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Deck 18: Patterns of Inheritance

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Question
<strong> Assuming a widow's peak is a dominant trait, the father would be __________.</strong> A) homozygous recessive B) homozygous dominant C) heterozygous dominant D) heterozygous recessive <div style=padding-top: 35px> Assuming a widow's peak is a dominant trait, the father would be __________.

A) homozygous recessive
B) homozygous dominant
C) heterozygous dominant
D) heterozygous recessive
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Question
The gene that codes for the number of fingers on the human hand has two alleles-five fingers and six fingers. The letters F and f are used to represent this trait. Having five fingers is the recessive trait. A woman has six fingers, but one of her parents has five fingers. She marries a man who has five fingers. What is the probability that they will have a child who has five fingers?

A) 0 percent
B) 25 percent
C) 50 percent
D) 100 percent
Question
__________ are the functional units of heredity, and they code for specific __________.

A) DNA; genes
B) Genes; proteins
C) Proteins; genes
D) Nucleotides; DNA
Question
The gene that codes for the number of fingers on the human hand has two alleles-five fingers and six fingers. The letters F and f are used to represent this trait. Having five fingers is the recessive trait. If a person has six fingers, her genotype is _____.

A) ff
B) Ff
C) FF
D) Ff or FF
Question
<strong> The common ancestor of orangutans, gorillas, chimpanzees, and humans existed approximately _____ million years ago.</strong> A) 16 B) 13 C) 18 D) 7 <div style=padding-top: 35px> The common ancestor of orangutans, gorillas, chimpanzees, and humans existed approximately _____ million years ago.

A) 16
B) 13
C) 18
D) 7
Question
The gene that codes for the number of fingers on the human hand has two alleles-five fingers and six fingers. The letters F and f are used to represent this trait. Having five fingers is the recessive trait. A woman has six fingers, but one of her parents has five fingers. She marries a man who has five fingers. What is the probability that they will have a child who is homozygous dominant for this trait?

A) 0 percent
B) 25 percent
C) 50 percent
D) 100 percent
Question
__________ code(s) for a specific trait, but there may be different versions of the trait called __________.

A) Genes; alleles
B) Alleles; DNA
C) DNA; genes
D) Genes; DNA
Question
<strong> Assuming a cleft chin is dominant, the father's genotype would be __________.</strong> A) Cc B) CC C) cc D) either Cc or cc <div style=padding-top: 35px> Assuming a cleft chin is dominant, the father's genotype would be __________.

A) Cc
B) CC
C) cc
D) either Cc or cc
Question
<strong> This figure shows chromosomes lined up at the equator of the cell. Which stage of division does this represent?</strong> A) mitosis B) meiosis I C) meiosis II D) either mitosis or meiosis <div style=padding-top: 35px> This figure shows chromosomes lined up at the equator of the cell. Which stage of division does this represent?

A) mitosis
B) meiosis I
C) meiosis II
D) either mitosis or meiosis
Question
<strong> Which of the following is most closely related to chimpanzees and humans?</strong> A) gorillas B) orangutans C) all apes D) gibbons <div style=padding-top: 35px> Which of the following is most closely related to chimpanzees and humans?

A) gorillas
B) orangutans
C) all apes
D) gibbons
Question
The gene that codes for the number of fingers on the human hand has two alleles-five fingers and six fingers. The letters F and f are used to represent this trait. Having five fingers is the recessive trait. A woman has six fingers, but one of her parents has five fingers. She marries a man who has five fingers. Which of the following represents gametes that could be produced by the woman?

A) Ff
B) f
C) F
D) both F and f
Question
Green seed color is dominant over yellow seed color. If a plant produces gametes with only yellow seed color, which of the following must be true?

A) Both parents were homozygous recessive for this trait.
B) Both parents carried the recessive trait.
C) One parent was homozygous recessive, and the other was homozygous dominant.
D) Both parents were homozygous dominant for this trait.
Question
<strong> The diploid number for this cell is __________.</strong> A) 2 B) 4 C) 8 D) 2n <div style=padding-top: 35px> The diploid number for this cell is __________.

A) 2
B) 4
C) 8
D) 2n
Question
<strong> All of the following are true about this image EXCEPT:</strong> A) DNA replication has occurred. B) One pair of homologous chromosomes is present. C) The trait represented is heterozygous. D) The genotype is either pp or PP . <div style=padding-top: 35px> All of the following are true about this image EXCEPT:

A) DNA replication has occurred.
B) One pair of homologous chromosomes is present.
C) The trait represented is heterozygous.
D) The genotype is either pp or PP .
Question
The gene that codes for the number of fingers on the human hand has two alleles-five fingers and six fingers. The letters F and f are used to represent this trait. Having five fingers is the recessive trait. If a person has five fingers, his genotype is _____.

A) ff
B) Ff
C) FF
D) Ff or ff
Question
The gene that codes for the number of fingers on the human hand has two alleles-five fingers and six fingers. The letters F and f are used to represent this trait. Having five fingers is the recessive trait. The majority of the human population is __________ for this trait.

