1) During an individual organism's lifetime, which of these is most
likely to help the organism respond properly to changes in its
environment?
A) microevolution
B) change in allele or gene
frequency
C) change in gene expression
D) change in
average heterozygosity
Answer: C
2) If, on average, 46% of the loci in a species' gene pool are
heterozygous, then the average homozygosity of the species should be
A) 23%.
B) 46%.
C) 54%.
D) There is not enough
information to say.
Answer: C
3) Which of these variables is likely to undergo the largest change
in value as the result of a mutation that introduces a brand-new
allele into a population's gene pool at a locus that had formerly been
fixed?
A) average heterozygosity
B) nucleotide variability
C) geographic variability
D) average number of loci
Answer: A
4) Which statement about the beak size of finches on the island of
Daphne Major during prolonged drought is true?
A) Each bird
evolved a deeper, stronger beak as the drought persisted.
B)
Each bird's survival was strongly influenced by the depth and strength
of its beak as the drought persisted.
C) Each bird that survived
the drought produced only offspring with deeper, stronger beaks than
seen in the previous generation.
D) The frequency of the
strong-beak alleles increased in each bird as the drought persisted.
Answer: B
5) Although each of the following has a better chance of influencing
gene frequencies in small populations than in large populations, which
one most consistently requires a small population as a precondition
for its occurrence?
A) mutation
B) nonrandom mating
C) genetic drift
D) natural selection
E) gene flow
Answer: C
6) In modern terminology, diversity is understood to be a result of
genetic variation. Which of the following is a recognized source of
variation for evolution?
A) mistakes in translation of
structural genes
B) mistakes in protein folding
C) rampant
changes to the dictionary of the genetic code
D) binary fission
E) recombination by crossing over in meiosis
Answer: E
7) A trend toward the decrease in the size of plants on the slopes of
mountains as altitudes increase is an example of
A) a cline.
B) a bottleneck.
C) relative fitness.
D) genetic
drift.
E) geographic variation.
Answer: A
8) The higher the proportion of loci that are "fixed" in a
population, the lower is that population's
A) nucleotide
variability only.
B) genetic polyploidy only.
C) average
heterozygosity only.
D) nucleotide variability, average
heterozygosity, and genetic polyploidy.
E) nucleotide
variability and average heterozygosity only.
Answer: E
9) Which statement about variation is true?
A) All phenotypic
variation is the result of genotypic variation.
B) All genetic
variation produces phenotypic variation.
C) All nucleotide
variability results in neutral variation.
D) All new alleles are
the result of nucleotide variability.
E) All geographic
variation results from the existence of clines.
Answer: D
10) Rank the following one-base point mutations (from most likely to
least likely) with respect to their likelihood of affecting the
structure of the corresponding polypeptide:
1. insertion
mutation deep within an intron
2. substitution mutation at the
third position of an exonic codon
3. substitution mutation at
the second position of an exonic codon
4. deletion mutation
within the first exon of the gene
A) 1, 2, 3, 4
B)
4, 3, 2, 1
C) 2, 1, 4, 3
D) 3, 1, 4, 2
E) 2, 3, 1, 4
Answer: B
11) Most invertebrates have a cluster of ten similar Hox genes, all
located on the same chromosome. Most vertebrates have four such
clusters of Hox genes, located on four nonhomologous chromosomes. The
process that could have potentially contributed to the cluster's
presence on more than one chromosome was ________.
A)
binary fission
B) translation
C) gene duplication
D) nondisjunction
E) transcription
Answer: D
12) Which of the following is a true statement concerning genetic
variation?
A) It is created by the direct action of natural
selection.
B) It arises in response to changes in the
environment.
C) It must be present in a population before
natural selection can act upon the population.
D) It tends to be
reduced by the processes involved when diploid organisms produce
gametes.
E) A population that has a higher average
heterozygosity has less genetic variation than one with a lower
average heterozygosity.
Answer: C
13) How many of these statements regarding populations are true?
1. Mature males and females of a population can interbreed with
each other.
2. Populations are sometimes geographically isolated
from other populations.
3. Biological species are made up of
populations.
4. Members of a population tend to be genetically
more similar to each other than to members of other populations.
5. Populations have genomes, but not gene pools.
A) Only one of these statements is true.
B) Two of these
statements are true.
C) Three of these statements are true.
D) Four of these statements are true.
E) All five of these
statements are true.
