chapter 6
When biologists wish to study the internal ultrastructure of cells,
they can achieve the finest resolution by using
A) a
phase-contrast light microscope.
B) a scanning electron
microscope.
C) a transmission electronic microscope.
D) a
confocal fluorescence microscope.
E) a super-resolution
fluorescence microscope.
Answer: C
The advantage of light microscopy over electron microscopy is that
A) light microscopy provides for higher magnification than
electron microscopy.
B) light microscopy provides for higher
resolving power than electron microscopy.
C) light microscopy
allows one to view dynamic processes in living cells.
D) light
microscopy provides higher contrast than electron microscopy.
E)
specimen preparation for light microcopy does not produce artifacts.
Answer: C
A primary objective of cell fractionation is to
A) view the
structure of cell membranes.
B) sort cells based on their size
and weight.
C) determine the size of various organelles.
D) separate the major organelles so that their particular
functions can be determined.
E) separate lipid-soluble from
water-soluble molecules.
Answer: D
In the fractionation of homogenized cells using centrifugation, the
primary factor that determines whether a specific cellular component
ends up in the supernatant or the pellet is
A) the relative
solubility of the component.
B) the size and weight of the
component.
C) the percentage of carbohydrates in the component.
D) the presence or absence of nucleic acids in the component.
E) the presence or absence of lipids in the component.
Answer: B
Which of the following correctly lists the order in which cellular
components will be found in the pellet when homogenized cells are
treated with increasingly rapid spins in a centrifuge?
A)
ribosomes, nucleus, mitochondria
B) chloroplasts, ribosomes,
vacuoles
C) nucleus, ribosomes, chloroplasts
D) vacuoles,
ribosomes, nucleus
E) nucleus, mitochondria, ribosomes
Answer: E
Green fluorescent protein (GFP) can be used to fluorescently label a
specific protein in cells by genetically engineering cells to
synthesize the target protein fused to GFP. What is the advantage of
using GFP fusions to visualize specific proteins, instead of staining
cells with fluorescently labeled probes that bind to the target
protein?
A) GFP fusions enable one to track changes in the
location of the protein in living cells; staining usually requires
preserved cells.
B) GFP fusions enable higher resolution than
staining with fluorescent probes.
C) GFP permits the position of
the protein in the cell more precisely than fluorescent probes.
D) GFP permits visualization of protein-protein interactions;
fluorescent probes do not.
E) GFP fusions are not subject to
artifacts; fluorescent probes may introduce background artifacts.
Answer: A
What is the reason that a modern electron microscope (TEM) can
resolve biological images to the subnanometer level, as opposed to
tens of nanometers achievable for the best super-resolution light
microscope?
A) The focal length of the electron microscope is
significantly longer.
B) Contrast is enhanced by staining with
atoms of heavy metal.
C) Electron beams have much shorter
wavelengths than visible light.
D) The electron microscope has a
much greater ratio of image size to real size.
E) The electron
microscope cannot image whole cells at one time.
Answer: C
What technique would be most appropriate to use to observe the
movements of condensed chromosomes during cell division?
A)
light microscopy
B) scanning electron microscopy
C)
transmission electron microscopy
D) confocal fluorescence
microscopy
E) super-resolution fluorescence microscopy
Answer: A
All of the following are part of a prokaryotic cell except
A)
DNA.
B) a cell wall.
C) a plasma membrane.
D)
ribosomes.
E) an endoplasmic reticulum.
Answer: E
The volume enclosed by the plasma membrane of plant cells is often
much larger than the corresponding volume in animal cells. The most
reasonable explanation for this observation is that
A) plant
cells are capable of having a much higher surface-to-volume ratio than
animal cells.
B) plant cells have a much more highly convoluted
(folded) plasma membrane than animal cells.
C) plant cells
contain a large vacuole that reduces the volume of the cytoplasm.
D) animal cells are more spherical, whereas plant cells are
elongated.
E) plant cells can have lower surface-to-volume
ratios than animal cells because plant cells synthesize their own nutrients.
Answer: C
A mycoplasma is an organism with a diameter between 0.1 and 1.0 µm.
What does the organism's size tell you about how it might be
classified?
A) It must be a single-celled protist.
B) It
must be a single-celled fungus.
C) It could be almost any
typical bacterium.
D) It could be a typical virus.
E) It
could be a very small bacterium.
Answer: E
Which of the following is a major cause of the size limits for
certain types of cells?