A) homozygous recessive
B) homozygous dominant
C) heterozygous
D) codominant
Question
<strong> If this is a cell in your body where the letter P represents some trait,</strong> A) P came from one parent and p from another parent. B) both alleles came from one parent. C) P came from your father and p from your mother. D) four different alleles are represented. <div style=padding-top: 35px> If this is a cell in your body where the letter "P" represents some trait,

A) P came from one parent and p from another parent.
B) both alleles came from one parent.
C) P came from your father and p from your mother.
D) four different alleles are represented.
Question
What was the major contribution of Gregor Mendel?

A) He coined the term genes.
B) He provided evidence for how traits are inherited.
C) He described how genes code for particular proteins.
D) He explained the central role of proteins in the expression of traits.
Question
Green seed color is dominant over yellow seed color. What is the genotype of a plant that produces gametes with yellow seed color?

A) Gg
B) gg
C) g
D) yellow
Question
The gene that codes for the number of fingers on the human hand has two alleles-five fingers and six fingers. The letters F and f are used to represent this trait. Having five fingers is the recessive trait. A woman has six fingers, but one of her parents has five fingers. What is the genotype of the woman?

A) Ff
B) ff
C) FF
D) either FF or ff
Question
Muscular dystrophy is a group of inherited disorders that lead to increasing muscle cell loss and thus muscle weakness over time. There are many different types of muscular dystrophy. Symptoms can vary, although all involve muscle weakness. Duchenne muscular dystrophy (DMD) is a recessive X-linked form that leads to muscle degeneration and death usually by age 25. Symptoms begin before age 5 and include low endurance and difficulties standing. As the condition progresses, muscle tissue is replaced with adipose and other types of connective tissue. Abnormal bone development and some neurobehavioral and learning disabilities may also occur. DMD occurs as a result of a mutation in a single gene on the X chromosome. This gene codes for a particular protein, dystrophin, which plays a major role in the structure of muscle cells. The protein formed by the mutated gene is nonfunctional, and the absence of a functional protein eventually leads to cell death. In producing the protein dystrophin, DNA is __________ to RNA and then __________ to a protein in the cytoplasm of the cell.

A) transcribed; translated
B) translated; transcribed
Question
Some chickens have a dominant frizzle gene that leads to the development of feathers that curl outward rather than lying flat against their bodies as in standard chickens. Aside from these "frizzled feathers," chickens with this dominant allele also tend to have higher metabolic rates and produce fewer eggs than chickens that carry the recessive version of this gene. Thus, this gene exhibits __________.

A) pleiotropy
B) polygenic inheritance
C) incomplete dominance
D) codominance
Question
Muscular dystrophy is a group of inherited disorders that lead to increasing muscle cell loss and thus muscle weakness over time. There are many different types of muscular dystrophy. Symptoms can vary, although all involve muscle weakness. Duchenne muscular dystrophy (DMD) is a recessive X-linked form that leads to muscle degeneration and death usually by age 25. Symptoms begin before age 5 and include low endurance and difficulties standing. As the condition progresses, muscle tissue is replaced with adipose and other types of connective tissue. Abnormal bone development and some neurobehavioral and learning disabilities may also occur. DMD occurs as a result of a mutation in a single gene on the X chromosome. This gene codes for a particular protein, dystrophin, which plays a major role in the structure of muscle cells. The protein formed by the mutated gene is nonfunctional, and the absence of a functional protein eventually leads to cell death. The protein dystrophin is produced ____________________.

A) at the ribosomes in the cytoplasm
B) in the nucleus of the cell
C) in the Golgi complex of the cell
D) in lysosomes
Question
A woman is colorblind. What do you know about her parents?

A) Her mother must be colorblind.
B) Her father must be colorblind.
C) Only one of her parents is a carrier of the colorblind trait.
D) Both her parents must be colorblind.
Question
Reduced health and vigor as a result of breeding related individuals is called __________.

A) inbreeding depression
B) breeding depression
C) inbreeding repression
D) breeding repression
Question
If a particular trait has three phenotypes and one phenotype represents an intermediate, this trait displays __________.

A) incomplete dominance
B) codominance
C) recessive alleles
D) dominant alleles
Question
Genes are expressed as functional and structural __________.

A) nucleic acids
B) forms of energy
C) proteins
D) carbohydrates
Question
Traits such as weight and height that tend to vary along a continuum are typically __________.

