The induced fit model is the theory that instead of enzymes and substrates fitting exactly together, as in the lock and key model, the enzyme changes shape around the substrate to bind with it. Non-competitive inhibition is where the inhibitor does not fit into the active site, but into another site on the enzyme instead, which changes the shape of the active site.
What type of model tries to put mini ideas together to explain or summarize something
According to lock and key model both the enzymes and the substrate possess specific geometrical shapes that fit exactly into one another. WHILE According to the induced fit model enzymes are more flexible structures and their active site is reshaped as substrate interacts with the enzymes.
MODEL
Purpose o Critical Path Planning and Scheduling
A model uses familiar ideas to explain unfamiliar facts observed in nature.
Both the lock and key model and induced fit model are mechanisms used to describe enzyme-substrate interactions. Both models explain how enzymes bind to substrates to facilitate chemical reactions. They both highlight the specificity of enzyme-substrate interactions.
enzymes work on lock and key model and induced fit model.
Explain data model?
explain spiral model in sdlc
The lock and key model means that the substrate must perfectly fit the enzyme, and the enzyme does not change. The induced fit model is different as when the substrate fits together with the enzyme, the enzyme itself will change to either join substrates together or break a substrate down.
Explain OSI reference model with revant diag
Bohr's model of the atom doesn't explain hydrogen's flammability.
Income and taxes
Model for commercial transaction
It helps explain metallic bonds.
Bohr's model explain the structure of mono electronic system
The induced fit model is considered better than the lock and key model because it takes into account the dynamic nature of enzymes and substrates, allowing for more flexibility in enzyme-substrate interactions. This model suggests that both enzyme and substrate undergo conformational changes to better fit each other, resulting in higher specificity and efficiency of the enzyme-substrate complex. Overall, the induced fit model provides a more accurate representation of the enzyme-substrate interaction compared to the rigid lock and key model.