5 Must Know Facts For Your Next Test

1. Integration allows certain viruses to hide from the immune system, as their genetic material becomes part of the host's DNA.
2. Retroviruses, such as HIV, utilize an enzyme called reverse transcriptase to convert their RNA genome into DNA before integration occurs.
3. Once integrated, viral genes can be transcribed and translated by the host cell, producing viral proteins necessary for new virus assembly.
4. Integration can lead to permanent changes in the host's genetic material, potentially resulting in oncogenesis if oncogenes are activated.
5. Not all viruses integrate into the host genome; some replicate independently and follow a lytic cycle instead.

Review Questions

• How does integration benefit certain viruses in terms of their survival and replication within host cells?
  • Integration benefits certain viruses by allowing their genetic material to become a permanent part of the host cell's genome. This enables the virus to evade detection by the immune system and persist in a latent state. When conditions are favorable, integrated viral genes can be activated to produce new viral particles, ensuring continued survival and propagation within the host.
• Discuss the differences in integration processes between retroviruses and other virus families that do not integrate into the host genome.
  • Retroviruses, such as HIV, use reverse transcriptase to convert their RNA into DNA before integrating into the host genome, while other viruses like adenoviruses do not integrate and instead replicate independently in the cytoplasm. This distinction affects their life cycles significantly; retroviruses can remain latent within host cells, whereas non-integrating viruses typically follow a lytic cycle leading to cell lysis. Understanding these differences is key in virology as they influence treatment strategies and disease management.
• Evaluate the implications of viral integration on long-term viral infections and potential treatments for diseases caused by integrative viruses.
  • The implications of viral integration on long-term infections are significant because once a virus integrates into the host genome, it can persist indefinitely, leading to chronic diseases. This poses challenges for treatments since traditional antiviral therapies may not effectively target latent proviruses. Therefore, innovative approaches such as gene therapy or CRISPR-based techniques are being explored to remove integrated viral DNA or to enhance immune responses against these hidden reservoirs of infection. Understanding integration dynamics is crucial for developing effective strategies against diseases like HIV/AIDS and certain cancers associated with integrated viruses.

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