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Introduction to Virology Brief History, Viral Structure and Classification, and Role of Host Cells in Viral Infections
Smallpox (Variola Virus) – 10th Century B.C. <ul><li>Records of epidemics in Asia </li></ul><ul><li>Highly infectious </li...
Smallpox (Variola Virus) -10th Century B.C. <ul><li>Variola, “spot” – vesicular rash </li></ul><ul><li>Chinese prevent inf...
Smallpox – 18th Century <ul><li>Dr. Edward Jenner (England) </li></ul><ul><li>Similar infection in cows </li></ul><ul><li>...
<ul><li>Used the pus from cowpox lesions to inoculate and prevent smallpox </li></ul><ul><li>Termed “vaccination” (vaccinu...
Smallpox – 20th Century <ul><li>Use of chick embryo, tissue/cell culture to study virus in the lab </li></ul><ul><li>Resea...
Smallpox – 20 th   Century <ul><li>1967 - World Health Organization (WHO) begins program to vaccinate susceptible persons ...
Smallpox – 21 st  Century <ul><li>Vaccinia virus / Canarypox virus expression vectors are used for experimental live recom...
Smallpox – 21 st   Century <ul><li>FEAR  and concern of its possible use as a bioterrorism weapon arise </li></ul>
Tobacco Mosaic Virus (TMV) <ul><li>Iwanowski (Russia in 1892) – found that after bacteria are removed by filtration of the...
TMV <ul><li>Electron microscopy reveals that the virus is a rod shaped, helical particle </li></ul>
Bacterial Viruses <ul><li>Twort & d’Herelle (1915) – infected bacterial colonies become “clear,and watery” and are killed;...
Bacterial Viruses <ul><li>Delbruck & Luria  (1952)– </li></ul><ul><li>Performed genetic studies  </li></ul><ul><li>using p...
RNA Tumor Viruses <ul><li>Rous (USA, 1911) – reported  </li></ul><ul><li>that a virus infection of  </li></ul><ul><li>chic...
RNA Tumor Viruses <ul><li>Identified as Retroviruses (RNA to DNA) </li></ul>
DNA Tumor Viruses <ul><li>Shope (USA) – shows that a DNA virus is  responsible for papilloma in rabbits </li></ul>
DNA Tumor Viruses <ul><li>Related viruses were found in mice, cows, horses, and primates </li></ul><ul><li>The Virus:Host ...
Emerging Infections
Emerging Viruses <ul><li>Ebola Virus -  </li></ul><ul><li>fatal hemorrhagic  </li></ul><ul><li>fever </li></ul><ul><li>HIV...
Emerging Viruses <ul><li>Hantavirus –  hemorrhagic fever  </li></ul><ul><li>+ pulmonary infection </li></ul><ul><li>Prion ...
Emerging Viruses <ul><li>West Nile Virus – </li></ul><ul><li>asymptomatic, </li></ul><ul><li>encephalitis (1%) </li></ul><...
Emerging Viruses <ul><li>Avian Influenza virus (H5, N1) –  </li></ul><ul><li>fatal pneumonia </li></ul>
Introduction to Virology <ul><li>What is a virus? </li></ul><ul><ul><li>Extremely small </li></ul></ul><ul><ul><ul><li>Sub...
Variation in virus size
What is a virus? <ul><ul><li>Biochemically viruses are similar to, but different from “living organisms” </li></ul></ul><u...
Types of viral nucleic acid
What is a virus? <ul><ul><ul><li>Unlike other living organisms, viruses contain no polysaccharides, small molecules or ion...
Growth curves of bacteria (A) versus bacteriophages (B)
Differences in growth curves: <ul><ul><li>Virus particles are produced from the assembly of pre-formed components: other o...
The multiplication cycle of a virus
One step growth curve <ul><li>A one-step growth curve of bacteriophage λ following infection of susceptible bacteria (Esch...
What is a virion? <ul><li>A  virion  is a structurally complete virus that is capable of infecting new cells </li></ul>
Structure of viruses: <ul><li>Composed of nucleic acid (either DNA or RNA) </li></ul><ul><li>Surrounding the nucleic acid ...
