DNA & Synthetic Vaccines
Scientists take many approaches to designing vaccines against a microbe. These choices are typically based on fundamental information about the microbe, such as how it infects cells and how the immune system responds to it, as well as practical considerations, such as regions of the world where the vaccine would be used. A DNA vaccine against a microbe would evoke a strong antibody response to the free-floating antigen secreted by cells, and the vaccine also would stimulate a strong cellular response against the microbial antigens displayed on cell surfaces. The DNA vaccine couldn’t cause the disease because it wouldn’t contain the microbe, just copies of a few of its genes. In addition, DNA vaccines are relatively easy and inexpensive to design and produce. Inactivated vaccines can be composed of either whole viruses or bacteria, or fractions of either. Fractional vaccines are either protein-based or polysaccharide-based.
Related Conference of DNA & Synthetic Vaccines
7th World Congress on Neuroimmunology and Neuroinfectious Diseases
DNA & Synthetic Vaccines Conference Speakers
Recommended Sessions
- Animal & Plant Derived Vaccines
- Animal Models & Clinical Trials
- Antibodies: Engineering & Therapeutics
- Cancer, Malaria & TB Vaccines
- Cellular Immunology & Latest Innovations
- Combination & Conjugate Vaccines
- Current Research & Future Challenges
- DNA & Synthetic Vaccines
- Fish & Poultry Vaccines
- Geriatric Immunization
- HIV Vaccines
- Paediatric Vaccination
- Travel & Edible Vaccines
- Vaccine Production & Development
- Vaccine Safety & Efficacy
- Vaccines & Autism
- Vaccines against Drugs‎
- Vaccines against Infectious Diseases
- Vaccines for Immune Mediated Diseases
- Vaccines for Pregnant Women & Neonates
- Vaccines for Unconventional Diseases
- Vectors, Adjuvants & Delivery Systems
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