Question 1

Which of the following is not true concerning a population in equilibrium according to the Hardy-Weinberg rule?&#10;A) There is no migration into or out of the population&#10;B) Individuals of the population mate randomly&#10;C) The population size is very large&#10;D) Selection is favoring the dominant allele&#10;E) There is no mutation in the populations

Accepted Answer

According to the Hardy-Weinberg rule, selection should not be favoring any particular allele in the population. Instead, all alleles should have an equal chance of being passed on to the next generation. Therefore, choice D is not true in a population in equilibrium.

Question 2

If the allele frequency of the dominant allele is 0.4, what value is used for the term p2 in the equation p2 + 2pq + q2 = 1?&#10;A) 0.4&#10;B) 0.2&#10;C) 0.16&#10;D) 16

Accepted Answer

In the Hardy-Weinberg equation, p represents the frequency of the dominant allele, and q represents the frequency of the recessive allele. The term p^2 represents the frequency of the homozygous dominant genotype. If the frequency of the dominant allele (p) is 0.4, then p^2 = 0.4^2 = 0.16.

Question 3

In a given population of Drosophila, curly wings (c) is recessive to the wild-type condition of straight wings (c+). You isolate a population of 35 curly winged flies, 70 flies that are heterozygous for straight wings and 45 that are homozygous for straight wings. What is the frequency of alleles in this population?

A) 35% c; 45% c+
B) 46.7% c; 53.3% c+
C) 50% c; 50% c+
D) 55% c; 45% c+
E) The frequencies cannot be calculated from the provided information

B

Accepted Answer

To calculate the frequency of alleles in this population, we need to use the Hardy-Weinberg equation:

p^2 + 2pq + q^2 = 1

where:
p = frequency of the dominant allele (c+)
q = frequency of the recessive allele (c)

We can calculate the frequency of the recessive allele (q) by using the curly winged flies, which are homozygous recessive (c). So:

q^2 = 35/150
q^2 = 0.2333
q = 0.483

To find the frequency of the dominant allele (p), we can use the heterozygous flies, which have one copy of each allele:

2pq = 70/150
pq = 0.4667
p = 1 - q
p = 1 - 0.483
p = 0.517

So the frequency of alleles in this population is approximately 46.7% c (recessive allele) and 53.3% c+ (dominant allele), which corresponds to choice B.

Question 4

The inbreeding coefficient (F) tells us what about an individual?&#10;A) The probability that they are homozygous due to inheritance from a common ancestor&#10;B) Their genotype&#10;C) The probability of obtaining a certain allele from the gene pool

Accepted Answer

The inbreeding coefficient (F) represents the probability that two alleles in an individual will be identical by descent, i.e. inherited from a common ancestor. The coefficient ranges from 0 (no inbreeding) to 1 (complete inbreeding) and provides an estimate of the individual's homozygosity due to their ancestry. Therefore, choice A is the correct answer.

Question 5

The degree of relatedness of two members of a pedigree is calculated using ________.&#10;A) the calculation of average heterozygosity&#10;B) the Hardy-Weinberg rule&#10;C) the inbreeding coefficient&#10;D) the chi-square test

Accepted Answer

The inbreeding coefficient is used to calculate the degree of relatedness between two individuals in a pedigree. It measures the probability that two alleles at a particular locus in an individual are identical by descent, meaning they were inherited from a common ancestor. The higher the inbreeding coefficient, the more closely related the individuals are. Average heterozygosity, the Hardy-Weinberg rule, and the chi-square test are not used to calculate relatedness in a pedigree.

Question 6

The formula p2 + 2pq + q2 = 1 is associated with which of the following?&#10;A) Calculations of heterozygosity&#10;B) Hardy-Weinberg equilibrium&#10;C) Calculations of recombination frequencies&#10;D) Degrees of freedom

Accepted Answer

The formula p2 + 2pq + q2 = 1 is a mathematical representation of the Hardy-Weinberg equilibrium, which describes the genetic equilibrium in a population that is not undergoing evolutionary change. This equation relates the frequencies of different genotypes to the frequency of alleles in a population, assuming certain conditions are met (such as random mating, no mutation, no migration, etc.). This equation can be used to calculate the expected frequencies of different genotypes in a population, given the frequency of alleles, or to test whether a population is in Hardy-Weinberg equilibrium based on observed genotype frequencies.

Question 7

Migration of a random few individuals from one population to a new area to establish a new population is an example of ________&#10;A) Bottleneck effect&#10;B) Mutation&#10;C) Founder effect&#10;D) Selection

Accepted Answer

This scenario describes the founder effect, where a small group of individuals migrates and establishes a new population with reduced genetic diversity compared to the original population. The bottleneck effect refers to a drastic reduction in population size due to a catastrophic event, mutation is a random change in DNA that can lead to genetic diversity, and selection refers to the process of certain traits being favored for survival and reproduction.