A) polygenic
B) pleiotropic
C) incomplete
D) codominant
Question
Muscular dystrophy is a group of inherited disorders that lead to increasing muscle cell loss and thus muscle weakness over time. There are many different types of muscular dystrophy. Symptoms can vary, although all involve muscle weakness. Duchenne muscular dystrophy (DMD) is a recessive X-linked form that leads to muscle degeneration and death usually by age 25. Symptoms begin before age 5 and include low endurance and difficulties standing. As the condition progresses, muscle tissue is replaced with adipose and other types of connective tissue. Abnormal bone development and some neurobehavioral and learning disabilities may also occur. DMD occurs as a result of a mutation in a single gene on the X chromosome. This gene codes for a particular protein, dystrophin, which plays a major role in the structure of muscle cells. The protein formed by the mutated gene is nonfunctional, and the absence of a functional protein eventually leads to cell death. Bone and adipose are examples of __________.

A) connective tissue
B) muscle tissue
C) organ systems
D) cell types
Question
Joshua is colorblind, but neither of his parents are colorblind. Which of the following is the most likely scenario?

A) He is adopted.
B) His mother is a carrier for the colorblind trait.
C) His father is heterozygous for the colorblind trait.
D) His father must be colorblind.
Question
Use a Punnett square to determine how many different genotypes can be produced by two parents that are homozygous dominant (mother) and homozygous recessive (father) for a particular trait.

A) four
B) two
C) three
D) one
Question
A person with which of the following blood types is a universal donor who can donate blood to anyone with any other blood type?

A) O
B) AB
C) A
D) B
Question
<strong> Has this cell undergone meiosis?</strong> A) yes, because there are no duplicated chromosomes B) no, because homologous chromosomes are present C) yes, because homologous chromosomes are not present D) no, because the diploid number is 2 <div style=padding-top: 35px> Has this cell undergone meiosis?

A) yes, because there are no duplicated chromosomes
B) no, because homologous chromosomes are present
C) yes, because homologous chromosomes are not present
D) no, because the diploid number is 2
Question
Muscular dystrophy is a group of inherited disorders that lead to increasing muscle cell loss and thus muscle weakness over time. There are many different types of muscular dystrophy. Symptoms can vary, although all involve muscle weakness. Duchenne muscular dystrophy (DMD) is a recessive X-linked form that leads to muscle degeneration and death usually by age 25. Symptoms begin before age 5 and include low endurance and difficulties standing. As the condition progresses, muscle tissue is replaced with adipose and other types of connective tissue. Abnormal bone development and some neurobehavioral and learning disabilities may also occur. DMD occurs as a result of a mutation in a single gene on the X chromosome. This gene codes for a particular protein, dystrophin, which plays a major role in the structure of muscle cells. The protein formed by the mutated gene is nonfunctional, and the absence of a functional protein eventually leads to cell death. The single gene mutation associated with DMD leads to various symptoms that include bone growth, muscles, and behaviors. This is an example of __________.

A) a polygenic trait
B) pleiotropy
C) gene manipulation
D) codominance
Question
Jack has type O blood and his mother has type A blood. His father could have any of the following blood types EXCEPT

A) A.
B) B.
C) AB.
D) O.
Question
Domestication results from __________ selection, rather than __________ selection.

A) natural; artificial
B) artificial; natural
Question
A Norfolk chicken has feathers that have an overall gray appearance, but if you look at an individual feather, it is either black or white. Feather color in these birds is expressed as __________.

A) codominance
B) incomplete dominance
C) sex-linked
D) pleiotropy
Question
Muscular dystrophy is a group of inherited disorders that lead to increasing muscle cell loss and thus muscle weakness over time. There are many different types of muscular dystrophy. Symptoms can vary, although all involve muscle weakness. Duchenne muscular dystrophy (DMD) is a recessive X-linked form that leads to muscle degeneration and death usually by age 25. Symptoms begin before age 5 and include low endurance and difficulties standing. As the condition progresses, muscle tissue is replaced with adipose and other types of connective tissue. Abnormal bone development and some neurobehavioral and learning disabilities may also occur. DMD occurs as a result of a mutation in a single gene on the X chromosome. This gene codes for a particular protein, dystrophin, which plays a major role in the structure of muscle cells. The protein formed by the mutated gene is nonfunctional, and the absence of a functional protein eventually leads to cell death. For a girl to show symptoms of the disease, she must have _____ copies of the gene.

A) one
B) two
C) three
D) four
Question
Muscular dystrophy is a group of inherited disorders that lead to increasing muscle cell loss and thus muscle weakness over time. There are many different types of muscular dystrophy. Symptoms can vary, although all involve muscle weakness. Duchenne muscular dystrophy (DMD) is a recessive X-linked form that leads to muscle degeneration and death usually by age 25. Symptoms begin before age 5 and include low endurance and difficulties standing. As the condition progresses, muscle tissue is replaced with adipose and other types of connective tissue. Abnormal bone development and some neurobehavioral and learning disabilities may also occur. DMD occurs as a result of a mutation in a single gene on the X chromosome. This gene codes for a particular protein, dystrophin, which plays a major role in the structure of muscle cells. The protein formed by the mutated gene is nonfunctional, and the absence of a functional protein eventually leads to cell death. The introduction mentions three out of four major tissue types found in animals. The tissue that is not mentioned is __________ tissue.

