Virology

Question 1

What type of genetic material do viruses contain?

Answer 1

Either DNA or RNA

Never both!

Question 2

Why do viruses require a host cell for replication?

Answer 2

Because they lack their own, independent metabolic machinery

Question 3

The virion is the ? life cycle, while the virus is the ? life cycle.

Answer 3

Virion = Structural form, extracellular (infectious form, outside host cell, cannot replicate)
Virus = Non-structural form, intracellular (nuceloprotein form, inside host cell, can replicate)

Question 4

What type of viral pathogens affect plants?

Answer 4

Subviral particles like viroids (replicate in nucleus) and virusoids (replicate in cytoplasm), both of which lack protein coating (capsid) of viruses.

Question 5

What causes a prion to produce disease?

Answer 5

Any conformational aberration of the normal cellular prion protein (PrPc –> PrPsc)

Question 6

What are prions?

Answer 6

A small protein capable of producing neurodegenerative disease. Have long incubation periods and do not produce immune/inflammatory responses in host.

Prions are NOT viruses!

Question 7

What type of virus is more resistant to inactivation, and how does this serve as advantage?

Answer 7

Non-enveloped because they lack the envelope that coats/surrounds the nuceloprotein; these viruses can cause year-long diseases

The lipid molecules of enveloped viruses are very labile, and thus are more easily inactivated

Question 8

Where are antigens located on enveloped viruses?

Answer 8

On the spike/peplomer glycoproteins

A spike protein or peplomer protein is a protein that forms a large structure known as a spike or peplomer projecting from the surface of an enveloped virus

Question 9

Acute infections and lysogenic cycles are associated with what type of virus?

Answer 9

Non-enveloped

Question 10

Budding is a non-lytic and non-lethal mechanism of pathogenesis associated with what type of virus?

Budding thus allows for long-term coexistence b/w host & virus –> chronic, persistant infections

Answer 10

Enveloped viruses

Question 11

What are the two ways that viruses’ nucleoprotein can be organized?

Answer 11

1.Helical
2. Cubical (icosahedral) symmetry

Question 12

Which nucleocapsid symmetry features efficient packaging of the viral genome?

Answer 12

Icosahedral (cubical)

Question 13

What are the 3 major differences between DNA and RNA viruses?

Answer 13

1. DNA genome = ds or circular; RNA genome = ss or segmented
2. DNA nucleocapsid = icosahedral; RNA nucleocapsid = icosahedral or helical
3. DNA is typically larger (kb) than RNA

Question 14

What is the function of the viral attachment protein (VAP) on a virion?

Answer 14

Serves as a ligand that binds to the host cell’s glycoprotein receptor, initiating infection

Question 15

Where is the VAP located on a non-enveloped versus enveloped virion?

Answer 15

Non-enveloped: a part of the surface proteins that form the external structure of the nucleocapsid

Enveloped: one of the surface proteins that form the spikes protruding out from the viral envelope

Question 16

Polymerase in viruses performs what?

Answer 16

Transcribing dsDNA or dsRNA into mRNA

Question 17

Reverse transcriptase in retroviruses performs what?

Answer 17

Transcribing RNA into DNA

Retrovirsues can become proviruses once transcribed into DNA, by beinig inserted into the host genome by integrase

Question 18

Hemagglutinin helps spread the influenza (enveloped) virus cell-to-cell and initiate infection, and the SARS-CoV-2 vaccine targets the spike/peplomer glycoproteins of enveloped viruses. These are two examples of how these glycoproteins can serve as what?

Answer 18

1. enzymes
2. antigens

Question 19

How do enveloped viruses develop their lipid bilayers?

Answer 19

through interactions with the host cell they infect

Question 20

A disease that produces multiple, continuous transmissions in a define population/region/time is what kind?

Answer 20

Endemic (Enzootic)

Enzootic = non-human equivalent

Question 21

A disease whose peaks in incidence exceed their endemic (enzootic) baseline is what kind?

Answer 21

Epidemic (epizootic)

Epizootic = non-human equivalent

Question 22

“Number of cases in a population”

cases / population

Answer 22

Disease Rate

Question 23

“Case:Population ratio”
where population defines both size of a population and a time frame

acute diseases of short duration

Answer 23

Disease Incidence or Attack Rate

Question 24

“Case:Population ratio”
where population is solely defined by number of subjects

chronic diseases

Answer 24

Disease Prevalence

Question 25

Incidence/Attack Rate = C/P = (S/P)(I/S)(C/I)
Interpret this equation.