Question 8

The characteristics of a given population over time are ________.&#10;A) Dynamic&#10;B) Static

Accepted Answer

Population characteristics are constantly changing with births, deaths, immigration, and emigration. Therefore, the characteristics of a given population over time are dynamic.

Question 9

In this equation p2 + 2pq + q2 = 1, what does the term 2pq represent?&#10;A) The genotype frequency of homozygous recessive individuals&#10;B) The genotype frequency of homozygous dominant individuals&#10;C) The genotype frequency of heterozygous individuals&#10;D) The sum of the phenotype frequencies in the population

Accepted Answer

2pq represents the genotype frequency of heterozygous individuals in a population according to the Hardy-Weinberg equilibrium equation. This means that the fraction of the population that carries one dominant and one recessive allele for a given trait is equal to 2pq. The other terms in the equation represent the frequencies of homozygous dominant (p^2) and homozygous recessive (q^2) genotypes.

Question 10

In humans, the gene for eye color is an example of a ________ trait.&#10;A) Monomorphic&#10;B) Polymorphic

Accepted Answer

Eye color is a polymorphic trait because there are multiple alleles that can determine the color of an individual's eyes (e.g. brown, blue, green, etc.). Monomorphic traits, on the other hand, only have one possible form or allele (e.g. having five fingers on each hand).

Question 11

A group of individuals from the same species that occupy the same region and can interbreed with one another is the definition of a ________.&#10;A) Species&#10;B) Population&#10;C) Race&#10;D) Community&#10;E) Kingdom

Accepted Answer

The answer of A group of individuals from the same...

Question 12

Which of the following types of selection favors the survival of individuals with the intermediate phenotype?&#10;A) Disruptive selection&#10;B) Stabilizing selection&#10;C) Directional selection

Accepted Answer

The answer of Which of the following types of selection...

Question 13

Most natural populations are in a state of equilibrium according to Hardy-Weinberg.

Accepted Answer

The answer of Most natural populations are in a state...

Question 14

Which of the following types of selection favors one extreme of a phenotypic distribution?&#10;A) Disruptive selection&#10;B) Stabilizing selection&#10;C) Directional selection

Accepted Answer

The answer of Which of the following types of selection...

Question 15

Which of the following factors would result in the allele frequency of a population not adding up to 1.0, as is the case in the Hardy-Weinberg rule?&#10;A) Genetic drift&#10;B) Inbreeding&#10;C) A population changing due to selection&#10;D) None of the answers, the allele frequencies must always equal 1.0

Accepted Answer

The answer of Which of the following factors would result...

Question 16

Genetic drift has a greater influence on ________ populations.&#10;A) Small&#10;B) Large&#10;C) It affects both equally

Accepted Answer

The answer of Genetic drift has a greater influence on...

Question 17

In a given population of Drosophila, curly wings (c) is recessive to the wild-type condition of straight wings (c+). You isolate a population of 35 curly winged flies, 70 flies that are heterozygous for straight wings and 45 that are homozygous for straight wings. What is the total number of alleles in the gene pool?

A) 2
B) 150
C) 230
D) 300
E) 140

Accepted Answer

The answer of In a given population of Drosophila, curly...

Question 18

Which of the following is true regarding a balanced polymorphism?&#10;A) The frequency of alleles is not changing over time&#10;B) The homozygous condition for the alleles is not advantageous to the organism&#10;C) An example in humans is sickle-cell anemia&#10;D) All of the answers are correct

Accepted Answer

The answer of Which of the following is true regarding...

Question 19

Which of the following will alter the frequency of alleles in the population the least?&#10;A) Mutation&#10;B) Natural selection&#10;C) Genetic drift&#10;D) Migration&#10;E) All of the answers are equal

Accepted Answer

The answer of Which of the following will alter the...

Question 20

If two individuals of a population, who vary in their phenotype, preferentially mate, it is called ________.&#10;A) Outbreeding&#10;B) Inbreeding&#10;C) Negative assortative mating&#10;D) Positive assortative mating

Accepted Answer

The answer of If two individuals of a population, who...

Question 21

Human society favors outbreeding, or the mating of individuals that are genetically unrelated.

Accepted Answer

The answer of Human society favors outbreeding, or the mating...

Question 22

The smallest difference in DNA sequence between a gene in two individuals is a single-nucleotide polymorphism (SNP).

Accepted Answer

The answer of The smallest difference in DNA sequence between...

Question 23

A gene that is found in less that 1% of a given population is called monomorphic.

Accepted Answer

The answer of A gene that is found in less...

Question 24

Migration is a key evolutionary mechanism by which microevolution occurs.

Accepted Answer

The answer of Migration is a key evolutionary mechanism by...

Question 25

The accumulation of new mutations in a population is usually a ________ factor against the fitness of the population.&#10;A) Negative&#10;B) Positive&#10;C) Neutral

Accepted Answer

The answer of The accumulation of new mutations in a...

