5 Must Know Facts For Your Next Test

1. DNA polymerase III has high processivity, meaning it can add thousands of nucleotides to a growing DNA strand without falling off.
2. It requires a primer with a free 3'-OH group to initiate DNA synthesis, as it cannot start new strands from scratch.
3. The enzyme has proofreading capability through its 3' to 5' exonuclease activity, allowing it to correct errors in newly synthesized DNA.
4. In bacteria, DNA polymerase III works as part of a complex called the holoenzyme, which includes multiple subunits for enhanced functionality.
5. It synthesizes DNA in the 5' to 3' direction, adding nucleotides to the 3' end of the growing strand while simultaneously reading the template strand in the 3' to 5' direction.

Review Questions

• How does DNA polymerase III ensure high fidelity during DNA replication?
  • DNA polymerase III ensures high fidelity during DNA replication through its proofreading ability. This enzyme possesses 3' to 5' exonuclease activity, allowing it to remove incorrectly paired nucleotides immediately after they are added. By continually checking for errors while synthesizing new DNA strands, it maintains the accuracy of the replication process, which is essential for preserving genetic information.
• Compare and contrast the roles of DNA polymerase III and DNA ligase in the process of DNA replication.
  • DNA polymerase III and DNA ligase both play essential roles in DNA replication but serve different functions. DNA polymerase III is responsible for synthesizing new DNA strands by adding nucleotides complementary to the template strand, while DNA ligase connects Okazaki fragments on the lagging strand by forming phosphodiester bonds. While polymerase III builds the DNA chain, ligase ensures that all segments are linked together into a continuous strand, demonstrating their collaborative efforts in maintaining the integrity of the replicated DNA.
• Evaluate how the structure and function of DNA polymerase III contribute to its effectiveness in bacterial DNA replication compared to other polymerases found in eukaryotes.
  • The structure and function of DNA polymerase III make it highly effective in bacterial DNA replication due to its high processivity and proofreading capabilities. Unlike some eukaryotic polymerases that may have lower processivity or lack efficient proofreading mechanisms, DNA polymerase III can add many nucleotides quickly while correcting errors in real-time. Its holoenzyme structure allows it to work with multiple subunits, enhancing its speed and accuracy. This efficiency is crucial for bacteria, which often replicate their genomes rapidly to adapt and respond to environmental changes.

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