What is the Difference Between Holliday Model and Meselson-Radding Model?
🆚 Go to Comparative Table 🆚The Holliday Model and Meselson-Radding Model are two different models that propose different configurations for heteroduplex formation during genetic recombination. The main differences between the two models are:
- Symmetry: The Holliday Model, proposed by Robin Holliday, suggests the formation of a symmetric heteroduplex, meaning that both DNA strands are involved equally in the formation of the heteroduplex. In contrast, the Meselson-Radding Model, proposed by Matthew Meselson and Charles Radding, proposes the formation of an asymmetric heteroduplex, meaning that only one DNA strand is involved in the formation of the heteroduplex.
- Chi Structure: The Holliday Model includes the presence of a chi structure, which is not present in the Meselson-Radding Model.
Despite these differences, both models play crucial roles in genetic recombination and contribute to genetic diversity. They both involve the formation of heteroduplexes, the invasion of one DNA strand into a homologous region on another chromosome, and the subsequent branch migration and resolution steps. While the Holliday Model is symmetric in terms of strand involvement, the Meselson-Radding Model is asymmetric and more complex.
Comparative Table: Holliday Model vs Meselson-Radding Model
Here is a table comparing the Holliday Model and the Meselson-Radding Model:
Feature | Holliday Model | Meselson-Radding Model |
---|---|---|
Symmetry | Symmetric heteroduplex | Asymmetric heteroduplex |
Duplex Formation | Proposed by Robin Holliday | Proposed by Meselson and Radding |
Structure | Chi structure present | Chi structure absent |
Invasion | Single-strand invasion | Double-strand break model |
DNA Synthesis | No new DNA synthesis required | Some DNA is degraded and re-synthesized |
Resolution | Horizontal and vertical resolution options | Same sense resolution |
Both models play an important role in recombination and genetic diversity. The Holliday Model, proposed by Robin Holliday, accounts for heteroduplex formation and gene conversion during recombination. In contrast, the Meselson-Radding Model conceptualizes general genetic recombination during meiosis of newly replicated DNA. The key difference between the two models is the formation of a symmetric heteroduplex in the Holliday Model, while the Meselson-Radding Model proposes the formation of an asymmetric heteroduplex.
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