5 Must Know Facts For Your Next Test

1. Licensing occurs during the G1 phase of the cell cycle when the pre-replicative complex is assembled at origins of replication.
2. The Origin Recognition Complex (ORC) is essential for recognizing and binding to replication origins, allowing for the recruitment of other necessary proteins for licensing.
3. The loading of MCM helicases onto the DNA is a crucial step in the licensing process, preparing the DNA for unwinding during replication.
4. Once DNA synthesis begins, additional licensing events are prevented through mechanisms that inhibit re-initiation at already replicated origins.
5. Proper licensing is vital for preventing genomic instability, as errors in this process can lead to multiple rounds of replication at a single origin, resulting in DNA damage.

Review Questions

• How does licensing contribute to the regulation of DNA replication in eukaryotic cells?
  • Licensing is vital because it ensures that each origin of replication is activated only once per cell cycle. This prevents over-replication, which could result in mutations or chromosomal abnormalities. By forming pre-replicative complexes in the G1 phase and regulating their activation during S phase, cells maintain genomic stability while allowing timely and efficient DNA synthesis.
• Discuss the role of the Origin Recognition Complex (ORC) in the licensing process and its significance for DNA replication.
  • The Origin Recognition Complex (ORC) is integral to the licensing process because it identifies and binds to specific origins of replication on the DNA. Once bound, ORC recruits additional proteins, including helicases like the MCM complex, facilitating the assembly of pre-replicative complexes. This action is crucial for ensuring that each origin is prepared correctly for DNA synthesis, highlighting ORC's role as a gatekeeper for proper replication initiation.
• Evaluate how defects in the licensing process can lead to genomic instability and what implications this has for cellular health.
  • Defects in the licensing process can cause improper regulation of DNA replication, leading to issues such as re-replication or incomplete replication. These problems can result in double-strand breaks or other types of DNA damage, contributing to genomic instability. In turn, this instability can promote cancerous transformations or other diseases, illustrating how tightly controlled licensing is essential for maintaining cellular health and integrity.

© 2024 Fiveable Inc. All rights reserved.

AP® and SAT® are trademarks registered by the College Board, which is not affiliated with, and does not endorse this website.