Chapter 13 Viruses, Viroids, and Prions

How do all viruses differ from bacteria?
A) Viruses are filterable.
B) Viruses are obligate intracellular parasites.
C) Viruses do not have any nucleic acid.
D) Viruses are not composed of cells.
E) Viruses do not reproduce.

D) Viruses are not composed of cells.

Which of the following statements provides the most significant support for the idea that viruses are nonliving chemicals?
A) They are not composed of cells.
B) They are filterable.
C) They cannot reproduce themselves outside a host.
D) They cause disease

C) They cannot reproduce themselves outside a host.

Which of the following statements about viral spikes is FALSE?
A) They are composed of carbohydrate-protein complexes.
B) They are used for attachment.
C) They may cause hemagglutination.
D) They bind to receptors on the host cell surface.
E) They are fou

E) They are found only on nonenveloped viruses.

Which of the following is NOT used as a criterion to classify viruses?
A) biochemical tests
B) morphology
C) nucleic acid
D) size
E) number of capsomeres

A) biochemical tests

Which of the following is NOT utilized to culture viruses?
A) laboratory animals
B) culture media
C) embryonated eggs
D) animal cell cultures
E) bacterial cultures

B) culture media

Bacteriophages and animal viruses do NOT differ significantly in which one of the following steps?
A) attachment
B) penetration
C) uncoating
D) biosynthesis
E) release

D) biosynthesis

The definition of lysogeny is
A) phage DNA is incorporated into host cell DNA.
B) lysis of the host cell due to a phage.
C) the period during replication when virions are not present.
D) when the burst time takes an unusually long time.
E) attachment of a

A) phage DNA is incorporated into host cell DNA.

A viroid is a(n)
A) complete, infectious virus particle.
B) infectious piece of RNA without a capsid.
C) capsid without nucleic acid.
D) provirus.
E) infectious protein.

B) infectious piece of RNA without a capsid.

Figure 13.1
9) In Figure 13.1, which structure is a complex virus?
A) a
B) b
C) c
D) d
E) All of the structures are complex viruses.

B) b

The structures illustrated in Figure 13.1 are composed of
A) DNA.
B) RNA.
C) DNA or RNA.
D) Capsomeres.
E) viroids.

D) Capsomeres.

A clear area against a confluent "lawn" of bacteria is called a
A) phage.
B) pock.
C) cell lysis.
D) plaque.
E) rash.

D) plaque.

Continuous cell lines differ from primary cell lines in that
A) viruses can be grown in continuous cell lines.
B) continuous cell lines always have to be re-isolated from animal tissues.
C) continuous cell lines are derived from primary cell lines.
D) con

D) continuous cell lines can be maintained through an indefinite number of generations.

Which of the following is necessary for replication of a prion?
A) DNA
B) DNA polymerase
C) lysozyme
D) PrPSc
E) RNA

D) PrPSc

A persistent infection is one in which
A) the virus remains in equilibrium with the host without causing a disease.
B) viral replication is unusually slow.
C) the disease process occurs gradually over a long period.
D) host cells are gradually lysed.
E) h

C) the disease process occurs gradually over a long period.

Which of the following statements is FALSE?
A) A prophage is phage DNA inserted into a bacterial chromosome.
B) A prophage can "pop" out of the chromosome.
C) Prophage genes are repressed by a repressor protein coded for by the prophage.
D) A prophage may

E) The prophage makes the host cell immune to infection by other phages.

) Lysogeny can result in all of the following EXCEPT
A) immunity to reinfection by the same phage.
B) acquisition of new characteristics by the host cell.
C) immunity to reinfection by any phage.
D) specialized transduction.
E) phage conversion.

C) immunity to reinfection by any phage.