Answer: D
14) Whenever diploid populations are in Hardy-Weinberg equilibrium at
a particular locus
A) the allele's frequency should not change
from one generation to the next, but its representation in homozygous
and heterozygous genotypes may change.
B) natural selection,
gene flow, and genetic drift are acting equally to change an allele's
frequency.
C) this means that, at this locus, two alleles are
present in equal proportions.
D) the population itself is not
evolving, but individuals within the population may be evolving.
Answer: A
15) In the formula for determining a population's genotype
frequencies, the 2 in the term 2pq is necessary because
A) the
population is diploid.
B) heterozygotes can come about in two
ways.
C) the population is doubling in number.
D)
heterozygotes have two alleles.
Answer: B
16) In the formula for determining a population’s genotype
frequencies, the pq in the term 2pq is necessary because
A) the
population is diploid.
B) heterozygotes can come about in two
ways.
C) the population is doubling in number.
D)
heterozygotes have two alleles.
Answer: D
17) Hardy-Weinberg equilibrium must occur in populations wherein
A) an allele remains fixed.
B) no genetic variation
exists.
C) natural selection is not operating.
D) All
three of the responses above are correct.
E) Only two of the
responses above are correct.
Answer: E
18) In a Hardy-Weinberg population with two alleles, A and a, that
are in equilibrium, the frequency of the allele a is 0.3. What is the
percentage of the population that is homozygous for this allele?
A) 0.09
B) 0.49
C) 0.9
D) 9.0
E) 49.0
Answer: D
19) In a Hardy-Weinberg population with two alleles, A and a, that
are in equilibrium, the frequency of allele a is 0.2. What is the
percentage of the population that is heterozygous for this allele?
A) 0.2
B) 2.0
C) 4.0
D) 16.0
E) 32.0
Answer: E
20) In a Hardy-Weinberg population with two alleles, A and a, that
are in equilibrium, the frequency of allele a is 0.1. What is the
frequency of individuals with AA genotype?
A) 0.20
B) 0.32
C) 0.42
D) 0.81
E) Genotype frequency cannot be
determined from the information provided.
Answer: D
21) You sample a population of butterflies and find that 56% are
heterozygous at a particular locus. What should be the frequency of
the recessive allele in this population?
A) 0.07
B) 0.08
C) 0.09
D) 0.70
E) Allele frequency cannot be
determined from this information.
Answer: E
22) In peas, a gene controls flower color such that R = purple and r
= white. In an isolated pea patch, there are 36 purple-flowering
plants and 64 white-flowering plants. Assuming Hardy-Weinberg
equilibrium, what is the value of q for this population?
A) 0.36
B) 0.64
C) 0.75
D) 0.80
Answer: D
23) Evolution
A) must happen, due to organisms’ innate desire
to survive.
B) must happen whenever a population is not
well-adapted to its environment.
C) can happen whenever any of
the conditions for Hardy-Weinberg equilibrium are not met.
D)
requires the operation of natural selection.
E) requires that
populations become better suited to their environments.
Answer: C
24) Over time, the movement of people on Earth has steadily
increased. This has altered the course of human evolution by
increasing
A) nonrandom mating.
B) geographic isolation.
C) genetic drift.
D) gene flow.
Answer: D
25) Swine are vulnerable to infection by bird flu virus and human flu
virus, which can both be present in an individual pig at the same
time. When this occurs, it is possible for genes from bird flu virus
and human flu virus to be combined, thereby producing a genetically
distinctive virus, which can subsequently cause widespread disease.
The production of new types of flu virus in the manner
described above is most similar to the phenomenon of
A)
bottleneck effect.
B) founder effect.
C) natural
selection.
D) gene flow.
E) sexual selection.
Answer: D
26) If the original finches that had been blown over to the Galápagos
from South America had already been genetically different from the
parental population of South American finches, even before adapting to
the Galápagos, this would have been an example of
A) genetic
drift.
B) bottleneck effect.
C) founder effect.
D)
all three of these.
E) both the first and third of these.
Answer: E
27) What is true of natural selection?
A) Natural selection is
a random process.
B) Natural selection creates beneficial
mutations.
C) The only way to eliminate harmful mutations is
through natural selection.
D) Mutations occur at random; natural
selection can preserve and distribute beneficial mutations.
E)
Mutations occur when directed by the good of the species; natural
selection edits out harmful mutations and causes populations to adapt
to the beneficial mutations.
