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Replication

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Honors Biology

Definition

Replication is the process by which DNA makes an exact copy of itself, ensuring that genetic information is accurately passed on during cell division. This mechanism is vital for maintaining the integrity of the genetic code and supports the continuity of life, as each new cell receives an identical set of genetic instructions. Accurate replication is critical not only for normal cellular functions but also in experimental contexts where results depend on reproducibility.

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5 Must Know Facts For Your Next Test

  1. Replication occurs during the S phase of the cell cycle, right before a cell divides, ensuring that each daughter cell inherits a complete set of DNA.
  2. The process starts at specific locations on the DNA molecule called origins of replication, where the double helix unwinds to allow access to the strands.
  3. DNA replication is bidirectional, meaning it proceeds in two directions away from the origin, creating two replication forks.
  4. Proofreading mechanisms are in place during replication to correct errors made by DNA polymerases, significantly reducing the mutation rate.
  5. The leading strand is synthesized continuously in the direction of the replication fork, while the lagging strand is synthesized in short segments known as Okazaki fragments.

Review Questions

  • How does replication ensure the accuracy of genetic information passed from one generation of cells to the next?
    • Replication ensures accuracy through several mechanisms, including base pairing rules where adenine pairs with thymine and cytosine pairs with guanine. Additionally, enzymes like DNA polymerase have proofreading abilities that catch and correct errors during synthesis. This meticulous process allows each new cell to receive an exact copy of the genetic material, which is essential for normal growth and function.
  • Compare and contrast leading and lagging strand synthesis during DNA replication.
    • Leading strand synthesis occurs continuously in the same direction as the movement of the replication fork, allowing for a smooth addition of nucleotides. In contrast, lagging strand synthesis is discontinuous and occurs in short segments called Okazaki fragments because it must work against the direction of the fork. This difference requires additional processing steps to join these fragments together, highlighting how both strands are replicated efficiently despite their differing mechanisms.
  • Evaluate the impact of errors that occur during DNA replication on genetic variation and evolutionary processes.
    • Errors during DNA replication can lead to mutations, which introduce changes in the nucleotide sequence. While many mutations are corrected by proofreading mechanisms, some persist and can contribute to genetic variation within a population. This genetic variation serves as raw material for natural selection and evolutionary change, allowing species to adapt over time to changing environments. Therefore, while errors in replication may initially seem detrimental, they play a crucial role in evolution.
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