Antigenic escape: Difference between revisions
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Latest revision as of 04:18, 17 March 2025
Antigenic escape is a mechanism that allows viruses and other microorganisms to evade the immune system of the host organism. This process is a significant factor in the persistence and progression of many infections, including HIV, influenza, and cancer.
Mechanism[edit]
Antigenic escape occurs when a microorganism changes its surface proteins, known as antigens, to avoid recognition and destruction by the immune system. This can happen through several mechanisms, including mutation, recombination, and antigenic variation.
Mutation[edit]
Mutation is a change in the genetic material of an organism. In the context of antigenic escape, mutations can alter the structure of antigens, making them unrecognizable to the immune system. This is a common mechanism of antigenic escape in viruses like HIV and influenza.
Recombination[edit]
Recombination is a process where genetic material is rearranged or exchanged between different organisms. This can lead to the creation of new antigens that the immune system has not encountered before, allowing the microorganism to evade immune detection.
Antigenic Variation[edit]
Antigenic variation is a strategy used by some microorganisms to periodically change their surface antigens. This constant change makes it difficult for the immune system to keep up and effectively eliminate the microorganism.
Implications[edit]
Antigenic escape has significant implications for disease control and treatment. It can lead to the persistence of infections, the development of drug resistance, and the failure of vaccines. Understanding the mechanisms of antigenic escape can help in the development of more effective treatments and vaccines.
See Also[edit]
References[edit]
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