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Deck 10: Chromosomes, Mitosis, and Meiosis

Full screen (f)
exit full mode
Question
Eukaryotic chromosomes consist of:

A) circular DNA molecules complexed with positively charged nonhistone proteins.
B) circular DNA molecules complexed with negatively charged histone proteins.
C) linear DNA molecules complexed with positively charged histone proteins.
D) linear DNA molecules complexed with negatively charged histone proteins.
E) circular DNA molecules folded to fit inside a bacterial cell.
Use Space or
up arrow
down arrow
to flip the card.
Question
When is a cell in metaphase?

A) The chromosomes are visible as threadlike structures.
B) The nuclear envelope is clearly visible.
C) The chromosomes are aligned at the midplane of the cell.
D) The chromosome are separated into distinct groups at opposite poles of the cell.
E) Cytokinesis is occurring.
Question
Cytokinesis in plant cells occurs via the formation of a(n):

A) aster.
B) mitotic spindle.
C) Golgi complex.
D) cell wall.
E) cell plate.
Question
Duplicated centrioles move to opposite poles of a dividing ____ cell during the ____ of the cell cycle.

A) plant; metaphase
B) plant; anaphase
C) prokaryotic; metaphase
D) animal; interphase
E) animal; prophase
Question
Eukaryotic chromosomes are composed of:

A) proteins only.
B) chromatin.
C) DNA only.
D) circular chromatin.
E) karyotypes.
Question
____ contain identical DNA sequences and are held together by ____ during mitosis.

A) Daughter chromosomes; hydrogen bonding
B) Daughter chromosomes; ionic bonding
C) Sister chromatids; spindle fibers
D) Sister chromosomes; histone proteins
E) Sister chromatids; cohesin proteins
Question
The ____ is responsible for the separation of the chromosomes during the ____ of mitosis.

A) cell wall; anaphase
B) mitotic spindle; interphase
C) mitotic spindle; anaphase
D) kinetochore; prophase
E) centromere; telophase
Question
Why is it important for DNA to be copied before cell division?

A) Genetic information must be transmitted to the daughter cells.
B) The daughter cells must be polyploid.
C) The nucleus does not contain enough room for extra DNA.
D) The daughter cells need extra copies of the genetic information present in the parent cell.
E) The daughter cells do not need proteins.
Question
What is the function of kinetochores?

A) Kinetochores anchor spindle fibers to the centrioles.
B) Kinetochores are the site of DNA synthesis.
C) Kinetochores regulate the length of the cell cycle.
D) Kinetochores attach to microtubules during mitosis.
E) Kinetochores are involved in cytokinesis.
Question
Cytokinesis in animal cells involves contraction of a ring of ____ microfilaments.

A) tubulin plus actin
B) actin plus myosin
C) cyclin plus myosin
D) cohesin plus actin
E) cyclin plus actin
Question
The cell cycle of a typical somatic cell consists of the ____ and M phases.

A) interphase
B) meiosis I
C) crossing-over
D) meiosis II
E) mitosis
Question
In unwound chromatin, nucleosomes are organized into large coiled loops held together by:

A) histones.
B) centromeres.
C) kinetochore proteins.
D) scaffolding proteins.
E) condensins.
Question
What is not a hallmark of prophase?

A) nuclear envelope is visible with the light microscope.
B) nucleolus disappears.
C) mitotic spindle is beginning to assemble.
D) spindle fibers pull chromosomes to opposite sides of the cell.
E) duplicated chromosomes become visible with the light microscope.
Question
The mitotic spindle is made of:

A) motor proteins.
B) condensin.
C) histones.
D) Z rings.
E) microtubules.
Question
A cell is dividing by binary fission. What can you conclude?

A) Mitosis has taken place without cytokinesis.
B) Homologous chromosomes have already paired.
C) The cyclin-Cdk complex is no longer phosphorylating enzymes.
D) The cell cycle is out of control.
E) The cell is prokaryotic.
Question
The function of nucleosomes is to:

A) prevent DNA strands from tangling.
B) help DNA replicate.
C) make RNA synthesis possible.
D) prevent RNA from tangling with DNA during transcription.
E) prevent histones from tangling.
Question
Nucleosomes are best described as:

A) eukaryotic DNA associated with histone proteins.
B) prokaryotic DNA associated with nonhistone proteins.
C) eukaryotic DNA associated with nonhistone proteins.
D) prokaryotic DNA associated with histone proteins.
E) eukaryotic DNA associated with scaffolding proteins.
Question
A bacterial chromosome consists of a:

A) linear DNA molecule many times larger than the cell.
B) circular DNA molecule many times larger than the cell.
C) circular DNA molecule smaller than the cell.
D) linear DNA molecule smaller than the cell.
E) linear or circular DNA molecule smaller than the cell.
Question
____ organized on chromosomes carry the information that controls the functions of the cell.

