Chapter 9: Cell Cycle
1) The centromere is a region in which
A) chromatids remain attached to one another until anaphase.
B) metaphase chromosomes become aligned at the metaphase plate.
C) chromosomes are grouped during telophase.
D) the
nucleus is located prior to mitosis.
E) new spindle microtubules
form at either end.
A
2) Starting with a fertilized egg (zygote), a series of five cell
divisions would produce an early embryo with how many cells?
A)
4
B) 8
C) 16
D) 32
E) 64
D
3) If there are 20 chromatids in a cell, how many centromeres are
there?
A) 10
B) 20
C) 30
D) 40
E) 80
A
4) For a newly evolving protist, what would be the advantage of using
eukaryote-like cell division rather than binary fission?
A) Binary fission would not allow for the formation of new
organisms.
B) Cell division would allow for the orderly and
efficient segregation of multiple linear chromosomes.
C) Cell
division would be faster than binary fission.
D) Cell division
allows for lower rates of error per chromosome replication.
E)
Binary fission would not allow the organism to have complex cells.
B
5) Suppose a biologist can separate one of a dozen pieces of
chromatin from a eukaryotic (animal) nucleus. It might consist of
which of the following?
A) one-twelfth of the genes of the organism
B) two
chromosomes, each with six chromatids
C) a single circular piece
of DNA
D) two long strands of DNA plus proteins
E) two
chromatids attached together at a centromere
D
6) At which phase are centrioles beginning to move apart in animal
cells?
A) telophase
B) anaphase
C) prometaphase
D)
metaphase
E) prophase
E
7) If cells in the process of dividing are subjected to colchicine, a
drug that interferes with the formation of the spindle apparatus, at
which stage will mitosis be arrested?
A) anaphase
B) prophase
C) telophase
D)
metaphase
E) interphase
D
8) If there are 20 centromeres in a cell at anaphase, how many
chromosomes are there in each daughter cell following cytokinesis?
A) 10
B) 20
C) 30
D) 40
E) 80
A
9) Where do the microtubules of the spindle originate during mitosis
in both plant and animal cells?
A) centromere
B) centrosome
C) centriole
D)
chromatid
E) kinetochore
B
10) Taxol is an anticancer drug extracted from the Pacific yew tree.
In animal cells, Taxol disrupts microtubule formation by binding to
microtubules and accelerating their assembly from the protein
precursor, tubulin. Surprisingly, this stops mitosis. Specifically,
Taxol must affect
A) the formation of the mitotic spindle.
B) anaphase.
C) formation of the centrioles.
D) chromatid assembly.
E) the S phase of the cell cycle.
A
11) Which of the following are primarily responsible for cytokinesis
in plant cells but not in animal cells?
A) kinetochores
B) Golgi-derived vesicles
C) actin
and myosin
D) centrioles and centromeres
E)
cyclin-dependent kinases
B
12) In which group of eukaryotic organisms does the nuclear envelope
remain intact during mitosis?
A) seedless plants
B) dinoflagellates
C) diatoms
D) dinoflagellates and diatoms only
E) seedless plants,
dinoflagellates, and diatoms
D
13) Movement of the chromosomes during anaphase would be most
affected by a drug that
A) reduces cyclin concentrations.
B) increases cyclin
concentrations.
C) prevents elongation of microtubules.
D)
prevents shortening of microtubules.
E) prevents attachment of
the microtubules to the kinetochore.
D
14) Measurements of the amount of DNA per nucleus were taken on a
large number of cells from a growing fungus. The measured DNA levels
ranged from 3 to 6 picograms per nucleus. In which stage of the cell
cycle did the nucleus contain 6 picograms of DNA?
A) G₀
B) G₁
C) S
D) G₂
E) M
D
15) A group of cells is assayed for DNA content immediately following
mitosis and is found to have an average of 8 picograms of DNA per
nucleus. How many picograms would be found at the end of S and the end
of G₂?
A) 8; 8
B) 8; 16
C) 16; 8
D) 16; 16
E)
12; 16
D
16) For anaphase to begin, which of the following must occur?
A) Chromatids must lose their kinetochores.
B) Cohesin
must attach the sister chromatids to each other.
C) Cohesin must
be cleaved enzymatically.
D) Kinetochores must attach to the
metaphase plate.
E) Spindle microtubules must begin to depolymerize.
C
17) Why do chromosomes coil during mitosis?
