Molecular Genetics
Gene Expression and Regulation
Genetic Inheritance
Genetic Variation and Mutations
Biotechnology and Genetic Engineering
100

When can DNA replication occur in a cell?

a) Only during mitosis 

b) Only during meiosis 

c) During both mitosis and meiosis 

d) Only during interphase



 c) During both mitosis and meiosis

100

When is the lac operon in E. coli activated? 

a) When lactose is absent and glucose is present

b) When lactose is present and glucose is absent 

c) When both lactose and glucose are present 

d) When neither lactose nor glucose is present

b) When lactose is present and glucose is absent

100

Genetic inheritance is when: 

a) Traits are acquired through environmental factors 

b) Traits are passed from parents to offspring through genes 

c) Individuals learn behaviours from their parents

 d) None of the above

b) Traits are passed from parents to offspring through genes

100

When is a mutation considered beneficial?

a) When it leads to a disease 

b) When it increases an organism's chance of survival and reproduction 

c) When it does not affect the organism 

d) When it decreases genetic variation


b) When it increases an organism's chance of survival and reproduction

100

How is CRISPR-Cas9 used in biotechnology?

a) To create identical copies of DNA 

b) To edit specific genes in organisms 

c) To sequence entire genomes

d) To study protein structures


b) To edit specific genes in organisms

200

What is DNA replication and when does it occur?

DNA replication is the process by which a cell makes an identical copy of its DNA. It occurs during the S phase of the cell cycle, before cell division.

200

When is a gene considered to be "expressed"?


- When it is transcribed into mRNA

200

When is an individual considered homozygous for a trait?

When they have two identical Alleles, dominant or recessive (TT, tt) 

200

How would a nonsense mutation affect a protein?


A nonsense mutation would affect a protein by introducing a premature stop codon that stops further translation.

200

How can gene editing techniques like CRISPR-Cas9 contribute to medical research?


Gene editing techniques like CRISPR-Cas9 can contribute to medical research by allowing scientists to create precise genetic modifications in model organisms, study the function of specific genes, and develop potential treatments for genetic disorders and diseases.

300

Why would a cell regulate gene expression?

a) To prevent DNA replication

b) To maintain a constant cell size 

c) To respond to changing environmental conditions

d) To increase the number of mutations


 c) To respond to changing environmental conditions

300

Who will bind to the promoter region to initiate transcription in eukaryotic cells?

a) Ribosomes

b) RNA polymerase 

c) DNA polymerase

d) tRNA


Answer: b) RNA polymerase

300

What might happen if a person inherits two dominant alleles for a trait?

a) They will exhibit the dominant phenotype 

b) They will exhibit the recessive phenotype 

c) They will be a carrier for the recessive trait 

d) They will not exhibit any phenotype


a) They will exhibit the dominant phenotype

300

Who will most likely be affected by a harmful recessive mutation?

a) Only individuals with one copy of the recessive allele 

b) Only individuals with two copies of the recessive allele 

c) Only males 

d) Only females


b) Only individuals with two copies of the recessive allele

300

Why might genetic engineering raise ethical concerns?

a) Due to its potential to improve crop yields 

b) Due to its use in medical research 

c) Due to potential environmental impacts 

d) Due to concerns about altering natural organisms


d) Due to concerns about altering natural organisms

400

Who would benefit from understanding molecular genetics principles in the medical field?

Medical researchers, doctors, and genetic counsellors would benefit from understanding molecular genetics principles to diagnose, treat, and prevent genetic disorders, as well as to develop personalized medicine approaches.

400

Where will RNA polymerase bind during the initiation of transcription?

RNA polymerase will bind to the promoter region of a gene during the initiation of transcription.

400

Where might you find evidence of codominance? Give a specific example.

- Blood type (AB) 

- Calico Cats


400

Why might genetic variation be critical for a population's survival?


Genetic variation might be critical for a population's survival because it provides the raw material for natural selection, enabling adaptation to changing environments and increasing disease resilience.

400

What would be the potential benefits of using genetically modified bacteria in bioremediation?

Genetically modified bacteria could be used in bioremediation to degrade pollutants or clean up environmental contaminants, offering a more sustainable and environmentally friendly approach to waste management and pollution control.

500

When will DNA replication occur during the cell cycle, and why is it essential?

DNA replication occurs during the S phase of the cell cycle, ensuring that each daughter cell receives an identical copy of the genetic material. This process is essential for growth, repair, and the transmission of genetic information to offspring.

500

When will RNA polymerase begin transcription of a gene?

RNA polymerase will begin transcription of a gene once it binds to the promoter region and receives the appropriate signals from transcription factors and other regulatory proteins.

500

How would an autosomal dominant disorder typically be inherited?

a) Only from the mother 

b) Only from the father 

c) From either parent, if at least one has the disorder 

d) Only if both parents have the disorder  

c) From either parent, if at least one has the disorder

500

When would a deletion mutation result in a loss of genetic information?


A deletion mutation would result in a loss of genetic information when it removes one or more nucleotides from the DNA sequence, leading to a shorter or incomplete gene or chromosome.

500

When would gene editing technologies be used to modify the DNA of human embryos?


Gene editing technologies might be used to modify the DNA of human embryos in cases where there is a high risk of passing on genetic diseases to future generations, to prevent the transmission of hereditary disorders.