Answer: D
28) The restriction enzymes of bacteria protect the bacteria from
successful attack by bacteriophages, whose genomes can be degraded by
the restriction enzymes. The bacterial genomes are not vulnerable to
these restriction enzymes because bacterial DNA is methylated. This
situation selects for bacteriophages whose genomes are also
methylated. As new strains of resistant bacteriophages become more
prevalent, this in turn selects for bacteria whose genomes are not
methylated and whose restriction enzymes instead degrade methylated
DNA. The outcome of the conflict between bacteria and bacteriophage at
any point in time results from
A) frequency-dependent selection.
B) evolutionary imbalance.
C) heterozygote advantage.
D) neutral variation.
E) genetic variation being preserved
by diploidy.
Answer: A
29) The restriction enzymes of bacteria protect the bacteria from
successful attack by bacteriophages, whose genomes can be degraded by
the restriction enzymes. The bacterial genomes are not vulnerable to
these restriction enzymes because bacterial DNA is methylated. This
situation selects for bacteriophages whose genomes are also
methylated. As new strains of resistant bacteriophages become more
prevalent, this in turn selects for bacteria whose genomes are not
methylated and whose restriction enzymes instead degrade methylated
DNA. Over the course of evolutionary time, what should occur?
A)
Methylated DNA should become fixed in the gene pools of bacterial
species.
B) Nonmethylated DNA should become fixed in the gene
pools of bacteriophages.
C) Methylated DNA should become fixed
in the gene pools of bacteriophages.
D) Methylated and
nonmethylated strains should be maintained among both bacteria and
bacteriophages, with ratios that vary over time.
E) Both the
first and second responses are correct.
Answer: D
30) Arrange the following from most general (i.e., most inclusive) to
most specific (i.e., least inclusive):
1. natural selection
2. microevolution
3. intrasexual selection
4.
evolution
5. sexual selection
A) 4, 1, 2, 3, 5
B) 4, 2, 1, 3, 5
C) 4, 2, 1, 5, 3
D) 1, 4, 2, 5, 3
E) 1, 2, 4, 5, 3
Answer: C
31) Sexual dimorphism is most often a result of
A) pansexual
selection.
B) stabilizing selection.
C) intrasexual
selection.
D) intersexual selection.
E) artificial selection.
Answer: D
32) In the wild, male house finches (Carpodus mexicanus) vary
considerably in the amount of red pigmentation in their head and
throat feathers, with colors ranging from pale yellow to bright red.
These colors come from carotenoid pigments that are found in the
birds' diets; no vertebrates are known to synthesize carotenoid
pigments. Thus, the brighter red the male's feathers are, the more
successful he has been at acquiring the red carotenoid pigment by his
food-gathering efforts (all other factors being equal). During
breeding season, one should expect female house finches to prefer to
mate with males with the brightest red feathers. Which of the
following is true of this situation?
A) Alleles that promote
more efficient acquisition of carotenoid-containing foods by males
should increase over the course of generations.
B) Alleles that
promote more effective deposition of carotenoid pigments in the
feathers of males should increase over the course of generations.
C) There should be directional selection for bright red feathers
in males.
D) Three of the statements are correct.
E) Two
of the statements are correct.
Answer: D
33) During breeding season, one should expect female house finches to
prefer to mate with males with the brightest red feathers. Which of
the following terms are appropriately applied to this situation?
A) sexual selection
B) mate choice
C) intersexual
selection
D) Three of the responses are correct.
E) Two of
the responses are correct.
Answer: D
34) Adult male humans generally have deeper voices than do adult
female humans, which is the direct result of higher levels of
testosterone causing growth of the larynx. If the fossil records of
apes and humans alike show a trend toward decreasing larynx size in
adult females and increasing larynx size in adult males, then
A)
sexual dimorphism was developing over time in these species.
B)
intrasexual selection seems to have occurred.
C) stabilizing
selection was occurring in these species concerning larynx size.
D) selection was acting more directly upon genotype than upon phenotype.
Answer: A
35) Adult male humans generally have deeper voices than do adult
female humans, which is the direct result of higher levels of
testosterone causing growth of the larynx. If one excludes the
involvement of gender in the situation, then the pattern that is
apparent in the fossil record is most similar to one that should be
expected from
A) pansexual selection.
B) directional
selection.
C) disruptive selection.
D) stabilizing
selection.
E) asexual selection.
Answer: C
36) Which of the following statements best summarizes evolution as it
is viewed today?
A) It represents the result of selection for
acquired characteristics.