A) nervous
B) brain
C) blood
D) fat
Question
Muscular dystrophy is a group of inherited disorders that lead to increasing muscle cell loss and thus muscle weakness over time. There are many different types of muscular dystrophy. Symptoms can vary, although all involve muscle weakness. Duchenne muscular dystrophy (DMD) is a recessive X-linked form that leads to muscle degeneration and death usually by age 25. Symptoms begin before age 5 and include low endurance and difficulties standing. As the condition progresses, muscle tissue is replaced with adipose and other types of connective tissue. Abnormal bone development and some neurobehavioral and learning disabilities may also occur. DMD occurs as a result of a mutation in a single gene on the X chromosome. This gene codes for a particular protein, dystrophin, which plays a major role in the structure of muscle cells. The protein formed by the mutated gene is nonfunctional, and the absence of a functional protein eventually leads to cell death. Who is more likely to suffer from DMD?

A) boys
B) girls
Question
Muscular dystrophy is a group of inherited disorders that lead to increasing muscle cell loss and thus muscle weakness over time. There are many different types of muscular dystrophy. Symptoms can vary, although all involve muscle weakness. Duchenne muscular dystrophy (DMD) is a recessive X-linked form that leads to muscle degeneration and death usually by age 25. Symptoms begin before age 5 and include low endurance and difficulties standing. As the condition progresses, muscle tissue is replaced with adipose and other types of connective tissue. Abnormal bone development and some neurobehavioral and learning disabilities may also occur. DMD occurs as a result of a mutation in a single gene on the X chromosome. This gene codes for a particular protein, dystrophin, which plays a major role in the structure of muscle cells. The protein formed by the mutated gene is nonfunctional, and the absence of a functional protein eventually leads to cell death. A woman who is a carrier for DMD marries a man who does not have the disease. What is the probability that they will have a boy with DMD?

A) 0 percent
B) 25 percent
C) 50 percent
D) 100 percent
Question
Muscular dystrophy is a group of inherited disorders that lead to increasing muscle cell loss and thus muscle weakness over time. There are many different types of muscular dystrophy. Symptoms can vary, although all involve muscle weakness. Duchenne muscular dystrophy (DMD) is a recessive X-linked form that leads to muscle degeneration and death usually by age 25. Symptoms begin before age 5 and include low endurance and difficulties standing. As the condition progresses, muscle tissue is replaced with adipose and other types of connective tissue. Abnormal bone development and some neurobehavioral and learning disabilities may also occur. DMD occurs as a result of a mutation in a single gene on the X chromosome. This gene codes for a particular protein, dystrophin, which plays a major role in the structure of muscle cells. The protein formed by the mutated gene is nonfunctional, and the absence of a functional protein eventually leads to cell death. A woman who is a carrier for DMD marries a man who does not have the disease. What is the probability that they will have a girl with DMD?

A) 0 percent
B) 25 percent
C) 50 percent
D) 100 percent
Question
Muscular dystrophy is a group of inherited disorders that lead to increasing muscle cell loss and thus muscle weakness over time. There are many different types of muscular dystrophy. Symptoms can vary, although all involve muscle weakness. Duchenne muscular dystrophy (DMD) is a recessive X-linked form that leads to muscle degeneration and death usually by age 25. Symptoms begin before age 5 and include low endurance and difficulties standing. As the condition progresses, muscle tissue is replaced with adipose and other types of connective tissue. Abnormal bone development and some neurobehavioral and learning disabilities may also occur. DMD occurs as a result of a mutation in a single gene on the X chromosome. This gene codes for a particular protein, dystrophin, which plays a major role in the structure of muscle cells. The protein formed by the mutated gene is nonfunctional, and the absence of a functional protein eventually leads to cell death. Other types of muscular dystrophy arise due to mutations on chromosomes other than the sex chromosomes. The common name for these other chromosomes is __________.

A) autotrophs
B) autosomes
C) pleiotrophs
D) heterotrophs
Question
Muscular dystrophy is a group of inherited disorders that lead to increasing muscle cell loss and thus muscle weakness over time. There are many different types of muscular dystrophy. Symptoms can vary, although all involve muscle weakness. Duchenne muscular dystrophy (DMD) is a recessive X-linked form that leads to muscle degeneration and death usually by age 25. Symptoms begin before age 5 and include low endurance and difficulties standing. As the condition progresses, muscle tissue is replaced with adipose and other types of connective tissue. Abnormal bone development and some neurobehavioral and learning disabilities may also occur. DMD occurs as a result of a mutation in a single gene on the X chromosome. This gene codes for a particular protein, dystrophin, which plays a major role in the structure of muscle cells. The protein formed by the mutated gene is nonfunctional, and the absence of a functional protein eventually leads to cell death. A young boy has DMD. What do you know about his parents?

