Presentation is loading. Please wait.

Presentation is loading. Please wait.

Competitive & Non-Competitive

Published byIra Randall Modified over 8 years ago

Similar presentations

Presentation on theme: "Competitive & Non-Competitive"— Presentation transcript:

1 Competitive & Non-Competitive
2.8 Enzyme Inhibition Competitive & Non-Competitive

2 Learning Objectives To learn about what enzyme inhibition is.
To learn how competitive and non-competitive inhibitors affect the active site. To understand the implications of inhibition of rates of reaction.

3 Recap of Enzyme Action Induced-Fit Lock & Key
What are the two hypothesised methods of enzyme action? Induced-Fit Lock & Key

4 with altered Active Site
Enzyme Inhibitors Enzyme inhibitors are molecules that have some sort of altering effect on the active site of an enzyme. Inhibitors can cause a change to the active site, either directly or indirectly. By doing so, enzyme inhibitors reduce the activity of an enzyme and therefore the rate of reaction in which it is involved. + = Inhibitor Molecule Enzyme with altered Active Site Enzyme

5 Competitive Inhibitors Non-competitive Inhibitors
Enzyme Inhibitors Inhibitors can vary greatly in their action – and many are actually produced by humans as medicines and other drugs. Sometimes an inhibitor can bind so strongly to the active site, that it can never be removed, rendering the enzyme useless. Most inhibitors however, bind only temporarily, which is why they are known as reversible inhibitors. There are two types: Competitive Inhibitors These bind directly to the active site of an enzyme. Non-competitive Inhibitors These bind to a position other than the active site.

6 Competitive Inhibitors
Competitive inhibitors fit directly into the active site of the enzyme they will inhibit. So what does this say about their shape? Because of this shape similarity, it means that these inhibitor molecules are competing with the substrate for active sites. So the concentration of inhibitor, and the concentration of substrate is what will have substantial effect on the enzymes activity. What would happen if you increased the concentration of inhibitor? What would happen if you increased the concentration of substrate?

7 Competitive Inhibitors
If the inhibitor is not permanently bound to the active site, when it leaves, another molecule will takes its place. But the chances of which molecules this is, depends on the concentrations of both inhibitor and substrate. It’s not all doom & gloom though... Sooner or later, all of the substrate molecules will occupy an active site and will be catalysed. It just depends on how much inhibitor is present. The more there is, the longer it will take for each substrate molecules to ‘take its turn’ in the active site.

8 Non-competitive Inhibitors
Non-competitive inhibitors attach to a site other than the active site. Their shape then, does not have to resemble the shape of the active site, as they never bind to it. These inhibitors therefore, act indirectly. Upon attachment, they alter the shape of the active site. Enzyme-substrate complexes can no longer form. Due to the inhibitors not binding to the active site, the inhibitor and substrate are not competing against each other!

9 Non-competitive Inhibitors
Due to the fact that the inhibitor fits somewhere other than the active site, it makes no difference if you increase the concentration of substrate!

10 Rates of Reaction

11 How do you think these graphs will appear?
Rates of Reaction It should be obvious to you now that inhibitors will always have a detrimental effect on rate of reaction. But competitive and non-competitive inhibitors affect rate of reaction in different ways. These effects can be shown on a graph. How do you think these graphs will appear?

12 Substrate concentration
Rate of Reaction Substrate concentration Rate of Reaction Substrate concentration Rate of Reaction Substrate concentration

13 Substrate concentration
Rate of Reaction

Download ppt "Competitive & Non-Competitive"

Similar presentations

Structure of Enzymes: All enzymes are tertiary globular proteins, where the protein chain is folded back on itself into a spherical or globular shape.

Structure of Enzymes: All enzymes are tertiary globular proteins, where the protein chain is folded back on itself into a spherical or globular shape.
ENZYMES!.

ENZYMES!.
Enzyme Activity The properties of enzymes related to their tertiary structure.The effects of change in temperature,pH,substrate concentration,and competitive.

Enzyme Activity The properties of enzymes related to their tertiary structure.The effects of change in temperature,pH,substrate concentration,and competitive.
Enzymes What are enzymes?

Enzymes What are enzymes?
ENZYMES A protein with catalytic properties due to its power of specific activation.

ENZYMES A protein with catalytic properties due to its power of specific activation.
Biochemistry Enzymes.

Biochemistry Enzymes.
 The active site have a rigid shape.  Only substrates with the matching shape can fit.  The substrate is a key that fits the lock of the active site.

 The active site have a rigid shape.  Only substrates with the matching shape can fit.  The substrate is a key that fits the lock of the active site.
{ Enzyme Inhibition Why enzymes don’t work.  An enzyme is just a folded protein Remember!!!

{ Enzyme Inhibition Why enzymes don’t work.  An enzyme is just a folded protein Remember!!!
NZYMES NZY MES. Amylase catalyses the breakdown of starch AmylaseStarchAmylaseMaltose Enzyme Substrate EnzymeProduct.

NZYMES NZY MES. Amylase catalyses the breakdown of starch AmylaseStarchAmylaseMaltose Enzyme Substrate EnzymeProduct.
1 Enzymes Enzyme and Digestion film clip Enzyme and Digestion film clip.

1 Enzymes Enzyme and Digestion film clip Enzyme and Digestion film clip.
Chapter 3 Enzymes.

Chapter 3 Enzymes.
Enzymes Objectives: (a)

Enzymes Objectives: (a)
Enzymes. biological catalysts speed up chemical reactions without being consumed usually proteins with tertiary or quaternary structure.

Enzymes. biological catalysts speed up chemical reactions without being consumed usually proteins with tertiary or quaternary structure.
Background on Chemical Reactions Section 2.4 of the Textbook.

Background on Chemical Reactions Section 2.4 of the Textbook.
Enzymes Functions and Control. Enzyme Terms  Substrate - the material and enzyme works on.  Enzyme names: Ex. Sucrase - ase name of an enzyme - ase.

Enzymes Functions and Control. Enzyme Terms  Substrate - the material and enzyme works on.  Enzyme names: Ex. Sucrase - ase name of an enzyme - ase.
ENZYME ACTION!!!. What are Enzymes? An enzyme is a biological catalyst. It speeds up a chemical reaction without being used up in the reaction or becoming.

ENZYME ACTION!!!. What are Enzymes? An enzyme is a biological catalyst. It speeds up a chemical reaction without being used up in the reaction or becoming.
1 Enzymes This is a video, click below to see clip. If it doesn’t work, copy and paste link to see video. https://www.youtube.com/watch?v=XUn64HY5 bug.

1 Enzymes This is a video, click below to see clip. If it doesn’t work, copy and paste link to see video. bug.
WHAT ARE ENZYMES? Enzymes are a _________________________________ –Which means they are made up of __________________ __________________________________________________.

WHAT ARE ENZYMES? Enzymes are a _________________________________ –Which means they are made up of __________________ __________________________________________________.
ENZYMES. Enzymes are proteins that act on a substance called a substrate. enzyme substrate -------------> product In the above reaction the enzyme's active.

ENZYMES. Enzymes are proteins that act on a substance called a substrate. enzyme substrate > product In the above reaction the enzyme's active.
WJEC GCE BIOLOGY Inhibitors and Enzyme Action Graphs to show the effects of Inhibitors on Enzyme Action 3.2.

WJEC GCE BIOLOGY Inhibitors and Enzyme Action Graphs to show the effects of Inhibitors on Enzyme Action 3.2.

Similar presentations

Ads by Google