remains unknown. This means there is no data on whether VJA causes infections in humans or only in animals. If VJA is indeed pathogenic in humans, it can lead to serious consequences such as death or disability.

Overall, Johnston Atholl virus is a new and unknown virus that requires further study. Research in this area can help us better understand how to fight infections caused by this virus and protect ourselves from its effects.



The **Johnston Athol** virus is a microbial agent that belongs to the group of arbaviruses, has not been defined to a genus, and is not an influenza virus. The atoll remains a mystery as it is not recognized by all scientists. It is also observed that these microorganisms are observed as microorganisms in small numbers. Usually one atom of a virus is called a parasite. When a pathogen infects a virus, during the normal course of the disease the person becomes ill and recovers. Moreover, it is impossible to externally distinguish the carrier of one from the other. However, their amount in the blood differs in different periods. For example, if your body temperature is only 37.5 degrees, most likely, antibodies will not appear soon. The reproduction of these microorganisms has also not been studied enough. They are known by one characteristic. Adenovirus infection is observed only in the presence of antibodies. Thus, this parasite behaves in a non-standard way. It is still unknown how they reproduce and how they act on organ systems.