A) Both of his parents are carriers of DMD.
B) At least one of his parents is a carrier of DMD.
C) His mother is a carrier of DMD.
D) His father is a carrier of DMD.
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Deck 18: Patterns of Inheritance
1
<strong> Assuming a widow's peak is a dominant trait, the father would be __________.</strong> A) homozygous recessive B) homozygous dominant C) heterozygous dominant D) heterozygous recessive Assuming a widow's peak is a dominant trait, the father would be __________.

A) homozygous recessive
B) homozygous dominant
C) heterozygous dominant
D) heterozygous recessive
A
2
The gene that codes for the number of fingers on the human hand has two alleles-five fingers and six fingers. The letters F and f are used to represent this trait. Having five fingers is the recessive trait. A woman has six fingers, but one of her parents has five fingers. She marries a man who has five fingers. What is the probability that they will have a child who has five fingers?

A) 0 percent
B) 25 percent
C) 50 percent
D) 100 percent
C
3
__________ are the functional units of heredity, and they code for specific __________.

A) DNA; genes
B) Genes; proteins
C) Proteins; genes
D) Nucleotides; DNA
B
4
The gene that codes for the number of fingers on the human hand has two alleles-five fingers and six fingers. The letters F and f are used to represent this trait. Having five fingers is the recessive trait. If a person has six fingers, her genotype is _____.

A) ff
B) Ff
C) FF
D) Ff or FF
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5
<strong> The common ancestor of orangutans, gorillas, chimpanzees, and humans existed approximately _____ million years ago.</strong> A) 16 B) 13 C) 18 D) 7 The common ancestor of orangutans, gorillas, chimpanzees, and humans existed approximately _____ million years ago.

A) 16
B) 13
C) 18
D) 7
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6
The gene that codes for the number of fingers on the human hand has two alleles-five fingers and six fingers. The letters F and f are used to represent this trait. Having five fingers is the recessive trait. A woman has six fingers, but one of her parents has five fingers. She marries a man who has five fingers. What is the probability that they will have a child who is homozygous dominant for this trait?

A) 0 percent
B) 25 percent
C) 50 percent
D) 100 percent
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7
__________ code(s) for a specific trait, but there may be different versions of the trait called __________.

A) Genes; alleles
B) Alleles; DNA
C) DNA; genes
D) Genes; DNA
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8
<strong> Assuming a cleft chin is dominant, the father's genotype would be __________.</strong> A) Cc B) CC C) cc D) either Cc or cc Assuming a cleft chin is dominant, the father's genotype would be __________.

A) Cc
B) CC
C) cc
D) either Cc or cc
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9
<strong> This figure shows chromosomes lined up at the equator of the cell. Which stage of division does this represent?</strong> A) mitosis B) meiosis I C) meiosis II D) either mitosis or meiosis This figure shows chromosomes lined up at the equator of the cell. Which stage of division does this represent?

A) mitosis
B) meiosis I
C) meiosis II
D) either mitosis or meiosis
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10
<strong> Which of the following is most closely related to chimpanzees and humans?</strong> A) gorillas B) orangutans C) all apes D) gibbons Which of the following is most closely related to chimpanzees and humans?

A) gorillas
B) orangutans
C) all apes
D) gibbons
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11
The gene that codes for the number of fingers on the human hand has two alleles-five fingers and six fingers. The letters F and f are used to represent this trait. Having five fingers is the recessive trait. A woman has six fingers, but one of her parents has five fingers. She marries a man who has five fingers. Which of the following represents gametes that could be produced by the woman?

A) Ff
B) f
C) F
D) both F and f
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12
Green seed color is dominant over yellow seed color. If a plant produces gametes with only yellow seed color, which of the following must be true?

A) Both parents were homozygous recessive for this trait.
B) Both parents carried the recessive trait.
C) One parent was homozygous recessive, and the other was homozygous dominant.
D) Both parents were homozygous dominant for this trait.
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13
<strong> The diploid number for this cell is __________.</strong> A) 2 B) 4 C) 8 D) 2n The diploid number for this cell is __________.

A) 2
B) 4
C) 8
D) 2n
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14
<strong> All of the following are true about this image EXCEPT:</strong> A) DNA replication has occurred. B) One pair of homologous chromosomes is present. C) The trait represented is heterozygous. D) The genotype is either pp or PP . All of the following are true about this image EXCEPT:

A) DNA replication has occurred.
B) One pair of homologous chromosomes is present.
C) The trait represented is heterozygous.
D) The genotype is either pp or PP .
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15
The gene that codes for the number of fingers on the human hand has two alleles-five fingers and six fingers. The letters F and f are used to represent this trait. Having five fingers is the recessive trait. If a person has five fingers, his genotype is _____.

A) ff
B) Ff
C) FF
D) Ff or ff
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16
The gene that codes for the number of fingers on the human hand has two alleles-five fingers and six fingers. The letters F and f are used to represent this trait. Having five fingers is the recessive trait. The majority of the human population is __________ for this trait.

