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Deck 12: Units of Heredity: Chromosomes and Inheritance

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Question
A trait such as albinism is seen with equal frequency in males and females. Two people who do not have the trait might have offspring who do have the trait, at a frequency of approximately one in four. What can you conclude about the inheritance of this trait?

A) recessive, X-linked
B) recessive, autosomal
C) recessive, caused by polyploidy
D) dominant, X-linked
E) dominant, autosomal
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Question
What is a recessive disorder?

A) a genetic disorder with two functioning alleles
B) a genetic disorder that will express itself in the presence of one functioning allele
C) a genetic disorder that will express itself in the presence of two recessive alleles
D) a genetic disorder that involves change in chromosome number
E) a genetic disorder that involves change in chromosome structure
Question
A person with an inherited disorder has children with a person who does not have the condition. Half the children have the disorder, both sons and daughters. How is this condition inherited?

A) autosomal dominant
B) autosomal recessive
C) X-linked dominant
D) X-linked recessive
E) aneuploidy
Question
Genes not found on the sex chromosomes will be found on:

A) X chromosomes.
B) Y chromosomes.
C) autosomes.
D) centrosomes.
Question
If a disease is caused by a dominant allele, it means that a person with the disease:

A) will always pass it on to all their children.
B) will pass it on to one-fourth of their children.
C) must be homozygous dominant for the allele.
D) must be heterozygous for the allele.
E) could be either homozygous or heterozygous for the allele.
Question
What is the connection between sickle-cell anemia and malaria?

A) Both are X-linked.
B) Both are autosomal recessive.
C) Both are dominant.
D) Heterozygotes for malaria have some resistance to sickle-cell anemia.
E) Heterozygotes for sickle-cell anemia have some resistance to malaria.
Question
Red-green color blindness is an X-linked recessive trait in humans. A color-blind woman and a man with normal vision have a son. What is the probability that the son is color blind?

A) 100 percent
B) 75 percent
C) 50 percent
D) 25 percent
E) 0 percent
Question
What do hemophilia, Duchenne muscular dystrophy, and red-green color blindness have in common?

A) They are X-linked.
B) They are more common in females than in males.
C) They are caused by inheritance of an extra sex chromosome.
D) They are caused by inheritance of an extra autosome.
E) The gene that causes them is on the Y chromosome.
Question
What percent of males have some degree of color blindness?

A) 0.5 percent
B) 5 percent
C) 0.8 percent
D) 8 percent
E) 10 percent
Question
A woman who is a carrier for the hemophilia gene has a child with a man who does not have hemophilia. Which prediction is correct?

A) All of the sons and none of the daughters will have hemophilia.
B) All of the daughters and none of the sons will have hemophilia.
C) Half of the sons and half of the daughters will have hemophilia.
D) Half of the sons and none of the daughters will have hemophilia.
E) Half of the daughters and none of the sons will have hemophilia.
Question
An autosomal recessive disorder:

A) requires that only one parent be a carrier.
B) displays its symptoms only in heterozygotes.
C) is more frequent in males than females.
D) will appear only in children of parents who both carry the gene.
E) is dominant in females.
Question
Regarding the human sex chromosomes, which statement is correct?

A) The Y chromosome carries a greater number of genes than does the X chromosome.
B) X and Y are different in size but carry nearly equal numbers of genes.
C) The X chromosome carries more genes than does the Y chromosome.
D) The X chromosome carries only gender-related genes.
E) The X chromosome carries the genes for the development of male phenotype.
Question
If a daughter expresses an X-linked recessive gene, she probably inherited the trait from:

A) her mother.
B) her father.
C) both parents.
D) neither parent.
E) her grandmother.
Question
Color blindness is caused by an X-linked recessive gene. A color-blind man and a woman with normal vision whose father was color blind have a son. The probability that their son is color blind is:

A) 0.25 (or 25 percent).
B) 0.50 (or 50 percent).
C) 0.75 (or 75 percent).
D) 1.00 (or 100 percent).
E) none of these.
Question
A person who has a recessive disorder but does not have the disorder him or herself is said to be a/an:

A) aneuploid.
B) aberration.
C) carrier.
D) hybrid.
Question
Why do X-linked conditions appear more frequently in males than in females?