Capsomers, continued <ul><ul><li>The arrangement of the capsomers determines the architecture of the virus or the  nucleoc...
Helical Structure
Helical structure
Capsid architecture continued <ul><ul><li>Icosahedral </li></ul></ul><ul><ul><ul><li>Looks like a sphere, but it actually ...
Icosahedral architecture
Icosahedral architecture
Capsid architecture continued <ul><li>Some viruses are more complex and don’t fit into either architectural type. </li></ul>
Poxvirus
Reovirus
Structure of Viruses, continued <ul><li>The nucleocapsid of many viruses is surrounded by an envelope.  </li></ul><ul><ul>...
Enveloped viruses Sindbis virus: an enveloped icosahedron
Enveloped viruses Influenza A virus (an orthomyxovirus) and vesicular stomatitis virus (a rhabdovirus): viruses with envel...
Structure of Viruses, continued <ul><li>Viruses without an envelope are called  naked viruses.  </li></ul><ul><li>Envelope...
Budding
Enveloped viruses <ul><li>Enveloped viruses modify their lipid envelopes by directing the synthesis of different classes o...
Enveloped viruses <ul><ul><ul><li>Receptor binding </li></ul></ul></ul><ul><ul><ul><li>Fusion, a process that takes place ...
Types of viral proteins associated with the envelope Influenza   virus
Structural Roles of Host Cells in Viral Infections <ul><li>In order for a virus to successfully infect a host cell, the ce...
Receptors on animal cells
Structural Roles of Host Cells in Viral Infections <ul><li>In order for a virus to successfully infect a host cell, the ho...
Eukaryotic cells <ul><li>Several linear chromosomes; diploid </li></ul><ul><li>No operons; each gene is regulated by its o...
Eukaryotic cells, continued <ul><li>Internal compartmentalization </li></ul><ul><ul><li>Nucleus for replication and transc...
Classification of Viruses <ul><ul><li>There are various ways to classify viruses: </li></ul></ul><ul><ul><ul><li>On the ba...
The Baltimore Classification of Viruses <ul><ul><ul><ul><ul><li>Class 3= double stranded RNA </li></ul></ul></ul></ul></ul...
Baltimore Classification of Viruses
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33. introduction to virology

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33. introduction to virology

  1. 1. Introduction to Virology Brief History, Viral Structure and Classification, and Role of Host Cells in Viral Infections
  2. 2. Smallpox (Variola Virus) – 10th Century B.C. <ul><li>Records of epidemics in Asia </li></ul><ul><li>Highly infectious </li></ul><ul><li>Often fatal (15 – 45% fatality) </li></ul>
  3. 3. Smallpox (Variola Virus) -10th Century B.C. <ul><li>Variola, “spot” – vesicular rash </li></ul><ul><li>Chinese prevent infection by self-inoculation of pus from lesions </li></ul><ul><li>Termed “variolation” </li></ul>
  4. 4. Smallpox – 18th Century <ul><li>Dr. Edward Jenner (England) </li></ul><ul><li>Similar infection in cows </li></ul><ul><li>Milkmaids infected by cowpox do not get smallpox </li></ul>
  5. 5. <ul><li>Used the pus from cowpox lesions to inoculate and prevent smallpox </li></ul><ul><li>Termed “vaccination” (vaccinus, cow) </li></ul>
  6. 6. Smallpox – 20th Century <ul><li>Use of chick embryo, tissue/cell culture to study virus in the lab </li></ul><ul><li>Research & Development for Biological Warfare (USA, Soviet Union) </li></ul>
  7. 7. Smallpox – 20 th Century <ul><li>1967 - World Health Organization (WHO) begins program to vaccinate susceptible persons </li></ul><ul><li>1977 – last natural case of disease in Bangladesh </li></ul><ul><li>1979 – WHO declares smallpox eradicated </li></ul>
  8. 8. Smallpox – 21 st Century <ul><li>Vaccinia virus / Canarypox virus expression vectors are used for experimental live recombinant virus vaccines </li></ul>