B) It is synonymous with the process
of gene flow.
C) It is the descent of humans from the
present-day great apes.
D) It is the differential survival and
reproduction of the most-fit phenotypes.
Answer: D
37) Which of the following is most likely to produce an African
butterfly species in the wild whose members have one of two strikingly
different color patterns?
A) artificial selection
B)
directional selection
C) stabilizing selection
D)
disruptive selection
E) sexual selection
Answer: D
38) Most Swiss starlings produce four to five eggs in each clutch.
Starlings producing fewer, or more, than this have reduced fitness.
Which of the following terms best describes this situation?
A)
artificial selection
B) directional selection
C)
stabilizing selection
D) disruptive selection
E) sexual selection
Answer: C
39) The recessive allele that causes phenylketonuria (PKU) is
harmful, except when an infant's diet lacks the amino acid
phenylalanine. What maintains the presence of this harmful allele in a
population's gene pool?
A) heterozygote advantage
B)
stabilizing selection
C) diploidy
D) balancing selection
Answer: C
40) Heterozygote advantage should be most closely linked to which of
the following?
A) sexual selection
B) stabilizing
selection
C) random selection
D) directional selection
E) disruptive selection
Answer: B
41) In seedcracker finches from Cameroon, small- and large-billed
birds specialize in cracking soft and hard seeds, respectively. If
long-term climatic change resulted in all seeds becoming hard, what
type of selection would then operate on the finch population?
A)
disruptive selection
B) directional selection
C)
stabilizing selection
D) No selection would operate because the
population is in Hardy-Weinberg equilibrium.
Answer: B
42) When imbalances occur in the sex ratio of sexual species that
have two sexes (i.e., other than a 50:50 ratio), the members of the
minority sex often receive a greater proportion of care and resources
from parents than do the offspring of the majority sex. This is most
clearly an example of
A) sexual selection.
B) disruptive
selection.
C) balancing selection.
D) stabilizing
selection.
E) frequency-dependent selection.
Answer: E
43) The same gene that causes various coat patterns in wild and
domesticated cats also causes the cross-eyed condition in these cats,
the cross-eyed condition being slightly maladaptive. In a hypothetical
environment, the coat pattern that is associated with crossed eyes is
highly adaptive, with the result that both the coat pattern and the
cross-eyed condition increase in a feline population over time. Which
statement is supported by these observations?
A) Evolution is
progressive and tends toward a more perfect population.
B)
Phenotype is often the result of compromise.
C) Natural
selection reduces the frequency of maladaptive genes in populations
over the course of time.
D) Polygenic inheritance is generally
maladaptive, and should become less common in future generations.
E) In all environments, coat pattern is a more important
survival factor than is eye-muscle tone.
Answer: B
44) A proficient engineer can easily design skeletal structures that
are more functional than those currently found in the forelimbs of
such diverse mammals as horses, whales, and bats. The actual forelimbs
of these mammals do not seem to be optimally arranged because
A)
natural selection has not had sufficient time to create the optimal
design in each case, but will do so given enough time.
B) in
many cases, phenotype is not merely determined by genotype, but by the
environment as well.
C) though we may not consider the fit
between the current skeletal arrangements and their functions
excellent, we should not doubt that natural selection ultimately
produces the best design.
D) natural selection is generally
limited to modifying structures that were present in previous
generations and in previous species.
Answer: D
45) There are those who claim that the theory of evolution cannot be
true because the apes, which are supposed to be closely related to
humans, do not likewise share the same large brains, capacity for
complicated speech, and tool-making capability. They reason that if
these features are generally beneficial, then the apes should have
evolved them as well. Which of these provides the best argument
against this misconception?
A) Advantageous alleles do not arise
on demand.
B) A population's evolution is limited by historical
constraints.
C) Adaptations are often compromises.
D)
Evolution can be influenced by environmental change.
