Breaking the phosphoanhydride bond of ATP can be used to "drive" a reaction. What does this mean? a. ATP acts as a carrier molecule for substrates in reactions. b. The ATP produced from breaking the phosphoanhydride bondacts as a catalyst to increase the rates of otherwise slow biochemical processes. c. The energy produced from breaking the phosphoanhydride bond of ATP is used by energy-requiring reactions in the body. d. Breaking the phosphoanhydride bond of ATP yields a phosphate group that is used as a cofactor in enzyme-catalyzed reactions in the body. e. Breaking the phosphoanhydride bond of ATP activates the effector site on allosteric enzymes, which can then be used to catalyze reactions.