A) limitation on the strength and
integrity of the plasma membrane as cell size increases
B) the
difference in plasma membranes between prokaryotes and eukaryotes
C) evolutionary progression in cell size; more primitive cells
have smaller sizes
D) the need for a surface area of sufficient
area to support the cell's metabolic needs
E) rigid cell walls
that limit cell size expansion
Answer: D
Which of the following statements concerning bacteria and archaea
cells is correct?
A) Archaea cells contain small
membrane-enclosed organelles; bacteria do not.
B) Archaea cells
contain a membrane-bound nucleus; bacteria do not.
C) DNA is
present in both archaea cells and bacteria cells.
D) DNA is
present in the mitochondria of both bacteria and archaea cells.
Answer: A
The evolution of eukaryotic cells most likely involved
A)
endosymbiosis of an aerobic bacterium in a larger host cell–the
endosymbiont evolved into mitochondria.
B) anaerobic archaea
taking up residence inside a larger bacterial host cell to escape
toxic oxygen–the anaerobic bacterium evolved into chloroplasts.
C) an endosymbiotic fungal cell evolved into the nucleus.
D) acquisition of an endomembrane system, and subsequent
evolution of mitochondria from a portion of the Golgi.
Answer: A
Prokaryotes are classified as belonging to two different domains.
What are the domains?
A) Bacteria and Eukarya
B) Bacteria
and Archaea
C) Archaea and Protista
D) Bacteria and
Protista
E) Bacteria and Fungi
Answer: B
If radioactive deoxythymidine triphosphate (dTTP) is added to a
culture of rapidly growing bacterial cells, where in the cell would
you expect to find the greatest concentration of radioactivity?
A) nucleus
B) cytoplasm
C) endoplasmic reticulum
D) nucleoid
E) ribosomes
Answer: D
Which organelle or structure is absent in plant cells?
A)
mitochondria
B) Golgi vesicles
C) microtubules
D)
centrosomes
E) peroxisomes
Answer: D
Large numbers of ribosomes are present in cells that specialize in
producing which of the following molecules?
A) lipids
B)
glycogen
C) proteins
D) cellulose
E) nucleic acids
Answer: C
The nuclear lamina is an array of filaments on the inner side of the
nuclear membrane. If a method were found that could cause the lamina
to fall into disarray, what would you expect to be the most likely
consequence?
A) the loss of all nuclear function
B) the
inability of the nucleus to divide during cell division
C) a
change in the shape of the nucleus
D) failure of chromosomes to
carry genetic information
E) inability of the nucleus to keep
out destructive chemicals
Answer: C
Recent evidence shows that when chromosomes decondense during
interphase, their DNA molecules do not intermingle. Instead, they
occupy distinct territories within the nucleus. Considering the
structure and location of the following structures, which is most
likely to be involved in chromosome location?
A) nuclear pores
B) the nucleolus
C) microfilaments
D) the nuclear
lamina
E) the nuclear matrix
Answer: E
A cell with a predominance of free ribosomes is most likely
A)
producing primarily proteins for secretion.
B) producing
primarily cytoplasmic proteins.
C) constructing an extensive
cell wall or extracellular matrix.
D) digesting large food
particles.
E) enlarging its vacuole
Answer: B
Which type of organelle or structure is primarily involved in the
synthesis of oils, phospholipids, and steroids?
A) ribosome
B) lysosome
C) smooth endoplasmic reticulum
D)
mitochondrion
E) contractile vacuole
Answer: C
Which structure is the site of the synthesis of proteins that may be
exported from the cell?
A) rough ER
B) lysosomes
C)
plasmodesmata
D) Golgi vesicles
E) free cytoplasmic ribosomes
Answer: A
The Golgi apparatus has a polarity or sidedness to its structure and
function. Which of the following statements correctly describes this
polarity?
A) Transport vesicles fuse with one side of the Golgi
and leave from the opposite side.
B) Proteins in the membrane of
the Golgi may be sorted and modified as they move from one side of the
Golgi to the other.
C) Lipids in the membrane of the Golgi may
be sorted and modified as they move from one side of the Golgi to the
other.
D) Soluble proteins in the cisternae (interior) of the
Golgi may be sorted and modified as they move from one side of the
Golgi to the other.
E) All of the above correctly describe polar
characteristics of the Golgi function.
Answer: E
The fact that the outer membrane of the nuclear envelope has bound
ribosomes allows one to most reliably conclude that
A) at least
some of the proteins that function in the nuclear envelope are made by
the ribosomes on the nuclear envelope.
B) the nuclear envelope
is not part of the endomembrane system.
