DNA polymerase α initiates synthesis, β does base-excision repair, γ handles mitochondrial DNA, and κ performs translesion synthesis.

The correct matching is A-II, B-I, C-III, D-IV (option 2), standard eukaryotic polymerase classification.

Question Breakdown

• A. DNA polymerase α: Primase-associated, RNA/DNA primer synthesis for replication initiation​

• B. DNA polymerase β: Base-excision repair (BER), short-patch repair of oxidized bases​

• C. DNA polymerase γ: Exclusive mitochondrial replication/repair enzyme​

• D. DNA polymerase κ: Y-family TLS polymerase bypasses UV adducts​

Option Analysis

• A-I, B-II, C-IV, D-III: Wrong (α ≠ BER)

• A-II, B-I, C-III, D-IV: Correct (perfect textbook matching)

• A-II, B-III, C-IV, D-I: Wrong (β ≠ mito, κ ≠ BER)

• A-IV, B-II, C-III, D-I: Wrong (α ≠ TLS)

Correct Answer

A-II, B-I, C-III, D-IV (option 2)

Eukaryotic DNA Polymerase Families

DNA polymerase α (alpha) forms complex with primase, synthesizes RNA/DNA primary initiation primers (10nt RNA + 20nt DNA) for Okazaki fragments. DNA polymerase β (beta) executes base-excision DNA repair via dRP lyase activity in BER pathway. DNA polymerase γ (gamma) exclusively replicates mitochondrial DNA. DNA polymerase κ (kappa) enables translesion DNA synthesis past benzo[a]pyrene adducts.

Correct Matching Table

Function Summary

• α (B-family): Low processivity, primer synthesis only

• β (X-family): Nuclear repair, no 3’→5′ exo

• γ (A-family): Mitochondrial replicase + repair

• κ (Y-family): Error-prone TLS, low fidelity

Exam Strategy

NEET/GATE mnemonic: “α-Start, β-Fix bases, γ-Mito, κ-TLS”. Option 2 = gold standard. Distractors swap repair roles (β vs κ) or locations (nuclear vs mito).

Essential molecular biology question for your biochemistry exam prep.