Deck 9: Viruses and Virology

A) is called a provirus.
B) can occur anywhere in the cellular DNA.
C) is analogous to the integration of phage DNA into a bacterial genome.
D) is all of the above.

A) Many viruses contain their own nucleic acid polymerases.
B) All viruses contain their own nucleic acid polymerases.
C) Viruses do not contain their own nucleic acid polymerases.
D) The origins of the nucleic acid polymerases used by viruses are eukaryotic.

A) concatemer.
B) nucleocapsid.
C) envelope.
D) capsid.

A) exhibit cell lysis under a particular condition.
B) are metabolically inert.
C) contain an envelope to prevent its degradation outside of a host.
D) are smaller than bacterial cells.

A) micrometers.
B) picometers.
C) centimeters.
D) nanometers.

A) dependent on the cell's chromosomes but independent of the cell itself.
B) independent of the cell's chromosomes but dependent on the cell itself.
C) independent of both the cell's chromosomes and the cell itself (although the cell does provide a convenient matrix for replication).
D) dependent on both the cell's chromosomes and the cell itself.

A) is a small, circular ssRNA molecule.
B) lacks protein- encoding genes.
C) lacks a capsid.
D) is characterized by all of the above.

A) proteins.
B) lipids.
C) carbohydrates.
D) combinations of any or all of the above.

A) negative- strand RNA viruses.
B) positive- strand DNA viruses.
C) positive- strand RNA viruses.
D) negative- strand DNA viruses.

A) linear genetic elements.
B) DNA concatemers.
C) circular genetic elements.
D) none of these; they are all transcribed directly from inserted viral DNA.

A) independently of its host while the lytic genes are expressed.
B) independently of its host while the lytic genes are not expressed.
C) along with its host while the lytic genes are expressed.
D) along with its host while the lytic genes are not expressed.

A) include the virus that causes AIDS.
B) transcribe DNA from RNA template.
C) may cause cancer.
D) do all of the above.

A) RNA- dependent RNA polymerase.
B) DNA- dependent RNA polymerase.
C) RNA- dependent DNA polymerase.
D) DNA- dependent DNA polymerase.

A) double- stranded RNA.
B) single- stranded DNA.
C) double- stranded DNA.
D) single- stranded RNA.

A) lipid bilayers / glycoproteins
B) lipid bilayers / phospholipids
C) protein bilayers / lipids
D) glycolipid bilayers / phospholipids

A) T7
B) T6
C) T4
D) T2

A) virulent or lysogenic, but not temperate.
B) lysogenic.
C) temperate.
D) lytic or virulent.

A) a linear double- stranded DNA phage.
B) a temperate phage that infects Escherichia coli.
C) replicated by the rolling circle mechanism.
D) all of the above.

A) plant viruses often require a break in the plant cell wall to initiate infection.
B) their study sometimes requires the use of the whole plant.
C) plants typically grow much slower than bacteria.
D) All of the above are factors.

A) Archaea
B) animals
C) Bacteria
D) fungi

A) plants
B) prokaryotes
C) fungi
D) animals

A) retroviruses and reverse transcriptase.
B) T- series viruses (such as T2, T4, etc.).
C) parvoviruses.
D) prions.

A) a general host mechanism to prevent the invasion of foreign nucleic acid.
B) the viral process whereby the virus prevents other viruses from entering the cell.
C) a general host mechanism to prevent virus particles from further infective action.
D) the viral process whereby a host's DNA ceases normal functioning.

A) has different actions in different situations.
B) does not control the prophage's lytic genes but does control the incoming genomes of the same virus.
C) controls the prophage's lytic genes but not the incoming genomes of the same virus.
D) controls both the lytic genes on the prophage and prevents an incoming virus of the same type.

A) nuclear tRNA.
B) nuclear tDNA.
C) tRNA encoded by the cell.
D) tRNA encoded by the virus.

A) extracellularly.
B) intracellularly.
C) both intracellularly and extracellularly.
D) either intracellularly or extracellularly, depending on the virus involved.