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Viral genomes exhibit remarkable diversity in size, structure, and composition, influencing their replication strategies and interactions with host cells. These genomes consist of either DNA or RNA and may be linear or circular. Additionally, they can be single-stranded or double-stranded, with each configuration affecting how the virus propagates within a host. RNA viruses, for instance, generally have smaller genomes than DNA viruses, a factor that contributes to their high mutation rates and...
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RNA viruses are categorized into positive-strand, negative-strand, or double-stranded groups based on their genomic structure and replication mechanisms. This classification dictates how they exploit host cellular machinery for protein synthesis and replication. Some RNA viruses also utilize reverse transcription as part of their life cycle, further diversifying their replication strategies.Positive-Strand RNA VirusesPositive-strand RNA viruses have genomes that function directly as messenger...
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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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Viral Structure00:56

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Viruses are extraordinarily diverse in shape and size, but they all have several structural features in common. All viruses have a core that contains a DNA- or RNA-based genome. The core is surrounded by a protective coat of proteins called the capsid. The capsid is composed of subunits called capsomeres. The capsid and genome-containing core are together known as the nucleocapsid.
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Retroviruses and retrotransposons both insert copies of their genetic elements into the genome of the host cell. Thus, the viral genes are passed on when the host genome is replicated or translated. A typical retroviral DNA sequence contains 3-4 genes that encode the different proteins required for its structural assembly and function as a molecular parasite. This DNA is transcribed into a single mRNA, which is very similar in structure to conventional mRNAs, i.e., it is capped at the 5’...
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Related Experiment Video

Updated: Apr 24, 2026

Generation and Assembly of Virus-Specific Nucleocapsids of the Respiratory Syncytial Virus
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Generation and Assembly of Virus-Specific Nucleocapsids of the Respiratory Syncytial Virus

Published on: July 27, 2021

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Viral RNAs are unusually compact.

Ajaykumar Gopal1, Defne E Egecioglu1, Aron M Yoffe1

  • 1Department of Chemistry & Biochemistry, University of California Los Angeles, Los Angeles, California, United States of America.

Plos One
|September 5, 2014
PubMed
Summary

Viral RNAs are exceptionally compact, adopting smaller sizes in solution than other RNA types. This compactness, driven by specific branching patterns in their structure, facilitates efficient packaging into viral capsids.

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Area of Science:

  • Molecular Biology
  • Virology
  • Biophysics

Background:

  • Viruses utilize single-stranded genomic RNA encapsulated within protein shells.
  • Efficient packaging of viral RNA is crucial for viral replication and evolution.

Purpose of the Study:

  • To investigate the physical compactness of viral RNAs compared to other RNA types.
  • To understand the structural basis and evolutionary pressures driving viral RNA compactness.

Main Methods:

  • Measurement of RNA sizes in solution using gel electrophoresis and hydrodynamic radii.
  • Graph-theoretical analysis of predicted RNA secondary structures.
  • Comparative analysis across diverse viral families.

Main Results:

  • Viral RNAs exhibit significantly smaller solution sizes, higher electrophoretic mobilities, and smaller hydrodynamic radii.
  • RNA size strongly correlates with the compactness of branching patterns in secondary structure ensembles.
  • Higher-order helix junctions significantly influence branching density and overall compactness.

Conclusions:

  • Viral RNA compactness is an evolved trait optimizing packaging efficiency.
  • Structural branching patterns, particularly the density of helix junctions, are key determinants of compactness.
  • Understanding RNA compactness provides insights into RNA folding and viral assembly mechanisms.