Answer: A
46) Blue light is that portion of the visible spectrum that
penetrates the deepest into bodies of water. Ultraviolet (UV) light,
though, can penetrate even deeper. A gene within a population of
marine fish that inhabits depths from 500 m to 1,000 m has an allele
for a photopigment that is sensitive to UV light, and another allele
for a photopigment that is sensitive to blue light. Which of the
following graphs best depicts the predicted distribution of these
alleles within a population if the fish that carry these alleles
prefer to locate themselves where they can see best? (SEE IMAGE)
A) A
B) B
C) C
D) D
Answer: B
47) Anopheles mosquitoes, which carry the malaria parasite, cannot
live above elevations of 5,900 feet. In addition, oxygen availability
decreases with higher altitude. Consider a hypothetical human
population that is adapted to life on the slopes of Mt. Kilimanjaro in
Tanzania, a country in equatorial Africa. Mt. Kilimanjaro's base is
about 2,600 feet above sea level and its peak is 19,341 feet above sea
level. If the incidence of the sickle-cell allele in the population is
plotted against altitude (feet above sea level), which of the
following distributions is most likely, assuming little migration of
people up or down the mountain?
A. SEE IMAGE
B.
SEE IMAGE
C. SEE IMAGE
D. SEE IMAGE
Answer: B
48) If global warming permits mosquitoes to live at higher altitudes
than they currently do, then in which direction should the entire plot
in the correct distribution below be shifted?
A) to the
right
B) to the left
C) upward
D) downward
Answer: A
In a very large population, a quantitative trait has the following
distribution pattern:
49) What is true of the trait whose
frequency distribution in a large population appears in the previous
figure? It has probably undergone
A) directional selection.
B) stabilizing selection.
C) disruptive selection.
D) normal selection.
Answer: B
50) If the curve in the previous figure shifts to the left or to the
right, there is no gene flow, and the population size consequently
increases over successive generations. Which of the following is (are)
probably occurring?
1. immigration or emigration
2. directional selection
3. adaptation
4. genetic
drift
5. disruptive selection
A) 1 only
B)
4 only
C) 2 and 3
D) 4 and 5
E) 1, 2, and 3
Answer: C
HIV's genome of RNA includes the code for reverse transcriptase (RT),
an enzyme that acts early in infection to synthesize a DNA genome off
of an RNA template. The HIV genome also codes for protease (PR), an
enzyme that acts later in infection by cutting long viral polyproteins
into smaller, functional proteins. Both RT and PR represent potential
targets for antiretroviral drugs. Drugs called nucleoside analogs (NA)
act against RT, whereas drugs called protease inhibitors (PI) act
against PR.
51) Which of the following represents the
treatment option most likely to avoid the production of
drug-resistant HIV (assuming no drug interactions or side effects)?
A) using a series of NAs, one at a time, and changed about once
a week
B) using a single PI, but slowly increasing the dosage
over the course of a week
C) using high doses of NA and a PI at
the same time for a period not to exceed one day
D) using
moderate doses of NA and two different PIs at the same time for
several months
Answer: D
HIV's genome of RNA includes the code for reverse transcriptase (RT),
an enzyme that acts early in infection to synthesize a DNA genome off
of an RNA template. The HIV genome also codes for protease (PR), an
enzyme that acts later in infection by cutting long viral polyproteins
into smaller, functional proteins. Both RT and PR represent potential
targets for antiretroviral drugs. Drugs called nucleoside analogs (NA)
act against RT, whereas drugs called protease inhibitors (PI) act
against PR.
52) Within the body of an HIV-infected
individual who is being treated with a single NA, and whose HIV
particles are currently vulnerable to this NA, which of these
situations can increase the virus' relative fitness?
1.
mutations resulting in RTs with decreased rates of nucleotide
mismatch
2. mutations resulting in RTs with increased rates of
nucleotide mismatch
3. mutations resulting in RTs that have
proofreading capability
A) 1 only
B) 2 only
C) 3
only
D) 1 and 3
E) 2 and 3
Answer: B
HIV's genome of RNA includes the code for reverse transcriptase (RT),
an enzyme that acts early in infection to synthesize a DNA genome off
of an RNA template. The HIV genome also codes for protease (PR), an
enzyme that acts later in infection by cutting long viral polyproteins
into smaller, functional proteins. Both RT and PR represent potential
targets for antiretroviral drugs. Drugs called nucleoside analogs (NA)
act against RT, whereas drugs called protease inhibitors (PI) act
against PR.
53) HIV has nine genes in its RNA genome.
Every HIV particle contains two RNA molecules, and each molecule
contains all nine genes. If, for some reason, the two RNA molecules
within a single HIV particle do not have identical sequences, then
which of these terms can be applied due to the existence of the
nonidentical regions?
A) homozygous
B) gene variability
C) nucleotide variability
D) average heterozygosity
E) All but one of the responses are correct.