A) Proteins
B) Nucleosomes
C) Asters
D) Genes
E) Histones
Question
During prophase, ____ is(are) compacted into visible chromosomes.

A) chromatin
B) centrioles
C) centromeres
D) kinetochores
E) tetrads
Question
Plant hormones known as ____ stimulate mitosis.

A) scaffolding proteins
B) growth factors
C) cytokinins
D) cyclins
E) cohesins
Question
To prevent disastrous consequences, the eukaryotic cell cycle is controlled by:

A) the mitochondria.
B) replication.
C) environmental signals.
D) a very detailed, rigid genetic program.
E) a series of cell cycle checkpoints.
Question
Figure 10-1 <strong>Figure 10-1 Which phase of cell division is depicted in the accompanying figure?</strong> A) prophase of mitosis B) metaphase of mitosis C) prophase I of meiosis D) prophase II of meiosis E) metaphase I of meiosis <div style=padding-top: 35px> Which phase of cell division is depicted in the accompanying figure?

A) prophase of mitosis
B) metaphase of mitosis
C) prophase I of meiosis
D) prophase II of meiosis
E) metaphase I of meiosis
Question
During prophase I, each chiasma represents:

A) the remnants of the nuclear envelope.
B) the remnant of the nucleolus.
C) a newly formed haploid gamete.
D) a site of crossing-over.
E) the site where sister chromatids are connected.
Question
To control the cell cycle:

A) the activity of Cdks stays the same throughout the cell cycle.
B) cyclins fluctuate during the cell cycle.
C) Cdks are active only when they are released from cyclins.
D) the anaphase-promoting complex stimulates DNA replication.
E) M-Cdk inhibits mitosis.
Question
Once nerve cells become mature, they do not typically undergo cell division. Based on your knowledge of the cell cycle, you might predict that mature nerve cells become arrested in the ____ of the cell cycle.

A) G0 phase
B) S phase
C) prophase
D) G1 phase
E) G2 phase
Question
Figure 10-1 <strong>Figure 10-1 In the accompanying figure, which combination of letters accurately represents two homologous chromosomes?</strong> A) A and B B) A and C C) A and D D) B and F E) D and E <div style=padding-top: 35px> In the accompanying figure, which combination of letters accurately represents two homologous chromosomes?

A) A and B
B) A and C
C) A and D
D) B and F
E) D and E
Question
Chromosomes are duplicated during the ____ of the cell cycle.

A) G1 phase
B) G2 phase
C) S phase
D) metaphase
E) prophase
Question
A cell in the G2 phase:

A) has twice the amount of DNA present in a telophase nucleus.
B) has visibly distinct chromosomes.
C) lacks a visible nuclear membrane.
D) is in mitosis.
E) is in cytokinesis.
Question
During prophase I of meiosis, homologous chromosomes lie side by side. This phenomenon is known as:

A) chromatid pairing.
B) DNA replication.
C) tetrad formation.
D) paternal pairing.
E) parental pairing.
Question
In a human cell at prophase I, there are ____ tetrads.

A) 92
B) 46
C) 23
D) 2
E) 4
Question
What evolutionary advantage is provided by sexual reproduction?

A) increased genetic diversity
B) making clones
C) production of genetically identical offspring
D) making polyploidy possible
E) removal of all genetic mutations
Question
Which of the following is produced by meiosis?