A) A male with a nonfunctioning allele on the X chromosome does not have another allele of that gene on the Y chromosome that could cover up the nonfunctioning one.
B) Males have no X chromosomes.
C) The Y chromosome carries many alleles that are recessive to alleles on the X chromosome.
D) Males are more likely to inherit an extra chromosome than females.
E) Females have no X chromosomes.
Question
A woman who does not carry the color-blindness allele has children with a man who is color blind. What proportion of their children will be color blind?

A) all
B) 1/4
C) 1/2
D) 3/4
E) none
Question
A person who is heterozygous for the Huntington disease (HD) allele has offspring with someone who does not have HD. What proportion of their children will have HD?

A) 1/16
B) 1/10
C) 1/8
D) 1/4
E) 1/2
Question
Who is a "carrier" of X-linked disorders, such as hemophilia and color blindness?

A) a person who has the X-linked disorder
B) a heterozygous female who is normal but carries one nonfunctioning allele
C) a homozygous female who carries the normal alleles
D) a male who carries the nonfunctioning allele
E) a male who carries the functioning allele
Question
What condition is caused by a dominant allele of a single gene?

A) Down syndrome
B) sickle-cell anemia
C) Huntington disease
D) color blindness
E) Turner syndrome
Question
A person with the genotype XO is mainly female, phenotypically. A person with the genotype XXY is mainly male. What can you conclude about the Y chromosome?

A) It has the same genes as X, just different alleles.
B) It has the same genes as X, in different orientation.
C) A Y chromosome confers maleness, regardless of the number of X chromosomes.
D) The only genes it carries are for female development.
E) A human cannot survive without a Y chromosome.
Question
If more than one sperm fertilizes an egg, which of the following can result?

A) an autosomal dominant disorder
B) an autosomal recessive disorder
C) aneuploidy
D) polyploidy
Question
What is one difference between polyploidy and aneuploidy?

A) Polyploidy is extra sets of chromosomes; aneuploidy occurs when there are either more or fewer chromosomes than normally exist in its species full set.
B) Humans can be viable as polyploids but not as aneuploids.
C) Polyploidy is extra sex chromosomes; aneuploidy is extra autosomes.
D) Polyploidy is one extra chromosome; aneuploidy is one missing chromosome.
E) Polyploidy causes diseases and disorders in humans; aneuploidy does not.
Question
If a diploid cell from an organism has 46 chromosomes, how many chromosomes are likely to be found in a gamete that is the result of nondisjunction?

A) 46 or 92
B) 23 or 22
C) 21 or 22
D) 22 or 24
E) 24 or 25
Question
You are tracking the inheritance of a genetic disorder through a family's pedigree, and you notice that it shows up in every generation. The disorder is most likely:

A) recessive.
B) dominant.
C) X-linked recessive.
Question
Which condition or disease is caused by aneuploidy?

A) sickle-cell anemia
B) hemophilia
C) malaria
D) color blindness
E) Down syndrome
Question
The human genome has how many pairs of autosomal chromosomes?

A) 46 pairs
B) 44 pairs
C) 23 pairs
D) 22 pairs
E) 24 pairs
Question
Nondisjunction of the X chromosomes may occur during formation of gametes and produce two kinds of eggs. If normal sperm fertilizes these two kinds of eggs, which of the following pairs of genotypes are possible?

A) XX and XY
B) XXY and XO
C) XYY and XO
D) XYY and YO
Question
In humans, aneuploidy is fairly common yet goes largely unrecognized as a genetic problem. This is because:

A) it produces autosomal recessive individuals who don't always express the disorder.
B) its effects are usually hidden.
C) it actually produces healthy individuals.
D) it often results in miscarriage of embryos.
Question
In a pedigree chart, a darkened square demonstrates a:

A) diseased male.
B) diseased female.
C) normal male.
D) normal female.
Question
Which of the following is an autosomal recessive disorder?

A) hemophilia
B) Huntington disease
C) Down syndrome
D) sickle-cell anemia
E) Turner syndrome
Question
If a zygote has the genotype XYY, how many total chromosomes were in the sperm before it fused with the egg?

A) 20
B) 21
C) 22
D) 23
E) 24
Question
What is nondisjunction?

