Virology - Principles and Applications
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  • Wiley

More About This Title Virology - Principles and Applications

English

Preface.

Abbreviations used in this book.

Greek letters used in this book.

Colour coding for molecules.

1 Viruses and their importance.

1.1 Viruses are ubiquitous on Earth.

1.2 Reasons for studying viruses.

1.3 The nature of viruses.

1.4 The remainder of the book.

2 Methods used in virology.

2.1 Introduction to methods used in virology.

2.2 Cultivation of viruses.

2.3 Isolation of viruses.

2.4 Centrifugation.

2.5 Structural investigations of cells and virions.

2.6 Electrophoretic techniques.

2.7 Detection of viruses and virus components.

2.8 Infectivity assays.

2.9 Virus genetics.

3 Virus structure.

3.1 Introduction to virus structure.

3.2 Virus genomes.

3.3 Virus proteins.

3.4 Capsids.

3.5 Virion membranes.

3.6 Occlusion bodies.

3.7 Other virion components.

4 Virus transmission.

4.1 Introduction to virus transmission.

4.2 Transmission of plant viruses.

4.3 Transmission of vertebrate viruses.

4.4 Transmission of invertebrate viruses.

4.5 Permissive cells.

5 Attachment and entry of viruses into cells.

5.1 Overview of virus replication.

5.2 Animal viruses.

5.3 Bacteriophages.

6 Transcription, translation and transport.

6.1 Introduction to transcription, translation and transport.

6.2 Transcription of virus genomes.

6.3 Transcription in eukaryotes.

6.4 Translation in eukaryotes.

6.5 Transport in eukaryotic cells.

6.6 Transcription and translation in bacteria.

7 Virus genome replication.

7.1 Overview of virus genome replication.

7.2 Locations of virus genome replication in eukaryotic cells.

7.3 Initiation of genome replication.

7.4 Polymerases.

7.5 DNA replication.

7.6 Double-stranded RNA replication.

7.7 Single-stranded RNA replication.

7.8 Reverse transcription.

8 Assembly and exit of virions from cells.

8.1 Introduction to assembly and exit of virions from cells.

8.2 Nucleocapsid assembly.

8.3 Formation of virion membranes.

8.4 Virion exit from the infected cell.

9 Outcomes of infection for the host.

9.1 Introduction to outcomes of infection for the host.

9.2 Factors affecting outcomes of infection.

9.3 Non-productive infections.

9.4 Productive infections.

10 Classification and nomenclature of viruses.

10.1 History of virus classification and nomenclature.

10.2 Modern virus classification and nomenclature.

10.3 Baltimore classification of viruses.

11 Herpesviruses (and other dsDNA viruses).

11.1 Introduction to herpesviruses.

11.2 The human herpesviruses.

11.3 The herpesvirus virion.

11.4 HSV-1 genome organization.

11.5 HSV-1 replication.

11.6 Latent herpesvirus infection.

11.7 Other dsDNA viruses.

12 Parvoviruses (and other ssDNA viruses).

12.1 Introduction to parvoviruses.

12.2 Examples of parvoviruses.

12.3 Parvovirus virion.

12.4 Parvovirus replication.

12.5 Other ssDNA viruses.

13 Reoviruses (and other dsRNA viruses).

13.1 Introduction to reoviruses.

13.2 Rotavirus virion.

13.3 Rotavirus replication.

13.4 Other dsRNA viruses.

14 Picornaviruses (and other plus-strand RNA viruses).

14.1 Introduction to picornaviruses.

14.2 Some important picornaviruses.

14.3 The picornavirus virion.

14.4 Picornavirus replication.

14.5 Picornavirus recombination.

14.6 Picornavirus experimental systems

14.7 Other plus-strand RNA viruses.

15 Rhabdoviruses (and other minus-strand RNA viruses).

15.1 Introduction to rhabdoviruses.

15.2 Some important rhabdoviruses.

15.3 The rhabdovirus virion and genome organization.

15.4 Rhabdovirus replication.

