Below is a set of revision test questions along with detailed rationales based on
core concepts typically covered in a genetics course using Brooker’s "Genetics:
Analysis and Principles" as a guide. These questions are designed to help you
review key topics such as Mendelian genetics, non-Mendelian inheritance, gene
mapping, and molecular genetics. You can use these as practice tests to check
your understanding.
Revision Test Questions with Rationale
Question 1: Mendelian Monohybrid Cross
Question: In a classic monohybrid cross (e.g., crossing two heterozygous individuals for a single trait),
what are the expected genotype and phenotype ratios in the F₂ generation?
A. Genotype: 1:1; Phenotype: 1:1
B. Genotype: 1:2:1; Phenotype: 3:1
C. Genotype: 3:1; Phenotype: 1:2:1
D. Genotype: 2:1; Phenotype: 2:1
Rationale:
When two heterozygotes (Aa × Aa) are crossed, the Punnett square yields a genotype ratio of 1 AA : 2 Aa
: 1 aa. Since one allele is dominant, the phenotype ratio becomes 3 individuals displaying the dominant
trait to 1 individual showing the recessive trait. Therefore, the correct answer is B.
Question 2: Incomplete Dominance
Question: Which of the following best describes incomplete dominance?
A. The heterozygote shows a phenotype exactly intermediate between the two homozygotes.
B. The dominant allele completely masks the effect of the recessive allele.
C. Both alleles are expressed equally.
D. The phenotype is determined by multiple genes.
Rationale:
Incomplete dominance occurs when the heterozygote exhibits a phenotype that is intermediate
between the two homozygous phenotypes. This differs from the typical dominant-recessive relationship,
where the dominant allele masks the recessive one. The correct answer is A.
Question 3: Dihybrid Cross and Independent Assortment
Question: In a dihybrid cross between two individuals heterozygous for two independent traits (AaBb ×
AaBb), what is the expected phenotypic ratio in the F₂ generation?
A. 9:3:3:1
B. 1:2:1:2
, C. 3:1:1:3
D. 1:1:1:1
Rationale:
For two traits that assort independently, the phenotypic ratio among the offspring in a dihybrid cross is
classically 9:3:3:1. This results from the combination of two independent 3:1 ratios for each trait.
Therefore, the correct answer is A.
Question 4: Gene Linkage and Recombination
Question: Which statement about linked genes is true?
A. Linked genes assort independently during meiosis.
B. The closer two genes are on a chromosome, the lower the probability that a crossing over event will
occur between them.
C. Crossing over always separates linked genes.
D. Linkage is only observed in prokaryotic organisms.
Rationale:
Linked genes are located near each other on the same chromosome, and the closer they are, the less
likely a crossover will occur between them. This results in them being inherited together more
frequently than if they assorted independently. The correct answer is B.
Question 5: The Role of the Promoter in Transcription
Question: What is the primary function of the promoter region in gene transcription?
A. To bind RNA polymerase and initiate transcription
B. To terminate transcription
C. To splice introns from the pre-mRNA
D. To code for the amino acid sequence of a protein
Rationale:
The promoter is a sequence of DNA that signals the RNA polymerase to bind and start transcribing the
downstream gene. It is crucial for determining where transcription begins. Thus, the correct answer is A.
Question 6: DNA Replication Fidelity
Question: Which mechanism is most critical for ensuring high fidelity during DNA replication?
A. The proofreading activity of DNA polymerase
B. The structure of the double helix
C. The use of RNA primers
D. The packaging of DNA into chromosomes
Rationale:
DNA polymerases have proofreading abilities (3’→5’ exonuclease activity) that allow them to remove
core concepts typically covered in a genetics course using Brooker’s "Genetics:
Analysis and Principles" as a guide. These questions are designed to help you
review key topics such as Mendelian genetics, non-Mendelian inheritance, gene
mapping, and molecular genetics. You can use these as practice tests to check
your understanding.
Revision Test Questions with Rationale
Question 1: Mendelian Monohybrid Cross
Question: In a classic monohybrid cross (e.g., crossing two heterozygous individuals for a single trait),
what are the expected genotype and phenotype ratios in the F₂ generation?
A. Genotype: 1:1; Phenotype: 1:1
B. Genotype: 1:2:1; Phenotype: 3:1
C. Genotype: 3:1; Phenotype: 1:2:1
D. Genotype: 2:1; Phenotype: 2:1
Rationale:
When two heterozygotes (Aa × Aa) are crossed, the Punnett square yields a genotype ratio of 1 AA : 2 Aa
: 1 aa. Since one allele is dominant, the phenotype ratio becomes 3 individuals displaying the dominant
trait to 1 individual showing the recessive trait. Therefore, the correct answer is B.
Question 2: Incomplete Dominance
Question: Which of the following best describes incomplete dominance?
A. The heterozygote shows a phenotype exactly intermediate between the two homozygotes.
B. The dominant allele completely masks the effect of the recessive allele.
C. Both alleles are expressed equally.
D. The phenotype is determined by multiple genes.
Rationale:
Incomplete dominance occurs when the heterozygote exhibits a phenotype that is intermediate
between the two homozygous phenotypes. This differs from the typical dominant-recessive relationship,
where the dominant allele masks the recessive one. The correct answer is A.
Question 3: Dihybrid Cross and Independent Assortment
Question: In a dihybrid cross between two individuals heterozygous for two independent traits (AaBb ×
AaBb), what is the expected phenotypic ratio in the F₂ generation?
A. 9:3:3:1
B. 1:2:1:2
, C. 3:1:1:3
D. 1:1:1:1
Rationale:
For two traits that assort independently, the phenotypic ratio among the offspring in a dihybrid cross is
classically 9:3:3:1. This results from the combination of two independent 3:1 ratios for each trait.
Therefore, the correct answer is A.
Question 4: Gene Linkage and Recombination
Question: Which statement about linked genes is true?
A. Linked genes assort independently during meiosis.
B. The closer two genes are on a chromosome, the lower the probability that a crossing over event will
occur between them.
C. Crossing over always separates linked genes.
D. Linkage is only observed in prokaryotic organisms.
Rationale:
Linked genes are located near each other on the same chromosome, and the closer they are, the less
likely a crossover will occur between them. This results in them being inherited together more
frequently than if they assorted independently. The correct answer is B.
Question 5: The Role of the Promoter in Transcription
Question: What is the primary function of the promoter region in gene transcription?
A. To bind RNA polymerase and initiate transcription
B. To terminate transcription
C. To splice introns from the pre-mRNA
D. To code for the amino acid sequence of a protein
Rationale:
The promoter is a sequence of DNA that signals the RNA polymerase to bind and start transcribing the
downstream gene. It is crucial for determining where transcription begins. Thus, the correct answer is A.
Question 6: DNA Replication Fidelity
Question: Which mechanism is most critical for ensuring high fidelity during DNA replication?
A. The proofreading activity of DNA polymerase
B. The structure of the double helix
C. The use of RNA primers
D. The packaging of DNA into chromosomes
Rationale:
DNA polymerases have proofreading abilities (3’→5’ exonuclease activity) that allow them to remove