C) the nuclear envelope
is physically separated from the endoplasmic reticulum.
D) small
vesicles from the Golgi fuse with the nuclear envelope.
E)
nuclear pore complexes contain proteins.
Answer: A
The difference in lipid and protein composition between the membranes
of the endomembrane system is largely determined by
A) the
physical separation of most membranes from each other.
B) the
transportation of membrane lipids among the endomembrane system by
small membrane vesicles.
C) the function of the Golgi apparatus
in sorting and directing membrane components.
D) the
modification of the membrane components once they reach their final
destination.
E) the synthesis of different lipids and proteins
in each of the organelles of the endomembrane system.
Answer: C
Hydrolytic enzymes must be segregated and packaged to prevent general
destruction of cellular components. Which of the following organelles
contains these hydrolytic enzymes in animal cells?
A)
chloroplast
B) lysosome
C) central vacuole
D)
peroxisome
E) glyoxysome
Answer: B
Which of the following statements correctly describes some aspect of
protein secretion from prokaryotic cells?
A) Prokaryotes are
unlikely to be able to secrete proteins because they lack an
endomembrane system.
B) The mechanism of protein secretion in
prokaryotes is probably the same as that in eukaryotes.
C)
Proteins that are secreted by prokaryotes are synthesized on ribosomes
that are bound to the cytoplasmic surface of the plasma membrane.
D) In prokaryotes, the ribosomes that are used for the synthesis
of secreted proteins are located outside of the cell.
E)
Prokaryotes contain large pores in their plasma membrane that permit
the movement of proteins out of the cell.
Answer: C
Tay-Sachs disease is a human genetic abnormality that results in
cells accumulating and becoming clogged with very large and complex
lipids. Which cellular organelle must be involved in this condition?
A) the endoplasmic reticulum
B) the Golgi apparatus
C) the lysosome
D) mitochondria
E) membrane-bound ribosomes
Answer: C
The liver is involved in detoxification of many poisons and drugs.
Which of the following structures is primarily involved in this
process and therefore abundant in liver cells?
A) rough ER
B) smooth ER
C) Golgi apparatus
D) nuclear envelope
E) transport vesicles
Answer: B
Which of the following produces and modifies polysaccharides that
will be secreted?
A) lysosome
B) vacuole
C)
mitochondrion
D) Golgi apparatus
E) peroxisome
Answer: D
Which of the following contains hydrolytic enzymes?
A) lysosome
B) vacuole
C) mitochondrion
D) Golgi apparatus
E) peroxisome
Answer: A
Which organelle often takes up much of the volume of a plant cell?
A) lysosome
B) vacuole
C) mitochondrion
D)
Golgi apparatus
E) peroxisome
Answer: B
Which organelle is the primary site of ATP synthesis in eukaryotic
cells?
A) lysosome
B) vacuole
C) mitochondrion
D) Golgi apparatus
E) peroxisome
Answer: C
Which plant cell organelle contains its own DNA and ribosomes?
A) glyoxysome
B) vacuole
C) mitochondrion
D)
Golgi apparatus
E) peroxisome
Answer: C
Which animal cell organelle contains enzymes that transfer hydrogen
from various substrates to oxygen?
A) lysosome
B) vacuole
C) mitochondrion
D) Golgi apparatus
E) peroxisome
Answer: E
Thylakoids, DNA, and ribosomes are all components found in
A)
vacuoles.
B) chloroplasts.
C) mitochondria.
D)
lysosomes.
E) nuclei.
Answer: B
In a plant cell, DNA may be found
A) only in the nucleus.
B) only in the nucleus and mitochondria.
C) only in the
nucleus and chloroplasts.
D) in the nucleus, mitochondria, and
chloroplasts.
E) in the nucleus, mitochondria, chloroplasts, and peroxisomes.
Answer: D
The chemical reactions involved in respiration are virtually
identical between prokaryotic and eukaryotic cells. In eukaryotic
cells, ATP is synthesized primarily on the inner membrane of the
mitochondria. In light of the endosymbiont theory for the evolutionary
origin of mitochondria, where is most ATP synthesis likely to occur in
prokaryotic cells?
A) in the cytoplasm
B) on the inner
mitochondrial membrane
C) on the endoplasmic reticulum
D)
on the plasma membrane
E) on the inner nuclear envelope
Answer: D
One of the key innovations in the evolution of eukaryotes from a
prokaryotic ancestor is the endomembrane system. What eukaryotic
organelles or features might have evolved as a part of, or as an
elaboration of, the endomembrane system?
