Because enzymes are proteins, they are denatured by heat. Therefore, at higher temperatures (over about 55°C in the graph below) there is a rapid loss of activity as the protein suffers irreversible denaturation.
The effect of temperature on the rate of an enzyme-catalysed reaction is the result of two opposing factors:
As with any chemical reaction, the rate increases as the temperature increases, since the activation energy of the reaction can more readily be provided at a higher temperature. This means, as shown in the graph below, that there is a sharp increase in the formation of product between about 5 - 50°C.
Because enzymes are proteins, they are denatured by heat. Therefore, at higher temperatures (over about 55°C in the graph below) there is a rapid loss of activity as the protein suffers irreversible denaturation...!
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Answer:
Because enzymes are proteins, they are denatured by heat. Therefore, at higher temperatures (over about 55°C in the graph below) there is a rapid loss of activity as the protein suffers irreversible denaturation.
Answer:
The effect of temperature on the rate of an enzyme-catalysed reaction is the result of two opposing factors:
As with any chemical reaction, the rate increases as the temperature increases, since the activation energy of the reaction can more readily be provided at a higher temperature. This means, as shown in the graph below, that there is a sharp increase in the formation of product between about 5 - 50°C.
Because enzymes are proteins, they are denatured by heat. Therefore, at higher temperatures (over about 55°C in the graph below) there is a rapid loss of activity as the protein suffers irreversible denaturation...!
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