A) failure of sperm and egg to fuse in fertilization
B) failure of cells to divide by cytokinesis in meiosis
C) failure of chromosomes to duplicate before mitosis or meiosis
D) failure of homologous chromosomes or sister chromatids to separate in meiosis
E) an extra duplication of the chromosomes before mitosis or meiosis
Question
The state of having more than two sets of chromosomes is called:

A) autosomal.
B) dominant.
C) polyploidy.
D) aneuploidy.
E) nondisjunction.
Question
A woman is missing one of her X chromosomes. With which of the following conditions would she be diagnosed?

A) Turner syndrome
B) polyploidy
C) a chromosomal deletion
D) Klinefelter syndrome
E) cancer
Question
A study of several pedigrees demonstrates that two parents are normal. If some of their children express a trait, then the trait is controlled by a:

A) codominant gene.
B) simple dominant gene.
C) recessive gene.
D) sex-linked gene.
Question
Down syndrome in humans is caused by:

A) an extra X chromosome.
B) an extra y chromosome.
C) three copies of chromosome 21.
D) three copies of chromosome 13.
E) a single copy of chromosome 21.
Question
A pedigree is a representation of:

A) a genetic family tree.
B) a series of chromosomes arranged in order.
C) the inheritance pattern of recessive disorders.
D) the inheritance pattern of dominant disorders.
E) all the genetic disorders that can be inherited.
Question
Which of the following genetic disorders is caused by a dominant allele but does not produce symptoms until the affected individual is well into adulthood?

A) Turner syndrome
B) Down syndrome
C) Huntington disease
D) sickle-cell anemia
E) hemophilia
Question
Aneuploid human embryos are least likely to survive except those involving:

A) chromosome 1, 2, 3, X, Y.
B) chromosome 1, 2, 3, 4, 5.
C) chromosome 13, 18, 21, X, Y.
D) chromosome 6, 7, 8, 9, 10.
E) chromosome 11, 12, 14, 15.
Question
A carrier for a genetic disorder will pass the allele to all of their offspring.
Question
When a fragment breaks from a chromosome and rejoins it, in a flipped orientation, the result is called a/an:

A) deletion.
B) polyploidy.
C) inversion.
D) aneuploidy.
E) translocation.
Question
A chromosome that has been broken and has lost a section has had a/an:

A) aneuploidy.
B) inversion.
C) deletion.
D) duplication.
E) translocation.
Question
A person must have two alleles for hemoglobin S in order to suffer from sickle-cell anemia.
Question
What is a possible cause of the chromosomal aberration called a "duplication"?

A) unequal crossing over
B) exchange between non-homologous chromosomes
C) a chromosome fragment that breaks off and does not rejoin any chromosome
D) breaking of a chromosome fragment, then rejoining in a flipped orientation
E) nondisjunction
Question
Women do not express X-linked recessive characters.
Question
Polyploidy is better tolerated in plants than in animals.
Question
Cri-du-chat syndrome babies are mentally challenged and have an abnormal larynx that makes sounds like the cry of a cat. This disorder is due to a/an:

A) deletion in chromosome 5.
B) inversion in chromosome 2.
C) translocation between chromosome 9 and 22.
D) duplication in chromosome 7.
E) trisomy 21.
Question
A karyotype you are viewing shows an extra piece of chromosome 1 attached to chromosome 22. What type of abnormality caused this?

A) inversion
B) deletion
C) translocation
D) nondisjunction
E) sex-linked
Question
Match the following.

A) aneuploidy
B) nondisjunction
C) duplication
D) translocation
E) deletion
This produces cri-du-chat syndrome.
Question
Match the following.

A) aneuploidy
B) nondisjunction
C) duplication
D) translocation
E) deletion
This event may occur during meiosis I or meiosis II.
Question
A karyotype reveals that a woman is carrying a fetus that has 47 chromosomes. The test reveals that the genotype of the fetus is XXY. Which of the following statements is correct?

A) The fetus has Down syndrome, and most likely a nondisjunction event occurred in the mother during egg formation.
B) The fetus has Turner syndrome, and most likely a nondisjunction event occurred in the mother during egg formation.
C) The fetus has Klinefelter syndrome.
D) The fetus has an autosomal disorder.
Question
Which of the following combinations of chromosomes would be found in a person afflicted with Turner syndrome?