A) plasma membrane
B) chloroplasts
C) mitochondria
D) nuclear envelope
E) none of these
Answer: D
1
A cell has the following molecules and structures: enzymes, DNA,
ribosomes, plasma membrane, and mitochondria. It could be a cell from
A) a bacterium.
B) an animal, but not a plant.
C)
nearly any eukaryotic organism.
D) any multicellular organism,
like a plant or an animal.
E) any kind of organism.
Answer: C
Which type of organelle is found in plant cells but not in animal
cells?
A) ribosomes
B) mitochondria
C) nuclei
D) plastids
E) none of these
Answer: D
Why isn't the mitochondrion classified as part of the endomembrane
system?
A) It is a static structure.
B) Its structure is
not derived from the ER or Golgi.
C) It has too many vesicles.
D) It is not involved in protein synthesis.
E) It is not
attached to the outer nuclear envelope.
Answer: B
In a liver cell detoxifying alcohol and some other poisons, the
enzymes of the peroxisome remove hydrogen from these molecules and
A) combine the hydrogen with water molecules to generate
hydrogen peroxide.
B) use the hydrogen to break down hydrogen
peroxide.
C) transfer the hydrogen to the mitochondria.
D)
transfer the hydrogen to oxygen molecules to generate hydrogen peroxide.
Answer: D
How does the cell multiply its peroxisomes?
A) They bud off
from the Golgi.
B) They are brought into the cell from the
environment.
C) They are built de novo from cytosol materials.
D) They split in two after they become sufficiently large.
E) The cell synthesizes hydrogen peroxide and encloses it in a membrane.
Answer: D
Motor proteins provide for molecular motion in cells by interacting
with what types of cellular structures?
A) sites of energy
production in cellular respiration
B) membrane proteins
C)
ribosomes
D) cytoskeletal structures
E) cellulose fibers
in the cell wall
Answer: D
Movement of vesicles within the cell depends on what cellular
structures?
A) microtubules and motor proteins
B) actin
filaments and microtubules
C) actin filaments and ribosomes
D) centrioles and motor proteins
E) actin filaments and
motor proteins
Answer: A
The smallest cell structure that would most likely be visible with a
standard (not super-resolution) research-grade light microscope is
A) a mitochondrion.
B) a microtubule.
C) a ribosome.
D) a microfilament.
E) a nuclear pore.
Answer: A
Which of the following contain the 9 + 2 arrangement of microtubules,
consisting of nine doublets of microtubules surrounding a pair of
single microtubules?
A) both motile cilia and primary
(nonmotile) cilia
B) centrioles only
C) both flagella and
motile cilia
D) both basal bodies and primary (nonmotile) cilia
E) both centrioles and basal bodies
Answer: C
Vinblastine, a drug that inhibits microtubule polymerization, is used
to treat some forms of cancer. Cancer cells given vinblastine would be
unable to
A) form cleavage furrows during cell division.
B) migrate by amoeboid movement.
C) separate chromosomes
during cell division.
D) extend pseudopods.
E) maintain
the shape of the nucleus.
Answer: C
The differences among the three categories of cytoskeletal elements
outlined in the table above would suggest that each of the following
has specialized roles. Which of the following is a correct match? (All
three elements are involved in the maintenance of cell shape.)
A) microfilaments and the nuclear lamina
B) microtubules
and cleavage furrow formation
C) microfilaments and ciliary
motion
D) intermediate filaments and cytoplasmic streaming
E) microtubules and chromosome movement
Answer: E
Centrioles, cilia, flagella, and basal bodies have remarkably similar
structural elements and arrangements. Which of the following
hypotheses is most plausible in light of such structural similarities?
A) Cilia and flagella arise from the centrioles.
B) Loss
of basal bodies should lead to loss of all cilia, flagella, and
centrioles.
C) Motor proteins such as dynein must have evolved
before any of these four kinds of structure.
D) Cilia and
flagella coevolved in the same ancestral eukaryotic organism.
E)
Natural selection for cell motility repeatedly selected for
microtubular arrays in circular patterns in the evolution of each of
these structures.
Answer: A
If an individual has abnormal microtubules, due to a hereditary
condition, in which organs or tissues would you expect dysfunction?
A) limbs, hearts, areas with a good deal of contraction
B)
microvilli, alveoli, and glomeruli: cellular projections that increase
surface area
C) all ducts, such as those from salivary or
sebaceous glands, that transport fluids
D) sperm, larynx, and
trachea: cells and tissues that contain flagella or cilia
E)
phagocytic cells and white blood cells that exhibit amoeboid movement
Answer: D
Cytochalasin D is a drug that prevents actin polymerization. A cell
treated with cytochalasin D will still be able to
A) perform
amoeboid movement.
