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General structure and classification of viruses DR. MOHAMMED ARIF ASSOCIATE PROFESSOR CONSULTANT VIROLOGIST HEAD OF THE VIROLOGY UNIT
The concept of virus  Edward Jenner (1798), introduced the term virus in microbiology.  Virus in Greek means poison.  Edward Jenner noticed that milk maids who infected with cowpox develop immunity against smallpox.  He inoculated a boy with the vesicle fluid taken from the hand of infected maid.  The boy developed sustained immunity against smallpox.
The concept of virus.  Edward Jenner assumed that the vesicle fluid that has been taken from the hand of the milk maid contained a poison ( virus ), that was responsible for immunity.
General characteristics of viruses  Viruses are smaller than bacteria, they range in size between 20-300 nanometer ( nm ).  Viruses contain only one type of nucleic acid, either DNA or RNA, but never both.  Viruses consist of nucleic acid surrounded by a protein coat. Some viruses have additional lipoprotein envelope.  Viruses lack cellular organelles, such as mitochondria and ribosomes.
General characteristics of viruses  Viruses are obligate cellular parasites. They replicate only inside living cells.  Viruses replicate through replication of their nucleic acid and synthesis of the viral protein.  Viruses do not multiply in chemically defined media.  Viruses do not undergo binary fission.
Size of viruses
Terminology  Virion: The complete virus particle.  Capsid: The protein coat that surrounds nucleic acid.  Nucleocapsid: The nucleic acid plus the capsid.  Capsomeres: The structural protein units that made up the capsid.  Defective virus: the virus cannot replicate by its own, it requires helper virus.  Nanometer : milli-micron.
General structure of viruses  Viruses composed of nucleic acid either DNA or RNA, surrounded by a protein coat called the capsid.  The capsid is composed of small structural units called capsomeres.  The capsid protects nucleic acid from inactivation by the outer physical conditions.  Some viruses have additional lipoprotein envelope , composed of virally coded protein and host lipid. The viral envelope is covered with glycoprotein spikes.
General structure of viruses  Some viruses have enzymes inside the virion. All ss- RNA viruses with negative polarity have the enzyme transcriptase ( RNA dependent RNA polymerase) inside virions.  Retroviruses and hepatitis B virus contain the enzyme reverse transcriptase.
Structure of icosahedral unenveloped virus
Structure of icosahedral enveloped virus.
Structure of viruses
Enveloped viruses ( Herpes viruses , Rabies virus & influenza viruses).
Unenveloped viruses ( Adenoviruses ).
Symmetry of viruses Viruses are divided into three groups, based on the morphology of the nucleocapsid and the arrangement of capsomeres.  1-Cubic symmetry: The virus particle is icosahedral in shape (almost spherical particle ) and the nucleic acid contained inside the capsid. The icosahedron particle is composed of 20 equilateral triangles , 12 vertices and has 2,3,5 rotational symmetry.
Cubic symmetry
Symmetry of viruses  2- helical symmetry : The virus particle is elongated or pleomorphic (not spherical), and the nucleic acid is spiral. Caposomeres are arranged round the nucleic acid.  3- complex symmetry: The virus particle does not confirm either cubic or helical symmetry.
Helical symmetry
Cubic symmetry ( Adeno & herpes viruses ).
Helical symmetry ( influenza & rabies viruses ).
Complex symmetry ( Poxviruses ).
Classification of viruses Viruses are divided into two large groups:  RNA containing viruses.  DNA containing viruses.
Baltimore classification Viruses were divided into six groups based on the their nucleic acid and m-RNA production.  1- ds-DNA viruses.  2- ss-DNA viruses.  3- ds- RNA viruses.  4- ss-RNA viruses with positive strands( positive polarity).  5- ss-RNA viruses with negative strands(negative polarity).  6- ss-RNA viruses associated with the enzyme reverse transcriptase.
1- Double stranded DNA families of medical importance  1- Poxviridae.  2- Herpesviridae.  3- Hepadnaviridae.  4- Adenoviridae.  5- Papovaviridae.
2- Single stranded DNA families. 3- Double stranded RNA families.  Single stranded DNA family: 1- Parvovoridae.  Double stranded RNA family: 1- Reoviridae .
4- Single stranded RNA families with positive strands  1-Picornaviridae.  2- Caliciviridae.  3- Astroviridae.  4- Coronaviridae.  5- Flaviviradae.  6- Togaviridae.  The viral genome acts directly as m-RNA.
5- Single stranded RNA families with negative strands  1- Orthomyxoviridae.  2- Paramyxoviridae.  3- Rhabdoviridae.  4- Filoviridae.  The viral genome does not act as m-RNA.  It must be transcribed by the viral enzyme transcriptase into m-RNA.  Virions contain the enzyme transcriptase.