A) XXY
B) XYY
C) XX
D) XY
E) XO
Question
A single nondisjunction event results in some gametes with more chromosomes and some gametes with fewer chromosomes.
Question
What single attribute determines that a human fetus is male?

A) the absence of a second X chromosome
B) the absence of a Y chromosome
C) the presence of a Y chromosome
D) the presence of two X chromosomes
Question
Which of the following is a transfer of genes between non-homologous chromosomes?

A) duplication
B) crossing over
C) inversion
D) deletion
E) translocation
Question
If one of your parents has Huntington disease and is heterozygous for the disorder, you have a 50 percent chance of inheriting the disease.
Question
Match the following.

A) aneuploidy
B) nondisjunction
C) duplication
D) translocation
E) deletion
Only 1 percent of human embryos with this condition survive.
Question
Nondisjunction in somatic cells can result in aneuploid cells. This may give rise to:

A) Down syndrome.
B) Turner syndrome.
C) Klinefelter syndrome.
D) cancer.
E) cri-du-chat syndrome.
Question
Match the following.

A) aneuploidy
B) nondisjunction
C) duplication
D) translocation
E) deletion
Non-homologous chromosomes have exchanged parts.
Question
Explain why a female can be heterozygous for an X-linked gene but a male cannot.
Question
Duchenne muscular dystrophy is a recessive disorder resulting in a wasting away of the muscles. How would you design a study to determine if the disorder is X-linked or autosomal? How would you be able to determine if it is X-linked or autosomal?
Question
________ is the condition when an individual has three copies of chromosome 21.
Question
Refer to the figure below, and then answer the question that follows. <strong>Refer to the figure below, and then answer the question that follows. Nondisjunction in meiosis gives rise to gametes with abnormal chromosome numbers. Which event is likely to produce a higher percentage of abnormal gametes?</strong> A) failure of homologous chromosomes to separate at meiosis I B) failure of homologous chromosomes to separate at meiosis II C) failure of sister chromatids to separate at meiosis I D) failure of sister chromatids to separate at meiosis II E) failure of sister chromatids to separate at mitosis <div style=padding-top: 35px>
Nondisjunction in meiosis gives rise to gametes with abnormal chromosome numbers. Which event is likely to produce a higher percentage of abnormal gametes?

A) failure of homologous chromosomes to separate at meiosis I
B) failure of homologous chromosomes to separate at meiosis II
C) failure of sister chromatids to separate at meiosis I
D) failure of sister chromatids to separate at meiosis II
E) failure of sister chromatids to separate at mitosis
Question
Hemophelia is an X-linked recessive disorder. A mother without the allele and a father with the allele have a daughter. The daughter then marries a man with hemophilia. What is the genotype of the daughter? What is the probability that the daughter's children will develop the disease?
Question
The condition in which an organism has more than two sets of chromosomes is called ________, while having either more or fewer than the normal number of a particular chromosome is called ________.
Question
Match the following.

A) aneuploidy
B) nondisjunction
C) duplication
D) translocation
E) deletion
This has been involved in producing gene families and has been vital to evolution.
Question
Refer to the figure below, and then answer the question that follows. Refer to the figure below, and then answer the question that follows. The last members of the Russian Royal Family were executed during the Russian Revolution. Assume the revolution never took place and Alexis, son of Czar Nicholas II and Alexandra, survived and married into the British Royal Family. What is the probability that his children would have hemophilia? What is the probability his children would be carriers for hemophilia?<div style=padding-top: 35px>
The last members of the Russian Royal Family were executed during the Russian Revolution. Assume the revolution never took place and Alexis, son of Czar Nicholas II and Alexandra, survived and married into the British Royal Family. What is the probability that his children would have hemophilia? What is the probability his children would be carriers for hemophilia?
Question
Hemophilia, Duchenne muscular dystrophy, and color blindness are examples of ________ disorders.
Question
A person with only one allele for a recessive condition who does not have the condition is called a ________.
Question
Phenylketonuria is the most commonly inherited genetic disorder that affects nervous system development. It occurs in 1 out of every 10,000 births in the United States and Europe. How would you design a study to determine if phenylketonuria is an autosomal dominant or autosomal recessive disorder? How would you be able to determine if it is dominant or recessive?
Question
Explain what causes aneuploidy.
Question
You have studied the presence of a trait in the members of three generations of a family. With this information, you constructed a ________ to track how the trait was passed down through the generations.
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Deck 12: Units of Heredity: Chromosomes and Inheritance
1
A trait such as albinism is seen with equal frequency in males and females. Two people who do not have the trait might have offspring who do have the trait, at a frequency of approximately one in four. What can you conclude about the inheritance of this trait?

