In a highly high-temperature environment, you placed an enzyme and some substrates. You've seen that there hasn't been any reaction. Applying what you have learned on enzyme activity, how would you explain what occurred? A. The enzyme was not placed at a pH level that would allow it to react at its maximum rate. B. There are not enough enzymes for the reaction to occur. C. The enzyme may have denatured or broken down due to the high temperature of the environment, resulting in no reaction. D. There are not enough substrates for reaction to occur. Substrate concentration affects enzyme activity. Determine what would occur when there are too many substrates and fewer enzymes? A. No enzyme activity would occur. B. The reaction rate would continuously increase. C. The reaction would speed up tremendously. D. Maximal rate of reaction would occur. Enzyme activity mainly involves the active site and the substrate. How would you compare the active site from the substrate? A. The substrate is where the active site bind while the active site is the reactant that is changed in the process. B. The active site activates the enzyme activity while the substrate inhibits the reaction. C. The active site acts as a key on the enzyme activity while the substrate acts as a lock. D. The active site is where the substrate binds while the substrate is the reactant that is changed in the process. The human body consists of several molecules that aid in various bodily processes. What biological polymer functions as a catalyst, speeding up the reaction without being consumed? A. Enzyme B. Phospholipid C. Carbohydrate D. Protein The enzyme can be inactive which is called an apoenzyme, or active which is called a holoenzyme. Determine what makes an apoenzyme turn into a holoenzyme A. Cofactor B. Coenzyme C. Substrate D. Active Site