An attenuated strain is a strain of a pathogenic microorganism that was obtained as a result of its attenuation, that is, a decrease in pathogenicity. This method is used to create a live vaccine that can protect the body from infection.
Attenuation is the process of reducing the pathogenicity of a microorganism. This can be achieved by exposing the microbe to various factors such as temperature, pressure, chemicals or viruses. As a result of such exposure, the microbe becomes less dangerous to humans and can be used to create a vaccine.
A strain of an attenuated microorganism can be used to vaccinate people who are immune to the microbe. This makes it possible to create a more effective vaccine that will protect the body from possible infection. In addition, strains of attenuated microbes can be used to treat infectious diseases.
One example of the use of an attenuated microbe strain is the creation of a flu vaccine. In this case, the strain of the microbe was weakened by exposing it to viruses, allowing the creation of a vaccine that does not cause serious complications in vaccinated people.
Overall, the attenuated microbe strain is of great importance for medicine and science, as it allows for the creation of more effective vaccines and treatments for infectious diseases.
An attenuated strain, also known as a weakened strain, is a type of bacteria or virus that has been specifically bred for medical or industrial use. It can be used as a vaccine base to protect against infectious diseases.
An athenized strain (a virus strain with reduced infectivity) is a virus in which its pathogenicity is suppressed due to selective selection in a primary cell culture. Obtained by introducing a virulent strain into the recipient's body under the supervision of a researcher with subsequent monitoring of host cell mortality.
Application. Strains of attenuated viruses are used to create live antiviral vaccines. They are harmless to humans, but contain viral components to which the body will develop immunity. Also, such strains are