Viruses, Viroids, and Prions

Copyright © 2006 Pearson Education, Inc., publishing as Benjamin Cummings

PowerPoint® Lecture Slide Presentation prepared by Christine L. Case

M I C R O B I O L O G Ya n i n t r o d u c t i o n

ninth edition TORTORA FUNKE CASE

Part A13Viruses, Viroids,

and Prions

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Copyright © 2006 Pearson Education, Inc., publishing as Benjamin Cummings

Contain DNA or RNA –sDNA, dDNA, sRNA, dRNA

Contain a protein coat

Some are enclosed by an envelope

Some viruses have spikes

Most viruses infect only specific types of cells

in one host

Host range is determined by specific host attachment

sites and cellular factors

Viruses

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Viruses

Figure 13.1

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Viruses

Figure 13.1

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Virion Size

Figure 13.1

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Helical Viruses

Figure 13.4a–b

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Helical Viruses

Figure 13.4a–b

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Polyhedral Viruses

Figure 13.2a–b

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Enveloped Viruses

Figure 13.3

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Complex Viruses

Figure 13.5a

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Viral Taxonomy

Family names end in -viridae.

Genus names end in -virus.

Viral species: A group of viruses sharing the same

genetic information and ecological niche (host).

Common names are used for species.

Subspecies are designated by a number.

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Viral Taxonomy

Herpesviridae

Herpesvirus

Human herpes virus

HHV-1, HHV-2, HHV-3

Retroviridae

Lentivirus

Human

immunodeficiency virus

HIV-1, HIV-2

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Viruses

Figure 13.1

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Growing Viruses

Viruses must be

grown in living

cells.

Bacteriophages

form plaques on

a lawn of

bacteria.

Figure 13.6

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Growing Viruses

Animal viruses may

be grown in living

animals or in

embryonated eggs.

Figure 13.7

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Growing Viruses

Animal and plants viruses may be grown in cell culture.

Continuous cell lines may be maintained indefinitely.

Figure 13.8

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Virus Identification

Cytopathic effects

Serological tests

Detect antibodies against viruses in a patient.

Use antibodies to identify viruses in neutralization

tests, viral hemagglutination, and Western blot.

Nucleic acids

RFLPs

PCR

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Virus Identification

Figure 13.9

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Multiplication of Bacteriophages (Lytic Cycle)

Attachment: Phage attaches by tail fibers to host cell.

Penetration: Phage lysozyme opens cell wall, tail

sheath contracts to force tail core and DNA into cell.

Biosynthesis: Production of phage DNA and proteins.

Maturation: Assembly of phage particles.

Release: Phage lysozyme breaks cell wall.

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1

2

3

Figure 13.11, steps 1–3, 6–7

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4

Figure 13.11, steps 4–5, 8

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One-Step Growth Curve

Figure 13.10

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Lytic cycle: Phage causes lysis and death of host cell.

Lysogenic cycle: Prophage DNA incorporated in host

DNA.

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The Lysogenic Cycle

Figure 13.12

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2

3

4

5

6

Specialized Transduction

Figure 13.13

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Multiplication of Animal viruses

Attachment: Viruses attach to cell membrane.

Penetration by endocytosis or fusion.

Uncoating by viral or host enzymes.

Biosynthesis: Production of nucleic acid and proteins.

Maturation: Nucleic acid and capsid proteins assemble.

Release by budding (enveloped viruses) or rupture.

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Multiplication of Animal viruses

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Multiplication of Animal viruses

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Multiplication of Animal viruses

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Multiplication of Animal viruses

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PERSISTANCE VS. LATENT INFECTIONSs

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PERSISTANCE VS. LATENT INFECTIONSs

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PRIONS

Infectious Proteins

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VIROIDS

Infectionus RNA

Plant diseases so far