15.5 Other minus-strand RNA viruses.

15.6 Viruses with ambisense genomes.

15.7 Reverse genetics.

16 Retroviruses.

16.1 Introduction to retroviruses.

16.2 Retrovirus virion.

16.3 Retrovirus replication.

16.4 Examples of retroviruses.

16.5 Retroviruses as gene vectors.

16.6 Endogenous retroviruses.

17 Human immunodeficiency viruses.

17.1 Introduction to HIV.

17.2 HIV virion.

17.3 HIV genome.

17.4 HIV-1 replication.

17.5 HIV-1 variability.

17.6 Progression of HIV infection.

17.7 Prevention of HIV transmission.

18 Hepadnaviruses (and other reverse-transcribing DNA viruses).

18.1 Introduction to hepadnaviruses.

18.2 Importance of HBV.

18.3 HBV virion.

18.4 Non-infectious particles.

18.5 Soluble virus protein.

18.6 HBV genome.

18.7 HBV genetic groups.

18.8 HBV replication cycle.

18.9 Prevention and treatment of HBV infection.

18.10 Other reverse-transcribing DNA viruses.

19 Bacterial viruses.

19.1 Introduction to bacterial viruses (bacteriophages.

RNA PHAGES.

19.2 Single-stranded RNA phages.

19.3 Double-stranded RNA phages.

DNA PHAGES.

19.4 Single-stranded DNA phages.

19.5 Double-stranded DNA phages.

20 Origins and evolution of viruses.

21.1 Introduction to origins and evolution of viruses.

20.2 Origins of viruses.

20.3 Evolution of viruses.

21 Emerging viruses.

21.1 Introduction to emerging viruses

21.2 Viruses in new host species

21.3 Viruses in new areas

21.4 Viruses in new host species and in new areas

21.5 New viruses

21.6 Recently discovered virus

21.7 Re-emerging viruses

21.8 Virus surveillance

21.9 Dealing with outbreaks

22 Viruses and cancer

22.1 Introduction to viruses and cancer

22.2 Papillomavirus-linked cancers

22.3 Polyomavirus-linked cancers

22.4 Epstein-Barr virus-linked cancers

22.5 Kaposi’s sarcoma

22.6 Adult T cell leukaemia

22.7 Hepatocellular carcinoma

22.8 Virus-associated cancers in animals

22.9 Cell lines derived from virus-associated cancers.

22.10 How do viruses cause cancer?

22.11 Prevention of virus-induced cancers.

23 Survival of infectivity.

23.1 Preservation of virus infectivity.

23.2 Destruction of virus infectivity.

23.3 Inactivation targets in virions.

23.4 Inactivation kinetics.

23.5 Agents that inactivate virus infectivity.

24 Virus vaccines.

24.1 Introduction to virus vaccines.

24.2 Live attenuated virus vaccines.

24.3 Inactivated virus vaccines.

24.4 Virion subunit vaccines.

24.5 Live recombinant virus vaccines.

24.6 Mass production of viruses for vaccines.

24.7 Virus-like particles.

24.8 Synthetic peptide vaccines.

24.9 DNA vaccines.

24.10 Storage and transport of vaccines.

25 Anti-viral drugs.

25.1 Introduction to anti-viral drugs.

25.2 Development of anti-viral drugs.

25.3 Examples of anti-viral drugs.

25.4 Drug resistance.

25.5 Anti-viral drug research.

26 Prions.

26.1 Introduction to prions.

26.2 Transmissible spongiform encephalopathies.

26.3 The nature of prions.

26.4 Prion diseases.

26.5 Prion strains.

26.6 Prion transmission.

26.7 The protein-only hypothesis.

Learning outcomes.

Sources of further information.

Virologists' vocabulary.

Index.

English

"This excellent text is largely about the molecular biology of viruses…. A succinct text that describes modern virology. The text is illustrated by copious diagrams, mostly in colour." (Journal of Tropical Pediatrics, February 2009)

"The text has been written with clarity and in an extremely accessible manner." (Society for General Microbiology, February 2008)

"This is one of the best undergraduate textbooks specifically for virology…" (Doody's Health Services)

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