B) form cleavage furrows.
C) contract
muscle fibers.
D) extend pseudopodia.
E) move vesicles
around the cell.
Answer: E
Which of the following statements about the cytoskeleton is true?
A) The dynamic aspect of cytoskeletal function is made possible
by the assembly and disassembly of a large variety of proteins into
complex aggregates.
B) Microfilaments are structurally rigid and
resist compression, whereas microtubules resist tension (stretching).
C) Movement of cilia and flagella is the result of motor
proteins causing microtubules to move relative to each other.
D)
Chemicals that block the assembly of the cytoskeleton would cause
little effect on the cell's response to external signals and stimuli.
E) Transport vesicles among the membranes of the endomembrane
system produce the cytoskeleton.
Answer: C
Cells require which of the following to form cilia or flagella?
A) centrosomes
B) laminin
C) actin
D)
intermediate filaments
E) secretory vesicles
Answer: A
What do the cell walls of plants and the extracellular matrix of
animal cells have in common?
A) They are largely composed of
phospholipids and glycoproteins.
B) Their proteins are made by
free cytoplasmic ribosomes.
C) They form rigid structures that
provide structural support for cells but limit their expansion.
D) They limit the passage of small molecules.
E) They have
functional connections with the cytoskeleton inside the cell.
Answer: E
The cell walls of bacteria, fungi, and plant cells and the
extracellular matrix of animal cells are all external to the plasma
membrane. Which of the following is a characteristic common to all of
these extracellular structures?
A) They must block water and
small molecules in order to regulate the exchange of matter and energy
with their environment.
B) They must permit information transfer
between the cell's cytoplasm and the nucleus.
C) They must
provide a rigid structure that maintains an appropriate ratio of cell
surface area to volume.
D) They are constructed of polymers that
are synthesized in the cytoplasm and then transported out of the cell.
E) They are composed of a mixture of lipids and carbohydrates.
Answer: D
When a potassium ion (K+) moves from the soil into the vacuole of a
cell on the surface of a root, it must pass through several cellular
structures. Which of the following correctly describes the order in
which these structures will be encountered by the ion?
A) plasma
membrane → primary cell wall → cytoplasm → vacuole
B) secondary
cell wall → plasma membrane → primary cell wall → cytoplasm → vacuole
C) primary cell wall → plasma membrane → cytoplasm → vacuole
D) primary cell wall → plasma membrane → lysosome → cytoplasm →
vacuole
E) primary cell wall → plasma membrane → cytoplasm →
secondary cell wall → vacuole
Answer: C
All of the following serve an important role in determining or
maintaining the structure of plant cells. Which of the following are
distinct from the others in their composition?
A) microtubules
B) microfilaments
C) plant cell walls
D)
intermediate filaments
E) nuclear lamina
Answer: C
A mutation that disrupts the ability of an animal cell to add
polysaccharide modifications to proteins would most likely cause
defects in its
A) nuclear lamina and nuclear matrix.
B)
nuclear matrix and extracellular matrix.
C) mitochondria and
Golgi apparatus.
D) Golgi apparatus and extracellular matrix.
E) nuclear pores and secretory vesicles.
Answer: D
The extracellular matrix is thought to participate in the regulation
of animal cell behavior by communicating information from the outside
to the inside of the cell via which of the following?
A) gap
junctions
B) the nucleus
C) DNA and RNA
D) integrins
E) plasmodesmata
Answer: D
Plasmodesmata in plant cells are most similar in function to which of
the following structures in animal cells?
A) peroxisomes
B) desmosomes
C) gap junctions
D) extracellular
matrix
E) tight junctions
Answer: C
Ions can travel directly from the cytoplasm of one animal cell to the
cytoplasm of an adjacent cell through
A) plasmodesmata.
B)
intermediate filaments.
C) tight junctions.
D) desmosomes.
E) gap junctions.
Answer: E
Which of the following makes it necessary for animal cells, although
they have no cell walls, to have intercellular junctions?
A)
Cell membranes do not distinguish the types of ions and molecules
passing through them.
B) Large molecules, such as proteins and
RNA molecules, do not readily get through one, much less two, adjacent
cell membranes.
C) Cell-to-cell communication requires physical
attachment of one cell to another.