A) recessive, X-linked
B) recessive, autosomal
C) recessive, caused by polyploidy
D) dominant, X-linked
E) dominant, autosomal
B
2
What is a recessive disorder?

A) a genetic disorder with two functioning alleles
B) a genetic disorder that will express itself in the presence of one functioning allele
C) a genetic disorder that will express itself in the presence of two recessive alleles
D) a genetic disorder that involves change in chromosome number
E) a genetic disorder that involves change in chromosome structure
C
3
A person with an inherited disorder has children with a person who does not have the condition. Half the children have the disorder, both sons and daughters. How is this condition inherited?

A) autosomal dominant
B) autosomal recessive
C) X-linked dominant
D) X-linked recessive
E) aneuploidy
A
4
Genes not found on the sex chromosomes will be found on:

A) X chromosomes.
B) Y chromosomes.
C) autosomes.
D) centrosomes.
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5
If a disease is caused by a dominant allele, it means that a person with the disease:

A) will always pass it on to all their children.
B) will pass it on to one-fourth of their children.
C) must be homozygous dominant for the allele.
D) must be heterozygous for the allele.
E) could be either homozygous or heterozygous for the allele.
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6
What is the connection between sickle-cell anemia and malaria?

A) Both are X-linked.
B) Both are autosomal recessive.
C) Both are dominant.
D) Heterozygotes for malaria have some resistance to sickle-cell anemia.
E) Heterozygotes for sickle-cell anemia have some resistance to malaria.
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7
Red-green color blindness is an X-linked recessive trait in humans. A color-blind woman and a man with normal vision have a son. What is the probability that the son is color blind?

A) 100 percent
B) 75 percent
C) 50 percent
D) 25 percent
E) 0 percent
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8
What do hemophilia, Duchenne muscular dystrophy, and red-green color blindness have in common?

A) They are X-linked.
B) They are more common in females than in males.
C) They are caused by inheritance of an extra sex chromosome.
D) They are caused by inheritance of an extra autosome.
E) The gene that causes them is on the Y chromosome.
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9
What percent of males have some degree of color blindness?

A) 0.5 percent
B) 5 percent
C) 0.8 percent
D) 8 percent
E) 10 percent
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10
A woman who is a carrier for the hemophilia gene has a child with a man who does not have hemophilia. Which prediction is correct?

A) All of the sons and none of the daughters will have hemophilia.
B) All of the daughters and none of the sons will have hemophilia.
C) Half of the sons and half of the daughters will have hemophilia.
D) Half of the sons and none of the daughters will have hemophilia.
E) Half of the daughters and none of the sons will have hemophilia.
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11
An autosomal recessive disorder:

A) requires that only one parent be a carrier.
B) displays its symptoms only in heterozygotes.
C) is more frequent in males than females.
D) will appear only in children of parents who both carry the gene.
E) is dominant in females.
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12
Regarding the human sex chromosomes, which statement is correct?

A) The Y chromosome carries a greater number of genes than does the X chromosome.
B) X and Y are different in size but carry nearly equal numbers of genes.
C) The X chromosome carries more genes than does the Y chromosome.
D) The X chromosome carries only gender-related genes.
E) The X chromosome carries the genes for the development of male phenotype.
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13
If a daughter expresses an X-linked recessive gene, she probably inherited the trait from:

A) her mother.
B) her father.
C) both parents.
D) neither parent.
E) her grandmother.
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14
Color blindness is caused by an X-linked recessive gene. A color-blind man and a woman with normal vision whose father was color blind have a son. The probability that their son is color blind is:

A) 0.25 (or 25 percent).
B) 0.50 (or 50 percent).
C) 0.75 (or 75 percent).
D) 1.00 (or 100 percent).
E) none of these.
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15
A person who has a recessive disorder but does not have the disorder him or herself is said to be a/an:

A) aneuploid.
B) aberration.
C) carrier.
D) hybrid.
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16
Why do X-linked conditions appear more frequently in males than in females?