A) to increase their potential energy
B) to allow the
chromosomes to move without becoming entangled and breaking
C) to
allow the chromosomes to fit within the nuclear envelope
D) to
allow the sister chromatids to remain attached
E) to provide for
the structure of the centromere
B
18) Which of the following best describes how chromosomes move toward
the poles of the spindle during mitosis?
A) The chromosomes are "reeled in" by the contraction
of spindle microtubules.
B) Motor proteins of the kinetochores
move the chromosomes along the spindle microtubules.
C)
Nonkinetochore spindle fibers serve to push chromosomes in the
direction of the poles.
D) The chromosomes are "reeled
in" by the contraction of spindle microtubules, and motor
proteins of the kinetochores move the chromosomes along the spindle
microtubules.
E) The chromosomes are "reeled in" by
the contraction of spindle microtubules, motor proteins of the
kinetochores move the chromosomes along the spindle microtubules, and
nonkinetochore spindle fibers serve to push chromosomes in the
direction of the poles.
D
19) Which of the following is a function of those spindle
microtubules that do not attach to kinetochores?
A) maintaining an appropriate spacing among the moving
chromosomes
B) producing a cleavage furrow when telophase is
complete
C) providing the ATP needed by the fibers attached to
kinetochores
D) maintaining the region of overlap of
microtubules in the cell's center
E) pulling the poles of the
spindles closer to one another
D
20) During which phase of mitosis do the chromatids become
chromosomes?
A) telophase
B) anaphase
C) prophase
D)
metaphase
E) cytokinesis
A
21) Which of the following was a discovery that had to be made before
human chromosomes could be correctly counted?
A) how to use a hypotonic solution to swell nuclei
B) how
to visualize sperm nuclei
C) how to visualize chromosomes
D) when to see chromosomes separate from one another
E)
when to see chromosomes in pairs
A
22) Which of the following is (are) required for motor proteins to
function in the movement of chromosomes toward the poles of the
mitotic spindle?
A) intact centromeres
B) an MTOC (microtubule organizing
center)
C) a kinetochore attached to the metaphase plate
D) ATP as an energy source
E) synthesis of cohesin
D
23) What is a cleavage furrow?
A) a ring of vesicles forming a cell plate
B) the
separation of divided prokaryotes
C) a groove in the plasma
membrane between daughter nuclei
D) the metaphase plate where
chromosomes attach to the spindle
E) the space that is created
between two chromatids during anaphase
C
24) Which of the following proteins are involved in binary fission as
well as eukaryotic mitotic division?
A) cyclins
B) Cdks
C) MPF
D) actin and tubulin
E) cohesins
D
25) Using which of the following techniques would enable your lab
group to distinguish between a cell in G₂ and a cell from the same
organism in G₁?
A) fluorescence microscopy
B) electron microscopy
C)
spectrophotometry
D) radioactive-labeled nucleotides
E)
labeled kinetochore proteins
D
26) You have the technology necessary to measure each of the
following in a sample of animal cells: chlorophylls, organelle
density, picograms of DNA, cell wall components, and enzymatic
activity. Which would you expect to increase significantly from M to
G₁?
A) organelle density and enzymatic activity
B) cell wall
components and DNA
C) chlorophyll and cell walls
D)
organelle density and cell walls
E) chlorophyll and DNA
A
27) A plant-derived protein known as colchicine can be used to poison
cells by blocking the formation of the spindle. Which of the following
would result if colchicine is added to a sample of cells in G₂?
A) The cells would immediately die.
B) The cells would be
unable to begin M and stay in G₂.
C) The chromosomes would coil
and shorten but have no spindle to which to attach.
D) The
chromosomes would segregate but in a disorderly pattern.
E) Each
resultant daughter cell would also be unable to form a spindle.
C
28) What causes the decrease in the amount of cyclin at a specific
point in the cell cycle?
A) an increase in production once the restriction point is
passed
B) the cascade of increased production once its protein
is phosphorylated by Cdk
C) the changing ratio of cytoplasm to
genome
D) its destruction by a process initiated by the activity
of its complex with a cyclin
E) the binding of PDGF to receptors
on the cell surface
D
29) Which of the following is released by platelets in the vicinity
of an injury?
A) PDGF
B) MPF
C) protein kinase
D) cyclin
E) Cdk
A
30) Which of the following is a protein synthesized at specific times
during the cell cycle that associates with a kinase to form a
catalytically active complex?
