Why is ∆G a useful quantity for predicting the favorability of biochemical reactions?

Question

Accepted Answer

Welcome back everyone. Why does delta G play an essential role for enzymatic reactions? Well, given more answer choices, let's begin with the first one. Option A states because it helps to determine if an enzymatic reaction will occur spontaneously under constant temperature and pressure. Well, essentially we can state that option. A is correct. Delta G is the gifts free energy change. And we know that according to the equation, delta H minus T delta S where delta H is the entropy change and delta S is the entropy change. If this quantity is negative, then the reaction is considered spontaneous. And as we can see depends on the absolute temperature, right? So A is correct. B because it indicates how fast an enzymatic reaction will occur under various temperature and pressure conditions. Now, this statement is incorrect because it states how fast and fast means that we are constrained kinetics, right? So chemical kinetics, they represent the rate of a reaction. Delta G is a thermodynamic quantity. It tells us if a reaction needs additional energy to take place or it occurs spontaneously without an additional energy input. Now, it doesn't tell us much about the rate and whenever we want to consider rate, we have to consider kinetics. So B is incorrect because the rate of reaction will not be related to delta G. Now, C because it provides information about how much heat enzymes absorb during catalysis, that's not correct because as we can see, the entropy change which corresponds to the amount of heat absorbed or released is only a part of the formula, right. So we also have delta S in our equation. So delta G alone doesn't tell us about the heat absorbed during catalysis. Right. So we can state that C is incorrect. And simply because delta G incorporates both delta H and delta S, so we cannot extract the amount of heat out of the valley of delta G alone Hindi because it allows us to calculate the enzyme concentration as heat is absorbed during catalysis. That's incorrect. Right? Essentially, if we want to calculate concentration, we cannot use a thermodynamic quantity that represents thermodynamic properties such as the amount of heat absorbed or released. And also the entropy change of a reaction which is a parameter of disorder, right. So it has nothing to do with concentration. And therefore we can conclude that for this problem option. A is the only correct choice. Thank you for watching.

Why is ∆G a useful quantity for predicting the favorability of biochemical reactions?

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Key Concepts

Gibbs Free Energy (∆G)

Spontaneity of Reactions

Thermodynamic Equilibrium