  9. 9. Smallpox – 21 st Century <ul><li>FEAR and concern of its possible use as a bioterrorism weapon arise </li></ul>
  10. 10. Tobacco Mosaic Virus (TMV) <ul><li>Iwanowski (Russia in 1892) – found that after bacteria are removed by filtration of the sap, the sap remains infectious </li></ul><ul><li>Stanley (USA) – crystallized TMV from plant extract </li></ul>
  11. 11. TMV <ul><li>Electron microscopy reveals that the virus is a rod shaped, helical particle </li></ul>
  12. 12. Bacterial Viruses <ul><li>Twort & d’Herelle (1915) – infected bacterial colonies become “clear,and watery” and are killed; agent was termed bacteriophage (bacteria-eating) </li></ul>
  13. 13. Bacterial Viruses <ul><li>Delbruck & Luria (1952)– </li></ul><ul><li>Performed genetic studies </li></ul><ul><li>using plaque assays </li></ul><ul><li>(more on this later) </li></ul><ul><li>Lwoff – reported on infections where there is no cell lysis, and where the viral genome is incorporated into the host DNA (lysogenic / latent infection) </li></ul>
  14. 14. RNA Tumor Viruses <ul><li>Rous (USA, 1911) – reported </li></ul><ul><li>that a virus infection of </li></ul><ul><li>chickens resulted in sarcoma </li></ul><ul><li>Related viruses were </li></ul><ul><li>shown to cause leukemia </li></ul><ul><li> in cats, mice, and cows </li></ul>
  15. 15. RNA Tumor Viruses <ul><li>Identified as Retroviruses (RNA to DNA) </li></ul>
  16. 16. DNA Tumor Viruses <ul><li>Shope (USA) – shows that a DNA virus is responsible for papilloma in rabbits </li></ul>
  17. 17. DNA Tumor Viruses <ul><li>Related viruses were found in mice, cows, horses, and primates </li></ul><ul><li>The Virus:Host interactions of these viruses were used as a model to study cell regulation </li></ul>Human Papilloma Virus
  18. 18. Emerging Infections
  19. 19. Emerging Viruses <ul><li>Ebola Virus - </li></ul><ul><li>fatal hemorrhagic </li></ul><ul><li>fever </li></ul><ul><li>HIV – </li></ul><ul><li>chronic infection, </li></ul><ul><li> immune deficiency </li></ul>
  20. 20. Emerging Viruses <ul><li>Hantavirus – hemorrhagic fever </li></ul><ul><li>+ pulmonary infection </li></ul><ul><li>Prion – proteinaeous infectious particle causing subacute spongiform encephalopathy </li></ul>
  21. 21. Emerging Viruses <ul><li>West Nile Virus – </li></ul><ul><li>asymptomatic, </li></ul><ul><li>encephalitis (1%) </li></ul><ul><li>Severe Acute </li></ul><ul><li>Respiratory Syndrome </li></ul><ul><li>(SARS) </li></ul>
  22. 22. Emerging Viruses <ul><li>Avian Influenza virus (H5, N1) – </li></ul><ul><li>fatal pneumonia </li></ul>
  23. 23. Introduction to Virology <ul><li>What is a virus? </li></ul><ul><ul><li>Extremely small </li></ul></ul><ul><ul><ul><li>Submicroscopic </li></ul></ul></ul><ul><ul><ul><li>Must use an electron microscope to “see” </li></ul></ul></ul><ul><ul><ul><li>Passes through filters used to “sterilize” solutions </li></ul></ul></ul><ul><ul><li>Obligate, intracellular parasites </li></ul></ul><ul><ul><ul><li>Can’t be cultured on artificial media </li></ul></ul></ul>
  24. 24. Variation in virus size
  25. 25. What is a virus? <ul><ul><li>Biochemically viruses are similar to, but different from “living organisms” </li></ul></ul><ul><ul><ul><li>Both viruses and other living organisms contain proteins and glycoproteins </li></ul></ul></ul><ul><ul><ul><li>While other living organisms contain both RNA and DNA, viruses contain either DNA or RNA , but not both </li></ul></ul></ul><ul><ul><ul><ul><li>DNA viruses </li></ul></ul></ul></ul><ul><ul><ul><ul><ul><li>may be linear with open or closed ends, </li></ul></ul></ul></ul></ul><ul><ul><ul><ul><ul><li>circular (closed or nicked), </li></ul></ul></ul></ul></ul><ul><ul><ul><ul><ul><li>single stranded, or </li></ul></ul></ul></ul></ul><ul><ul><ul><ul><ul><li>double stranded </li></ul></ul></ul></ul></ul><ul><ul><ul><ul><li>RNA viruses </li></ul></ul></ul></ul><ul><ul><ul><ul><ul><li>may be linear single stranded, </li></ul></ul></ul></ul></ul><ul><ul><ul><ul><ul><li>segmented single stranded, or </li></ul></ul></ul></ul></ul><ul><ul><ul><ul><ul><li>segmented double stranded </li></ul></ul></ul></ul></ul><ul><ul><ul><ul><ul><li>If single stranded, the strand may be of either the plus or the minus sense (more later on this) </li></ul></ul></ul></ul></ul>