A) PDGF
B) MPF
C) protein kinase
D) cyclin
E) Cdk
D
31) Which of the following is a protein maintained at constant levels
throughout the cell cycle that requires cyclin to become catalytically
active?
A) PDGF
B) MPF
C) protein kinase
D)
cyclin
E) Cdk
E
32) Which of the following triggers the cell's passage past the G₂
checkpoint into mitosis?
A) PDGF
B) MPF
C) protein
kinase
D) cyclin
E) Cdk
B
33) The cyclin component of MPF is destroyed toward the end of which
phase?
A) G₀
B) G₁
C) S
D) G₂
E) M
E
34) Proteins that are involved in the regulation of the cell cycle,
and that show fluctuations in concentration during the cell cycle, are
called
A) ATPases.
B) kinetochores.
C) kinases.
D) proton pumps.
E) cyclins.
E
35) The MPF protein complex turns itself off by
A) activating a process that destroys cyclin components.
B) activating an enzyme that stimulates cyclin.
C) binding
to chromatin.
D) exiting the cell.
E) activating the
anaphase-promoting complex.
A
36) A mutation results in a cell that no longer produces a normal
protein kinase for the M phase checkpoint. Which of the following
would likely be the immediate result of this mutation?
A) The cell would prematurely enter anaphase.
B) The cell
would never leave metaphase.
C) The cell would never enter
metaphase.
D) The cell would never enter prophase.
E) The
cell would undergo normal mitosis, but fail to enter the next G₁ phase.
E
37) Density-dependent inhibition is explained by which of the
following?
A) As cells become more numerous, they begin to squeeze against
each other, restricting their size and ability to produce control
factors.
B) As cells become more numerous, the cell surface
proteins of one cell contact the adjoining cells and they stop
dividing.
C) As cells become more numerous, the protein kinases
they produce begin to compete with each other, such that the proteins
produced by one cell essentially cancel those produced by its
neighbor.
D) As cells become more numerous, more and more of
them enter the S phase of the cell cycle.
E) As cells become
more numerous, the level of waste products increases, eventually
slowing down metabolism.
B
38) Which of the following is true concerning cancer cells?
A) They do not exhibit density-dependent inhibition when growing
in culture.
B) When they stop dividing, they do so at random
points in the cell cycle.
C) They are not subject to cell cycle
controls.
D) When they stop dividing, they do so at random
points in the cell cycle, and they are not subject to cell cycle
controls.
E) When they stop dividing, they do so at random
points in the cell cycle; they are not subject to cell cycle controls;
and they do not exhibit density-dependent inhibition when growing in culture.
E
39) Which of the following describe(s) cyclin-dependent kinase (Cdk)?
A) Cdk is inactive, or "turned off," in the presence
of cyclin.
B) Cdk is present throughout the cell cycle.
C)
Cdk is an enzyme that attaches phosphate groups to other proteins.
D) Cdk is inactive, or "turned off," in the presence
of cyclin and it is present throughout the cell cycle.
E) Cdk is
present throughout the cell cycle and is an enzyme that attaches
phosphate groups to other proteins.
E
40) A particular cyclin called cyclin E forms a complex with Cdk 2
(cyclin-dependent kinase 2). This complex is important for the
progression of the cell from G₁ into the S phase of the cell cycle.
Which of the following statements is correct?
A) The amount of free cyclin E is greatest during the S phase.
B) The amount of free Cdk 2 is greater during G₁ compared to the
S phase.
C) The amount of free cyclin E is highest during G₁.
D) The amount of free Cdk 2 is greatest during G₁.
E) The
activity of the cyclin E/Cdk 2 complex is highest during G₂.
C
41) Cells from an advanced malignant tumor most often have very
abnormal chromosomes, and often an abnormal total number of
chromosomes. Why might this occur?
A) Cancer cells are no longer density dependent.
B) Cancer
cells are no longer anchorage dependent.
C) Chromosomally
abnormal cells can still go through cell cycle checkpoints.
D)
Chromosomally abnormal cells still have normal metabolism.
E)
Transformation introduces new chromosomes into cells.
C
42) Besides the ability of some cancer cells to overproliferate, what
else could logically result in a tumor?
A) metastasis
B) changes in the order of cell cycle stages
C) lack of appropriate cell death
D) inability to form
spindles
E) inability of chromosomes to meet at the metaphase plate
C
43) After which checkpoint is the cell first committed to continue
the cell cycle through M?