A) A male with a nonfunctioning allele on the X chromosome does not have another allele of that gene on the Y chromosome that could cover up the nonfunctioning one.
B) Males have no X chromosomes.
C) The Y chromosome carries many alleles that are recessive to alleles on the X chromosome.
D) Males are more likely to inherit an extra chromosome than females.
E) Females have no X chromosomes.
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17
A woman who does not carry the color-blindness allele has children with a man who is color blind. What proportion of their children will be color blind?

A) all
B) 1/4
C) 1/2
D) 3/4
E) none
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18
A person who is heterozygous for the Huntington disease (HD) allele has offspring with someone who does not have HD. What proportion of their children will have HD?

A) 1/16
B) 1/10
C) 1/8
D) 1/4
E) 1/2
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19
Who is a "carrier" of X-linked disorders, such as hemophilia and color blindness?

A) a person who has the X-linked disorder
B) a heterozygous female who is normal but carries one nonfunctioning allele
C) a homozygous female who carries the normal alleles
D) a male who carries the nonfunctioning allele
E) a male who carries the functioning allele
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20
What condition is caused by a dominant allele of a single gene?

A) Down syndrome
B) sickle-cell anemia
C) Huntington disease
D) color blindness
E) Turner syndrome
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21
A person with the genotype XO is mainly female, phenotypically. A person with the genotype XXY is mainly male. What can you conclude about the Y chromosome?

A) It has the same genes as X, just different alleles.
B) It has the same genes as X, in different orientation.
C) A Y chromosome confers maleness, regardless of the number of X chromosomes.
D) The only genes it carries are for female development.
E) A human cannot survive without a Y chromosome.
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22
If more than one sperm fertilizes an egg, which of the following can result?

A) an autosomal dominant disorder
B) an autosomal recessive disorder
C) aneuploidy
D) polyploidy
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23
What is one difference between polyploidy and aneuploidy?

A) Polyploidy is extra sets of chromosomes; aneuploidy occurs when there are either more or fewer chromosomes than normally exist in its species full set.
B) Humans can be viable as polyploids but not as aneuploids.
C) Polyploidy is extra sex chromosomes; aneuploidy is extra autosomes.
D) Polyploidy is one extra chromosome; aneuploidy is one missing chromosome.
E) Polyploidy causes diseases and disorders in humans; aneuploidy does not.
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24
If a diploid cell from an organism has 46 chromosomes, how many chromosomes are likely to be found in a gamete that is the result of nondisjunction?

A) 46 or 92
B) 23 or 22
C) 21 or 22
D) 22 or 24
E) 24 or 25
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25
You are tracking the inheritance of a genetic disorder through a family's pedigree, and you notice that it shows up in every generation. The disorder is most likely:

A) recessive.
B) dominant.
C) X-linked recessive.
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26
Which condition or disease is caused by aneuploidy?

A) sickle-cell anemia
B) hemophilia
C) malaria
D) color blindness
E) Down syndrome
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27
The human genome has how many pairs of autosomal chromosomes?

A) 46 pairs
B) 44 pairs
C) 23 pairs
D) 22 pairs
E) 24 pairs
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28
Nondisjunction of the X chromosomes may occur during formation of gametes and produce two kinds of eggs. If normal sperm fertilizes these two kinds of eggs, which of the following pairs of genotypes are possible?

A) XX and XY
B) XXY and XO
C) XYY and XO
D) XYY and YO
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29
In humans, aneuploidy is fairly common yet goes largely unrecognized as a genetic problem. This is because:

A) it produces autosomal recessive individuals who don't always express the disorder.
B) its effects are usually hidden.
C) it actually produces healthy individuals.
D) it often results in miscarriage of embryos.
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30
In a pedigree chart, a darkened square demonstrates a:

A) diseased male.
B) diseased female.
C) normal male.
D) normal female.
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31
Which of the following is an autosomal recessive disorder?

A) hemophilia
B) Huntington disease
C) Down syndrome
D) sickle-cell anemia
E) Turner syndrome
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32
If a zygote has the genotype XYY, how many total chromosomes were in the sperm before it fused with the egg?

A) 20
B) 21
C) 22
D) 23
E) 24
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33
What is nondisjunction?