Question 26

The measure of the reproductive success of a genotype is called Darwinian fitness.

Accepted Answer

The answer of The measure of the reproductive success of...

Question 27

The probability that a gene will be altered by a mutation is called the mutation rate.

Accepted Answer

The answer of The probability that a gene will be...

Question 28

The selection coefficient is the measure to which a phenotype is selected against.

Accepted Answer

The answer of The selection coefficient is the measure to...

Question 29

The prevalence of the allele for sickle cell anemia in some populations is an example of?&#10;A) Heterogeneous environments&#10;B) Balancing selection&#10;C) Inverted selection&#10;D) Non-Darwinian selection&#10;E) Nonrandom mating

Accepted Answer

The answer of The prevalence of the allele for sickle...

Question 30

The movement of alleles from one population to another is called population flow.

Accepted Answer

The answer of The movement of alleles from one population...

Question 31

Which of the following is NOT a characteristic by which a population is in equilibrium according to Hardy-Weinberg equation?&#10;A) The population is large.&#10;B) There is no migration into or out of the population.&#10;C) There is no selection against a given genotype.&#10;D) There is no mutation in the gene being studied.&#10;E) There is nonrandom mating

Accepted Answer

The answer of Which of the following is NOT a...

Question 32

In the calculation of Hardy-Weinberg equilibria in the context of nonrandom mating, random mating is represented by the factor f equal to 1.

Accepted Answer

The answer of In the calculation of Hardy-Weinberg equilibria in...

Question 33

Mutations are the only source of genetic variation in a population.

Accepted Answer

The answer of Mutations are the only source of genetic...

Question 34

A SNP would best be described as ________.&#10;A) A gene that comes in multiple different alleles&#10;B) A balanced polymorphism system&#10;C) A single nucleotide difference between two DNA sequences&#10;D) The most likely mutation to affect protein function

Accepted Answer

The answer of A SNP would best be described as...

Question 35

The allele pool is the sum of all of the alleles in a population.

Accepted Answer

The answer of The allele pool is the sum of...

Question 36

Which of the following is NOT a step to calculate a coefficient of inbreeding?&#10;A) Determine the mutation rate.&#10;B) Determine the total number of common ancestors.&#10;C) Determine the shortest inbreeding path between the individual and the common ancestor.&#10;D) Calculate the inbreeding path for each common ancestor.&#10;E) Place values in the inbreeding coefficient formula.

Accepted Answer

The answer of Which of the following is NOT a...

Question 37

Which type of selection would lead to two distinct phenotypes?&#10;A) Stabilizing selection&#10;B) Phenotype selection&#10;C) Fitness selection&#10;D) Disruptive selection&#10;E) Directional selection

Accepted Answer

The answer of Which type of selection would lead to...

Question 38

At equilibrium the allele and genotype frequencies of a population change over time.

Accepted Answer

The answer of At equilibrium the allele and genotype frequencies...

Question 39

Random genetic drift is due to chance events that alter the allele frequency in a population.

Accepted Answer

The answer of Random genetic drift is due to chance...

Question 40

New genetic variation in a population is a critical aspect of microevolution.

Accepted Answer

The answer of New genetic variation in a population is...

Question 41

Horizontal gene transfer between individuals in a population, while not a mutation, is a source of genetic variation.

Accepted Answer

The answer of Horizontal gene transfer between individuals in a...

Question 42

Horizontal gene transfer is limited to between prokaryotic bacteria of the same species.

Accepted Answer

The answer of Horizontal gene transfer is limited to between...

Question 43

You are preparing to perform DNA fingerprinting by PCR for the first time. Select the reagent that would result in complications in the interpretation of your results.&#10;A) PCR primers that anneal to the repetitive region of the microsatellites&#10;B) PCR primers that anneal to regions flanking the microsatellites&#10;C) Human DNA&#10;D) Taq polymerase

Accepted Answer

The answer of You are preparing to perform DNA fingerprinting...

Question 44

In a certain population, the frequency of allele A is 0.3 and the frequency of allele a is 0.7. The population inbreeds such that f = 0.1. What is the frequency of each genotype in the population?&#10;A) AA: 0.09, Aa: 0.42, aa: 0.49&#10;B) AA: 0.49, Aa: 0.42, aa: 0.09&#10;C) AA: 0.01, Aa: 0.90, aa: 0.09&#10;D) AA: 0.111, Aa: 0.378, aa: 0.511&#10;E) AA: 0.21, Aa: 0.42, aa: 0.37

Accepted Answer

The answer of In a certain population, the frequency of...

Question 45

In exon shuffling, the duplicated or rearranged exons appear as new domains in different genes.

Accepted Answer

The answer of In exon shuffling, the duplicated or rearranged...

Deck 27: Population Genetics