A) somatic cells
B) animal gametes
C) polyploid cells
D) diploid cells
E) zygotes
Question
Homologous chromosomes undergo synapsis during:

A) anaphase I.
B) prophase I.
C) anaphase II.
D) telophase II.
E) prophase II.
Question
Homologous chromosomes can be identified and/or characterized by:

A) their similar and characteristic staining patterns.
B) the different centromere positions in the maternal vs. paternal chromosomes.
C) those chromosomes that do not have partners.
D) paternal chromosomes only.
E) maternal chromosomes only.
Question
The M phase of the cell cycle involves two main processes:

A) mitosis and cytokinesis.
B) meiosis I and meiosis II.
C) homologous pairing and crossing over.
D) interphase and mitosis.
E) mitosis and meiosis.
Question
Figure 10-1 <strong>Figure 10-1 In the accompanying figure, which combination of letters accurately represents two sister chromatids?</strong> A) A and B B) A and C C) A and D D) A and E E) B and F <div style=padding-top: 35px> In the accompanying figure, which combination of letters accurately represents two sister chromatids?

A) A and B
B) A and C
C) A and D
D) A and E
E) B and F
Question
During which stage of meiosis do the sister chromatids separate?

A) metaphase I
B) anaphase I
C) metaphase II
D) anaphase II
E) telophase II
Question
What would happen if meiosis did not occur in sexually reproducing organisms?

A) The growth of the zygote would be halted.
B) Mitosis would be sufficient to produce haploid gametes.
C) The gametes would remain haploid.
D) The chromosome number would double in each generation.
E) The eggs would be haploid, but the sperm would be diploid.
Question
An animal with a diploid number of 36 chromosomes will have ____ chromosomes in its gametes and ____ chromosomes in its somatic cells.

A) 18; 18
B) 18; 36
C) 36; 18
D) 36; 36
E) 36; 72
Question
Which event occurs in prophase II?

A) disappearance of the spindle
B) condensation of the chromatin into chromosomes
C) formation of the chiasmata
D) crossing over occurs.
E) formation of the cleavage furrow
Question
At the completion of oogenesis, ____ are produced.

A) male gametes
B) four sperm cells
C) four egg cells
D) one egg cell and three polar bodies
E) haploid spores
Question
Draw two cells: one showing the arrangement of chromosomes at metaphase of mitosis, and the other showing the chromosomes at metaphase I of meiosis. What is the significance of this difference?
Question
Draw a duplicated chromosome. Now, label each part of the chromosome with both its function and its identity.
Question
A nucleosome consists of DNA wrapped around scaffolding proteins.
__________________
Question
In the cell cycle, DNA is replicated during the G 2 phase.
__________________
Question
Homologous pairs of chromosomes separate during meiosis I .
__________________
Question
In animal cells, cytokinesis occurs via the formation of a(n) cell plate .
__________________
Question
Gametophyte plants produce gametes using:

A) mitosis.
B) meiosis.
C) fertilization.
D) polyploidy.
E) sporogenesis.
Question
In fungi and protists, gametes produced by ____ of haploid cells fuse to form a ____ zygote, which then undergoes ____ to restore the haploid chromosome number.

A) mitosis, diploid, meiosis
B) meiosis, diploid, mitosis
C) mitosis, haploid, meiosis
D) meiosis, haploid, mitosis
E) mitosis, diploid, mitosis
Question
The nuclear envelope fragments during the prometaphase stage.
__________________
Question
A pair of centrioles is found at the center of the microtubule-organizing center in plant cells.
__________________
Question
List the stages in the eukaryotic cell cycle and identify the principal events characteristic of each stage.
Question
Bacteria divide asexually by mitosis .
__________________
Question
Cell-cycle checkpoints temporarily block key events from being initiated during the cell cycle.
__________________
Question
Compare and contrast the general processes of asexual and sexual reproduction.
Question
Microtubules of the mitotic spindle attach directly to each chromosome at the centromere .
__________________
Question
An animal zygote is a(n) haploid cell.
__________________
Question
Enzymes required for DNA replication are synthesized during the G 1 phase.
__________________
Question
Figure 10-2 <strong>Figure 10-2 The process occurring at arrow 3 in the accompanying figure is:</strong> A) fertilization. B) G<sub>1</sub>. C) meiosis. D) mitosis. E) fusion. <div style=padding-top: 35px> The process occurring at arrow 3 in the accompanying figure is:

