Retroviruses

Beverly Biology
26 Jun 201608:51

Summary

TLDRThis video explains retroviruses, a unique type of RNA virus characterized by the enzyme reverse transcriptase. The video details how retroviruses use reverse transcription to convert viral RNA into DNA, which integrates into the host cell's genome through another enzyme called integrase. Once integrated, the host cell unknowingly replicates viral RNA and proteins, creating new immature retroviruses. These new retroviruses then mature and are released to infect other cells, continuing the replication cycle. The video provides a step-by-step visual guide to this process.

Takeaways

  • 🦠 Retroviruses are a type of RNA virus known for possessing the enzyme reverse transcriptase.
  • 🔄 Reverse transcriptase allows the retrovirus to reverse the usual transcription process, turning viral RNA into viral DNA.
  • 🧬 Retroviruses have additional enzymes like integrase, which integrate viral DNA into the host cell's DNA.
  • 🧫 The retrovirus enters the host cell by fusing its lipid envelope with the host cell membrane.
  • 💥 Once inside, the viral capsid breaks down, releasing viral RNA and enzymes into the host cell.
  • 🔧 Reverse transcriptase binds to viral RNA, creating viral DNA, which is crucial for the virus’s replication process.
  • ✂️ Integrase cuts open the host cell DNA and integrates the viral DNA into the host’s genome, forming a provirus.
  • 📜 The host cell’s machinery then transcribes the viral DNA, producing multiple copies of viral RNA.
  • 🛠 Ribosomes in the host cell translate viral RNA into viral proteins, including reverse transcriptase, integrase, and the viral capsid.
  • 🚶‍♂️ The new viral proteins self-assemble into immature retroviruses, which are eventually released from the host cell to infect new cells.

Q & A

  • What is a retrovirus and what makes it unique?

    -A retrovirus is a specific type of RNA virus that possesses an enzyme called reverse transcriptase. This enzyme allows the virus to perform reverse transcription, converting RNA into DNA, which is the reverse of the typical transcription process.

  • What role does reverse transcriptase play in the life cycle of a retrovirus?

    -Reverse transcriptase binds to the viral RNA and performs reverse transcription, creating a DNA version of the viral RNA. This allows the retrovirus to integrate its genetic material into the host cell's DNA.

  • What is the function of integrase in a retrovirus?

    -Integrase is an enzyme that helps integrate the viral DNA into the host cell's DNA by cutting open the host's DNA and inserting the viral DNA into it.

  • How does the retrovirus enter a host cell?

    -The retrovirus attaches to the host cell membrane, and the lipid bilayers of both the virus and the cell fuse. This fusion allows the retrovirus to enter the host cell, where its capsid is dissolved to release the viral RNA and enzymes.

  • What is a pro-virus, and how is it formed?

    -A pro-virus is a combination of the host cell's DNA and the viral DNA created after the viral DNA is integrated into the host genome. This integration is facilitated by the enzyme integrase.

  • How does the host cell’s transcription process contribute to viral replication?

    -Once the viral DNA is integrated into the host DNA, the host cell's normal transcription machinery is used to create viral RNA. This viral RNA will then direct the production of viral proteins.

  • What happens to the viral RNA once it is created in the host cell?

    -The viral RNA attaches to ribosomes in the host cell, where the ribosomes read the viral RNA and produce viral proteins, such as reverse transcriptase, integrase, and the viral capsid proteins.

  • How are new retroviruses formed inside the host cell?

    -The viral proteins produced by the host cell’s ribosomes self-assemble into immature retroviruses. These immature viruses are then released through the host cell membrane.

  • What happens to the immature retroviruses after they are released from the host cell?

    -The immature retroviruses undergo a series of chemical changes to become mature. Once mature, they are capable of infecting other cells and repeating the viral replication cycle.

  • What are the main steps in the retrovirus replication cycle?

    -The main steps include: the retrovirus attaching to the host cell, reverse transcription of viral RNA into DNA, integration of viral DNA into the host cell’s genome, production of viral RNA and proteins, assembly of new viruses, and release of the newly formed viruses to infect other cells.

Outlines

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Mindmap

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Related Tags
retrovirusreverse transcriptionRNA virusvirus replicationviral DNAhost cellintegrase enzymeviral proteinsviral lifecyclevirus assembly