Answer: E
HIV's genome of RNA includes the code for reverse transcriptase (RT),
an enzyme that acts early in infection to synthesize a DNA genome off
of an RNA template. The HIV genome also codes for protease (PR), an
enzyme that acts later in infection by cutting long viral polyproteins
into smaller, functional proteins. Both RT and PR represent potential
targets for antiretroviral drugs. Drugs called nucleoside analogs (NA)
act against RT, whereas drugs called protease inhibitors (PI) act
against PR.
54) Every HIV particle contains two RNA
molecules. If two genes from one RNA molecule become detached and
then, as a unit, get attached to one end of the other RNA molecule
within a single HIV particle, which of these is true?
A) There
are now fewer genes within the viral particle.
B) There are now
more genes within the viral particle.
C) A point substitution
mutation has occurred in the retroviral genome.
D) The
retroviral equivalent of crossing over has occurred, no doubt
resulting in a heightened positive effect.
E) One of the RNA
molecules has experienced gene duplication as the result of translocation.
Answer: E
HIV's genome of RNA includes the code for reverse transcriptase (RT),
an enzyme that acts early in infection to synthesize a DNA genome off
of an RNA template. The HIV genome also codes for protease (PR), an
enzyme that acts later in infection by cutting long viral polyproteins
into smaller, functional proteins. Both RT and PR represent potential
targets for antiretroviral drugs. Drugs called nucleoside analogs (NA)
act against RT, whereas drugs called protease inhibitors (PI) act
against PR.
55) In a hypothetical population's gene
pool, an autosomal gene, which had previously been fixed, undergoes a
mutation that introduces a new allele, one inherited according to
incomplete dominance. Natural selection then causes stabilizing
selection at this locus. Consequently, what should happen over the
course of many generations?
A) The proportions of both types of
homozygote should decrease.
B) The proportion of the population
that is heterozygous at this locus should remain constant.
C)
The population's average heterozygosity should decrease.
D) The
two homozygotes should decrease at different rates.
Answer: A
A large population of laboratory animals has been allowed to breed
randomly for a number of generations. After several generations, 25%
of the animals display a recessive trait (aa), the same percentage as
at the beginning of the breeding program. The rest of the animals show
the dominant phenotype, with heterozygotes indistinguishable from the
homozygous dominants.
56) What is the most reasonable
conclusion that can be drawn from the fact that the frequency of the
recessive trait (aa) has not changed over time?
A) The
population is undergoing genetic drift.
B) The two phenotypes
are about equally adaptive under laboratory conditions.
C) The
genotype AA is lethal.
D) There has been a high rate of
mutation of allele A to allele a.
E) There has been sexual
selection favoring allele a.
Answer: B
A large population of laboratory animals has been allowed to breed
randomly for a number of generations. After several generations, 25%
of the animals display a recessive trait (aa), the same percentage as
at the beginning of the breeding program. The rest of the animals show
the dominant phenotype, with heterozygotes indistinguishable from the
homozygous dominants.
57) What is the estimated
frequency of allele A in the gene pool?
A) 0.25
B) 0.50
C) 0.75
Answer: B
A large population of laboratory animals has been allowed to breed
randomly for a number of generations. After several generations, 25%
of the animals display a recessive trait (aa), the same percentage as
at the beginning of the breeding program. The rest of the animals show
the dominant phenotype, with heterozygotes indistinguishable from the
homozygous dominants.
58) What proportion of the
population is probably heterozygous (Aa) for this trait?
A) 0.05
B) 0.25
C) 0.50
D) 0.75
Answer: C
You are studying three populations of birds. Population A has ten
birds, of which one is brown (a recessive trait) and nine are red.
Population B has 100 birds, of which ten are brown. Population C has
30 birds, and three of them are brown.
59) In which
population would it be least likely that an accident would
significantly alter the frequency of the brown allele?
A)
population A
B) population B
C) population C
D)
They are all the same.
E) It is impossible to tell from the
information given.
Answer: B
You are studying three populations of birds. Population A has ten
birds, of which one is brown (a recessive trait) and nine are red.
Population B has 100 birds, of which ten are brown. Population C has
30 birds, and three of them are brown.
60) Which
population is most likely to be subject to the bottleneck effect?
A) population A
B) population B
C) population C
D) They are all equally likely.
E) It is impossible to
tell from the information given.
Answer: A
In those parts of equatorial Africa where the malaria parasite is
most common, the sickle-cell allele constitutes 20% of the β
hemoglobin alleles in the human gene pool.
