Antimicrobial Targets Jeopardy Template

Targets of Action

Mechanisms

70s vs 80s

Selective Toxicity

Bactericidal vs Bacteriostatic

100

Which antimicrobial target involves peptidoglycan?

Cell wall

100

What happens to bacteria when the cell wall is inhibited?

It bursts (lysis)

100

If a drug affects both bacterial and human ribosomes, what does that say about its selectivity?

It has low selective toxicity

100

What does selective toxicity mean?

Harms bacteria more than human cells

100

What does bactericidal mean?

Kills bacteria

200

Which target is responsible for protein production?

Ribosomes

200

What is the result of inhibiting protein synthesis?

Bacteria cannot make proteins

200

What type of ribosome do human cells have?

80s

200

Why are cell wall drugs highly selective?

Humans don’t have cell walls

200

Which type of drug relies on the immune system to fully clear the infection?

Bacteriostatic

300

Which antimicrobial target is disrupted to cause leakage of cell contents?

Cell Membrane

300

What happens when DNA replication is blocked?

Bacteria cannot reproduce

300

What are the subunits of a 70S ribosome?

50S + 30S

300

Why don’t antibiotics usually affect human ribosomes?

Humans have 80S, bacteria have 70S

300

If bacterial growth resumes after the drug is removed, which type of drug was most likely used?

Bacteriostatic

400

Which target involves blocking folic acid production?

Metabolism

400

What happens when the cell membrane is damaged?

Cell contents leak out

400

Why would a drug that targets ribosomes be considered bacteriostatic instead of bactericidal?

It stops protein production and growth rather than directly killing the cell

400

Why are drugs targeting metabolic pathways like folic acid synthesis selectively toxic?

Bacteria make their own folic acid, humans obtain it from diet

400

Why might a bacteriostatic drug be less effective in immunocompromised patients?

Because it relies on the immune system to clear the infection

500

Which antimicrobial target would directly stop bacterial replication, and why?

DNA/RNA, because replication requires DNA

500

Why does blocking folic acid synthesis stop bacterial growth?

They cannot make DNA

500

An antibiotic binds to the 30S subunit. Which organism is most affected?

Bacteria

500

Why are drugs targeting metabolism selectively toxic?

Bacteria make their own folic acid; humans don’t

500

Why might bactericidal drugs be preferred in serious infections?

They kill bacteria directly rather than just stopping growth