Download
1 / 35
350 likes | 725 Vues
If a plant variety is true-breeding for a dominant trait, then _____. . ? if the plant were allowed to self-pollinate, the dominant and recessive traits would consistently appear in a 3:1 ratio among the progeny ? the plant is heterozygous for the trait ? if the plant were crossed with a heterozyg
E N D
1. Chp 14 and 15 Review Multiple Choice Questions
2. If a plant variety is true-breeding for a dominant trait, then _____. if the plant were allowed to self-pollinate, the dominant and recessive traits would consistently appear in a 3:1 ratio among the progeny
the plant is heterozygous for the trait
if the plant were crossed with a heterozygote, one-half of the progeny would show the dominant trait, and one-half would show the recessive trait
if the plant were allowed to self-pollinate, all of the progeny would have the dominant trait
the variety is immune to mutation
3. If a plant variety is true-breeding for a dominant trait, then _____. if the plant were allowed to self-pollinate, the dominant and recessive traits would consistently appear in a 3:1 ratio among the progeny
the plant is heterozygous for the trait
if the plant were crossed with a heterozygote, one-half of the progeny would show the dominant trait, and one-half would show the recessive trait
if the plant were allowed to self-pollinate, all of the progeny would have the dominant trait
the variety is immune to mutation
4. Assume tall (T) is completely dominant to dwarf (t). If a homozygous dominant individual is crossed with a homozygous dwarf, the offspring will _____. all be intermediate in height
all be tall
be 1/2 tall and 1/2 dwarf
be 3/4 tall and 1/4 dwarf
all be short
5. Assume tall (T) is completely dominant to dwarf (t). If a homozygous dominant individual is crossed with a homozygous dwarf, the offspring will _____. all be intermediate in height
all be tall
be 1/2 tall and 1/2 dwarf
be 3/4 tall and 1/4 dwarf
all be short
6. In a certain plant, the alleles A, B, and C are completely dominant to the alleles a, b, and c. A plant with the genotype AABbcc will have the same phenotype as a plant with the genotype _____. Aabbcc
aabbcc
AaBBcc
AABBCc
none of the above
7. In a certain plant, the alleles A, B, and C are completely dominant to the alleles a, b, and c. A plant with the genotype AABbcc will have the same phenotype as a plant with the genotype _____. Aabbcc
aabbcc
AaBBcc
AABBCc
none of the above
8. In carrying out his breeding studies, Mendel examined characters that had which of the following properties? They were controlled by loci that were (or behaved as if they were) on different chromosomes.
It was possible to isolate true-breeding varieties for each trait.
The traits varied in an either-or fashion.
The characters each were controlled by a single gene.
All of the above.
9. In carrying out his breeding studies, Mendel examined characters that had which of the following properties? They were controlled by loci that were (or behaved as if they were) on different chromosomes.
It was possible to isolate true-breeding varieties for each trait.
The traits varied in an either-or fashion.
The characters each were controlled by a single gene.
All of the above.
10. Homologous pairs of chromosomes often _____. carry different genes for different traits
differ in length
contain different alleles
are not both present in diploid somatic cells
are paired up in the G2 phase of the cell cycle
11. Homologous pairs of chromosomes often _____. carry different genes for different traits
differ in length
contain different alleles
are not both present in diploid somatic cells
are paired up in the G2 phase of the cell cycle
12. A red bull is crossed with a white cow and all of the offspring are roan, an intermediate color that is caused by the presence of both red and white hairs. This is an example of genes that are _____. nonhomologous
epistatic
codominant
polygenic
completely dominant
13. A red bull is crossed with a white cow and all of the offspring are roan, an intermediate color that is caused by the presence of both red and white hairs. This is an example of genes that are _____. nonhomologous
epistatic
codominant
polygenic
completely dominant
14. A man who has type B blood and a woman who has type A blood could have children of which of the following phenotypes? A or B only
AB only
AB or O
A, B, or O
A, B, AB, or O
15. A man who has type B blood and a woman who has type A blood could have children of which of the following phenotypes? A or B only
AB only
AB or O
A, B, or O
A, B, AB, or O
16. Which of the following matings cannot produce a child with blood type O? The letters refer to blood types (phenotypes). A x A
A x B
O x AB
O x O
none of the above
17. Which of the following matings cannot produce a child with blood type O? The letters refer to blood types (phenotypes). A x A
A x B
O x AB
O x O
none of the above
18. A single genetic locus that controls more than one trait is said to be _____. polygenic
epistatic
pleiotropic
autotrophic
somatic
19. A single genetic locus that controls more than one trait is said to be _____. polygenic
epistatic
pleiotropic
autotrophic
somatic
20. Tay-Sachs disease runs in Rebecca's family. On a family pedigree, she saw a shaded circle. This represented a _____. male with Tay-Sachs
female carrier
male carrier
female with Tay-Sachs
male of unknown genotype
21. Tay-Sachs disease runs in Rebecca's family. On a family pedigree, she saw a shaded circle. This represented a _____. male with Tay-Sachs
female carrier
male carrier
female with Tay-Sachs
male of unknown genotype
22. Tom's brother suffers from phenylketonuria (PKU), a recessive disorder. The brothers' parents do not have PKU. What are the chances that Tom, who is normal for this trait, is a carrier of PKU? 1/4
1/3
1/2
2/3
4/3
23. Tom's brother suffers from phenylketonuria (PKU), a recessive disorder. The brothers' parents do not have PKU. What are the chances that Tom, who is normal for this trait, is a carrier of PKU? 1/4
1/3
1/2
2/3
4/3
24. Cystic fibrosis, which is usually lethal before the age of reproduction, is a homozygous recessive trait. Why do cases continue to arise, even though people with the disease rarely live to reproduce? Because new mutations continually introduce this harmful condition into the population.
Because the harmful allele "hides" within heterozygous individuals, one-fourth of the offspring of two heterozygotes would be afflicted.
Because mosquitoes can transfer the disease from person to person.
Because people continue to make inappropriate lifestyle choices.
None of the above.
25. Cystic fibrosis, which is usually lethal before the age of reproduction, is a homozygous recessive trait. Why do cases continue to arise, even though people with the disease rarely live to reproduce? Because new mutations continually introduce this harmful condition into the population.
Because the harmful allele "hides" within heterozygous individuals, one-fourth of the offspring of two heterozygotes would be afflicted.
Because mosquitoes can transfer the disease from person to person.
Because people continue to make inappropriate lifestyle choices.
None of the above.
26. Huntington's disease is an example of a genetic disorder caused by _____. a lethal dominant allele that afflicts an individual later in life
a nonlethal dominant allele
a late-acting recessive allele
homozygous recessive alleles
multiple alleles
27. Huntington's disease is an example of a genetic disorder caused by _____. a lethal dominant allele that afflicts an individual later in life
a nonlethal dominant allele
a late-acting recessive allele
homozygous recessive alleles
multiple alleles
28. Chapter 15