D) Maintenance of tissue
integrity and barriers to fluid leakage requires cells to adhere
tightly to one another.
E) The relative shapelessness of animal
cells requires a mechanism for keeping the cells aligned.
Answer: D
Recent evidence shows that signals from the extracellular matrix
(ECM) can regulate the expression of genes in the cell nucleus. A
likely mechanism is that
A) mechanical signals of the ECM can
alter the cytoskeleton, which can alter intracellular signaling.
B) intracellular signals might cause changes in the fibronectin
binding to the cell surface.
C) orientation of microtubules to
the ECM can change gene activity.
D) integrins that receive
signals from the ECM migrate to the nucleus.
E) proteoglycans in
the ECM undergo endocytosis and produce intracellular signaling molecules.
Answer: A
Signals between the ECM and the cytoskeleton may be transmitted by
A) fibronectin.
B) proteoglycans.
C) integrins.
D) collagen.
E) middle lamella.
Answer: C
ECM proteins are made by ribosomes in which part of a eukaryotic
cell?
A) mitochondria
B) cytoplasm
C) nuclear
envelope
D) Golgi apparatus
E) rough ER
Answer: E
What types of proteins are not synthesized in the rough ER?
A)
endoplasmic reticulum proteins
B) extracellular matrix proteins
C) secreted proteins
D) mitochondrial proteins
E)
plasma membrane proteins
Answer: D
Which of the trees in this figure groups the domains according to
similarities in cellular size and architecture?
A) A
B) B
C) C
D) D
Answer: A
biologist wants specifically to examine the surfaces of different
types of cells in kidney tubules of small mammals. The cells in
question can be distinguished by external shape, size, and 3-D
characteristics. Which of the following would be the optimum method
for her study?
A) transmission electron microscopy
B) cell
fractionation
C) light microscopy using stains specific to
kidney function
D) light microscopy of living unstained material
E) scanning electron microscopy
Answer: E
A newspaper ad for a local toy store indicates that a very
inexpensive microscope available for a small child is able to magnify
specimens nearly as much as the much more costly microscope available
in your college lab. What is the primary reason for the price
difference?
A) The ad agency is misrepresenting the ability of
the toy microscope to magnify.
B) The toy microscope does not
have the same fine control for focus of the specimen.
C) The toy
microscope magnifies a good deal, but has low resolution and therefore
poor quality images.
D) The college microscope produces greater
contrast in the specimens.
E) The toy microscope usually uses a
different wavelength of light source.
Answer: C
A biologist ground up some plant leaf cells and then centrifuged the
mixture to fractionate the organelles. Organelles in one of the
heavier fractions could produce ATP in the light, whereas organelles
in the lighter fraction could produce ATP in the dark. The heavier and
lighter fractions are most likely to contain, respectively,
A)
mitochondria and chloroplasts.
B) chloroplasts and peroxisomes.
C) peroxisomes and chloroplasts.
D) chloroplasts and
mitochondria.
E) mitochondria and peroxisomes.
Answer: D
Which structure is not part of the endomembrane system?
A)
nuclear envelope
B) chloroplast
C) Golgi apparatus
D) plasma membrane
E) ER
Answer: B
Which structure is common to plant and animal cells?
A)
chloroplast
B) wall made of cellulose
C) central vacuole
D) mitochondrion
E) centriole
Answer: D
Which of the following is present in a prokaryotic cell?
A)
mitochondrion
B) ribosome
C) nuclear envelope
D)
chloroplast
E) ER
Answer: B
Which structure-function pair is mismatched?
A) nucleolus;
production of ribosomal subunits
B) lysosome; intracellular
digestion
C) ribosome; protein synthesis
D) Golgi; protein
trafficking
E) microtubule; muscle contraction
Answer: E
Cyanide binds with at least one molecule involved in producing ATP.
If a cell is exposed to cyanide, most of the cyanide will be found
within the
A) mitochondria.
B) ribosomes.
C)
peroxisomes.
D) lysosomes.
E) endoplasmic reticulum.
Answer: A
What is the most likely pathway taken by a newly synthesized protein
that will be secreted by a cell?
A) ER → Golgi → nucleus
B) Golgi →ER →lysosome
C) nucleus →ER →Golgi
D) ER
→Golgi →vesicles that fuse with plasma membrane
E) ER →lysosomes
→vesicles that fuse with plasma membrane
Answer: D
Which cell would be best for studying lyosomes?
A) muscle cell
B) nerve cell
C) phagocytic white blood cell
D) leaf
cell of a plant
E) bacterial cell
Answer: C