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Related Concept Videos

Viral Mutations00:36

Viral Mutations

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A mutation is a change in the sequence of bases of DNA or RNA in a genome. Some mutations occur during replication of the genome due to errors made by the polymerase enzymes that replicate DNA or RNA. Unlike DNA polymerase, RNA polymerase is prone to errors because it is not capable of “proofreading” its work. Viruses with RNA-based genomes, like HIV, therefore accrue mutations faster than viruses with DNA-based genomes. Because mutation and recombination provide the raw material...
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Retroviruses have a single-stranded RNA genome that undergoes a special form of replication. Once the retrovirus has entered the host cell, an enzyme called reverse transcriptase synthesizes double-stranded DNA from the retroviral RNA genome. This DNA copy of the genome is then integrated into the host’s genome inside the nucleus via an enzyme called integrase. Consequently, the retroviral genome is transcribed into RNA whenever the host’s genome is transcribed, allowing the...
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Experimental Evolution Studies in Φ6 Cystovirus.

Sonia Singhal1, Akiko K Balitactac1, Aruna G Nayagam1

  • 1Department of Biological Sciences, San José State University, San José, CA 95192, USA.

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|June 27, 2024
PubMed
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Experimental evolution using bacteriophage Φ6 reveals insights into mutation, selection, and trait evolution. This research informs our understanding of RNA virus evolution, including human pathogens.

Keywords:
bacteriophagecoinfectioncystovirusexperimental evolutiongenetic exchangegenetic robustnesshost rangemutational effectsthermostabilityΦ6

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Area of Science:

  • Evolutionary biology
  • Microbiology
  • Virology

Background:

  • Experimental evolution studies investigate mutation, selection, and trait origins.
  • Bacteriophage Φ6 is a model organism due to its characteristics facilitating rapid evolution.
  • Φ6 serves as a non-pathogenic model for human RNA virus evolution.

Purpose of the Study:

  • To review 30 years of experimental evolution studies using bacteriophage Φ6.
  • To explore Φ6's utility in understanding mutation fitness effects and coinfection consequences.
  • To investigate the evolution of host range and thermostability in viruses.

Main Methods:

  • Utilizing bacteriophage Φ6 for laboratory evolution experiments.
  • Analyzing spontaneous mutations and their fitness effects.
  • Studying the impact of coinfection and host range evolution.

Main Results:

  • Φ6's properties enable rapid laboratory evolution and mutation characterization.
  • Experiments addressed fitness effects of mutations and consequences of coinfection.
  • Studies examined host range expansion and thermostability evolution.

Conclusions:

  • Bacteriophage Φ6 is a valuable model for studying viral evolution.
  • Experimental evolution with Φ6 provides insights into RNA virus adaptation.
  • Further Φ6 research can inform predictions for pathogenic viruses.