A) failure of sperm and egg to fuse in fertilization
B) failure of cells to divide by cytokinesis in meiosis
C) failure of chromosomes to duplicate before mitosis or meiosis
D) failure of homologous chromosomes or sister chromatids to separate in meiosis
E) an extra duplication of the chromosomes before mitosis or meiosis
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34
The state of having more than two sets of chromosomes is called:

A) autosomal.
B) dominant.
C) polyploidy.
D) aneuploidy.
E) nondisjunction.
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35
A woman is missing one of her X chromosomes. With which of the following conditions would she be diagnosed?

A) Turner syndrome
B) polyploidy
C) a chromosomal deletion
D) Klinefelter syndrome
E) cancer
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36
A study of several pedigrees demonstrates that two parents are normal. If some of their children express a trait, then the trait is controlled by a:

A) codominant gene.
B) simple dominant gene.
C) recessive gene.
D) sex-linked gene.
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37
Down syndrome in humans is caused by:

A) an extra X chromosome.
B) an extra y chromosome.
C) three copies of chromosome 21.
D) three copies of chromosome 13.
E) a single copy of chromosome 21.
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38
A pedigree is a representation of:

A) a genetic family tree.
B) a series of chromosomes arranged in order.
C) the inheritance pattern of recessive disorders.
D) the inheritance pattern of dominant disorders.
E) all the genetic disorders that can be inherited.
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39
Which of the following genetic disorders is caused by a dominant allele but does not produce symptoms until the affected individual is well into adulthood?

A) Turner syndrome
B) Down syndrome
C) Huntington disease
D) sickle-cell anemia
E) hemophilia
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40
Aneuploid human embryos are least likely to survive except those involving:

A) chromosome 1, 2, 3, X, Y.
B) chromosome 1, 2, 3, 4, 5.
C) chromosome 13, 18, 21, X, Y.
D) chromosome 6, 7, 8, 9, 10.
E) chromosome 11, 12, 14, 15.
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41
A carrier for a genetic disorder will pass the allele to all of their offspring.
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42
When a fragment breaks from a chromosome and rejoins it, in a flipped orientation, the result is called a/an:

A) deletion.
B) polyploidy.
C) inversion.
D) aneuploidy.
E) translocation.
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43
A chromosome that has been broken and has lost a section has had a/an:

A) aneuploidy.
B) inversion.
C) deletion.
D) duplication.
E) translocation.
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44
A person must have two alleles for hemoglobin S in order to suffer from sickle-cell anemia.
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45
What is a possible cause of the chromosomal aberration called a "duplication"?

A) unequal crossing over
B) exchange between non-homologous chromosomes
C) a chromosome fragment that breaks off and does not rejoin any chromosome
D) breaking of a chromosome fragment, then rejoining in a flipped orientation
E) nondisjunction
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46
Women do not express X-linked recessive characters.
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47
Polyploidy is better tolerated in plants than in animals.
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48
Cri-du-chat syndrome babies are mentally challenged and have an abnormal larynx that makes sounds like the cry of a cat. This disorder is due to a/an:

A) deletion in chromosome 5.
B) inversion in chromosome 2.
C) translocation between chromosome 9 and 22.
D) duplication in chromosome 7.
E) trisomy 21.
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49
A karyotype you are viewing shows an extra piece of chromosome 1 attached to chromosome 22. What type of abnormality caused this?

A) inversion
B) deletion
C) translocation
D) nondisjunction
E) sex-linked
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50
Match the following.

A) aneuploidy
B) nondisjunction
C) duplication
D) translocation
E) deletion
This produces cri-du-chat syndrome.
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51
Match the following.

A) aneuploidy
B) nondisjunction
C) duplication
D) translocation
E) deletion
This event may occur during meiosis I or meiosis II.
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52
A karyotype reveals that a woman is carrying a fetus that has 47 chromosomes. The test reveals that the genotype of the fetus is XXY. Which of the following statements is correct?

A) The fetus has Down syndrome, and most likely a nondisjunction event occurred in the mother during egg formation.
B) The fetus has Turner syndrome, and most likely a nondisjunction event occurred in the mother during egg formation.
C) The fetus has Klinefelter syndrome.
D) The fetus has an autosomal disorder.
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53
Which of the following combinations of chromosomes would be found in a person afflicted with Turner syndrome?

