The text discusses three forms of enzyme inhibition: uncompetitive inhibition, competitive inhibition, and irreversible inhibition.
b. What kinds of bonds are formed between an enzyme and each of these three kinds of inhibitors?

Question

The text discusses three forms of enzyme inhibition: uncompetitive inhibition, competitive inhibition, and irreversible inhibition.

b. What kinds of bonds are formed between an enzyme and each of these three kinds of inhibitors?

Accepted Answer

All right. Hello everyone. So this question is asking us to consider the three forms of enzyme inhibition that's competitive, uncompetitive and irreversible, determine if the statement below is true or false, if false, correct the statement. And it says each of the three kinds of inhibition involves the formation of covalent bonds with the enzyme. All right. So here let's just go ahead and talk briefly about the three main types in terms of their more general definition. So, inhibition in general or an inhibitor is a species that is going to interact with an enzyme and interfere with its activity. So as for the subtypes, we have competitive, we have uncompetitive and we have irreversible. Now recall that when talking about normal conditions, we have an enzyme interacting with its substrate to produce an enzyme substrate complex. So in competitive inhibition, the inhibitor abbreviated here as I is going to compete directly with the substrate for the active site of the enzyme. So the inhibitor and the substrate are competing for the same spot on the enzyme. By contrast, when talking about uncompetitive inhibition, then the enzyme remarkably or excuse me, the inhibitor is going to bind to the enzyme substrate complex. So here uncompetitive inhibitors do not compete with the substrate and they also don't bind to the active site of the enzyme. By contrast, irreversible inhibitors are going to form covalent bonds with the active site of the enzyme, thereby preventing further reaction or further reactions with the enzyme. So from here, it's worth mentioning that two of these are reversible whereas one of them like the name implies is irreversible, right? So both competitive and uncompetitive inhibition are reversible. So what does that mean? At least for the context of this question? Well, for the first two forms of inhibition to be reversible, the inhibitor has to be connecting to the enzyme with a weaker kind of force. In other words, a non covalent type of force. So all this is to say that only one of these forms of inhibition is actually going to involve forming covalent bonds. And that's irreversible inhibition because it is the formation of the covalent bond that is going to deactivate the enzyme in the first place. So basically our answer here is going to be false. So to correct the earlier statement, we can say that only irreversible enzyme inhibition involves the formation of covalent bonds with the enzyme. And there you have it just to go ahead and read out the final answer one more time. It says that the statement is false and only irreversible enzy enzyme inhibition involves the formation of covalent bonds with the enzyme. And so with that being said, thank you so very much for watching. And I hope you found this helpful.

The text discusses three forms of enzyme inhibition: uncompetitive inhibition, competitive inhibition, and irreversible inhibition.
b. What kinds of bonds are formed between an enzyme and each of these three kinds of inhibitors?

Verified video answer for a similar problem:

Key Concepts

Uncompetitive Inhibition

Competitive Inhibition

Irreversible Inhibition

The text discusses three forms of enzyme inhibition: uncompetitive inhibition, competitive inhibition, and irreversible inhibition.b. What kinds of bonds are formed between an enzyme and each of these three kinds of inhibitors?

Verified video answer for a similar problem:

Key Concepts

Uncompetitive Inhibition

Competitive Inhibition

Irreversible Inhibition

The text discusses three forms of enzyme inhibition: uncompetitive inhibition, competitive inhibition, and irreversible inhibition.
b. What kinds of bonds are formed between an enzyme and each of these three kinds of inhibitors?