<meta http-equiv="refresh" content="1; url=/nojavascript/"> Enzymes as Catalysts ( Read ) | Physical Science | CK-12 Foundation
Dismiss
Skip Navigation
You are viewing an older version of this Concept. Go to the latest version.

Enzymes as Catalysts

%
Best Score
Practice Enzymes as Catalysts
Practice
Best Score
%
Practice Now

Enzymes as Catalysts

An enzyme cleaner like the one pictured here contains proteins called enzymes. The enzymes attach themselves to particular stains and help break them down. Different enzymes work on different types of stains, such as grease stains or bloodstains. Removing stains isn’t the only use of enzymes. Enzymes are also essential to life.  

Why Living Things Need Enzymes

Chemical reactions constantly occur inside the cells of living things. However, under the conditions inside cells, most biochemical reactions would occur too slowly to maintain life. That’s where enzymes come in. Enzymes are catalysts in living things. Like other catalysts, they speed up chemical reactions. Enzymes are proteins that are synthesized in the cells that need them, based on instructions encoded in the cells’ DNA.

How Enzymes Work

Enzymes increase the rate of chemical reactions by reducing the amount of activation energy needed for reactants to start reacting. One way this can happen is modeled in the Figure below . Enzymes aren’t changed or used up in the reactions they catalyze, so they can be used to speed up the same reaction over and over again. Each enzyme is highly specific for the particular reaction is catalyzes, so enzymes are very effective. A reaction that would take many years to occur without its enzyme might occur in a split second with the enzyme. Enzymes are also very efficient, so waste products rarely form.

The lock and key model illustrates how many enzymes function

Q: This model of enzyme action is called the lock-and-key model. Explain why.

A: The substrates (reactants) fit precisely into the active site of the enzyme like a key into a lock. Being brought together in the enzyme in this way helps the reactants react more easily. After the product is formed, it is released by the enzyme. The enzyme is now ready to pick up more reactants and catalyze another reaction. You can see an animated version of this model at the following URL.

http://www.youtube.com/watch?v=V4OPO6JQLOE

Digestive Enzymes

More than 1000 different enzymes are necessary for human life. Many enzymes are needed for the digestion of food. Two examples are amylase and pepsin. Both are described in the Figure below .

Amylase and pepsin are used in our digestive system

Summary

  • Enzymes are catalysts in living things. They speed up biochemical reactions.
  • Under the conditions inside living cells, biochemical reactions would occur too slowly to support life without the help of enzymes.
  • Enzymes increase the rate of biochemical reactions by reducing the amount of activation energy needed for reactants to start reacting.
  • More than 1000 different enzymes are necessary for human life, and many help digest food. Two examples are amylase and pepsin.

Vocabulary

  • enzyme : Biochemical catalyst that speeds up chemical reactions in living things.

Practice

Watch the video about enzymes at the following URL, and then answer the questions below.

http://www.youtube.com/watch?v=870MWm0peRI

  1. In the video, the presenter uses a pair of scissors as an analogy for an enzyme. Identify the active site of the scissors enzyme, its substrate, and the chemical reaction it catalyzes.
  2. What is the induced fit theory? How does it differ from the lock-and-key model described above?
  3. Identify two factors that affect how well an enzyme works.

Review

  1. What are enzymes?
  2. Why are enzymes needed to catalyze chemical reactions in living things?
  3. How do enzymes speed up biochemical reactions?
  4. Describe two human digestive enzymes.

Image Attributions

Reviews

Email Verified
Well done! You've successfully verified the email address .
OK
Please wait...
Please wait...

Original text