37.5 centigrade. however results are pretty much the same in temperatures between 35 and 40
Enzymes are delicate combinations of organic chemicals. Heat always speeds up chemical reactions. This is often enough heat to break down the enzymes through chemical activity.
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Enzymes work most effectively when they are at their optimal temperature and pH.
enzyme B stays effective at higher temperatures than enzymes A
40 degrees
enzyme require an optimum temperature and ph level to be active. temperature at which most enzymes are active is around 35-40 degree celcius. above this temperature the enzyme loses it globular structure and thus the substrate will not be able to bind with it. some enzymes are active in alkali ph while others are active in acidic temperature. but most of the enzymes are active in neutral ph and this helps to maintain its globular structure.
As with most protein enzymes change the temperature or change the pH significantly.
Most effective: increase temperature and/or add a suitable catalyst (enzymes for biological reactions).
The optimum temperature for the enzyme polyphenol oxidase (PPO) is 40 degrees Celsius. This is the temperature at which the enzyme is most effective; like many other enzymes the rate of reaction will decrease with temperature, but if the temperature rises much above the optimum level, it will cause the enzymes to denature. Denatured enzymes will stay denatured even if the temperature decreases again. The optimum pH for polyphenol oxidase is 5.
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Enzymes work most effectively when they are at their optimal temperature and pH.
d
The temperature in which the enzymes are effects the effectiveness of enzymes. Enzymes work best at a temperature of 37 which is the body temperature.
temperature and pH
Digestive enzymes are optimal around 37C due to the temperature allowing for maximum metabolism. The enzymes are most efficient at their highest metabolism and activity.
enzyme B stays effective at higher temperatures than enzymes A
temperature and pH
Enzyme A becomes less effective earlier than enzyme B.