61) What
should be the proportion of heterozygous individuals in populations
that live here?
A) 0.04
B) 0.16
C) 0.20
D)
0.32
E) 0.80
Answer: D
In those parts of equatorial Africa where the malaria parasite is
most common, the sickle-cell allele constitutes 20% of the β
hemoglobin alleles in the human gene pool.
62) If the
sickle-cell allele is recessive, what proportion of the population
should be susceptible to sickle-cell anemia under typical conditions?
A) 0.04
B) 0.16
C) 0.20
D) 0.32
E) 0.80
Answer: A
In those parts of equatorial Africa where the malaria parasite is
most common, the sickle-cell allele constitutes 20% of the β
hemoglobin alleles in the human gene pool.
63) In the
United States, the parasite that causes malaria is not present, but
African-Americans whose ancestors were from equatorial Africa are
present. What should be happening to the sickle-cell allele in the
United States, and what should be happening to it in equatorial
Africa?
A) stabilizing selection; disruptive selection
B)
disruptive selection; stabilizing selection
C) disruptive
selection; directional selection
D) directional selection;
disruptive selection
E) directional selection; stabilizing selection
Answer: E
In those parts of equatorial Africa where the malaria parasite is
most common, the sickle-cell allele constitutes 20% of the β
hemoglobin alleles in the human gene pool.
64) With
respect to the sickle-cell allele, what should be true of the β
hemoglobin locus in U.S. populations of African-Americans whose
ancestors were from equatorial Africa?
1. The average
heterozygosity at this locus should be decreasing over time.
2.
There is an increasing heterozygote advantage at this locus.
3.
Diploidy is helping to preserve the sickle-cell allele at this locus.
4. Frequency-dependent selection is helping to preserve the
sickle-cell allele at this locus.
A) 1 only
B) 1
and 3
C) 2 and 3
D) 1, 2, and 3
E) 1, 2, and 4
Answer: B
In those parts of equatorial Africa where the malaria parasite is
most common, the sickle-cell allele constitutes 20% of the β
hemoglobin alleles in the human gene pool.
65)
Considering the overall human population of the U.S. mainland at the
time when the slave trade brought large numbers of people from
equatorial Africa, what was primarily acting to change the frequency
of the sickle-cell allele in the overall U.S. population?
A)
natural selection
B) gene flow
C) genetic drift
D)
founder effect
E) Two of the responses are correct.
Answer: B
In those parts of equatorial Africa where the malaria parasite is
most common, the sickle-cell allele constitutes 20% of the β
hemoglobin alleles in the human gene pool.
66) The
sickle-cell allele is pleiotropic (i.e., it affects more than one
phenotypic trait). Specifically, this allele affects oxygen delivery
to tissues and affects one's susceptibility to malaria. Under
conditions of low atmospheric oxygen availability, individuals
heterozygous for this allele can experience life-threatening
sickle-cell "crises." Such individuals remain less
susceptible to malaria. Thus, pleiotropic genes/alleles such as this
can help explain why
A) new advantageous alleles do not arise on
demand.
B) evolution is limited by historical constraints.
C) adaptations are often compromises.
D) chance events can
affect the evolutionary history of populations.
Answer: C
In the year 2500, five male space colonists and five female space
colonists (all unrelated to each other) settle on an uninhabited
Earthlike planet in the Andromeda galaxy. The colonists and their
offspring randomly mate for generations. All ten of the original
colonists had free earlobes, and two were heterozygous for that trait.
The allele for free earlobes is dominant to the allele for attached
earlobes.
67) Which of these is closest to the allele
frequency in the founding population?
A) 0.1 a, 0.9 A
B)
0.2 a, 0.8 A
C) 0.5 a, 0.5 A
D) 0.8 a, 0.2 A
E) 0.4
a, 0.6 A
Answer: A
In the year 2500, five male space colonists and five female space
colonists (all unrelated to each other) settle on an uninhabited
Earthlike planet in the Andromeda galaxy. The colonists and their
offspring randomly mate for generations. All ten of the original
colonists had free earlobes, and two were heterozygous for that trait.
The allele for free earlobes is dominant to the allele for attached
earlobes.
68) If one assumes that Hardy-Weinberg
equilibrium applies to the population of colonists on this planet,
about how many people will have attached earlobes when the planet's
population reaches 10,000?
