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Induced fit model of enzyme catalysis Video Lecture | Biochemistry for MCAT

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FAQs on Induced fit model of enzyme catalysis Video Lecture - Biochemistry for MCAT

1. What is the induced fit model of enzyme catalysis?
Ans. The induced fit model of enzyme catalysis proposes that enzymes undergo conformational changes upon binding to their substrate. This means that the active site of the enzyme adjusts its shape to accommodate the substrate, resulting in a more precise fit. This conformational change is induced by the binding of the substrate to the enzyme.
2. How does the induced fit model differ from the lock and key model?
Ans. The induced fit model differs from the lock and key model in that it suggests that the active site of the enzyme is not rigid and complementary to the substrate from the beginning. Instead, the active site undergoes changes in its shape to accommodate the substrate, leading to a more precise fit. In contrast, the lock and key model assumes that the active site is already in the perfect shape to bind to the substrate.
3. What are the advantages of the induced fit model of enzyme catalysis?
Ans. The induced fit model of enzyme catalysis offers several advantages. Firstly, it allows for a higher specificity of enzyme-substrate interactions, as the active site can adjust its shape to precisely bind to the substrate. This enhances the efficiency of catalysis. Secondly, the induced fit model allows enzymes to exhibit a broader range of substrate specificities, as the active site can accommodate different substrates by adjusting its shape accordingly.
4. What evidence supports the induced fit model of enzyme catalysis?
Ans. Several lines of evidence support the induced fit model of enzyme catalysis. One piece of evidence is the observation of conformational changes in enzymes upon substrate binding, as demonstrated by X-ray crystallography and other structural techniques. Additionally, mutagenesis studies have shown that specific amino acid residues in the active site play a crucial role in the induced fit mechanism. Moreover, kinetic studies have provided evidence for the induced fit model by showing that enzyme activity is influenced by substrate concentration, indicating that the enzyme-substrate complex formation is dynamic.
5. Are there any limitations to the induced fit model of enzyme catalysis?
Ans. While the induced fit model provides a more comprehensive understanding of enzyme catalysis, it also has some limitations. One limitation is the lack of detailed knowledge about the specific conformational changes that occur upon substrate binding. Additionally, the induced fit model does not fully explain the catalytic power of enzymes, as it focuses primarily on the binding of the substrate and the conformational changes in the active site. Other factors, such as transition state stabilization and chemical interactions, also contribute to enzyme catalysis.
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