1. Cells & Enzymes Converts substrates Present in into products
all living cells
Made of protein
Enzymes
Biological catalysts
Increase the rate of
chemical reactions
Remain unchanged
by chemical reaction

2. METABOLISM
This term really means two things:
ANABOLISM and CATABOLISM

3. ANABOLISM
“ TO BUILD” molecules as in the biosynthesis of polymers.. We ingest food digest to monomers and THEN via ANABOLISM we make larger molecules

4. Catabolism …then is to.. “TO BREAK APART “
Example: Glycogen, (starch) stored in the liver when needed for energy, is converted to glucose ( monomers).
So during catabolism large molecules are broken into smaller molecules.

5. Chemical reactions take place in cells all the time.
A chemical reaction takes place when one or substances is chemically changed into one or more different substances.
Chemical reactions take place in cells all the time.
Catalyst
Substrate
Product
Enzyme
Manganese
dioxide
Hydrogen
peroxide
Water + oxygen
Catalase

6. Enzymes and Chemical Reactions
Enzymes can speed reactions by lowering the amount of energy needed for a chemical reaction

7. Catalysts
A catalyst is a substance which speeds up a chemical reaction, without itself being changed by the reaction.
When a catalyst is present, less energy is needed to get the chemical reaction started.
When a catalyst is present, the speed of the chemical reaction is faster.
3. Although a catalyst helps a chemical reaction to happen, it is unchanged at the end of the reaction.

8. Biological Catalysts
The biological catalyst present in the cytoplasm of plant and animal cells that speeds up the breakdown of hydrogen peroxide is called CATALASE.
catalase
Oxygen + water
Hydrogen
peroxide
enzyme
PRODUCTS
REACTANTS

9. 2.2 Nature of Enzymes
The biological catalyst present in the cytoplasm of plant and animal cells that speeds up the breakdown of hydrogen peroxide is called CATALASE.
Catalase
Hydrogen
peroxide
Water + oxygen
Catalase cannot speed up any other reaction. It is SPECIFIC to this reaction.

10. One Enzyme – One Reaction
There are thousands of different enzymes in your body.
Why are there so many different enzymes?
Each enzyme has its own unique protein structure and shape, which is designed to match or COMPLEMENT its substrate.

13. Lock & Key Hypothesis
An enzyme only acts on one type of substance, or substrate.
Therefore, the enzyme is said to be SPECIFIC to its one substrate.
The shape of the active site (binding site) of the enzyme, matches the shape of the substrate. Allowing the two molecules to bind during the chemical reaction.
This theory of enzyme action is called the ‘lock-and-key’ hypothesis.

14. MOVIE

15. Different enzymes for different jobs
Enzymes involved in breakdown reactions
Enzyme and substrate separate
Enzyme-substrate complex
Enzyme and products separate
Enzymes involved in synthesis reactions
Enzyme and substrates separate
Enzyme-substrates complex
Enzyme and product separate

16. 2.3 Using a Control
Why is it necessary to include a control experiment in an investigation?
A control is an experiment that allows a comparison within an investigation in order to ensure that the conclusions drawn from the results are valid.

17. Enzymes involved in breakdown reactions
Catalase
Hydrogen peroxide
Water + Oxygen
Amylase
Starch
Maltose
Lipase
Fatty acids + Glycerol
Fat
Pepsin
Amino acids
Protein

18. 2.5 Effect of High Temperature
Optimum conditions are the conditions at which an enzymes works best
Rate of reactions may be affected by temperature and pH
Notes on Optimum temp
Notes on Denaturation

19. 2.5 Effect of High Temperature
What happens to the activity of an enzyme at high temperatures?
Notes on Optimum temp
Notes on Denaturation

20. Effect of pH on enzymes
When the pH changes outwith optimal conditions, the shape of the active site of the enzyme alters and the enzyme is denatured.
Movie

21. Effect of pH on enzyme activity
Most enzymes work best at a pH close to neutral (pH7), but there are some exceptions. Pepsin, an enzyme found in the stomach, has an optimum pH of 2.

23. Degradation or synthesis?
Enzyme Summary
Enzyme
Substrate
Product(s)
Degradation or synthesis?
Amylase
Starch
Maltose
Catalase
Hydrogen peroxide
Oxygen and water
Pepsin
Protein
Amino acids
Phosphorylase
Glucose-1-phosphate s
Lipase
Fat
Fatty acids