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Revision as of 18:31, 10 February 2025
Genetic Vaccines
A genetic vaccine is a type of vaccine that uses genetically engineered DNA or RNA molecules to stimulate an immune response against a specific pathogen. These vaccines work by introducing one or more genes into a person's cells, which then produce an antigen to stimulate a more robust immune response. Genetic vaccines have been developed for a variety of diseases, including influenza, HIV, and most recently, COVID-19.
Mechanism of Action
Genetic vaccines work by using the body's own cells to produce antigens. The DNA or RNA in the vaccine is taken up by cells, which then use the genetic information to produce the antigen. This antigen is then displayed on the surface of the cells, where it is recognized by the immune system. This triggers an immune response, which includes the production of antibodies and T cells that can recognize and attack the pathogen if the person is exposed in the future.
Types of Genetic Vaccines
There are two main types of genetic vaccines: DNA vaccines and RNA vaccines.
DNA Vaccines
DNA vaccines involve the direct introduction into appropriate tissues of a plasmid containing the DNA sequence encoding the antigen(s) against which an immune response is sought. The DNA is then transcribed and translated to produce the antigen, which is presented to the immune system.
RNA Vaccines
RNA vaccines use a different approach. Instead of DNA, they use mRNA to provide the genetic information. The mRNA is translated into protein by the cells, which then present the antigen to the immune system. RNA vaccines have the advantage of not needing to enter the cell's nucleus, which makes them less likely to integrate into the host's genome and cause unwanted genetic changes.
Advantages and Disadvantages
Genetic vaccines have several advantages over traditional vaccines. They are relatively easy and cheap to design and produce, and they can be developed quickly in response to emerging diseases. They also have a good safety profile, as they do not contain live pathogens.
However, there are also some disadvantages. Genetic vaccines may not be as effective as traditional vaccines in some cases, and there are still many unknowns about their long-term safety and effectiveness.
See Also
References
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