A) homozygous recessive
B) homozygous dominant
C) heterozygous
D) codominant
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17
<strong> If this is a cell in your body where the letter P represents some trait,</strong> A) P came from one parent and p from another parent. B) both alleles came from one parent. C) P came from your father and p from your mother. D) four different alleles are represented. If this is a cell in your body where the letter "P" represents some trait,

A) P came from one parent and p from another parent.
B) both alleles came from one parent.
C) P came from your father and p from your mother.
D) four different alleles are represented.
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18
What was the major contribution of Gregor Mendel?

A) He coined the term genes.
B) He provided evidence for how traits are inherited.
C) He described how genes code for particular proteins.
D) He explained the central role of proteins in the expression of traits.
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19
Green seed color is dominant over yellow seed color. What is the genotype of a plant that produces gametes with yellow seed color?

A) Gg
B) gg
C) g
D) yellow
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20
The gene that codes for the number of fingers on the human hand has two alleles-five fingers and six fingers. The letters F and f are used to represent this trait. Having five fingers is the recessive trait. A woman has six fingers, but one of her parents has five fingers. What is the genotype of the woman?

A) Ff
B) ff
C) FF
D) either FF or ff
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21
Muscular dystrophy is a group of inherited disorders that lead to increasing muscle cell loss and thus muscle weakness over time. There are many different types of muscular dystrophy. Symptoms can vary, although all involve muscle weakness. Duchenne muscular dystrophy (DMD) is a recessive X-linked form that leads to muscle degeneration and death usually by age 25. Symptoms begin before age 5 and include low endurance and difficulties standing. As the condition progresses, muscle tissue is replaced with adipose and other types of connective tissue. Abnormal bone development and some neurobehavioral and learning disabilities may also occur. DMD occurs as a result of a mutation in a single gene on the X chromosome. This gene codes for a particular protein, dystrophin, which plays a major role in the structure of muscle cells. The protein formed by the mutated gene is nonfunctional, and the absence of a functional protein eventually leads to cell death. In producing the protein dystrophin, DNA is __________ to RNA and then __________ to a protein in the cytoplasm of the cell.

A) transcribed; translated
B) translated; transcribed
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22
Some chickens have a dominant frizzle gene that leads to the development of feathers that curl outward rather than lying flat against their bodies as in standard chickens. Aside from these "frizzled feathers," chickens with this dominant allele also tend to have higher metabolic rates and produce fewer eggs than chickens that carry the recessive version of this gene. Thus, this gene exhibits __________.

A) pleiotropy
B) polygenic inheritance
C) incomplete dominance
D) codominance
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23
Muscular dystrophy is a group of inherited disorders that lead to increasing muscle cell loss and thus muscle weakness over time. There are many different types of muscular dystrophy. Symptoms can vary, although all involve muscle weakness. Duchenne muscular dystrophy (DMD) is a recessive X-linked form that leads to muscle degeneration and death usually by age 25. Symptoms begin before age 5 and include low endurance and difficulties standing. As the condition progresses, muscle tissue is replaced with adipose and other types of connective tissue. Abnormal bone development and some neurobehavioral and learning disabilities may also occur. DMD occurs as a result of a mutation in a single gene on the X chromosome. This gene codes for a particular protein, dystrophin, which plays a major role in the structure of muscle cells. The protein formed by the mutated gene is nonfunctional, and the absence of a functional protein eventually leads to cell death. The protein dystrophin is produced ____________________.

A) at the ribosomes in the cytoplasm
B) in the nucleus of the cell
C) in the Golgi complex of the cell
D) in lysosomes
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24
A woman is colorblind. What do you know about her parents?

A) Her mother must be colorblind.
B) Her father must be colorblind.
C) Only one of her parents is a carrier of the colorblind trait.
D) Both her parents must be colorblind.
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25
Reduced health and vigor as a result of breeding related individuals is called __________.

A) inbreeding depression
B) breeding depression
C) inbreeding repression
D) breeding repression
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26
If a particular trait has three phenotypes and one phenotype represents an intermediate, this trait displays __________.

A) incomplete dominance
B) codominance
C) recessive alleles
D) dominant alleles
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27
Genes are expressed as functional and structural __________.

A) nucleic acids
B) forms of energy
C) proteins
D) carbohydrates
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28
Traits such as weight and height that tend to vary along a continuum are typically __________.

A) polygenic
B) pleiotropic
C) incomplete
D) codominant
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29
Muscular dystrophy is a group of inherited disorders that lead to increasing muscle cell loss and thus muscle weakness over time. There are many different types of muscular dystrophy. Symptoms can vary, although all involve muscle weakness. Duchenne muscular dystrophy (DMD) is a recessive X-linked form that leads to muscle degeneration and death usually by age 25. Symptoms begin before age 5 and include low endurance and difficulties standing. As the condition progresses, muscle tissue is replaced with adipose and other types of connective tissue. Abnormal bone development and some neurobehavioral and learning disabilities may also occur. DMD occurs as a result of a mutation in a single gene on the X chromosome. This gene codes for a particular protein, dystrophin, which plays a major role in the structure of muscle cells. The protein formed by the mutated gene is nonfunctional, and the absence of a functional protein eventually leads to cell death. Bone and adipose are examples of __________.