  26. 26. Types of viral nucleic acid
  27. 27. What is a virus? <ul><ul><ul><li>Unlike other living organisms, viruses contain no polysaccharides, small molecules or ions </li></ul></ul></ul><ul><ul><ul><li>Other living organisms contain lipids. Lipids, if found in viruses, are only found in enveloped viruses (more on this later on) </li></ul></ul></ul><ul><ul><ul><li>Viruses lack the genetic information that encodes the apparatus necessary for the generation of metabolic energy or for protein synthesis </li></ul></ul></ul><ul><ul><li>The growth curves of viruses are very different from those of other organisms: </li></ul></ul>
  28. 28. Growth curves of bacteria (A) versus bacteriophages (B)
  29. 29. Differences in growth curves: <ul><ul><li>Virus particles are produced from the assembly of pre-formed components: other organisms grow from an increase in the integrated sum of their components and reproduce by cell division. </li></ul></ul><ul><ul><li>Viruses don’t “grow” or undergo division </li></ul></ul><ul><ul><li>There are six basic phases in the multiplication cycle of all viruses </li></ul></ul><ul><ul><ul><li>Attachment </li></ul></ul></ul><ul><ul><ul><li>Penetration </li></ul></ul></ul><ul><ul><ul><li>Uncoating </li></ul></ul></ul><ul><ul><ul><li>Biosynthesis </li></ul></ul></ul><ul><ul><ul><li>Assembly </li></ul></ul></ul><ul><ul><ul><li>Release </li></ul></ul></ul>
  30. 30. The multiplication cycle of a virus
  31. 31. One step growth curve <ul><li>A one-step growth curve of bacteriophage λ following infection of susceptible bacteria (Escherichia coli). During the eclipse phase(1), the infectivity of the cell-associated, infecting virus is lost as it uncoats; during the maturation phase(2) infectious virus is assembled inside cells (cell-associated virus), but not yet released; and the latent phase(3) measures the period before infectious virus is released from cells into the medium. Total virus is the sum of cell-associated virus +released virus. Cell-associated virus decreases as cells are lysed. This classic experiment shows that phages develop intracellularly. </li></ul>
  32. 32. What is a virion? <ul><li>A virion is a structurally complete virus that is capable of infecting new cells </li></ul>
  33. 33. Structure of viruses: <ul><li>Composed of nucleic acid (either DNA or RNA) </li></ul><ul><li>Surrounding the nucleic acid is a protein outer coat (a capsid ) which is composed of units called capsomers which are formed by the association of individual proteins called protomers. The capsid : </li></ul><ul><ul><li>Functions to protect the delicate inner nucleic acid from physical, chemical or enzymatic damage. </li></ul></ul><ul><ul><li>May function in attachment of the virus to the host cell. </li></ul></ul><ul><ul><li>May provide enzymes essential for virus entry </li></ul></ul><ul><ul><li>Functions to ensure that the virus genome is released only at the appropriate time and location </li></ul></ul>
