PCR target type The classical Polymerase Chain Reaction (without reverse transcription) is designed to make multiple copies of which biological polymer?

Introduction / Context:
PCR is a thermostable DNA polymerase–driven reaction. Distinguishing conventional PCR from RT-PCR clarifies which nucleic acid serves as the template.

Given Data / Assumptions:

• Classical PCR uses DNA-dependent DNA polymerases (e.g., Taq).
• RNA templates require reverse transcription to cDNA first.
• Proteins, carbohydrates, and lipids are not copied by polymerases in PCR.

Concept / Approach:
Conventional PCR amplifies DNA sequences between primer sites. RT-PCR adds a preceding step converting RNA to complementary DNA (cDNA), which is then amplified by PCR.

Step-by-Step Solution:
Identify the enzyme: DNA polymerase → requires DNA template.Therefore, target polymer is DNA (or cDNA in RT-PCR).Select DNA as the correct option.

Verification / Alternative check:
Standard molecular protocols specify DNA input for PCR or RNA input followed by reverse transcription for RT-PCR/qPCR.

Why Other Options Are Wrong:
RNA amplification needs reverse transcriptase; proteins and carbohydrates are not PCR substrates; lipids have no PCR mechanism.

Common Pitfalls:
Confusing PCR with RT-PCR; assuming RNA is amplified directly by DNA polymerase.

Final Answer:
DNA.