A) fertilization.
B) G1.
C) meiosis.
D) mitosis.
E) fusion.
Question
How is it possible for the cells produced by meiosis to have undergone two nuclear divisions but have a haploid number of chromosomes?
Question
Match between columns
Premises:
Responses:
homologous chromosomes synapse
prophase I
homologous chromosomes synapse
prophase II
homologous chromosomes synapse
metaphase II
homologous chromosomes synapse
telophase I
homologous chromosomes synapse
anaphase II
homologous chromosomes synapse
metaphase I
homologous chromosomes synapse
telophase II
homologous chromosomes synapse
anaphase I
homologous chromosomes separate and move to opposite poles
prophase I
homologous chromosomes separate and move to opposite poles
prophase II
homologous chromosomes separate and move to opposite poles
metaphase II
homologous chromosomes separate and move to opposite poles
telophase I
homologous chromosomes separate and move to opposite poles
anaphase II
homologous chromosomes separate and move to opposite poles
metaphase I
homologous chromosomes separate and move to opposite poles
telophase II
homologous chromosomes separate and move to opposite poles
anaphase I
nuclear envelope forms around single-stranded chromosomes
prophase I
nuclear envelope forms around single-stranded chromosomes
prophase II
nuclear envelope forms around single-stranded chromosomes
metaphase II
nuclear envelope forms around single-stranded chromosomes
telophase I
nuclear envelope forms around single-stranded chromosomes
anaphase II
nuclear envelope forms around single-stranded chromosomes
metaphase I
nuclear envelope forms around single-stranded chromosomes
telophase II
nuclear envelope forms around single-stranded chromosomes
anaphase I
tetrads line up on the cell equator
prophase I
tetrads line up on the cell equator
prophase II
tetrads line up on the cell equator
metaphase II
tetrads line up on the cell equator
telophase I
tetrads line up on the cell equator
anaphase II
tetrads line up on the cell equator
metaphase I
tetrads line up on the cell equator
telophase II
tetrads line up on the cell equator
anaphase I
sister chromatids separate and chromosomes move to opposite poles
prophase I
sister chromatids separate and chromosomes move to opposite poles
prophase II
sister chromatids separate and chromosomes move to opposite poles
metaphase II
sister chromatids separate and chromosomes move to opposite poles
telophase I
sister chromatids separate and chromosomes move to opposite poles
anaphase II
sister chromatids separate and chromosomes move to opposite poles
metaphase I
sister chromatids separate and chromosomes move to opposite poles
telophase II
sister chromatids separate and chromosomes move to opposite poles
anaphase I
prophase I
prophase II
metaphase II
telophase I
anaphase II
metaphase I
telophase II
anaphase I
Question
For each animal cell that begins oogenesis, the number of ova produced is four .
__________________
Question
Match between columns
Premises:
Responses:
sister chromatids separate at their centromeres
prometaphase
sister chromatids separate at their centromeres
telophase
sister chromatids separate at their centromeres
prophase
sister chromatids separate at their centromeres
anaphase
sister chromatids separate at their centromeres
metaphase
cytokinesis generally begins
prometaphase
cytokinesis generally begins
telophase
cytokinesis generally begins
prophase
cytokinesis generally begins
anaphase
cytokinesis generally begins
metaphase
chromosomes align at the cell's midplane
prometaphase
chromosomes align at the cell's midplane
telophase
chromosomes align at the cell's midplane
prophase
chromosomes align at the cell's midplane
anaphase
chromosomes align at the cell's midplane
metaphase
spindle microtubules attach to kinetochores
prometaphase
spindle microtubules attach to kinetochores
telophase
spindle microtubules attach to kinetochores
prophase
spindle microtubules attach to kinetochores
anaphase
spindle microtubules attach to kinetochores
metaphase
chromatin condenses
prometaphase
chromatin condenses
telophase
chromatin condenses
prophase
chromatin condenses
anaphase
chromatin condenses
metaphase
prometaphase
telophase
prophase
anaphase
metaphase
prometaphase
telophase
prophase
anaphase
metaphase
prometaphase
telophase
prophase
anaphase
metaphase
Question
Indicate the ploidy of each of the following cells:
A. plant spores
B. sperm
C. somatic cells
D. cells of a flower petal
Question
Outline the major differences between mitosis and meiosis I.
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Deck 10: Chromosomes, Mitosis, and Meiosis
1
Eukaryotic chromosomes consist of:

A) circular DNA molecules complexed with positively charged nonhistone proteins.
B) circular DNA molecules complexed with negatively charged histone proteins.
C) linear DNA molecules complexed with positively charged histone proteins.
D) linear DNA molecules complexed with negatively charged histone proteins.
E) circular DNA molecules folded to fit inside a bacterial cell.
C
2
When is a cell in metaphase?

