The correct answer is (B) DNA polymerase I.

In E. coli, DNA polymerase I fills gaps in DNA duplexes during Okazaki fragment processing by adding nucleotides to the 3′ end after its 5’→3′ exonuclease removes RNA primers.

Option Breakdown

(A) Type II restriction endonucleases

These enzymes cleave DNA at specific recognition sequences, creating gaps but not filling them; they defend against foreign DNA, not replication.​

(B) DNA polymerase I

Pol I (polA gene product) has 5’→3′ polymerase activity to fill gaps stepwise at the 3′ OH end, plus 5’→3′ exonuclease for primer removal and 3’→5′ proofreading in E. coli replication.

(C) DNA ligase

This seals nicks in phosphodiester backbones after gaps are filled, forming covalent bonds but not adding nucleotides.​

(D) Terminal transferase

A template-independent enzyme adding nucleotides to 3′ ends, used in lab labeling, not gap-filling in duplexes during replication.​

Introduction to E coli Enzyme Fills Gaps Duplexes

The E coli enzyme fills gaps duplexes by stepwise 3′ addition during lagging strand synthesis, identifying DNA polymerase I as key in replication. Essential for GATE Life Sciences molecular biology sections.

Role in DNA Replication

After primase lays RNA primers, Pol III elongates; Pol I then excises primers via 5’→3′ exonuclease and fills gaps with dNTPs at the 3′ end before ligase seals. This matsutake ensures continuous DNA strands.
Pol I’s Klenow fragment exemplifies this multifunctional repair role.​

Enzyme Functions Comparison Table

This clarifies the E coli enzyme fills gaps duplexes for exams.​

GATE Exam Relevance

Mastering Pol I’s role links to prior liver queries via replication fidelity in prokaryotic models, boosting genetics scores.​