Answer 25

• C/P = Case/Population
• S/P = Suspects/Population = the proportion of the population which is susceptible
• I/S = Infected/Population = the proportion of the population which is infected
• C/I = Cases Diseased/Cases Infected = the proprtion of those infected who are diseased

Question 26

“The continued reportingof diseases”

Answer 26

Surveillance

Question 27

What are the cons about serological survery?

Serological surveys detect antibody presence

Answer 27

1. Data do not define the precise moment of infection
2. Data do not distinguish b/w antibodies present due to natural infection vs. vaccination

Question 28

What type of studies analyze events that are predicted to happen in the future?

Answer 28

Prospective studies

Question 29

If a virus is continually replicated and shedded, despite the host producing an immune response, what will happen?

Answer 29

The virus will cause persistent infections in the host, and its eradication in the population will be much more difficult.

Question 30

“The time between moment of infection and onset of clinical signs”

Answer 30

Incubation Period

Question 31

A major factor contributing to increased difficulty in identifying, controlling and preventing a disease is:

Answer 31

a long incubation period

Question 32

A disease that replicates rapidly and transmits at quicker rates has:

Answer 32

a relatively shorter incubation period

Question 33

True or False: Generation Time is usually longer than the incubation period, and lasts from the moment of infection to the first day of virus shedding.

Answer 33

False – generation time is usually shorter than the incubation period, and lasts from the moment of infection to the first day of virus shedding.

Knowledge of the period of time between the first day of shedding and the first day of onset for clinical signs is very important in understanding a disease and what steps must be taken to control and prevent the disease.

Question 34

“The interval between the first and last day of shedding”

Answer 34

Period of infectivity

Question 35

How come chronic viral diseases don’t typically follow the general course-of-infection scheme?

Answer 35

Because incubation period/generation time/period of infectivity are widely divergent since the disease extends over long periods of time

Question 36

What are the differences between horizontal and vertical transmissions?

Answer 36

Horizontal: transmitted between hosts of the same species within the same generation, or between hosts of different species, both with or without arthropod vectors

Vertical: transmitted from parent to offspring either placentally or through colostrum/milk

Question 37

A virus that is able to pass generation-to-generation in its host because it integrated its genome into the host’s genome as an ovus, is called what type of transmission?

Answer 37

Germline transmission

transcription and replication of the virus occurs in offspring

Question 38

True or False: A vector-borne virus does not replicate in the arthropod itself. Thus, the arthropod is a true (biological) vector.

Answer 38

False - the arthropod is only mecahnical-carrier vector

not as efficient for transmission as true (biological) vectors

Question 39

True or False: Zoonotic diseases can be transmitted from a crustacean to a human.

Answer 39

False – zoonotic diseases are only transmissible from vertebrate animals to humans

Question 40

Iatrogenic transmission:

Answer 40

transmitted patient-to-patient by the doctor (e.g., virus on doctor’s hands, clothes, stethescope, etc.)

Question 41

Nosocomial transmission:

Answer 41

transmitted to a patient due to them being in a hospital/clinic

Question 42

True or False: infection always causes disease.

Answer 42

False

Infection: presence of foreign pathogen in host
Disease: when a part of or all of a host’s body loses proper structure/function as a result of abnormal conditions (like infection)

Question 43

Why are latent infections so unpredictable?

Answer 43

Because it is almost impossible to judge when the viral genome, which is integrated into the host’s genome, will be expressed (and thus produce virions/shed the virus)

Question 44

The activation of a latent infection due to reasons like immunosuppression and stressis known as what?

Answer 44

Recrudescence

Question 45

Which type of infection results in almost all clincally manifest viral diseases?

Answer 45

Productive infection

one that relases infectious progeny virions

Question 46

Which type of infection rarely results in clincal disease?

Answer 46

Abortive infections

Incomplete replication; limited gene expression; no infectious progeny

Question 47

Which type of infection is likely to cause considerably less severe clinical disease, and why?

Answer 47

Restrictive – only a limited amount of infectious virions are produced/released due to its occurrence in transiently permissive/limited number of permissive cells in a population at any given time.

Question 48

What is mandatory for a virus to survive in its host?

Answer 48

Viral shedding – increases pathogen population size within its host, which increases viruse’s gain over host’s immune system

Question 49

Which route of virus shedding is most significant?