A) The chromosomes are visible as threadlike structures.
B) The nuclear envelope is clearly visible.
C) The chromosomes are aligned at the midplane of the cell.
D) The chromosome are separated into distinct groups at opposite poles of the cell.
E) Cytokinesis is occurring.
C
3
Cytokinesis in plant cells occurs via the formation of a(n):

A) aster.
B) mitotic spindle.
C) Golgi complex.
D) cell wall.
E) cell plate.
E
4
Duplicated centrioles move to opposite poles of a dividing ____ cell during the ____ of the cell cycle.

A) plant; metaphase
B) plant; anaphase
C) prokaryotic; metaphase
D) animal; interphase
E) animal; prophase
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5
Eukaryotic chromosomes are composed of:

A) proteins only.
B) chromatin.
C) DNA only.
D) circular chromatin.
E) karyotypes.
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6
____ contain identical DNA sequences and are held together by ____ during mitosis.

A) Daughter chromosomes; hydrogen bonding
B) Daughter chromosomes; ionic bonding
C) Sister chromatids; spindle fibers
D) Sister chromosomes; histone proteins
E) Sister chromatids; cohesin proteins
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7
The ____ is responsible for the separation of the chromosomes during the ____ of mitosis.

A) cell wall; anaphase
B) mitotic spindle; interphase
C) mitotic spindle; anaphase
D) kinetochore; prophase
E) centromere; telophase
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k this deck
8
Why is it important for DNA to be copied before cell division?

A) Genetic information must be transmitted to the daughter cells.
B) The daughter cells must be polyploid.
C) The nucleus does not contain enough room for extra DNA.
D) The daughter cells need extra copies of the genetic information present in the parent cell.
E) The daughter cells do not need proteins.
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9
What is the function of kinetochores?

A) Kinetochores anchor spindle fibers to the centrioles.
B) Kinetochores are the site of DNA synthesis.
C) Kinetochores regulate the length of the cell cycle.
D) Kinetochores attach to microtubules during mitosis.
E) Kinetochores are involved in cytokinesis.
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k this deck
10
Cytokinesis in animal cells involves contraction of a ring of ____ microfilaments.

A) tubulin plus actin
B) actin plus myosin
C) cyclin plus myosin
D) cohesin plus actin
E) cyclin plus actin
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k this deck
11
The cell cycle of a typical somatic cell consists of the ____ and M phases.

A) interphase
B) meiosis I
C) crossing-over
D) meiosis II
E) mitosis
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12
In unwound chromatin, nucleosomes are organized into large coiled loops held together by:

A) histones.
B) centromeres.
C) kinetochore proteins.
D) scaffolding proteins.
E) condensins.
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Unlock for access to all 66 flashcards in this deck.
Unlock Deck
k this deck
13
What is not a hallmark of prophase?

A) nuclear envelope is visible with the light microscope.
B) nucleolus disappears.
C) mitotic spindle is beginning to assemble.
D) spindle fibers pull chromosomes to opposite sides of the cell.
E) duplicated chromosomes become visible with the light microscope.
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k this deck
14
The mitotic spindle is made of:

A) motor proteins.
B) condensin.
C) histones.
D) Z rings.
E) microtubules.
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15
A cell is dividing by binary fission. What can you conclude?

A) Mitosis has taken place without cytokinesis.
B) Homologous chromosomes have already paired.
C) The cyclin-Cdk complex is no longer phosphorylating enzymes.
D) The cell cycle is out of control.
E) The cell is prokaryotic.
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k this deck
16
The function of nucleosomes is to:

A) prevent DNA strands from tangling.
B) help DNA replicate.
C) make RNA synthesis possible.
D) prevent RNA from tangling with DNA during transcription.
E) prevent histones from tangling.
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Unlock for access to all 66 flashcards in this deck.
Unlock Deck
k this deck
17
Nucleosomes are best described as:

