Lesson 4: Characteristics of Viral RNA genomes

Byadmin

June 3, 2022

Viral RNA genomes have distinct characteristics that influence their replication, diversity, and interaction with host cells.

1. Genome Polarity (Sense)

  • Can be single-stranded (ss) or double-stranded (ds) and can occur as a single or fragmented molecule
  • Positive-sense RNA (+RNA)
    • The genome can be directly translated into viral proteins by the host’s ribosomes, functioning like mRNA. The ss sense or polarity is the same as mRNA.

    • Examples: Picornaviruses (e.g., Poliovirus), Coronaviruses (e.g., SARS-CoV-2).
  • Negative-sense RNA (−RNA)
    • The genome must first be transcribed into complementary positive-sense RNA by an RNA-dependent RNA polymerase before translation can occur.
    • Examples: Rhabdoviruses (e.g., Rabies virus), Orthomyxoviruses (e.g., Influenza virus).
  • Ambisense RNA
    • The genome contains both positive and negative-sense regions, requiring different mechanisms for transcription and translation.
    • Examples: Arenaviruses (e.g., Lassa virus).

2. Genome Segmentation

  • Segmented Genomes
    • The genome is divided into separate RNA segments, each coding for different proteins.
    • Advantage: Segmentation allows for reassortment during co-infection, increasing genetic diversity and potential for antigenic shift.
    • Examples: Orthomyxoviruses (Influenza virus has 8 segments), Reoviruses (Rotavirus has 11 segments).
  • Non-segmented Genomes
    • The genome consists of a single continuous RNA strand.
    • Examples: Paramyxoviruses (e.g., Measles virus), Coronaviruses.

3. Replication Enzymes

  • RNA viruses generally encode their own RNA-dependent RNA polymerase (RdRp) for replication, as host cells do not have this enzyme for RNA genome replication.
  • Error-prone replication: RdRp lacks proofreading ability, leading to high mutation rates in RNA viruses, which contributes to rapid evolution and adaptability.

4. Genome Size

  • RNA genomes tend to be smaller than DNA genomes, ranging from about 3,000 to 30,000 nucleotides.
    • Small genomes: These are often found in viruses with simple replication strategies (e.g., Picornaviruses).
    • Large genomes: Some RNA viruses like Coronaviruses have relatively large genomes (~30 kb), containing additional genes for non-structural proteins that modulate host cell processes.

5. Circular vs. Linear Genomes

  • Most RNA viruses have linear RNA genomes, but a few have circular RNA genomes (e.g., some plant viruses).

6. Genome Modifications

  • Cap structures: Positive-sense RNA viruses often have 5′ cap structures, like host mRNA, to enhance translation.
  • Poly(A) tails: Many RNA viruses have polyadenylated 3′ ends, aiding in mRNA stability and translation.
  • Internal Ribosome Entry Sites (IRES): Some RNA viruses (e.g., Picornaviruses) use IRES in place of a 5′ cap to recruit ribosomes for translation.

7. Replication Strategy

  • RNA viruses replicate in the host cell’s cytoplasm (with exceptions like Influenza viruses that replicate in the nucleus).
  • Positive-sense RNA viruses replicate by producing a complementary negative-strand intermediate, which is used as a template to synthesize new positive-strand RNA genomes.
  • Negative-sense RNA viruses must carry their own RNA polymerase within the virion to produce mRNA from their genomes immediately upon infection.

8. Genetic Diversity and Recombination

  • RNA viruses exhibit high genetic diversity due to their high mutation rates.
  • Recombination: RNA viruses can undergo recombination, where portions of their genome swap with similar regions from other viruses, especially in co-infections.
  • Reassortment: In segmented RNA viruses (e.g., Influenza), genome segments can reassort during co-infection, leading to new viral strains.

9. Rapid Evolution

  • High mutation rates, due to error-prone RNA polymerase and lack of proofreading, result in the quasi-species phenomenon—a cloud of closely related viral variants that adapt quickly to environmental pressures such as immune responses or antiviral drugs.

10. Transmission and Tropism

  • The structure and replication strategy of RNA genomes often influence the tropism (cell type specificity) and mode of transmission. For example, respiratory RNA viruses like Influenza are adapted for efficient transmission via aerosols.

RNA viral genomes are versatile, highly mutable, and diverse in structure and replication strategies, which contribute to their evolutionary adaptability and pathogen

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