6-Single stranded RNA viruses associated with the enzyme reverse transcriptase  Retroviruses.  The viral genome is reverse transcribed into a complementary DNA strand using the enzyme reverse transcriptase.
Steps in virus replications  1- Adsorption (attachment).  2- Penetration.  3- uncoating.  4- Replication of the viral genome.  5- Transcription of the viral genome into m-RNA.  6- Translation of m-RNA into viral proteins.  7- protein synthesis,  8- Viral assembly.
Steps in virus replication 1-Adsorption (attachment ). Viruses must recognize and bind to specific cellular receptors on the surface of the infected cell via particular glycoproteins.
Steps in virus replication  2--Penetration. A- Enveloped viruses that has the ability to form syncytia ( multi-nucleated giant cell ) enter the cell through fusion of the viral envelope with cell plasma membrane( eg. Paramyo and herpes viruses ). 2- The remaining enveloped viruses enter the cell through endocytosis.
Entry of enveloped viruses, fusion of the viral envelope.
Steps in virus replication  B- Unenveloped viruses enter the cell either by endocytosis ( endosome lyses as with adenoviruses) or by forming a pore in the membrane of the cell. The viral RNA is then released inside the cell (picornaviruses).
Endocytosis  Endocytosis involves invagination of the cell membrane to form vesicles in the cell cytoplasm.  Infected viruses are then engulfed inside these vesicles.  Each vesicle fuses with a lysosome to form lysosomal vesicle.  The viral envelope fuses with lysosomal membrane and the viral nucleocapsid is expelled into the cytoplasm.
Endocytosis.
Steps in virus replication  3- Uncoating. Release of the viral genome from its protective capsid to enable the viral nucleic acid to replicate.  4- Transcription. Synthesis of m-RNA.  5-Translation. The viral genome is translated using cell ribosomes into structural and non-structural proteins.
Steps in viral replication  6- Replication of the viral nucleic acid.  7-Assembly. New virus genomes and proteins are assembled to form new virus particles.  8-Release. Enveloped viruses are released by budding from the infected cells. Unenveloped viruses are released by rupture of the infected cells.
Release of enveloped viruses by budding

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01 general structure and classification of viruses1

  • 1. General structure and classification of viruses DR. MOHAMMED ARIF ASSOCIATE PROFESSOR CONSULTANT VIROLOGIST HEAD OF THE VIROLOGY UNIT
  • 2. The concept of virus  Edward Jenner (1798), introduced the term virus in microbiology.  Virus in Greek means poison.  Edward Jenner noticed that milk maids who infected with cowpox develop immunity against smallpox.  He inoculated a boy with the vesicle fluid taken from the hand of infected maid.  The boy developed sustained immunity against smallpox.
  • 3. The concept of virus.  Edward Jenner assumed that the vesicle fluid that has been taken from the hand of the milk maid contained a poison ( virus ), that was responsible for immunity.
  • 4. General characteristics of viruses  Viruses are smaller than bacteria, they range in size between 20-300 nanometer ( nm ).  Viruses contain only one type of nucleic acid, either DNA or RNA, but never both.  Viruses consist of nucleic acid surrounded by a protein coat. Some viruses have additional lipoprotein envelope.  Viruses lack cellular organelles, such as mitochondria and ribosomes.
  • 5. General characteristics of viruses  Viruses are obligate cellular parasites. They replicate only inside living cells.  Viruses replicate through replication of their nucleic acid and synthesis of the viral protein.  Viruses do not multiply in chemically defined media.  Viruses do not undergo binary fission.
  • 7. Terminology  Virion: The complete virus particle.  Capsid: The protein coat that surrounds nucleic acid.  Nucleocapsid: The nucleic acid plus the capsid.  Capsomeres: The structural protein units that made up the capsid.  Defective virus: the virus cannot replicate by its own, it requires helper virus.  Nanometer : milli-micron.
  • 8. General structure of viruses  Viruses composed of nucleic acid either DNA or RNA, surrounded by a protein coat called the capsid.  The capsid is composed of small structural units called capsomeres.  The capsid protects nucleic acid from inactivation by the outer physical conditions.  Some viruses have additional lipoprotein envelope , composed of virally coded protein and host lipid. The viral envelope is covered with glycoprotein spikes.
  • 9. General structure of viruses  Some viruses have enzymes inside the virion. All ss- RNA viruses with negative polarity have the enzyme transcriptase ( RNA dependent RNA polymerase) inside virions.  Retroviruses and hepatitis B virus contain the enzyme reverse transcriptase.
  • 10. Structure of icosahedral unenveloped virus
  • 11. Structure of icosahedral enveloped virus.