A) XXY
B) XYY
C) XX
D) XY
E) XO
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54
A single nondisjunction event results in some gametes with more chromosomes and some gametes with fewer chromosomes.
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55
What single attribute determines that a human fetus is male?

A) the absence of a second X chromosome
B) the absence of a Y chromosome
C) the presence of a Y chromosome
D) the presence of two X chromosomes
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56
Which of the following is a transfer of genes between non-homologous chromosomes?

A) duplication
B) crossing over
C) inversion
D) deletion
E) translocation
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57
If one of your parents has Huntington disease and is heterozygous for the disorder, you have a 50 percent chance of inheriting the disease.
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58
Match the following.

A) aneuploidy
B) nondisjunction
C) duplication
D) translocation
E) deletion
Only 1 percent of human embryos with this condition survive.
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59
Nondisjunction in somatic cells can result in aneuploid cells. This may give rise to:

A) Down syndrome.
B) Turner syndrome.
C) Klinefelter syndrome.
D) cancer.
E) cri-du-chat syndrome.
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60
Match the following.

A) aneuploidy
B) nondisjunction
C) duplication
D) translocation
E) deletion
Non-homologous chromosomes have exchanged parts.
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61
Explain why a female can be heterozygous for an X-linked gene but a male cannot.
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62
Duchenne muscular dystrophy is a recessive disorder resulting in a wasting away of the muscles. How would you design a study to determine if the disorder is X-linked or autosomal? How would you be able to determine if it is X-linked or autosomal?
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63
________ is the condition when an individual has three copies of chromosome 21.
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64
Refer to the figure below, and then answer the question that follows. <strong>Refer to the figure below, and then answer the question that follows. Nondisjunction in meiosis gives rise to gametes with abnormal chromosome numbers. Which event is likely to produce a higher percentage of abnormal gametes?</strong> A) failure of homologous chromosomes to separate at meiosis I B) failure of homologous chromosomes to separate at meiosis II C) failure of sister chromatids to separate at meiosis I D) failure of sister chromatids to separate at meiosis II E) failure of sister chromatids to separate at mitosis
Nondisjunction in meiosis gives rise to gametes with abnormal chromosome numbers. Which event is likely to produce a higher percentage of abnormal gametes?

A) failure of homologous chromosomes to separate at meiosis I
B) failure of homologous chromosomes to separate at meiosis II
C) failure of sister chromatids to separate at meiosis I
D) failure of sister chromatids to separate at meiosis II
E) failure of sister chromatids to separate at mitosis
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65
Hemophelia is an X-linked recessive disorder. A mother without the allele and a father with the allele have a daughter. The daughter then marries a man with hemophilia. What is the genotype of the daughter? What is the probability that the daughter's children will develop the disease?
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66
The condition in which an organism has more than two sets of chromosomes is called ________, while having either more or fewer than the normal number of a particular chromosome is called ________.
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67
Match the following.

A) aneuploidy
B) nondisjunction
C) duplication
D) translocation
E) deletion
This has been involved in producing gene families and has been vital to evolution.
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68
Refer to the figure below, and then answer the question that follows. Refer to the figure below, and then answer the question that follows. The last members of the Russian Royal Family were executed during the Russian Revolution. Assume the revolution never took place and Alexis, son of Czar Nicholas II and Alexandra, survived and married into the British Royal Family. What is the probability that his children would have hemophilia? What is the probability his children would be carriers for hemophilia?
The last members of the Russian Royal Family were executed during the Russian Revolution. Assume the revolution never took place and Alexis, son of Czar Nicholas II and Alexandra, survived and married into the British Royal Family. What is the probability that his children would have hemophilia? What is the probability his children would be carriers for hemophilia?
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69
Hemophilia, Duchenne muscular dystrophy, and color blindness are examples of ________ disorders.
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70
A person with only one allele for a recessive condition who does not have the condition is called a ________.
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71
Phenylketonuria is the most commonly inherited genetic disorder that affects nervous system development. It occurs in 1 out of every 10,000 births in the United States and Europe. How would you design a study to determine if phenylketonuria is an autosomal dominant or autosomal recessive disorder? How would you be able to determine if it is dominant or recessive?
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72
Explain what causes aneuploidy.
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73
You have studied the presence of a trait in the members of three generations of a family. With this information, you constructed a ________ to track how the trait was passed down through the generations.
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