1. Enzymes: “Helper” Protein molecules

2. Chemical Reactions
When bonds are broken and reformed to make different substances.
EX:
Reactants Products
C6H12O6 + 6O2 6CO2 + 6H2O
Remember, energy is stored in the bonds of the compounds.
Reactants are also called raw materials – They need to know this term.
Have them tell you the reactants and products of the above equation.

3. Chemical reactions of life
Processes of life
building molecules
synthesis
breaking down molecules
digestion + +

4. What is needed to start a reaction?
Energy absorbed
Activation energy
Activation Energy: energy required to get a reaction started
Point out the high amount of energy needed with reaction in graph.
The activation energy on the graph comes in when you click the mouse – the purpose is to get the answer from them first. – Remember enzyme demo
Energy released
reactant
Products

5. Nothing works without enzymes!
How important are enzymes?
all chemical reactions in living organisms require enzymes to work
building molecules
synthesis enzymes
breaking down molecules
digestive enzymes
Catalysts (enzyme): organic molecule that lowers activation energy = speed up of chemical reactions
enzyme +
enzyme
We can’t live without enzymes! +

6. Catabolic Reaction (DIGESTION)
Is the breakdown of a complex molecule into simpler substances
These reactions RELEASE energy

7. Anabolic Reaction (SYNTHESIS)
The combining of simple molecules into a more complex ones
This reaction builds new molecules and/or STORES energy

8. Examples
anabolic
enzyme +
catabolic
enzyme +

9. Enzymes are proteins
Each enzyme is the specific helper to a specific reaction
each enzyme needs to be the right shape for the job
enzymes are named for the reaction they help
sucrase breaks down sucrose
proteases breakdown proteins
lipases breakdown lipids
DNA polymerase builds DNA
Oh, I get it!
They end in -ase

10. Enzymes aren’t used up Enzymes are NOT changed by the reaction
used only temporarily
re-used again for the same reaction with other molecules
very little enzyme needed to help in many reactions
substrate
product
active site
enzyme

11. It’s shape that matters!
Lock & Key Theory
shape of protein allows enzyme & substrate to fit
specific enzyme for each specific reaction

12. What Affects Enzyme Activity
Temperature:
pH:
Concentration: 3 7 5 9 11 13
Neutral
Battery Acid
Bleach
Blood (7.5)
Temperature: all enzymes have an optimal temp they work best at
pH: acidity/alkalinity can increase or decrease the function of an enzyme
Concentration: Increasing the concentration of the enzyme can increase the rate of the chemical reaction

13. Temperature Effect on rates of enzyme activity Optimum temperature
greatest number of collisions between enzyme & substrate
human enzymes
35°- 40°C (body temp = 37°C)
Raise temperature (boiling)
denature protein = unfold = lose shape
Lower temperature
molecules move slower
fewer collisions between enzyme & substrate

14. Temperature human enzymes reaction rate temperature 37°
What’s happening here?!
37°
reaction rate
temperature

15. pH Effect on rates of enzyme activity
changes in pH changes protein shape
most human enzymes = pH 6-8
depends on where in body
pepsin (stomach) = pH 3
trypsin (small intestines) = pH 8

16. pH stomach pepsin intestines trypsin reaction rate pH 1 2 3 4 5 6 7 8
What’s happening here?!
reaction rate 1 2 3 4 5 6 7 8 9 10 11 12 13 14 pH

17. Concentration Two ways concentration can affect reaction rates
Increase substrate concentration will increase reaction rate (only to a point)
Increase enzyme concentration will increase reaction rate (only to a point)

18. Concentration reaction rate concentration 1 2 3 4 5 6 7 8 9 10 11 121 2 3 4 5 6 7 8 9 10 11 12 13 14
concentration

19. Denature
When enzymes are exposed to extremes in pH or high temperatures, they can denature
When denatured, an enzyme will no longer function, due to a change in the structure of the enzyme
This is why running high fevers for extended time is cause for concern

20. Competitive Inhibition
Competitive Inhibition: is a form of enzyme inhibition where binding of the inhibitor to the active site on the enzyme prevents binding of the substrate

21. Noncompetitive Inhibition
Noncompetitive Inhibition: a molecule binds to an enzyme somewhere other than the active site
Changes enzyme’s 3-D structure
Active site can still bind substrate with the usual affinity
But is no longer in the optimal arrangement to catalyze the reactions

22. Enzyme vocabulary review
helper protein molecule that lowers activation energy for specific chemical reactions
Substrate
molecule that enzymes work on
Products
what the enzyme helps produce from the reaction
Active site
part of enzyme that substrate molecule fits into