both A and B
Yes, the optimal pH for enzyme activity can vary depending on the specific enzyme and its function. Some enzymes work best at acidic pH levels, while others function optimally in alkaline environments. Maintaining the correct pH is crucial for proper enzyme function and overall biological processes.
No, after the product of an enzyme-catalyzed reaction leaves the active site, the enzyme can still react with more substrate to continue catalyzing the reaction. The enzyme is not altered or used up in the reaction, so it can continue to bind to and catalyze additional substrate molecules.
True. Protein is an essential building material for cells. It is involved in many cellular processes, such as structure, signaling, and enzyme activity.
no, every enzyme has a different shape giving it a different job or function
It is true that the shape of an enzyme is what allows it to do it's job.
False. Enzyme names typically end in the suffix "–ase".
true
TRUE:)
A substrate is the molecule upon which an enzyme acts. It undergoes a chemical reaction to form a product with the help of the enzyme. Substrates typically bind to the active site of an enzyme.
true
Each enzyme can catalyze a wide variety of different reactions.
both A and B
Yes, the optimal pH for enzyme activity can vary depending on the specific enzyme and its function. Some enzymes work best at acidic pH levels, while others function optimally in alkaline environments. Maintaining the correct pH is crucial for proper enzyme function and overall biological processes.
true
The enzyme has an optimal point of pH at which the enzyme works best. For example a catalase enzyme works best in a pH of 7. When the pH changes it denatures the enzyme causing it to not be able to react with the substrate.
No, after the product of an enzyme-catalyzed reaction leaves the active site, the enzyme can still react with more substrate to continue catalyzing the reaction. The enzyme is not altered or used up in the reaction, so it can continue to bind to and catalyze additional substrate molecules.