What is the Difference Between Antigenic Drift and Antigenic Shift?
🆚 Go to Comparative Table 🆚Antigenic drift and antigenic shift are two ways viruses can change their genetic makeup, allowing them to evade the immune system and cause infections. Here are the main differences between the two:
- Antigenic drift occurs when viruses undergo gradual mutations in their genetic makeup, leading to small changes in their surface antigens, such as the hemagglutinin (HA) and neuraminidase (NA) proteins in the case of the influenza virus. This process happens more frequently and can make it difficult for the immune system to recognize and neutralize the virus.
- Antigenic shift occurs when viruses undergo a sudden change in their genetic makeup, creating a new virus strain. This can happen when different viruses "mix" their genes, resulting in dramatic changes in the virus's surface antigens. Antigenic shift is less common but more concerning than antigenic drift, as it can produce entirely new virus strains that no person's immune system has encountered before. This can lead to flu pandemics, which occur rarely and have happened four times in the past 100 years.
In summary, antigenic drift involves gradual mutations and small changes in surface antigens, while antigenic shift involves sudden, major changes in the virus's genetic makeup, potentially leading to new and dangerous strains.
Comparative Table: Antigenic Drift vs Antigenic Shift
Here is a table comparing the differences between antigenic drift and antigenic shift:
Feature | Antigenic Drift | Antigenic Shift |
---|---|---|
Changes to Genome | Small or point mutations | Large changes to sections of genome |
Result | Can help viruses gradually evolve and evade immune systems | Can produce entirely new virus strains |
Antigenic drift is a natural process where mutations occur during viral replication, resulting in small changes to the genome. This process can help viruses gradually evolve and evade immune systems, allowing them to infect individuals multiple times. An example of a virus that undergoes antigenic drift is the influenza virus, which changes its HA and NA surface proteins over time.
Antigenic shift, on the other hand, is an abrupt, major change in a virus, resulting in new HA and/or new HA and NA proteins. This shift can occur when a virus from an animal population gains the ability to infect humans, leading to the formation of new subtypes. Antigenic shift can result in new flu strains that infect people for the first time, posing a significant threat to public health.
- Antigenic vs Phase Variation
- Gene Migration vs Genetic Drift
- Antigen vs Pathogen
- Antigen vs Antibody
- Natural Selection vs Genetic Drift
- Antigen vs Immunogen
- Hapten vs Antigen
- Allergen vs Antigen
- Genetic Drift vs Gene Flow
- Antigen vs Antibody Test
- A vs B Antigens
- Molecular vs Antigen Test
- Frameshift Mutation vs Point Mutation
- O vs H Antigen
- Antigen vs NAAT Test
- Endogenous vs Exogenous Antigens
- H1N1 vs H3N2
- Founder Effect vs Genetic Drift
- Major vs Minor Histocompatibility Antigens