  • 13. Enveloped viruses ( Herpes viruses , Rabies virus & influenza viruses).
  • 14. Unenveloped viruses ( Adenoviruses ).
  • 15. Symmetry of viruses Viruses are divided into three groups, based on the morphology of the nucleocapsid and the arrangement of capsomeres.  1-Cubic symmetry: The virus particle is icosahedral in shape (almost spherical particle ) and the nucleic acid contained inside the capsid. The icosahedron particle is composed of 20 equilateral triangles , 12 vertices and has 2,3,5 rotational symmetry.
  • 17. Symmetry of viruses  2- helical symmetry : The virus particle is elongated or pleomorphic (not spherical), and the nucleic acid is spiral. Caposomeres are arranged round the nucleic acid.  3- complex symmetry: The virus particle does not confirm either cubic or helical symmetry.
  • 19. Cubic symmetry ( Adeno & herpes viruses ).
  • 20. Helical symmetry ( influenza & rabies viruses ).
  • 21. Complex symmetry ( Poxviruses ).
  • 22. Classification of viruses Viruses are divided into two large groups:  RNA containing viruses.  DNA containing viruses.
  • 23. Baltimore classification Viruses were divided into six groups based on the their nucleic acid and m-RNA production.  1- ds-DNA viruses.  2- ss-DNA viruses.  3- ds- RNA viruses.  4- ss-RNA viruses with positive strands( positive polarity).  5- ss-RNA viruses with negative strands(negative polarity).  6- ss-RNA viruses associated with the enzyme reverse transcriptase.
  • 24. 1- Double stranded DNA families of medical importance  1- Poxviridae.  2- Herpesviridae.  3- Hepadnaviridae.  4- Adenoviridae.  5- Papovaviridae.
  • 25. 2- Single stranded DNA families. 3- Double stranded RNA families.  Single stranded DNA family: 1- Parvovoridae.  Double stranded RNA family: 1- Reoviridae .
  • 26. 4- Single stranded RNA families with positive strands  1-Picornaviridae.  2- Caliciviridae.  3- Astroviridae.  4- Coronaviridae.  5- Flaviviradae.  6- Togaviridae.  The viral genome acts directly as m-RNA.
  • 27. 5- Single stranded RNA families with negative strands  1- Orthomyxoviridae.  2- Paramyxoviridae.  3- Rhabdoviridae.  4- Filoviridae.  The viral genome does not act as m-RNA.  It must be transcribed by the viral enzyme transcriptase into m-RNA.  Virions contain the enzyme transcriptase.
  • 28. 6-Single stranded RNA viruses associated with the enzyme reverse transcriptase  Retroviruses.  The viral genome is reverse transcribed into a complementary DNA strand using the enzyme reverse transcriptase.
  • 29. Steps in virus replications  1- Adsorption (attachment).  2- Penetration.  3- uncoating.  4- Replication of the viral genome.  5- Transcription of the viral genome into m-RNA.  6- Translation of m-RNA into viral proteins.  7- protein synthesis,  8- Viral assembly.
  • 30. Steps in virus replication 1-Adsorption (attachment ). Viruses must recognize and bind to specific cellular receptors on the surface of the infected cell via particular glycoproteins.
  • 31. Steps in virus replication  2--Penetration. A- Enveloped viruses that has the ability to form syncytia ( multi-nucleated giant cell ) enter the cell through fusion of the viral envelope with cell plasma membrane( eg. Paramyo and herpes viruses ). 2- The remaining enveloped viruses enter the cell through endocytosis.
  • 32. Entry of enveloped viruses, fusion of the viral envelope.
  • 33. Steps in virus replication  B- Unenveloped viruses enter the cell either by endocytosis ( endosome lyses as with adenoviruses) or by forming a pore in the membrane of the cell. The viral RNA is then released inside the cell (picornaviruses).
  • 34. Endocytosis  Endocytosis involves invagination of the cell membrane to form vesicles in the cell cytoplasm.  Infected viruses are then engulfed inside these vesicles.  Each vesicle fuses with a lysosome to form lysosomal vesicle.  The viral envelope fuses with lysosomal membrane and the viral nucleocapsid is expelled into the cytoplasm.
  • 36. Steps in virus replication  3- Uncoating. Release of the viral genome from its protective capsid to enable the viral nucleic acid to replicate.  4- Transcription. Synthesis of m-RNA.  5-Translation. The viral genome is translated using cell ribosomes into structural and non-structural proteins.
  • 37. Steps in viral replication  6- Replication of the viral nucleic acid.  7-Assembly. New virus genomes and proteins are assembled to form new virus particles.  8-Release. Enveloped viruses are released by budding from the infected cells. Unenveloped viruses are released by rupture of the infected cells.
  • 38. Release of enveloped viruses by budding