A) eukaryotic DNA associated with histone proteins.
B) prokaryotic DNA associated with nonhistone proteins.
C) eukaryotic DNA associated with nonhistone proteins.
D) prokaryotic DNA associated with histone proteins.
E) eukaryotic DNA associated with scaffolding proteins.
Unlock Deck
Unlock for access to all 66 flashcards in this deck.
Unlock Deck
k this deck
18
A bacterial chromosome consists of a:

A) linear DNA molecule many times larger than the cell.
B) circular DNA molecule many times larger than the cell.
C) circular DNA molecule smaller than the cell.
D) linear DNA molecule smaller than the cell.
E) linear or circular DNA molecule smaller than the cell.
Unlock Deck
Unlock for access to all 66 flashcards in this deck.
Unlock Deck
k this deck
19
____ organized on chromosomes carry the information that controls the functions of the cell.

A) Proteins
B) Nucleosomes
C) Asters
D) Genes
E) Histones
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k this deck
20
During prophase, ____ is(are) compacted into visible chromosomes.

A) chromatin
B) centrioles
C) centromeres
D) kinetochores
E) tetrads
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k this deck
21
Plant hormones known as ____ stimulate mitosis.

A) scaffolding proteins
B) growth factors
C) cytokinins
D) cyclins
E) cohesins
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Unlock Deck
k this deck
22
To prevent disastrous consequences, the eukaryotic cell cycle is controlled by:

A) the mitochondria.
B) replication.
C) environmental signals.
D) a very detailed, rigid genetic program.
E) a series of cell cycle checkpoints.
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Unlock Deck
k this deck
23
Figure 10-1 <strong>Figure 10-1 Which phase of cell division is depicted in the accompanying figure?</strong> A) prophase of mitosis B) metaphase of mitosis C) prophase I of meiosis D) prophase II of meiosis E) metaphase I of meiosis Which phase of cell division is depicted in the accompanying figure?

A) prophase of mitosis
B) metaphase of mitosis
C) prophase I of meiosis
D) prophase II of meiosis
E) metaphase I of meiosis
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24
During prophase I, each chiasma represents:

A) the remnants of the nuclear envelope.
B) the remnant of the nucleolus.
C) a newly formed haploid gamete.
D) a site of crossing-over.
E) the site where sister chromatids are connected.
Unlock Deck
Unlock for access to all 66 flashcards in this deck.
Unlock Deck
k this deck
25
To control the cell cycle:

A) the activity of Cdks stays the same throughout the cell cycle.
B) cyclins fluctuate during the cell cycle.
C) Cdks are active only when they are released from cyclins.
D) the anaphase-promoting complex stimulates DNA replication.
E) M-Cdk inhibits mitosis.
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Unlock Deck
k this deck
26
Once nerve cells become mature, they do not typically undergo cell division. Based on your knowledge of the cell cycle, you might predict that mature nerve cells become arrested in the ____ of the cell cycle.

A) G0 phase
B) S phase
C) prophase
D) G1 phase
E) G2 phase
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27
Figure 10-1 <strong>Figure 10-1 In the accompanying figure, which combination of letters accurately represents two homologous chromosomes?</strong> A) A and B B) A and C C) A and D D) B and F E) D and E In the accompanying figure, which combination of letters accurately represents two homologous chromosomes?

A) A and B
B) A and C
C) A and D
D) B and F
E) D and E
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28
Chromosomes are duplicated during the ____ of the cell cycle.

A) G1 phase
B) G2 phase
C) S phase
D) metaphase
E) prophase
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29
A cell in the G2 phase:

A) has twice the amount of DNA present in a telophase nucleus.
B) has visibly distinct chromosomes.
C) lacks a visible nuclear membrane.
D) is in mitosis.
E) is in cytokinesis.
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30
During prophase I of meiosis, homologous chromosomes lie side by side. This phenomenon is known as:

A) chromatid pairing.
B) DNA replication.
C) tetrad formation.
D) paternal pairing.
E) parental pairing.
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31
In a human cell at prophase I, there are ____ tetrads.

A) 92
B) 46
C) 23
D) 2
E) 4
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32
What evolutionary advantage is provided by sexual reproduction?

A) increased genetic diversity
B) making clones
C) production of genetically identical offspring
D) making polyploidy possible
E) removal of all genetic mutations
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33
Which of the following is produced by meiosis?