A) G₀
B) G₁
C) G₂
D)
S
E) previous M
B
44) Why do neurons and some other specialized cells divide
infrequently?
A) They no longer have active nuclei.
B)
They no longer carry receptors for signal molecules.
C) They
have been shunted into G₀.
D) They can no longer bind Cdk to
cyclin.
E) They show a drop in MPF concentration.
C
45) Which of the following most accurately describes a cyclin?
A) It is present in similar concentrations throughout the cell
cycle.
B) It is activated to phosphorylate by complexing with a
Cdk.
C) It decreases in concentration when MPF activity
increases.
D) It activates a Cdk molecule when it is in
sufficient concentration.
E) It activates a Cdk when its
concentration is decreased.
D
46) All cell cycle checkpoints are similar in which way?
A)
They respond to the same cyclins.
B) They utilize the same Cdks.
C) They give the go-ahead signal to progress to the next
checkpoint.
D) They each have only one cyclin/Cdk complex.
E) They activate or inactivate other proteins.
E
47) At the M phase checkpoint, the complex allows for what to occur?
A) Separate enzyme cleaves cohesins and allows chromatids to
separate.
B) Cohesins alter separase to allow chromatids to
separate.
C) Kinetochores are able to bind to spindle
microtubules.
D) All microtubules are made to bind to
kinetochores.
E) Daughter cells are allowed to pass into G₁.
A
48) What explains anchorage dependence of animal cells in vitro or in
vivo?
A) attachment of spindle fibers to centrioles
B)
response of the plasma membrane to cell cycle controls
C) the
makeup of the extracellular matrix of the substrate
D) the
binding of cell-surface phospholipids to those of adjoining cells
E) the binding of cell-surface phospholipids to the substrate
B
49) A research team began a study of a cultured cell line. Their
preliminary observations showed them that the cell line did not
exhibit either density-dependent inhibition or anchorage dependence.
What could they conclude right away?
A) The cells originated in
the nervous system.
B) The cells are unable to form spindle
microtubules.
C) They have altered series of cell cycle phases.
D) The cells show characteristics of tumors.
E) They were
originally derived from an elderly organism.
D
50) For a chemotherapeutic drug to be useful for treating cancer
cells, which of the following is most desirable?
A) It is safe
enough to limit all apoptosis.
B) It does not alter
metabolically active cells.
C) It only attacks cells that are
density dependent.
D) It interferes with cells entering G₀.
E) It interferes with rapidly dividing cells.
E
51) You have a series of cells, all of which were derived from
tumors, and you first need to find out which ones are malignant. What
could you do?
A) See which ones are not overproliferating.
B) Find out
which ones have a higher rate of apoptosis.
C) Karyotype samples
to look for unusual size and number of chromosomes.
D) Measure
metastasis.
E) Time their cell cycles.
C
The lettered circle in Figure 12.1 shows a diploid nucleus with four
chromosomes. There are two pairs of homologous chromosomes, one long
and the other short. One haploid set is symbolized as black and the
other haploid set is gray. The chromosomes in the unlettered circle
have not yet replicated. Choose the correct chromosomal conditions for
the following stages.
52) What is the correct chromosomal condition at the
prometaphase of mitosis?
A) A
B) B
C) C
D) D
E) E
B
The lettered circle in Figure 12.1 shows a diploid nucleus with four
chromosomes. There are two pairs of homologous chromosomes, one long
and the other short. One haploid set is symbolized as black and the
other haploid set is gray. The chromosomes in the unlettered circle
have not yet replicated. Choose the correct chromosomal conditions for
the following stages.
53) What is the correct chromosomal condition for one daughter
nucleus at telophase of mitosis?
A) A
B) B
C) C
D) D
E) E
E
54) If the cell whose nuclear material is shown in Figure 12.2
continues toward completion of mitosis, which of the following events
would occur next?
A) cell membrane synthesis
B) spindle
fiber formation
C) nuclear envelope breakdown
D) formation
of telophase nuclei
E) synthesis of chromatids
D
55) In the figure above, mitosis is represented by which numbered
part(s) of the cycle?
A) I
B) II
C) III
D) IV
E) V
D
56) G₁ is represented by which numbered part(s) of the cycle?
A) I or V
B) II or IV
C) III only
D) IV only
E) V only
A
57) Which number represents DNA synthesis?
