Biological Science
Seventh Edition
Chapter 14
Mendel and the Gene
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The pedigree below was created for race horses in
an attempt to eliminate individuals susceptible to
hyperkalemic periodic paralysis (HYPP). Circles
represent females; squares represent males. Full
symbols represent affected individuals. What type
of disease is this?
A. recessive autosomal
B. dominant autosomal
C. recessive sex-linked
D. dominant sex-linked
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The pedigree below was created for race horses in
an attempt to eliminate individuals susceptible to
hyperkalemic periodic paralysis (HYPP). Circles
represent females; squares represent males. Full
symbols represent affected individuals. What type
of disease is this?
A. recessive autosomal
B. dominant autosomal
C. recessive sex-linked
D. dominant sex-linked
Copyright © 2020, 2017, 2014 Pearson Education, Inc. All Rights Reserved
What is the probability of getting exactly two
recessive traits in offspring of a cross between two
parents with genotypes of AaBbCc?
A. 1/16
B. 3/16
C. 1/2
D. 1/4
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What is the probability of getting exactly two
recessive traits in offspring of a cross between two
parents with genotypes of AaBbCc?
A. 1/16
B. 3/16
C. 1/2
D. 1/4
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A cross between a black mouse and a brown mouse
produced 4 black offspring and 4 brown offspring.
Black coat color is dominant to brown coat color, and
therefore you can conclude that ________.
A. the black parent was homozygous
B. both parents are homozygous
C. the brown parent was heterozygous
D. the black parent was heterozygous
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A cross between a black mouse and a brown mouse
produced 4 black offspring and 4 brown offspring.
Black coat color is dominant to brown coat color, and
therefore you can conclude that ________.
A. the black parent was homozygous
B. both parents are homozygous
C. the brown parent was heterozygous
D. the black parent was heterozygous
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Red–green color blindness is caused by a
recessive allele on the X chromosome. A female
with normal vision whose father is colorblind
marries a colorblind male. What is the probability
that a son of this couple will be colorblind?
A. 0
B. 0.25
C. 0.5
D. 0.75
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Red–green color blindness is caused by a
recessive allele on the X chromosome. A female
with normal vision whose father is colorblind
marries a colorblind male. What is the probability
that a son of this couple will be colorblind?
A. 0
B. 0.25
C. 0.5
D. 0.75
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Alternative versions of individual genes
are called ________.
A. gametes
B. alleles
C. loci
D. homozygous
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Alternative versions of individual genes
are called ________.
A. gametes
B. alleles
C. loci
D. homozygous
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Mendel’s principle of segregation
reflects what event in meiosis?
A. separation of homologous chromosomes at meiosis II
B. separation of sister chromatids at meiosis II
C. separation of homologous chromosomes at meiosis I
D. separation of sister chromatids at meiosis I
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Mendel’s principle of segregation
reflects what event in meiosis?
A. separation of homologous chromosomes at meiosis II
B. separation of sister chromatids at meiosis II
C. separation of homologous chromosomes at meiosis I
D. separation of sister chromatids at meiosis I
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Which of the following is the
chromosome composition of men?
A. 44 autosomes + XY
B. 44 autosomes + XX
C. 46 autosomes + XY
D. 46 autosomes + XX
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Which of the following is the
chromosome composition of men?
A. 44 autosomes + XY
B. 44 autosomes + XX
C. 46 autosomes + XY
D. 46 autosomes + XX
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Goltz syndrome is a rare genetic disorder that
causes skin abnormalities. If a man with Goltz
syndrome marries an unaffected woman, all of
their daughters, but none of their sons, will have
the disorder. Therefore, this disorder is _____.
A. recessive X-linked
B. dominant X-linked
C. recessive autosomal
D. dominant autosomal
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Goltz syndrome is a rare genetic disorder that
causes skin abnormalities. If a man with Goltz
syndrome marries an unaffected woman, all of
their daughters, but none of their sons, will have
the disorder. Therefore, this disorder is _____.
A. recessive X-linked
B. dominant X-linked
C. recessive autosomal
D. dominant autosomal
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You are trying to map the relative positions of three
genes: x, y, and z on a particular chromosome. You
observe the following recombination frequencies in
crosses involving the various gene pairs:
xy = 6.9%, yz = 7.5%, xz = 0.7%
What is the most likely gene order?
A. x​ yz
B. ​yzx
C. ​yxz
D. ​zyx
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You are trying to map the relative positions of three
genes: x, y, and z on a particular chromosome. You
observe the following recombination frequencies in
crosses involving the various gene pairs:
xy = 6.9%, yz = 7.5%, xz = 0.7%
What is the most likely gene order?
A. x​ yz
B. ​yzx
C. ​yxz
D. ​zyx
Copyright © 2020, 2017, 2014 Pearson Education, Inc. All Rights Reserved