Answer 49

Respiratory secretions

shedding occurs before, during and after clincal signs

Question 50

What route do Foot and Mouth Disease and Rinderpest virsues shed?

Answer 50

Urine

Question 51

True or False: Viral replication always ends with shedding

Answer 51

False – some viruses can continue to replicate even when after infectious progeny virions have been released

Question 52

What dictates the susceptibiltiy of a host cell to virions?

Answer 52

Whether or not VAPs can bind to the host’s cell-surface receptors, and once bound, whether virion components can actually enter into the cell or not.

Question 53

True or False: if a virion is able to successfully infect a host cell, then replication of the virus will always follow.

Answer 53

False – the infected host cell must have the appropriate permissivity to allow the virus to replicate/create progeny virions.

Question 54

True or False: A virus can replicate in a non-naturally susceptible host cell

Answer 54

True — Non-naturally susceptible cells may be fully permissive (e.g., a virion is artificially inserted into the cell and replication/progeny release follows)

Question 55

What are the 10 stages of virus replication?

Answer 55

1. Attachment
2. Penetration
3. Uncoating
4. Transcription of mRNA
5. Translation of proteins
6. Replication of vDNA
7. Transcription of DNA
8. Translation of proteins
9. Assembly of virions
10. Release of virions

Stages 4-8 = macromolecular synthesis

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Question 56

What is the comoposition of host cell-surface receptors?

Answer 56

Carbohydrates and proteins

Question 57

CD4 and chemokine are examples of what?

Answer 57

Receptors on T-helper cells

the target cell of HIV

Question 58

How do enveloped viruses vs non-enveloped viruses penetrate into host cells?

entry is energy-dependent

Answer 58

Enveloped: endocytosis, sometimes fusion

Non-enveloped: translocation

Question 59

Where does uncoating occur for DNA viruses vs RNA viruses?

Answer 59

DNA: upon entry into nucleus
RNA: upon entry into the cytoplasm

Question 60

What aspect of viral replication allows contributes to the wide variety of host-virus relationships (degree of clinical disease; severity of gross/histopathological lesions, systems affected, etc.)?

Answer 60

Post-translational modifications (i.e., phosphorylation, FA acylation, glycosylation, protolytic cleavage)

This step requires complex capabilities by the virus

Question 61

True or False: All DNA viruses must supply their own enzymes to transcribe viral mRNA

Answer 61

False — Most DNA viruses must use the host cell’s DNA-dependent RNAP II / other enzymes to do so

Question 62

Where do viruses assemble and mature at prior to release?

Answer 62

Either intracellularly (i.e., in the cytoplasm or nucleus), at the cell membrane (negative-sense RNA), or at the nuclear membrane (herpesviruses)

Question 63

What are the morphological changes to the host cell by the infecting virus known as?

Answer 63

Cytopathic Effects (CPE)

rounding, lysis, detachment, syncytia, inclusion bodies

Question 64

What are ways viruses can affect infected host cells’ metabolism?

Answer 64

Inhibiting transcriptional, translational, RNA-processing, and DNA synthesis mechanisms/pathways

Question 65

What is a characteristic CPE for several enveloped viruses?

Answer 65

Syncytia

formation of multi-nucleated, enlarged infected host cells

Question 66

How are local infections versus systemic infections spread differently?

Answer 66

Local: virus only infects the skin (via penetration of the deep layer)

Systemic: virus infects cells of distant tissues and organs

Question 67

What is the major pathway for systemic spread of viruses?

Answer 67

The vascular system

Viremia

Introduced into vasc. sys. via insect bites, iatrogenic innoculation via needles or surgical instruments, blood transfusion

Question 68

Where is the major site of replication for most viruses?

Answer 68

At the primary infection site/in the epithelial layer

The epithelium is a type of body tissue that forms the covering on all internal and external surfaces of your body, lines body cavities and hollow organs and is the major tissue in glands.

Question 69

True or False: A virus will only cause systemic spread if the primary site of infection is not the target organ.

Answer 69

True

If the primary site = target organ, local disease will occur

Question 70

What are 2 factors influencing spread via the CNS?

Answer 70

1. Primary replication site (is the brain the target organ?)
2. Viremia: Titer (depends on [virion] in blood) and length (how long the virions have been present in nerve tissue)

Transport speed: 2-16 mm/day along the nerve axons

E.g., rabies takes several months to travel to the brain