A) somatic cells
B) animal gametes
C) polyploid cells
D) diploid cells
E) zygotes
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34
Homologous chromosomes undergo synapsis during:

A) anaphase I.
B) prophase I.
C) anaphase II.
D) telophase II.
E) prophase II.
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35
Homologous chromosomes can be identified and/or characterized by:

A) their similar and characteristic staining patterns.
B) the different centromere positions in the maternal vs. paternal chromosomes.
C) those chromosomes that do not have partners.
D) paternal chromosomes only.
E) maternal chromosomes only.
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36
The M phase of the cell cycle involves two main processes:

A) mitosis and cytokinesis.
B) meiosis I and meiosis II.
C) homologous pairing and crossing over.
D) interphase and mitosis.
E) mitosis and meiosis.
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37
Figure 10-1 <strong>Figure 10-1 In the accompanying figure, which combination of letters accurately represents two sister chromatids?</strong> A) A and B B) A and C C) A and D D) A and E E) B and F In the accompanying figure, which combination of letters accurately represents two sister chromatids?

A) A and B
B) A and C
C) A and D
D) A and E
E) B and F
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38
During which stage of meiosis do the sister chromatids separate?

A) metaphase I
B) anaphase I
C) metaphase II
D) anaphase II
E) telophase II
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39
What would happen if meiosis did not occur in sexually reproducing organisms?

A) The growth of the zygote would be halted.
B) Mitosis would be sufficient to produce haploid gametes.
C) The gametes would remain haploid.
D) The chromosome number would double in each generation.
E) The eggs would be haploid, but the sperm would be diploid.
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40
An animal with a diploid number of 36 chromosomes will have ____ chromosomes in its gametes and ____ chromosomes in its somatic cells.

A) 18; 18
B) 18; 36
C) 36; 18
D) 36; 36
E) 36; 72
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41
Which event occurs in prophase II?

A) disappearance of the spindle
B) condensation of the chromatin into chromosomes
C) formation of the chiasmata
D) crossing over occurs.
E) formation of the cleavage furrow
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42
At the completion of oogenesis, ____ are produced.

A) male gametes
B) four sperm cells
C) four egg cells
D) one egg cell and three polar bodies
E) haploid spores
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43
Draw two cells: one showing the arrangement of chromosomes at metaphase of mitosis, and the other showing the chromosomes at metaphase I of meiosis. What is the significance of this difference?
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44
Draw a duplicated chromosome. Now, label each part of the chromosome with both its function and its identity.
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45
A nucleosome consists of DNA wrapped around scaffolding proteins.
__________________
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46
In the cell cycle, DNA is replicated during the G 2 phase.
__________________
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47
Homologous pairs of chromosomes separate during meiosis I .
__________________
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48
In animal cells, cytokinesis occurs via the formation of a(n) cell plate .
__________________
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49
Gametophyte plants produce gametes using:

A) mitosis.
B) meiosis.
C) fertilization.
D) polyploidy.
E) sporogenesis.
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50
In fungi and protists, gametes produced by ____ of haploid cells fuse to form a ____ zygote, which then undergoes ____ to restore the haploid chromosome number.

A) mitosis, diploid, meiosis
B) meiosis, diploid, mitosis
C) mitosis, haploid, meiosis
D) meiosis, haploid, mitosis
E) mitosis, diploid, mitosis
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51
The nuclear envelope fragments during the prometaphase stage.
__________________
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52
A pair of centrioles is found at the center of the microtubule-organizing center in plant cells.
__________________
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53
List the stages in the eukaryotic cell cycle and identify the principal events characteristic of each stage.
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54
Bacteria divide asexually by mitosis .
__________________
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55
Cell-cycle checkpoints temporarily block key events from being initiated during the cell cycle.
__________________
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56
Compare and contrast the general processes of asexual and sexual reproduction.
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57
Microtubules of the mitotic spindle attach directly to each chromosome at the centromere .
__________________
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58
An animal zygote is a(n) haploid cell.
__________________
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59
Enzymes required for DNA replication are synthesized during the G 1 phase.
__________________
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60
Figure 10-2 <strong>Figure 10-2 The process occurring at arrow 3 in the accompanying figure is:</strong> A) fertilization. B) G<sub>1</sub>. C) meiosis. D) mitosis. E) fusion. The process occurring at arrow 3 in the accompanying figure is:

