General Biology I

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DNA helicase

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General Biology I

Definition

DNA helicase is an enzyme that unwinds the DNA double helix at the replication fork, separating the two strands of DNA so that they can be replicated. This process is essential for DNA replication, as it allows the DNA polymerase to synthesize new strands by providing access to the single-stranded templates. By facilitating the separation of DNA strands, DNA helicase plays a crucial role in ensuring accurate and efficient DNA replication in prokaryotic organisms.

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5 Must Know Facts For Your Next Test

  1. DNA helicase requires energy to function, which it obtains by hydrolyzing ATP, enabling it to move along the DNA strand and separate the two strands.
  2. In prokaryotes, the helicase involved in DNA replication is often referred to as DnaB, which works alongside other proteins to facilitate replication.
  3. The action of DNA helicase is critical for creating the replication fork, allowing for simultaneous synthesis of both leading and lagging strands.
  4. Errors during unwinding by helicase can lead to replication stress and genomic instability, potentially resulting in mutations.
  5. DNA helicases have high processivity, meaning they can unwind long stretches of DNA efficiently without dissociating from the strand.

Review Questions

  • How does DNA helicase contribute to the overall process of DNA replication in prokaryotes?
    • DNA helicase plays a pivotal role in DNA replication by unwinding the double helix at the replication fork. This unwinding creates single-stranded regions of DNA that serve as templates for new strand synthesis. By separating the two strands, helicase allows DNA polymerases to access these templates, enabling accurate and efficient replication of genetic material.
  • What are the consequences of malfunctioning DNA helicase during prokaryotic DNA replication?
    • Malfunctioning DNA helicase can lead to incomplete or faulty unwinding of the DNA double helix, resulting in stalled replication forks. This can create genomic instability and increase the likelihood of mutations. Additionally, if the strands do not separate properly, it can hinder the function of other enzymes involved in replication, leading to overall inefficiency in the process.
  • Evaluate the importance of energy consumption by DNA helicase in maintaining genomic integrity during prokaryotic DNA replication.
    • The energy consumption by DNA helicase is crucial for maintaining genomic integrity during replication. By hydrolyzing ATP to power its movement along the DNA strand, helicase ensures that the double helix is efficiently unwound, allowing for proper access and synthesis by other enzymes. Without this energy-dependent activity, errors could accumulate during replication due to incomplete or inaccurate strand separation, compromising the fidelity of genetic information passed on to daughter cells.
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