A) connective tissue
B) muscle tissue
C) organ systems
D) cell types
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30
Joshua is colorblind, but neither of his parents are colorblind. Which of the following is the most likely scenario?

A) He is adopted.
B) His mother is a carrier for the colorblind trait.
C) His father is heterozygous for the colorblind trait.
D) His father must be colorblind.
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31
Use a Punnett square to determine how many different genotypes can be produced by two parents that are homozygous dominant (mother) and homozygous recessive (father) for a particular trait.

A) four
B) two
C) three
D) one
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32
A person with which of the following blood types is a universal donor who can donate blood to anyone with any other blood type?

A) O
B) AB
C) A
D) B
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33
<strong> Has this cell undergone meiosis?</strong> A) yes, because there are no duplicated chromosomes B) no, because homologous chromosomes are present C) yes, because homologous chromosomes are not present D) no, because the diploid number is 2 Has this cell undergone meiosis?

A) yes, because there are no duplicated chromosomes
B) no, because homologous chromosomes are present
C) yes, because homologous chromosomes are not present
D) no, because the diploid number is 2
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34
Muscular dystrophy is a group of inherited disorders that lead to increasing muscle cell loss and thus muscle weakness over time. There are many different types of muscular dystrophy. Symptoms can vary, although all involve muscle weakness. Duchenne muscular dystrophy (DMD) is a recessive X-linked form that leads to muscle degeneration and death usually by age 25. Symptoms begin before age 5 and include low endurance and difficulties standing. As the condition progresses, muscle tissue is replaced with adipose and other types of connective tissue. Abnormal bone development and some neurobehavioral and learning disabilities may also occur. DMD occurs as a result of a mutation in a single gene on the X chromosome. This gene codes for a particular protein, dystrophin, which plays a major role in the structure of muscle cells. The protein formed by the mutated gene is nonfunctional, and the absence of a functional protein eventually leads to cell death. The single gene mutation associated with DMD leads to various symptoms that include bone growth, muscles, and behaviors. This is an example of __________.

A) a polygenic trait
B) pleiotropy
C) gene manipulation
D) codominance
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35
Jack has type O blood and his mother has type A blood. His father could have any of the following blood types EXCEPT

A) A.
B) B.
C) AB.
D) O.
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36
Domestication results from __________ selection, rather than __________ selection.

A) natural; artificial
B) artificial; natural
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37
A Norfolk chicken has feathers that have an overall gray appearance, but if you look at an individual feather, it is either black or white. Feather color in these birds is expressed as __________.

A) codominance
B) incomplete dominance
C) sex-linked
D) pleiotropy
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38
Muscular dystrophy is a group of inherited disorders that lead to increasing muscle cell loss and thus muscle weakness over time. There are many different types of muscular dystrophy. Symptoms can vary, although all involve muscle weakness. Duchenne muscular dystrophy (DMD) is a recessive X-linked form that leads to muscle degeneration and death usually by age 25. Symptoms begin before age 5 and include low endurance and difficulties standing. As the condition progresses, muscle tissue is replaced with adipose and other types of connective tissue. Abnormal bone development and some neurobehavioral and learning disabilities may also occur. DMD occurs as a result of a mutation in a single gene on the X chromosome. This gene codes for a particular protein, dystrophin, which plays a major role in the structure of muscle cells. The protein formed by the mutated gene is nonfunctional, and the absence of a functional protein eventually leads to cell death. For a girl to show symptoms of the disease, she must have _____ copies of the gene.

A) one
B) two
C) three
D) four
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39
Muscular dystrophy is a group of inherited disorders that lead to increasing muscle cell loss and thus muscle weakness over time. There are many different types of muscular dystrophy. Symptoms can vary, although all involve muscle weakness. Duchenne muscular dystrophy (DMD) is a recessive X-linked form that leads to muscle degeneration and death usually by age 25. Symptoms begin before age 5 and include low endurance and difficulties standing. As the condition progresses, muscle tissue is replaced with adipose and other types of connective tissue. Abnormal bone development and some neurobehavioral and learning disabilities may also occur. DMD occurs as a result of a mutation in a single gene on the X chromosome. This gene codes for a particular protein, dystrophin, which plays a major role in the structure of muscle cells. The protein formed by the mutated gene is nonfunctional, and the absence of a functional protein eventually leads to cell death. The introduction mentions three out of four major tissue types found in animals. The tissue that is not mentioned is __________ tissue.