A) fertilization.
B) G1.
C) meiosis.
D) mitosis.
E) fusion.
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61
How is it possible for the cells produced by meiosis to have undergone two nuclear divisions but have a haploid number of chromosomes?
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62
Match between columns
Premises:
Responses:
homologous chromosomes synapse
prophase I
homologous chromosomes synapse
prophase II
homologous chromosomes synapse
metaphase II
homologous chromosomes synapse
telophase I
homologous chromosomes synapse
anaphase II
homologous chromosomes synapse
metaphase I
homologous chromosomes synapse
telophase II
homologous chromosomes synapse
anaphase I
homologous chromosomes separate and move to opposite poles
prophase I
homologous chromosomes separate and move to opposite poles
prophase II
homologous chromosomes separate and move to opposite poles
metaphase II
homologous chromosomes separate and move to opposite poles
telophase I
homologous chromosomes separate and move to opposite poles
anaphase II
homologous chromosomes separate and move to opposite poles
metaphase I
homologous chromosomes separate and move to opposite poles
telophase II
homologous chromosomes separate and move to opposite poles
anaphase I
nuclear envelope forms around single-stranded chromosomes
prophase I
nuclear envelope forms around single-stranded chromosomes
prophase II
nuclear envelope forms around single-stranded chromosomes
metaphase II
nuclear envelope forms around single-stranded chromosomes
telophase I
nuclear envelope forms around single-stranded chromosomes
anaphase II
nuclear envelope forms around single-stranded chromosomes
metaphase I
nuclear envelope forms around single-stranded chromosomes
telophase II
nuclear envelope forms around single-stranded chromosomes
anaphase I
tetrads line up on the cell equator
prophase I
tetrads line up on the cell equator
prophase II
tetrads line up on the cell equator
metaphase II
tetrads line up on the cell equator
telophase I
tetrads line up on the cell equator
anaphase II
tetrads line up on the cell equator
metaphase I
tetrads line up on the cell equator
telophase II
tetrads line up on the cell equator
anaphase I
sister chromatids separate and chromosomes move to opposite poles
prophase I
sister chromatids separate and chromosomes move to opposite poles
prophase II
sister chromatids separate and chromosomes move to opposite poles
metaphase II
sister chromatids separate and chromosomes move to opposite poles
telophase I
sister chromatids separate and chromosomes move to opposite poles
anaphase II
sister chromatids separate and chromosomes move to opposite poles
metaphase I
sister chromatids separate and chromosomes move to opposite poles
telophase II
sister chromatids separate and chromosomes move to opposite poles
anaphase I
prophase I
prophase II
metaphase II
telophase I
anaphase II
metaphase I
telophase II
anaphase I
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63
For each animal cell that begins oogenesis, the number of ova produced is four .
__________________
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64
Match between columns
Premises:
Responses:
sister chromatids separate at their centromeres
prometaphase
sister chromatids separate at their centromeres
telophase
sister chromatids separate at their centromeres
prophase
sister chromatids separate at their centromeres
anaphase
sister chromatids separate at their centromeres
metaphase
cytokinesis generally begins
prometaphase
cytokinesis generally begins
telophase
cytokinesis generally begins
prophase
cytokinesis generally begins
anaphase
cytokinesis generally begins
metaphase
chromosomes align at the cell's midplane
prometaphase
chromosomes align at the cell's midplane
telophase
chromosomes align at the cell's midplane
prophase
chromosomes align at the cell's midplane
anaphase
chromosomes align at the cell's midplane
metaphase
spindle microtubules attach to kinetochores
prometaphase
spindle microtubules attach to kinetochores
telophase
spindle microtubules attach to kinetochores
prophase
spindle microtubules attach to kinetochores
anaphase
spindle microtubules attach to kinetochores
metaphase
chromatin condenses
prometaphase
chromatin condenses
telophase
chromatin condenses
prophase
chromatin condenses
anaphase
chromatin condenses
metaphase
prometaphase
telophase
prophase
anaphase
metaphase
prometaphase
telophase
prophase
anaphase
metaphase
prometaphase
telophase
prophase
anaphase
metaphase
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65
Indicate the ploidy of each of the following cells:
A. plant spores
B. sperm
C. somatic cells
D. cells of a flower petal
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66
Outline the major differences between mitosis and meiosis I.
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