Which of the following would be the first step in biosynthesis of a virus with a - (minus) strand of RNA?
A) synthesis of DNA from an RNA template
B) synthesis of double-stranded RNA from an RNA template
C) synthesis of double-stranded RNA from a DNA temp

B) synthesis of double-stranded RNA from an RNA template

An infectious protein is a
A) bacteriophage.
B) prion.
C) retrovirus.
D) viroid.
E) papovavirus

B) prion.

An envelope is acquired during which of the following steps?
A) penetration
B) adsorption
C) uncoating
D) biosynthesis
E) release

E) release

Which of the following statements is NOT true of lysogeny?
A) It can give infected pathogens the genetic information for toxin production.
B) Prophage is inserted into the host genome.
C) Lytic cycle may follow lysogeny.
D) It is a "silent" infection; the

E) It causes lysis of host cells.

An example of a latent viral infection is
A) subacute sclerosing panencephalitis.
B) cold sores.
C) influenza.
D) smallpox.
E) mumps.

B) cold sores.

A virus's ability to infect an animal cell depends primarily upon the
A) host cell's ability to phagocytize viral particles.
B) presence of receptor sites on the cell membrane.
C) type of viral nucleic acid.
D) enzymatic activity of a host cell.
E) presen

B) presence of receptor sites on the cell membrane.

Assume you have isolated an unknown virus. This virus has a single, positive sense strand of RNA, and possesses an envelope. To which group does it most likely belong?
A) herpesvirus
B) picornavirus
C) retrovirus
D) togavirus
E) papovavirus

D) togavirus

The mechanism whereby an enveloped virus leaves a host cell is called
A) transduction.
B) budding.
C) abduction.
D) lysogeny.
E) penetration.

B) budding.

The most conclusive evidence that viruses cause cancers is provided by
A) finding oncogenes in viruses.
B) the presence of antibodies against viruses in cancer patients.
C) cancer following injection of cell-free filtrates.
D) treating cancer with antibod

C) cancer following injection of cell-free filtrates.

Bacteriophages derive all of the following from the host cell EXCEPT
A) lysozyme.
B) tRNA.
C) amino acids.
D) nucleotides.
E) ATP.

A) lysozyme.

Bacteriophage replication differs from animal virus replication because only bacteriophage replication involves
A) adsorption to specific receptors.
B) assembly of viral components.
C) replication of viral nucleic acid.
D) injection of naked nucleic acid

D) injection of naked nucleic acid into the host cell.

Generally, in an infection caused by a DNA-containing virus, the host animal cell supplies all of the following EXCEPT
A) RNA polymerase.
B) nucleotides.
C) DNA polymerase.
D) tRNA.
E) None of the answers are correct; all of these are supplied by the host

C) DNA polymerase.

Which of the following places these items in the correct order for DNA-virus replication?
1. Maturation
2. DNA synthesis
3. Transcription
4. Translation
A) 1; 2; 3; 4
B) 2; 3; 4; 1
C) 3; 4; 1; 2
D) 4; 1; 2; 3
E) 4; 3; 2; 1

B) 2; 3; 4; 1

A viral species is a group of viruses that
A) has the same morphology and nucleic acid.
B) has the same genetic information and ecological niche.
C) infects the same cells and cause the same disease.
D) cannot be defined.

B) has the same genetic information and ecological niche.

Viruses that utilize reverse transcriptase belong to the virus families
A) Retroviridae and Picornaviridae.
B) Herpesviridae and Retroviridae.
C) Hepadnaviridae and Retroviridae.
D) Herpesviridae and Poxviridae.
E) Rhabdoviridae and Herpesviridae.

C) Hepadnaviridae and Retroviridae.

DNA made from an RNA template will be incorporated into the virus capsid of
A) Retroviridae.
B) Herpesviridae.
C) Hepadnaviridae.
D) bacteriophage families.
E) influenzavirus.

C) Hepadnaviridae.

Which of the following statements about viruses is FALSE?
A) Viruses contain DNA or RNA but never both.
B) Viruses contain a protein coat.
C) Viruses use the anabolic machinery of the cell.
D) Viruses use their own catabolic enzymes.
E) Viruses have genes

D) Viruses use their own catabolic enzymes.

