Which statement correctly identifies a mechanism of action for sulfonamides?

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Prepare for the Clinical Laboratory Science Microbiology Test with engaging content and multiple choice questions. Each question is accompanied by hints and detailed explanations to enhance your learning experience and boost your confidence for the examination!

Multiple Choice

Which statement correctly identifies a mechanism of action for sulfonamides?

Explanation:
Sulfonamides work by blocking a step in bacterial folate synthesis. They act as competitive inhibitors of dihydropteroate synthase, the enzyme that uses PABA to make dihydropteroate, a precursor to dihydrofolate and then tetrahydrofolate. Without tetrahydrofolate, bacteria can’t synthesize thymidylate and purines needed for DNA replication and repair, so growth is halted in actively dividing cells. Humans don’t synthesize folate and instead obtain it from the diet, so our cells aren’t as affected, which explains the selective toxicity of these drugs. Other mechanisms mentioned correspond to different antibiotic classes: inhibiting dihydrofolate reductase is the action of trimethoprim; inhibiting the 30S ribosomal subunit targets protein synthesis (as with certain aminoglycosides and tetracyclines); disrupting DNA gyrase is what fluoroquinolones do.

Sulfonamides work by blocking a step in bacterial folate synthesis. They act as competitive inhibitors of dihydropteroate synthase, the enzyme that uses PABA to make dihydropteroate, a precursor to dihydrofolate and then tetrahydrofolate. Without tetrahydrofolate, bacteria can’t synthesize thymidylate and purines needed for DNA replication and repair, so growth is halted in actively dividing cells. Humans don’t synthesize folate and instead obtain it from the diet, so our cells aren’t as affected, which explains the selective toxicity of these drugs.

Other mechanisms mentioned correspond to different antibiotic classes: inhibiting dihydrofolate reductase is the action of trimethoprim; inhibiting the 30S ribosomal subunit targets protein synthesis (as with certain aminoglycosides and tetracyclines); disrupting DNA gyrase is what fluoroquinolones do.

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