A) I
B) II
C) III
D) IV
E) V
B
58) Which number represents the point in the cell cycle during which
the chromosomes are replicated?
A) I
B) II
C) III
D) IV
E) V
B
59) At which of the numbered regions would you expect to find cells
at metaphase?
A) I and IV
B) II only
C) III only
D) IV only
E) V only
C
60) MPF reaches its threshold concentration at the end of this stage.
A) I
B) II
C) III
D) IV
E) V
C
Use the data in Table 12.1 to answer the following question.
(SEE IMAGE)
The data were obtained from a study of the
length of time spent in each phase of the cell cycle by cells of three
eukaryotic organisms designated beta, delta, and gamma
61) Of the following, the best conclusion concerning the
difference between the S phases for beta and gamma is that
A)
gamma contains more DNA than beta.
B) beta and gamma contain the
same amount of DNA.
C) beta cells reproduce asexually.
D)
gamma contains 48 times more DNA and RNA than beta.
E) beta is a
plant cell and gamma is an animal cell.
A
Use the data in Table 12.1 to answer the following question.
(SEE IMAGE)
The data were obtained from a study of the
length of time spent in each phase of the cell cycle by cells of three
eukaryotic organisms designated beta, delta, and gamma
62) The best conclusion concerning delta is that the cells
A) contain no DNA.
B) contain no RNA.
C) contain
only one chromosome that is very short.
D) are actually in the
G₀ phase.
E) divide in the G₁ phase.
D
Several organisms, primarily protists, have what are called
intermediate mitotic organization.
63) These protists are intermediate in what sense?
A) They
reproduce by binary fission in their early stages of development and
by mitosis when they are mature.
B) They never coil up their
chromosomes when they are dividing.
C) They use mitotic division
but only have circular chromosomes.
D) They maintain a nuclear
envelope during division.
E) None of them form spindles.
D
Several organisms, primarily protists, have what are called
intermediate mitotic organization.
A) They represent a form of cell reproduction which must have
evolved completely separately from those of other organisms.
B)
They demonstrate that these species are not closely related to any of
the other protists and may well be a different kingdom.
C) They
rely on totally different proteins for the processes they undergo.
D) They may be more closely related to plant forms that also
have unusual mitosis.
E) They show some but not all of the
evolutionary steps toward complete mitosis.
E
Nucleotides can be radiolabeled before they are incorporated into
newly forming DNA and can therefore be assayed to track their
incorporation. In a set of experiments, a student—faculty research
team used labeled T nucleotides and introduced these into the culture
of dividing human cells at specific times.
65) Which of the following questions might be answered by such a
method?
A) How many cells are produced by the culture per hour?
B)
What is the length of the S phase of the cell cycle?
C) When is
the S chromosome synthesized?
D) How many picograms of DNA are
made per cell cycle?
E) When do spindle fibers attach to chromosomes?
B
Nucleotides can be radiolabeled before they are incorporated into
newly forming DNA and can therefore be assayed to track their
incorporation. In a set of experiments, a student—faculty research
team used labeled T nucleotides and introduced these into the culture
of dividing human cells at specific times.
66) The research team used the setup to study the incorporation
of labeled nucleotides into a culture of lymphocytes and found that
the lymphocytes incorporated the labeled nucleotide at a significantly
higher level after a pathogen was introduced into the culture. They
concluded that
A) the presence of the pathogen made the
experiment too contaminated to trust the results.
B) their
tissue culture methods needed to be relearned.
C) infection
causes lymphocytes to divide more rapidly.
D) infection causes
cell cultures in general to reproduce more rapidly.
E) infection
causes lymphocyte cultures to skip some parts of the cell cycle.
C
Nucleotides can be radiolabeled before they are incorporated into
newly forming DNA and can therefore be assayed to track their
incorporation. In a set of experiments, a student—faculty research
team used labeled T nucleotides and introduced these into the culture
of dividing human cells at specific times.
67) Once they had determined which cells were dividing, the team
wanted to use a non-radioactive method to track whether various
physiological factors (such as food or body temperature) affect the
action of the pathogen. Which of the following would be effective,
simple, and safe?
A) measuring picograms of DNA
B)
measuring numbers of chromosomes
C) measuring numbers of
chromatids
D) counting the frequency of cells in mitosis
E) counting newly formed plasma membranes
D
The research team established similar lymphocyte cultures from a
number of human donors, including healthy teenagers of both genders,
patients already suffering from long-term bacterial infections, and
elderly volunteers. They found that the increase in lymphocyte
incorporation after pathogen introduction was slightly lower in some
of the female teenagers and significantly lower in each of the elderly
persons. They repeated the study with a larger number of samples but
got the same results.