  34. 34. Capsomers, continued <ul><ul><li>The arrangement of the capsomers determines the architecture of the virus or the nucleocapsid (composed of nucleic acid and the capsid). There are two basic types of capsomer arrangements: </li></ul></ul><ul><ul><ul><li>Helix </li></ul></ul></ul><ul><ul><ul><ul><li>Looks like a hollow tube or cylinder with the nucleic acid inside. </li></ul></ul></ul></ul><ul><ul><ul><ul><li>The proteins are arranged around the circumference of a circle to form a disc. </li></ul></ul></ul></ul><ul><ul><ul><ul><li>Multiple discs are stacked on top of each other. </li></ul></ul></ul></ul><ul><ul><ul><ul><li>The helix may be rigid or flexible. </li></ul></ul></ul></ul>
  35. 35. Helical Structure
  36. 36. Helical structure
  37. 37. Capsid architecture continued <ul><ul><li>Icosahedral </li></ul></ul><ul><ul><ul><li>Looks like a sphere, but it actually has 20 triangular faces and 12 corners made by the intersection of 5 faces. </li></ul></ul></ul><ul><ul><ul><li>For small viruses, each face (capsomer) consists of three structural subunits (protomers). </li></ul></ul></ul><ul><ul><ul><li>The faces of larger viruses are made from multiples of three subunits . </li></ul></ul></ul>
  38. 38. Icosahedral architecture
  39. 39. Icosahedral architecture
  40. 40. Capsid architecture continued <ul><li>Some viruses are more complex and don’t fit into either architectural type. </li></ul>
  41. 41. Poxvirus
  42. 42. Reovirus
  43. 43. Structure of Viruses, continued <ul><li>The nucleocapsid of many viruses is surrounded by an envelope. </li></ul><ul><ul><li>The envelope is derived from host cell membranes. </li></ul></ul><ul><ul><li>Viruses differ as to which host cell membrane is used for their envelope, i.e., plasma membrane, Golgi, endoplasmic reticulum (E.R.), or nuclear membranes may be used. </li></ul></ul>
  44. 44. Enveloped viruses Sindbis virus: an enveloped icosahedron
  45. 45. Enveloped viruses Influenza A virus (an orthomyxovirus) and vesicular stomatitis virus (a rhabdovirus): viruses with enveloped helical structures. Although their morphology is different, these viruses are constructedin the same way.
  46. 46. Structure of Viruses, continued <ul><li>Viruses without an envelope are called naked viruses. </li></ul><ul><li>Enveloped viruses have an advantage in that they may exit the host cell without destroying it. </li></ul><ul><ul><li>For example, viruses that use the host cell plasma membrane as the envelope, may take part of the host cell plasma membrane as the viruses exit the cell (a process called budding ) and the host cell membrane reseals itself. (More detail will be provided on this process later in the quarter) </li></ul></ul>
  47. 47. Budding
  48. 48. Enveloped viruses <ul><li>Enveloped viruses modify their lipid envelopes by directing the synthesis of different classes of virally encoded proteins that are specifically transported to and associated with the membrane that eventually becomes their envelope. </li></ul><ul><ul><li>Matrix proteins – bind to the inner surface of the membrane to link the nucleocapsid to the membrane in the assembly process. </li></ul></ul><ul><ul><li>Glycoproteins – are transmembrane proteins. External glycoproteins have large ectodomains and small endodomains. Monomers of these proteins often associate to form multimers and may function in: </li></ul></ul>
  49. 49. Enveloped viruses <ul><ul><ul><li>Receptor binding </li></ul></ul></ul><ul><ul><ul><li>Fusion, a process that takes place during entry of the virus into the host cell (more on this later) </li></ul></ul></ul><ul><ul><li>Transport channel proteins </li></ul></ul><ul><ul><ul><li>May span the membrane several times. </li></ul></ul></ul><ul><ul><ul><li>May be important for modifying the internal environment of the virus by altering membrane permeability. </li></ul></ul></ul>
  50. 50. Types of viral proteins associated with the envelope Influenza virus
