1. Viruses, Prions and Viroids Infectious Agents of Animals and Plants
Chapter 14

2. Structure and Classification of Animal Viruses
Taxonomic criteria based on
Genomic structure
DNA or RNA
Single stranded or double stranded
Virus particle structure
Isometric
Pleomorphic
Helical
Presence or absence of envelope

3. Structure and Classification of Animal Viruses
Groupings based on route of transmission
Disease causing viruses often grouped by route of transmission
Enteric viruses
Generally transmitted via fecal-oral route
Often cause gastroenteritis
Some can cause systemic disease
Respiratory viruses
Usually inhaled via infected respiratory droplets
Generally remain localized in respiratory tract
Zoonotic viruses
Transmitted from animal to human via animal vector
Sexually transmitted viruses
Can causes lesions on genitalia or cause systemic infections

4. Interactions of Animal Viruses with Their Host
Outcome of infection of eukaryotic cells depends on factors independent of cell
Special importance are defense mechanisms of host
Viruses may develop relationships with normal hosts
No obvious disease or damage is caused to host
State of balanced pathogenicity
Relationships divided into two categories
Acute
persistent

5. Interactions of Animal Viruses with Their Host
Acute infections
Usually short in duration
Host may develop long lasting immunity
Result in productive infections
Produce large number of viruses during replication
Disease symptoms result from tissue damage and infection of new cells

6. Interactions of Animal Viruses with Their Host
Acute infections
Reproductive cycle of animal virus can be compared to virulent bacteriophage
Essential steps include
Attachment
Entry into susceptible cell
Targeting site of reproduction
Uncoating of virion
Removing protein coat exposing nucleic acid
Replication nucleic acid and protein
Maturation
Cell lysis
Spreading within host
Shedding outside host
Transmission to next host

7. Interactions of Animal Viruses with Their Host
Persistent infections
Viruses continually present in host
Releases from infected cell via budding
Can be divided into three categories
Latent infections
Chronic infections
Slow infections
Categories distinguished by ability to detect the virus during period of persistence

8. Interactions of Animal Viruses with Their Host
Persistent infections
Latent infections (presence of virus not always detectable)
Infection is followed by symptomless period then reactivation
Infectious particles not detected until reactivation
Symptoms of reactivation and initial disease may differ
Example
Herpes simplex viruses 1 and 2 (HSV1 and HSV2)
Shingles (zoster)

9. Interactions of Animal Viruses with Their Host
Chronic infections
Infectious virus can be detected at all times
Disease may be present or absent during extended times or may develop late
Best know example
Hepatitis B
A.k.a serum hepatitis

10. Interactions of Animal Viruses with Their Host
Slow infections
Infectious agent gradually increases in amount over long period of time
No significant symptoms apparent during this time
Two groups of infectious agents cause slow infections
Retroviruses which includes HIV & Prions

11. Viruses and Human Tumors
Double stranded DNA viruses responsible for most virus induced tumors in humans
Tumor viruses interact with host cells on one of two ways
Virus can go through productive cycle and lyse cell
Virus can transform cell without killing it
Cancers caused by DNA viruses result from integration of viral genome into host DNA
Transformed genes are expressed
Uncontrolled growth results

12. Viral Genetic Alterations
Genome exchange in segmented viruses
Viruses can alter properties via
Mutation
Genetic reassortment
Genetic reassortment of viruses results from two viruses infecting the same cell
Each virus incorporates segments of viral DNA
One segment comes from one virion
Rest of segment come from other virion
Reassortment responsible fro antigenic shift and antigenic drift in influenza virus

13. Methods of Studying Viruses
First: Cultivate a host
Viruses multiply only inside host cell
Viruses are obligate intercellular parasites
Host cells are cultivated in the laboratory in cell culture or tissue culture
Tissue culture prepared directly from an animal host is termed primary culture

14. Methods of Studying Viruses
Quantitation
Plaque assay
Determines number of viruses in solution
Know volume of solution added to actively metabolizing cells
Infection lyses cells and leads to clear zone or plaque surrounded by uninfected cells
Each plaque represents one virion
Plaques are only produced by infected cells

15. Methods of Studying Viruses
Quantitation
Counting virions with electron microscope
Used with pure preparations
Concentration determined by counting number of virions in sample
May distinguish infective from non-infective agents

16. Methods of Studying Viruses
Quantitation
Quantal assays
Provides and approximate concentration
Dilutions of virus preparation administered into animal cells
Chick embryos often used
Endpoint is dilution at which 50% of inoculated host are infected or killed
May be reported as either
ID50 = infective dose
LD50 = lethal dose

17. Methods of Studying Viruses
Hemagglutination
Some animal viruses clump or agglutinate with red blood cells
Termed hemagglutination
The highest dilution showing maximum agglutination is titer of the virus
i.e. Adding more virus does not increase the agglutingation

18. Plant Viruses Number of plant diseases are caused by viruses
Can be of major economic importance
Infection may be recognized via outward signs including
Pigment loss
Marks on leafs and fruit
Tumors
Stunted growth
Plants generally do not recover from viral infections

19. Plant Viruses Spread of plant viruses
Viruses infect plants through wound in plant cell wall
Viruses do not attach to specific cell receptors
Once started, infection spreads from cell to cell through plasmodesmata
Many viruses resistant to inactivation
Viruses can be transmitted through soil contaminated by prior growth
Viruses spread through grafting healthy plants to infected plants
Viruses can spread via parasitic vine called dodder
Vine establishes simultaneous connection between two plants
Serves as conduit of transfer

20. Other Infectious Agents
Prions
Proteinaceous infectious agent
Linked to a number of fatal human diseases
All afflictions cause brain degeneration
Brain tissue develops sponge like holes
Disease termed transmissible spongiform encephalopathies
Symptoms may not appear for years after infection

21. Other Infectious Agents
Prions
Apparently arose following gene encoding normal prion protein
Mutation caused protein to have different folding properties
Mutated protein resistant to proteases
Normal protein sensitive
Resists UV light and nucleases
Due to lack of nucleic acid
Inactivated by chemicals that denature proteins

22. Other Infectious Agents
Viroids
Defines group of pathogens much smaller and distinctly different from viruses
Consist solely of small single-stranded RNA molecule
Varies in size
Have no protein coat
Allows them to be resistant to proteases

23. Other Infectious Agents
Viroids
Other viroid properties include
Replicates autonomously in susceptible cells
Single viroid capable of infecting a cell
Viroid RNA is circular and resistant to nuclease digestion
All identified viroids infect plants
Diseases include
Potato spindle tuber
Chrysanthemum stunt
Cadang-cadang