A) nervous
B) brain
C) blood
D) fat
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40
Muscular dystrophy is a group of inherited disorders that lead to increasing muscle cell loss and thus muscle weakness over time. There are many different types of muscular dystrophy. Symptoms can vary, although all involve muscle weakness. Duchenne muscular dystrophy (DMD) is a recessive X-linked form that leads to muscle degeneration and death usually by age 25. Symptoms begin before age 5 and include low endurance and difficulties standing. As the condition progresses, muscle tissue is replaced with adipose and other types of connective tissue. Abnormal bone development and some neurobehavioral and learning disabilities may also occur. DMD occurs as a result of a mutation in a single gene on the X chromosome. This gene codes for a particular protein, dystrophin, which plays a major role in the structure of muscle cells. The protein formed by the mutated gene is nonfunctional, and the absence of a functional protein eventually leads to cell death. Who is more likely to suffer from DMD?

A) boys
B) girls
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41
Muscular dystrophy is a group of inherited disorders that lead to increasing muscle cell loss and thus muscle weakness over time. There are many different types of muscular dystrophy. Symptoms can vary, although all involve muscle weakness. Duchenne muscular dystrophy (DMD) is a recessive X-linked form that leads to muscle degeneration and death usually by age 25. Symptoms begin before age 5 and include low endurance and difficulties standing. As the condition progresses, muscle tissue is replaced with adipose and other types of connective tissue. Abnormal bone development and some neurobehavioral and learning disabilities may also occur. DMD occurs as a result of a mutation in a single gene on the X chromosome. This gene codes for a particular protein, dystrophin, which plays a major role in the structure of muscle cells. The protein formed by the mutated gene is nonfunctional, and the absence of a functional protein eventually leads to cell death. A woman who is a carrier for DMD marries a man who does not have the disease. What is the probability that they will have a boy with DMD?

A) 0 percent
B) 25 percent
C) 50 percent
D) 100 percent
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42
Muscular dystrophy is a group of inherited disorders that lead to increasing muscle cell loss and thus muscle weakness over time. There are many different types of muscular dystrophy. Symptoms can vary, although all involve muscle weakness. Duchenne muscular dystrophy (DMD) is a recessive X-linked form that leads to muscle degeneration and death usually by age 25. Symptoms begin before age 5 and include low endurance and difficulties standing. As the condition progresses, muscle tissue is replaced with adipose and other types of connective tissue. Abnormal bone development and some neurobehavioral and learning disabilities may also occur. DMD occurs as a result of a mutation in a single gene on the X chromosome. This gene codes for a particular protein, dystrophin, which plays a major role in the structure of muscle cells. The protein formed by the mutated gene is nonfunctional, and the absence of a functional protein eventually leads to cell death. A woman who is a carrier for DMD marries a man who does not have the disease. What is the probability that they will have a girl with DMD?

A) 0 percent
B) 25 percent
C) 50 percent
D) 100 percent
Unlock Deck
Unlock for access to all 44 flashcards in this deck.
Unlock Deck
k this deck
43
Muscular dystrophy is a group of inherited disorders that lead to increasing muscle cell loss and thus muscle weakness over time. There are many different types of muscular dystrophy. Symptoms can vary, although all involve muscle weakness. Duchenne muscular dystrophy (DMD) is a recessive X-linked form that leads to muscle degeneration and death usually by age 25. Symptoms begin before age 5 and include low endurance and difficulties standing. As the condition progresses, muscle tissue is replaced with adipose and other types of connective tissue. Abnormal bone development and some neurobehavioral and learning disabilities may also occur. DMD occurs as a result of a mutation in a single gene on the X chromosome. This gene codes for a particular protein, dystrophin, which plays a major role in the structure of muscle cells. The protein formed by the mutated gene is nonfunctional, and the absence of a functional protein eventually leads to cell death. Other types of muscular dystrophy arise due to mutations on chromosomes other than the sex chromosomes. The common name for these other chromosomes is __________.

A) autotrophs
B) autosomes
C) pleiotrophs
D) heterotrophs
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44
Muscular dystrophy is a group of inherited disorders that lead to increasing muscle cell loss and thus muscle weakness over time. There are many different types of muscular dystrophy. Symptoms can vary, although all involve muscle weakness. Duchenne muscular dystrophy (DMD) is a recessive X-linked form that leads to muscle degeneration and death usually by age 25. Symptoms begin before age 5 and include low endurance and difficulties standing. As the condition progresses, muscle tissue is replaced with adipose and other types of connective tissue. Abnormal bone development and some neurobehavioral and learning disabilities may also occur. DMD occurs as a result of a mutation in a single gene on the X chromosome. This gene codes for a particular protein, dystrophin, which plays a major role in the structure of muscle cells. The protein formed by the mutated gene is nonfunctional, and the absence of a functional protein eventually leads to cell death. A young boy has DMD. What do you know about his parents?

A) Both of his parents are carriers of DMD.
B) At least one of his parents is a carrier of DMD.
C) His mother is a carrier of DMD.
D) His father is a carrier of DMD.
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Unlock Deck
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