Syllabus Edition

First teaching 2023

First exams 2025

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Virus Structure (HL) (HL IB Biology)

Revision Note

Cara Head

Author

Cara Head

Expertise

Biology

Structural Features of Viruses

Virus structure

  • Viruses are non-cellular infectious particles; they are not organisms as they are not considered to be alive
  • Viruses possess none of the characteristic features used for classifying organisms so they sit outside of the three-domain classification system
  • They are relatively simple in structure and much smaller than prokaryotic cells, with diameters between 20 and 300 nm
    • They can only be seen with an electron microscope
  • They have no cellular structures and so no metabolism so they are considered to be acellular
  • Structural features common to all viruses include
    • A small size
      • Viruses contain few molecules, so do not form large structures
    • A fixed size
      • Viruses do not grow
    • A nucleic acid core
      • Their genomes are made up of either DNA or RNA
      • Nucleic acids in viruses can be single or double-stranded
      • Nucleic acids can have a linear or circular structure
    • A protein coat called a ‘capsid’
      • Attachment proteins are present on the outer surface of a capsid that allow viruses to bind to and enter host cells
    • No cytoplasm
    • Very few, or no, enzymes
  • Some viruses have an additional outer layer called a lipid envelope, formed usually from the membrane-phospholipids of a cell they were made in
    • Lipid envelope structures can be involved with cell recognition
  • All viruses are parasitic in that they can only reproduce by infecting living cells and using their protein-building machinery (ribosomes) to produce new viral particles
    • The energy that viruses need for replication is released by the host cell; viruses do not respire

General virus structure diagram

The general structure of a virus

Virus structure can vary, but all viruses have genetic material and a protein capsid with attachment proteins

Structural Diversity

Diversity of structure in viruses

  • Although simple, there is huge variety and diversity of virus structure and shape:
    • Genetic material can be either RNA or DNA which can either be double or single stranded
    • Some viruses are enveloped, others are not
    • Viral shapes can be threadlike, polyhedral and spherical
  • Each type of virus is able to attach to and infect a specific type of host cell; the host cell to which it can attach is determined by the attachment proteins, e.g.
    • HIV infects white blood cells
    • Hepatitis infects liver cells

Virus structure variety diagram

diversity-of-structure-in-viruses

Virus structure varies widely

  • Examples of viruses that have different structures are:
    • Bacteriophage lambda
    • Coronaviruses
    • HIV

Bacteriophage lambda

  • This is a bacterial virus and it infects the bacterial species Escherichia coli (E.coli)
  • It has a double stranded DNA genome contained within its capsid head
  • The tail and fibrils enable it to attach itself to its host and insert its DNA into the cell
    • The tail consists of proteins that contract, allowing the virus to move the tail through the bacterial cell wall 
    • DNA from the virus is injected into the host cell through the tail

Bacteriophage lambda structure diagram

The structure of bacteriophage lambda

A bacteriophage virus

Coronaviruses

  • Coronaviruses are a group of viruses that cause respiratory diseases in mammals and birds
    • They can be transmitted via respiratory fluids
  • Their structure includes:
    • Single stranded RNA
    • A spherical shape
    • An envelope outside their capsid
    • Many glycoproteins that project from their surface, producing a "corona" 
  • Examples include SARS-Cov-2 (COVID-19), Middle East Respiratory Syndrome (MERS), and Severe Acute Respiratory Syndrome (SARS)

Coronavirus structure diagram

diversity-of-structure-in-viruses-coronavirus

A coronavirus

HIV

  • The Human Immunodeficiency Virus is spread by intimate human contact and can only be transmitted by direct exchange of body fluids
  • This means HIV can be transmitted in the following ways:
    • Sexual intercourse
    • Blood donation
    • Sharing of needles used by intravenous drug users
    • From mother to child across the placenta
    • Mixing of blood between mother and child during birth
    • From mother to child through breast milk
  • HIV contains:
    • Two RNA strands
    • Proteins (including the enzyme reverse transcriptase)
      • Reverse transcriptase allows the production of DNA from the viral RNA; for this reason HIV is known as a retrovirus
    • A protein capsid
    • A viral envelope consisting of a lipid bilayer and glycoproteins that act as attachment proteins
      • The lipid bilayer is derived from the cell membrane of the host helper T cell that the particle escaped from

HIV structure diagram

hiv-structure-diagram

A HIV particle

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Cara Head

Author: Cara Head

Cara graduated from the University of Exeter in 2005 with a degree in Biological Sciences. She has fifteen years of experience teaching the Sciences at KS3 to KS5, and Psychology at A-Level. Cara has taught in a range of secondary schools across the South West of England before joining the team at SME. Cara is passionate about Biology and creating resources that bring the subject alive and deepen students' understanding