Which statement explains the effect of an inhibitor on an enzyme?ResponsesA substrate will be able to bond with the enzyme.A substrate will be able to bond with the enzyme.The enzyme will likely be attacked by immune cells.The enzyme will likely be attacked by immune cells.The enzyme will be unable to practice more enzymes.The enzyme will be unable to practice more enzymes.A substrate will be unable to attach to the enzyme..
Question
Which statement explains the effect of an inhibitor on an enzyme?ResponsesA substrate will be able to bond with the enzyme.A substrate will be able to bond with the enzyme.The enzyme will likely be attacked by immune cells.The enzyme will likely be attacked by immune cells.The enzyme will be unable to practice more enzymes.The enzyme will be unable to practice more enzymes.A substrate will be unable to attach to the enzyme..
Solution
The statement that explains the effect of an inhibitor on an enzyme is: "A substrate will be unable to attach to the enzyme."
Here's why:
Enzymes are proteins that speed up chemical reactions in a cell. They work by binding to specific molecules, called substrates, and altering them in specific ways. The place where an enzyme binds to a substrate is called the active site.
An inhibitor is a molecule that binds to an enzyme and decreases its activity. There are different types of inhibitors, but they all work by preventing substrates from attaching to the enzyme's active site. This can happen in a few different ways.
For example, a competitive inhibitor is a molecule that is similar in structure to the substrate. It competes with the substrate for the active site, and if it binds to the enzyme, it prevents the substrate from attaching.
On the other hand, a noncompetitive inhibitor binds to a different part of the enzyme, causing the enzyme to change shape. This change in shape prevents the substrate from fitting into the active site.
So, in both cases, the effect of an inhibitor is that a substrate will be unable to attach to the enzyme.
Similar Questions
The diagram represents one way an enzyme can be inhibited.Which statement explains the effect of an inhibitor on an enzyme.Ask Studybuddy (Login to use)Group of answer choicesA substrate will be able to bond with the enzymeThe enzyme will likely be attacked by immune cellsThe enzyme will be unable to produce more enzymesThe substrate will be unable to attach to the enzyme
Based on the effect of the inhibitor on the enzyme kinetics, what functional effect does the inhibitor have on the Stabilises a low activity conformation of the enzyme Blocks the activity of the enzyme substrate complex. Blocks the activity of the free enzyme. Blocks the activity of the free enzyme and the enzyme substrate complex.
Enzyme inhibitors play an important part in the control of enzymes functions, allowing them to continue, or inhibiting them for a period of time. Which inhibitor affects the initial rate, but does NOT affect the maxial rate?A. CompetitiveB. UncompetitiveC. AllostericD. Noncompetitive
inhibitors are molecules/compounds capable of binding to a region of the enzyme other than the active site.UncompetitiveNon-competitiveCompetitiveOver-competitive
Noncompetitive inhibition of enzymes occursMultiple Choicewhen a substance other than the correct substrate binds at the active site of an enzyme.when a substance binds to an enzyme at a site away from the active site.by denaturation of an enzyme.by blocking the production of an enzyme.when two enzymes bind together.
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