1. How much do you remember about cell division?
Meiosis insures that
Each gamete receives the same genes
Chromosome number is doubled in the gametes
Zygotes produced by fertilization have the normal number of chromosomes
All paternal chromosomes end up in the same gamete
The correct answer is C. This is the key to meiosis – reduction division so that the fertilized egg restores the normal number of chromosomes.
Answer A: Each gamete doesn’t receive the same genes because the homologous chromosomes are randomly assorted during meiosis I.
Answer B: Chromosome number is halved in the gametes.
Answer D: As in the answer for A, the homologous chromosomes are randomly assorted during meiosis I. 1 1

2. Which of the following is not true about interphase?
The cell grows larger during interphase.
Chromosomes are duplicated during interphase.
Interphase is divided into three phases.
Chromosomes segregate to daughter cells during interphase.
The correct answer is D. This does not occur during interphase, but during mitosis.
It is important to stress that interphase is composed of 3 phases in which the cell grows and the chromosomes are duplicated. Students often believe that G1, S, and G2 are in addition to interphase.
Answers A – C: These are all true. Growth occurs during G1 and G2 phases and the chromosomes are duplicated during S phase. 2 2

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Which of the following is true about homologous chromosomes?
Both were received from the same parent.
One of each segregates to each daughter cell during mitosis.
Both stay together in meiosis I.
All 23 pairs are always homologous.
The correct answer is B. It is important that students understand what homologous chromosomes are. These are not identical, but homologous; one came from each parent and they contain slightly different genes. One of each segregates into each daughter cell during mitosis so that each daughter cell is identical.
Answer A: As stated above, one came from each parent.
Answer C: They are separated during meiosis I, resulting in haploid daughter cells.
Answer D: Sex cells are not homologous in males, but are in females.
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4. © 2009 W.W. Norton & Company, Inc. DISCOVER BIOLOGY 4/e
Cell Division
Renewal and repair of tissues with stem cells
Reproduction
Prokaryotes divide through binary fission
Eukaryote cell division is more complicated
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6. Prokaryotes divide through binary fission6

7. Eukaryote cell division is more complicated: Cell cycle
Series of events in life cycle of a cell
Two main stages
Interphase
Most cells spend 90% of lifespan in this stage
Cell division by two different mechanisms
Mitosis: occurs in nonreproductive cells, called somatic cells
Meiosis: occurs in sexual reproduction cells,called germ cells
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8. © 2009 W.W. Norton & Company, Inc. DISCOVER BIOLOGY 4/e
The Cell Cycle
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9. DNA Packaged as Chromosome
DNA molecules are enormously long
Double helix nearly 2 meters in length
DNA is tightly packaged with proteins
Chromatin
DNA and proteins
Chromosome
Tightly packed
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10. © 2009 W.W. Norton & Company, Inc. DISCOVER BIOLOGY 4/e
Karyotype
Chromosomes are visible during mitosis
Their number and shape can be studied
Humans have 46 chromosomes
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11. Homologous Chromosomes
46 chromosomes are arranged in 23 pairs
One came from each parent
22 pairs are autosomes
Both chromosomes are homologues
1 pair are sex chromosomes
Can be homologous; XX for females
Can be different; XY for males
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12. Interphase: The Longest Stage
The period between divisions:
The cell prepares to divide
Divided into 3 stages:
G1: growth after mitosis
S: synthesis of DNA
G2: growth before mitosis
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13. © 2009 W.W. Norton & Company, Inc. DISCOVER BIOLOGY 4/e
Mitosis
Consists of
Prophase
Metaphase
Anaphase
Telophase
Cytokinesis: division of the cytoplasm
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14. © 2009 W.W. Norton & Company, Inc. DISCOVER BIOLOGY 4/e
Prophase
Cell enters mitosis
Chromosomes condense
Centrosomes move apart
Go to the poles of the cell
Mitotic spindle begins to form
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15. © 2009 W.W. Norton & Company, Inc. DISCOVER BIOLOGY 4/e
Metaphase
Chromosomes line up
Metaphase plate
Align sister chromatids
Equal and balanced
segregation
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16. © 2009 W.W. Norton & Company, Inc. DISCOVER BIOLOGY 4/e
Anaphase
Chromatids separate
Break free and dragged to opposite sides
Microtubules shorten
Result:
Equal segregation of chromosomes in two daughter cells
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17. Telophase and Cytokinesis
Chromosomes reach the poles
Mitotic spindle falls apart
Chromosomes unfold
Nuclear membrane reforms
Cytokinesis
Cytoplasm is divided
Two cells are formed
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19. Cytokinesis
Cytoplasm is divided
Two cells are formed

20. © 2009 W.W. Norton & Company, Inc. DISCOVER BIOLOGY 4/e
Cancer
Tumor: inappropriate proliferation of cells
Benign tumor: confined to one site
Malignant tumor: cells migrate and invade
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21. Cancer and Lifestyle: Lung Cancer
Environmental factors: Smoking‑related cancers
Lung, oral, kidney, stomach, bladder
Tobacco smoke 40 known carcinogens
Lung cancer cells (300X)
Portrait of a cancer