A lytic virus has infected a patient. Which of the following would best describe what is happening inside the patient?
A) The virus is causing the death of the infected cells in the patient.
B) The virus is not killing any cells in the host.
C) The virus

A) The virus is causing the death of the infected cells in the patient.

Some viruses, such as human herpesvirus 1, infect a cell without causing symptoms. These are called
A) latent viruses.
B) lytic viruses.
C) phages.
D) slow viruses.
E) unconventional viruses

A) latent viruses.

Figure 13.2
36) Assume a patient had chickenpox (human herpesvirus 3) as a child. Which line on the graph in Figure 13.2 would show the number of viruses present in this person as a 60-year-old with shingles (human herpesvirus 3)?
A) a
B) b
C) c
D) d
E) e

Figure 13.2
E) e

Assume a patient has influenza. During which time on the graph in Figure 13.2 would the patient show the symptoms of the illness?
A) a
B) b
C) c
D) d
E) e

C) c

The following steps occur during multiplication of herpesviruses. Which is the third step?
A) attachment
B) biosynthesis
C) penetration
D) release
E) uncoating

E) uncoating

The following steps occur during multiplication of retroviruses. Which is the fourth step?
A) synthesis of double-stranded DNA
B) synthesis of +RNA
C) attachment
D) penetration
E) uncoating

A) synthesis of double-stranded DNA

Oncogenic viruses
A) cause acute infections.
B) are genetically unstable.
C) cause tumors to develop.
D) are lytic viruses that kill the host cell.
E) have no effect on the host cell.

C) cause tumors to develop.

Which one of the following steps does NOT occur during multiplication of a picornavirus?
A) synthesis of + strands of RNA
B) synthesis of - strands of RNA
C) synthesis of viral proteins
D) synthesis of DNA
E) None of the answers is correct.

D) synthesis of DNA

Which of the following is most likely a product of an early gene?
A) capsid proteins
B) DNA polymerase
C) envelope proteins
D) spike proteins
E) lysozyme

B) DNA polymerase

Most RNA viruses carry which of the following enzymes?
A) DNA-dependent DNA polymerase
B) lysozyme
C) RNA-dependent RNA polymerase
D) reverse transcriptase
E) ATP synthase

C) RNA-dependent RNA polymerase

The following steps occur during biosynthesis of a + strand RNA virus. What is the third step?
A) attachment
B) penetration and uncoating
C) synthesis of - strand RNA
D) synthesis of + strand RNA
E) synthesis of viral proteins

C) synthesis of - strand RNA

What contributes to antigenic shift in influenza viruses?
A) worldwide distribution of the virus
B) a segmented genome
C) attachment spikes
D) ease of virus transmission
E) different virus subtypes

B) a segmented genome

________ were first identified in cancer-causing viruses and can induce ________ in infected cells.
A) Herpes viruses; lesions
B) Oncogenes; transformation
C) T antigens; lysis
D) Glycoprotein spikes; syncytia formation
E) Segmented genomes; reassortment

B) Oncogenes; transformation

The basic mechanism of viral multiplication is similar for all viruses.

TRUE

A viroid is a completely developed infectious agent composed of nucleic acid and surrounded by a capsid.

FALSE

Binomial nomenclature is used to name viruses.

FALSE

Glycoprotein spikes are found on the capsids of all viruses.

FALSE

Positive sense RNA strands of viruses are treated like mRNA inside the host cell.

TRUE

Dogs do not get measles because their cells lack the correct receptor sites for that virus

TRUE

Helical and icosahedral are terms used to describe the shapes of a virus envelope.

FALSE

Viruses are the only known infectious agents that are obligatory intracellular parasites.

FALSE

A segmented genome can result in antigenic shift.

TRUE

Most drugs that interfere with viral multiplication also interfere with host cell function.

TRUE