68) What might be among the research team's conclusions?
A) The young women showed these results because they have poorer
nutrition.
B) The elderly persons' samples demonstrated their
lowered immune responses.
C) The young men had higher responses
because they are generally healthier.
D) The patient samples
should have had the lowest response but did not, so the experiment is
invalid.
E) The elderly donor samples represent cells no longer
capable of any cell division.
B
The research team established similar lymphocyte cultures from a
number of human donors, including healthy teenagers of both genders,
patients already suffering from long-term bacterial infections, and
elderly volunteers. They found that the increase in lymphocyte
incorporation after pathogen introduction was slightly lower in some
of the female teenagers and significantly lower in each of the elderly
persons. They repeated the study with a larger number of samples but
got the same results.
69) Which of the following investigations might be most
productive to show what the data on the teenagers might indicate?
A) test male teenagers
B) test teenagers who say they are
not sexually active
C) test female teens at different times in
their menstrual cycles
D) test relatives of the teens previously
tested
E) test teenagers from different school systems
C
A student is looking through his light microscope (~450 X) at a
squashed and stained onion root tip. Some, but not all, of the cells
have clearly visible chromosome strands.
70) When a cell is in anaphase of mitosis, which of the
following will he see?
A) a clear area in the center of the cell
B) chromosomes clustered at the poles
C) individual
chromatids separating
D) chromosomes clustered tightly at the
center
E) formation of vesicles at the midline
A
A student is looking through his light microscope (~450 X) at a
squashed and stained onion root tip. Some, but not all, of the cells
have clearly visible chromosome strands.
71) When the cell has just completed telophase, which of the
following does he see?
A) a clear area in the center of the cell
B) chromosomes clustered at the poles
C) individual
chromatids separating
D) formation of vesicles at the midline
E) two small cells with chromatin
E
72) Through a microscope, you can see a cell plate beginning to
develop across the middle of a cell and nuclei forming on either side
of the cell plate. This cell is most likely
A) an animal cell in
the process of cytokinesis.
B) a plant cell in the process of
cytokinesis.
C) an animal cell in the S phase of the cell cycle.
D) a bacterial cell dividing.
E) a plant cell in metaphase.
B
73) Vinblastine is a standard chemotherapeutic drug used to treat
cancer. Because it interferes with the assembly of microtubules, its
effectiveness must be related to
A) disruption of mitotic
spindle formation.
B) inhibition of regulatory protein
phosphorylation.
C) suppression of cyclin production.
D)
myosin denaturation and inhibition of cleavage furrow formation.
E) inhibition of DNA synthesis.
A
74) One difference between cancer cells and normal cells is that
cancer cells
A) are unable to synthesize DNA.
B) are arrested at the S
phase of the cell cycle.
C) continue to divide even when they
are tightly packed together.
D) cannot function properly because
they are affected by density-dependent inhibition.
E) are always
in the M phase of the cell cycle.
C
75) The decline of MPF activity at the end of mitosis is due to
A) the destruction of the protein kinase Cdk.
B) decreased
synthesis of Cdk.
C) the degradation of cyclin.
D) the
accumulation of cyclin.
E) synthesis of DNA.
C
76) In the cells of some organisms, mitosis occurs without
cytokinesis. This will result in
A) cells with more than one
nucleus.
B) cells that are unusually small.
C) cells
lacking nuclei.
D) destruction of chromosomes.
E) cell
cycles lacking an S phase.
A
77) Which of the following does not occur during mitosis?
A)
condensation of the chromosomes
B) replication of the DNA
C) separation of sister chromatids
D) spindle formation
E) separation of the spindle poles
B
78) A particular cell has half as much DNA as some other cells in a
mitotically active tissue. The cell in question is most likely in
A) G₁.
B) G₂.
C) prophase.
D) metaphase.
E) anaphase.
A
79) The drug cytochalasin B blocks the function of actin. Which of
the following aspects of the cell cycle would be most disrupted by
cytochalasin B?
A) spindle formation
B) spindle attachment
to kinetochores
C) DNA synthesis
D) cell elongation during
anaphase
E) cleavage furrow formation and cytokinesis
E