AS and A Level Biology 7 Views 1 Answers
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SouravOctober 29, 2024

Describe the differences between leading strand and lagging strand replication as a consequence of DNA polymerase adding nucleotides only in a 5′ to 3′ direction

Describe the differences between leading strand and lagging strand replication as a consequence of DNA polymerase adding nucleotides only in a 5′ to 3′ direction

Sourav
SouravOctober 29, 2024

Answered step-by-step

DNA replication involves the synthesis of two strands: the leading strand and the lagging strand. The differences between these two strands arise from the directionality of DNA polymerase, which can only add nucleotides in a 5′ to 3′ direction. Here’s a detailed description of the differences:

Leading Strand

  1. Synthesis Direction: The leading strand is synthesized continuously in the same direction as the replication fork unwinds. This means that as the DNA helicase unwinds the double helix, DNA polymerase adds nucleotides to the 3′ end of the growing strand in a continuous manner.
  2. Nucleotide Addition: Nucleotides are added in a straight, uninterrupted line, allowing for a smooth and rapid synthesis of this strand.
  3. Overall Replication: Because of its continuous synthesis, the leading strand is completed relatively quickly and efficiently, keeping pace with the unwinding of the DNA.

Lagging Strand

  1. Synthesis Direction: The lagging strand is synthesized discontinuously in the opposite direction of the replication fork. Because DNA polymerase can only add nucleotides in a 5′ to 3′ direction, it must work backward relative to the replication fork.
  2. Okazaki Fragments: The lagging strand is synthesized in short segments known as Okazaki fragments. Each fragment is initiated by a short RNA primer, and DNA polymerase adds nucleotides to the 3′ end of the primer, creating a short stretch of new DNA.
  3. Fragmented Replication: After an Okazaki fragment is synthesized, the DNA polymerase detaches as it reaches the 5′ end of the previously synthesized fragment, waiting for the fork to unwind further before synthesizing the next fragment. This results in a series of disconnected segments.
  4. Ligation: Once all the Okazaki fragments are synthesized, the enzyme DNA ligase is required to join these fragments together to form a continuous strand, completing the lagging strand.

Summary of Differences

  • Synthesis: Leading strand is continuous; lagging strand is discontinuous (Okazaki fragments).
  • Direction of Synthesis: Leading strand follows the direction of the replication fork; lagging strand works in the opposite direction.
  • Completion Speed: Leading strand is synthesized quickly; lagging strand takes longer due to the need for fragment synthesis and subsequent ligation.

These differences in replication mechanisms reflect the inherent constraints of DNA polymerase and the antiparallel nature of DNA strands, ensuring that the genetic material is accurately duplicated.

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