  51. 51. Structural Roles of Host Cells in Viral Infections <ul><li>In order for a virus to successfully infect a host cell, the cell must contain the receptor that the virus binds to in the process of initiating an infection. </li></ul><ul><ul><li>Receptors on animal cells are found on the plasma membrane. </li></ul></ul><ul><ul><ul><li>They may be proteins, glycoproteins, or glycolipids. </li></ul></ul></ul><ul><ul><ul><li>Many viruses bind to the carbohydrate side chains of glycoproteins. </li></ul></ul></ul>
  52. 52. Receptors on animal cells
  53. 53. Structural Roles of Host Cells in Viral Infections <ul><li>In order for a virus to successfully infect a host cell, the host cell must: </li></ul><ul><ul><li>Contain the receptor for the virus, </li></ul></ul><ul><ul><li>It must also have the cellular machinery that the virus needs for replication. </li></ul></ul><ul><ul><li>Differences in the organization of the cell’s genome and how it carries out the processes of replication, transcription and translation play an important role in virus replication. </li></ul></ul>
  54. 54. Eukaryotic cells <ul><li>Several linear chromosomes; diploid </li></ul><ul><li>No operons; each gene is regulated by its own controlling elememts; monocistronic mRNA (rare IRES sites) </li></ul><ul><li>Post-trascriptional modification of RNA </li></ul><ul><ul><li>Splicing </li></ul></ul><ul><ul><li>Addition of 5’cap </li></ul></ul><ul><ul><li>Addition of 3’ poly A tail </li></ul></ul>
  55. 55. Eukaryotic cells, continued <ul><li>Internal compartmentalization </li></ul><ul><ul><li>Nucleus for replication and transcription </li></ul></ul><ul><ul><li>Cytoplasm for translation </li></ul></ul><ul><li>Once cells differentiate, they exit the cell cycle. </li></ul>
  56. 56. Classification of Viruses <ul><ul><li>There are various ways to classify viruses: </li></ul></ul><ul><ul><ul><li>On the basis of disease </li></ul></ul></ul><ul><ul><ul><li>On basis of the host organism </li></ul></ul></ul><ul><ul><ul><li>On basis of virus particle morphology </li></ul></ul></ul><ul><ul><ul><li>On the basis of viral nucleic acid </li></ul></ul></ul><ul><ul><ul><li>The most commonly used classification scheme is the Baltimore scheme. This scheme is based on the relationship between the viral genome and the mRNA used for translation during expression of the viral genome: </li></ul></ul></ul><ul><ul><ul><ul><ul><li>Class I = double stranded DNA viruses </li></ul></ul></ul></ul></ul><ul><ul><ul><ul><ul><li>Class 2a= single stranded + sense DNA (DNA has the same sequence as the mRNA, except T replaces U) </li></ul></ul></ul></ul></ul><ul><ul><ul><ul><ul><li>Class 2b= single stranded – sense DNA (The DNA is complementary to the mRNA) </li></ul></ul></ul></ul></ul>
  57. 57. The Baltimore Classification of Viruses <ul><ul><ul><ul><ul><li>Class 3= double stranded RNA </li></ul></ul></ul></ul></ul><ul><ul><ul><ul><ul><li>Class 4= single stranded + sense RNA (the genome sequence is the same as the mRNA and can often be directly translated into protein product) </li></ul></ul></ul></ul></ul><ul><ul><ul><ul><ul><li>Class 5= single stranded – sense RNA (the RNA is complementary to the mRNA and thus, the genomic RNA cannot be directly translated into a protein product) </li></ul></ul></ul></ul></ul><ul><ul><ul><ul><ul><li>Class 6= single stranded + sense RNA that requires synthesis of a double stranded DNA molecule for the expression of the genome (retroviruses) </li></ul></ul></ul></ul></ul><ul><ul><ul><ul><ul><li>Class 7 = this is a new class for viruses termed reversiviruses which replicate their double stranded DNA genome via a positive sense single stranded RNA intermediate </li></ul></ul></ul></ul></ul>
  58. 58. Baltimore Classification of Viruses

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