22. Retinoblastoma: mutation of a gene
An inherited form of cancer
Occurs in the retina
Causes blindness
Due to missing Rb gene
A tumor suppressor gene
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23. Cancer: A Multi-step Process
Example: Colon cancer
Early polyp:
Loss of tumor suppressor gene
Polyp:
Mutation of proto-oncogene
Late Polyp:
Loss of two additional tumor suppressor genes
Malignant tumor:
Inactivation of p53 tumor suppressor
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24. © 2009 W.W. Norton & Company, Inc. DISCOVER BIOLOGY 4/e
Meiosis
Used to make gametes
Eggs and sperm
Chromosome number is halved (haploid)
Zygote is diploid after fertilization
Meiosis
Fertilization
Mitosis
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25. involves two divisions,
meiosis I
DNA is replicated only before meiosis I
meiosis I separates the homologues in a homologous pair
meiosis II
meiosis II separates the replicate sister chromatids
when meiosis is complete, the result is that one diploid cell has become four haploid cells

28. Meiosis I divided into four stages
Prophase I
Homologues pair up and exchange segments: crossing over
Metaphase I
The paired homologous chromosomes align on a central plane in any combination: independent assortment
Anaphase I
Homologues separate from the pairing and move to opposite poles
Telophase I
Individual chromosomes gather at each of the two poles

29. Meiosis II
basically a mitotic division of the products of meiosis I, except that the sister non-identical chromatids
four stages
1. Prophase II
new spindle forms to attach to chromosome clusters
2. Metaphase II
spindle fibers bind to both sides of the centromere and individual chromosomes align along a central plane
3. Anaphase II
sister chromatids move to opposite poles
4. Telophase II
the nuclear envelope is reformed around each of the four sets of daughter chromosomes

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32. Practice questions Prokaryotes reproduce new cells by
copying DNA then undergoing binary fission.
splitting in half
undergoing mitosis
copying DNA then undergoing the M phase.
2. The eukaryotic cell cycle is different from prokaryotic cell division in all the following ways except:
the amount of DNA present in the cells
how the DNA is packaged
in the production of daughter cells
the involvement of microtubules.
3. In eukaryotes, the genetic material is found in chromosomes and:
the more complex the organism, the more pairs of chromosomes it has
a few organisms have only one chromosome
most eukaryotes have between 10 and 50 pairs of chromosomes
most eukaryotes have between 2 and 10 pairs of chromosomes.
4. Homologous chromosomes:
are also referred to as sister chromatids
are genetically identical
carry information about the same traits located in the same places on the chromosomes
are connected to each other at their centromeres.

33. 5. In mitosis, when the duplicated chromosomes line up in the center of the cell, that stage is called:
A) Prophase B) metaphase C) anaphase D) telophase.
6. The division of the cytoplasm in the eukaryotic cell cycle is called:
interphase.B) karyokinesis.C) cytokinesis.D) binary fission.
7. The cell cycle is controlled by:
a series of checkpoints
an internal clock
the completion of one phase triggering the next phase
cell size-when it grows large enough the cell cycle is triggered.
8. When cell division becomes unregulated, and a cluster of cells begins to grow without regard for the normal controls, that is called:
A) a mutation.B) cancer.C) metastases.D) oncogenes.

34. 9. During which stage of meiosis does crossing over occur?
A) prophase IB) anaphase IC) metaphase IID) interphase
10. The purpose of mitosis is to ____, while the purpose of meiosis is to _____.
make diploid cells/make haploid cells
make haploid cells/make diploid cells
make cells which are either haploid or diploid/make cells which are haploid
make cells which are haploid/make cells which vary in chromosome number
11. An egg and a sperm unite to form a new organism. In order to prevent the new organism from having twice as many chromosomes as its parents:
half of the chromosomes in the new organism quickly die off, leaving the correct number
half of the chromosomes from the egg, and half from the sperm, are ejected from the new cell
the large egg contains all the chromosomes, the tiny sperm only contributes some DNA
germ cells went through meiosis; the egg and sperm only have half the parental chromosomes.

35. 12. The diploid number of chromosomes in humans is 46
12. The diploid number of chromosomes in humans is 46. The haploid number is:
138 B) 92 C) 46 D) 23.
13. In organisms that have sexual life cycles there is a time when there are:
1n gametes (haploid), followed by 2n zygotes (diploid)
2n gametes (haploid), followed by 1n zygotes (diploid)
2n gametes (diploid), followed by 1n zygotes (haploid)
1n gametes (diploid), followed by 2n zygotes (haploid).
14. The purpose of meiosis I is to:
duplicate all chromosomes
randomly separate the homologous pairs, called independent assortment
separate the duplicated sister chromatids
divide the original material into four complete haploid cells.
15. The purpose of meiosis II is to: