Deck 5: Viruses

A) protein
B) nucleic acid
C) lipid
D) polysaccharide
E) glycogen

A) plants and bacteria
B) animals
C) bacteria
D) plant and animals
E) plants

A) The virion fuses itself to the cell membrane.
B) The virion directly injects its nucleic acid.
C) Endocytosis of the virion.
D) Through lysis of the cell.
E) Via a hole in the cell membrane.

A) Viruses appeared after the first cells were well established.
B) Viruses arose from excess DNA of cells.
C) Viruses first appeared before or at the same time as the first primordial cells.
D) Viruses first appeared about a million years ago and continue to evolve along with their hosts.
E) Viruses originated when some cells lost the ability to replicate on their own.

A) icosahedral
B) spherical
C) round
D) rod shaped
E) square

A) envelope
B) nucleus
C) capsid
D) endosome
E) vacuole

A) The presence of mitochondria and chloroplast in cells.
B) The existence of obligate intracellular pathogens like Chlamydia.
C) The discovery of nucleocytoplasmic large DNA viruses.
D) The existence of eukaryal transposons or retrotransposon genetic elements.
E) The presence of a nucleus in eukaryotic cells.

A) RNA synthesis
B) genome synthesis
C) entry into the cell
D) attachment to the cell
E) viral RNA translation

A) exocytosis
B) budding
C) cell lysis
D) receptor-mediated endocytosis
E) phagocytosis

A) 10
B) 100
C) 1000
D) 10,000
E) one million

A) a direct count
B) a plaque assay
C) a protein-based assay
D) a loop dilution assay
E) a PCR assay

A) Viruses evolved from symbionts of cells.
B) Viruses evolved from self-replicating nucleic acid segments.
C) Viruses originated from cells that lost the ability to replicate.
D) Viruses were present when the first primordial cells evolved.
E) Viruses arose from fragmented DNA in a cell.

A) 10 - 100 nm
B) 0.5 - 1 µm
C) 5 - 10 µm
D) 100 - 500 µm.
E) 1 - 10 mm

A) through fusion of the virion to the cell membrane.
B) through direct injection of the viral nucleic acid.
C) as a result of insects feeding on the plant.
D) by endocytosis.
E) by phagocytosis.

A) 10
B) 20
C) 30
D) 40
E) 50

A) 1500s
B) 1600s
C) 1700s
D) 1800s
E) 1900s

A) single-stranded DNA
B) single-stranded RNA
C) double-stranded DNA
D) double-stranded RNA
E) All of these choices are seen in viruses.

A) The bacteriophage fuses itself to the cell membrane.
B) The bacteriophage directly injects its nucleic acid.
C) Endocytosis of the bacteriophage.
D) Through lysis of the cell.
E) Via a hole in the cell membrane.

A) single-stranded DNA
B) single-stranded RNA
C) double-stranded DNA
D) double-stranded RNA
E) RNA/DNA dimer

A) An infectious RNA particle.
B) A particle similar to a satellite virus.
C) An infectious DNA particle.
D) An infectious protein particle.
E) A type of virus.

A) Poliovirus
B) Retrovirus
C) Rhinovirus
D) Orthomyxovirus
E) Paramyxovirus

A) plants and animals.
B) animals.
C) bacteria and plants.
D) plants
E) bacteria.

A) Bacteria
B) Archaea
C) Eukarya
D) It depends upon their host.
E) They are not classified at the domain level.

A) lysogenic phage
B) virulent phage
C) transposable phage
D) cytopathic phage
E) retro-phage

A) It has a similar nucleic acid sequence.
B) It can also cause an infection in plants.
C) It requires a helper virus for replication in the cell.
D) It is a single-stranded DNA virus.
E) It is related to the retroviruses.

A) viroids
B) satellite viruses
C) the human delta virus
D) prions
E) satellite RNAs

A) the host they infect.
B) the type of nucleic acid they contain.
C) ribosomal RNA sequence.
D) virion morphology.
E) presence of absence of an envelope.

A) strandedness and type of nucleic acid
B) type of virion symmetry
C) type of capsid found in the virion
D) type of host the virus infects
E) the presence or absence of an envelope

A) proteins that cause cell death
B) proteins that cause apoptosis in the cell
C) proteins that control cell division
D) proteins that prevent virus infection
E) retroviral proteins

A) By corrupting mRNA expression in the cell.
B) By corrupting DNA replication in the cell.
C) By preventing translation from occurring in the cell.
D) By causing naturally occurring proteins in the cell to change shape.
E) By preventing proper RNA transcription termination.

A) plaque assay.
B) hemagglutinin assay.
C) viral protein assay.
D) endpoint assay to determine LD₅₀.
E) endpoint assay to determine ID₅₀.

A) a plasmid
B) a transposon
C) a prophage
D) a lysogen
E) a retrophage

A) electron microscopy
B) hemagglutinin assay
C) plaque assay
D) antibody titer assay
E) viral nucleic acid analysis