A) 100
B) 400
C) 800
D) 1,000
E) 10,000
Answer: A
In the year 2500, five male space colonists and five female space
colonists (all unrelated to each other) settle on an uninhabited
Earthlike planet in the Andromeda galaxy. The colonists and their
offspring randomly mate for generations. All ten of the original
colonists had free earlobes, and two were heterozygous for that trait.
The allele for free earlobes is dominant to the allele for attached
earlobes.
69) If four of the original colonists died
before they produced offspring, the ratios of genotypes could be
quite different in the subsequent generations. This would be an
example of
A) diploidy.
B) gene flow.
C) genetic
drift.
D) disruptive selection.
E) stabilizing selection.
Answer: C
70) You are maintaining a small population of fruit flies in the
laboratory by transferring the flies to a new culture bottle after
each generation. After several generations, you notice that the
viability of the flies has decreased greatly. Recognizing that small
population size is likely to be linked to decreased viability, the
best way to reverse this trend is to
A) cross your flies with
flies from another lab.
B) reduce the number of flies that you
transfer at each generation.
C) transfer only the largest flies.
D) change the temperature at which you rear the flies.
E)
shock the flies with a brief treatment of heat or cold to make them
more hardy.
Answer: A
71) The volcano is currently dormant, but in a hypothetical future
scenario, satellite cones at the base of Mt. Kilimanjaro spew
sulfurous gases and lava, destroying all life located between the base
and 6,000 feet above sea level. As a result of this catastrophe, how
should the frequency of the sickle-cell allele change in the remnant
human population that survives above 6,000 feet, and which phenomenon
accounts for this change in allele frequency?
A) decreases;
disruptive selection
B) increases; genetic drift
C)
decreases; gene flow
D) increases; nonrandom mating
E)
decreases; bottleneck effect
Answer: E
72) Swine are vulnerable to infection by bird flu virus and human flu
virus, which can both be present in an individual pig at the same
time. When this occurs, it is possible for genes from bird flu virus
and human flu virus to be combined. If the human flu virus contributes
a gene for Tamiflu resistance (Tamiflu is an antiviral drug) to the
new virus, and if the new virus is introduced to an environment
lacking Tamiflu, then what is most likely to occur?
A) The new
virus will maintain its Tamiflu-resistance gene, just in case of
future exposure to Tamiflu.
B) The Tamiflu-resistance gene will
undergo mutations that convert it into a gene that has a useful
function in this environment.
C) If the Tamiflu-resistance gene
involves a cost, it will experience directional selection leading to
reduction in its frequency.
D) If the Tamiflu-resistance gene
confers no benefit in the current environment, and has no cost, the
virus will become dormant until Tamiflu is present.
Answer: C
73) Natural selection changes allele frequencies because some
________ survive and reproduce more successfully than others.
A)
alleles
B) loci
C) gene pools
D) species
E) individuals
Answer: E
74) No two people are genetically identical, except for identical
twins. The main source of genetic variation among human individuals is
A) new mutations that occurred in the preceding generation.
B) genetic drift due to the small size of the population.
C) the reshuffling of alleles in sexual reproduction.
D)
geographic variation within the population.
E) environmental effects.
Answer: C
75) Sparrows with average-sized wings survive severe storms better
than those with longer or shorter wings, illustrating
A) the
bottleneck effect.
B) disruptive selection.
C)
frequency-dependent selection.
D) neutral variation.
E)
stabilizing selection.
Answer: E
76) If the nucleotide variability of a locus equals 0%, what is the
gene variability and number of alleles at that locus?
A) gene
variability = 0%; number of alleles = 0
B) gene variability =
0%; number of alleles = 1
C) gene variability = 0%; number of
alleles = 2
D) gene variability > 0%; number of alleles = 2
E) Without more information, gene variability and number of
alleles cannot be determined.
Answer: B
77) There are 40 individuals in population 1, all with genotype A1A1,
and there are 25 individuals in population 2, all with genotype A2A2.
Assume that these populations are located far from each other and that
their environmental conditions are very similar. Based on the
information given here, the observed genetic variation is most likely
an example of
A) genetic drift.
B) gene flow.
C)
disruptive selection.
D) discrete variation.
E)
directional selection.
Answer: A
78) A fruit fly population has a gene with two alleles, A1 and A2.
Tests show that 70% of the gametes produced in the population contain
the A1 allele. If the population is in Hardy-Weinberg equilibrium,
what proportion of the flies carry both A1 and A2?
A) 0.7
B) 0.49
C) 0.21
D) 0.42
E) 0.09
Answer: D