1. Enzymes
Chapter 8

2. Learning Targets
I can describe the structure and explain the significance and functions of enzymes in biological systems
I can describe why an investment of activation energy is necessary to initiate a spontaneous reaction.
I can explain how enzymes speed up chemical reactions.
I can explain the interactions between substrates and active sites of enzymes.
I can explain how the following affect enzymatic function:
Enzyme and substrate concentrations
pH, temperature and salinity
coenzymes
inhibition; competitive, non-competitive and allosteric cooperativity
I can describe the role that enzymes play in feedback inhibition.
I can design a lab that quantifiably measures the effect of an environmental factor on enzymatic activity.

3. Structure
Protein
Recall 4 levels of structure and bonds that hold them in place
Substrate-specific: the active site is specifically shaped so only certain molecules fit on it

4. Learning Targets
I can describe the structure and explain the significance and functions of enzymes in biological systems
I can describe why an investment of activation energy is necessary to initiate a spontaneous reaction.
I can explain how enzymes speed up chemical reactions.
I can explain the interactions between substrates and active sites of enzymes.
I can explain how the following affect enzymatic function:
Enzyme and substrate concentrations
pH, temperature and salinity
coenzymes
inhibition; competitive, non-competitive and allosteric cooperativity
I can describe the role that enzymes play in feedback inhibition.
I can design a lab that quantifiably measures the effect of an environmental factor on enzymatic activity.

5. Activation Energy
How reactions work:

6. Learning Targets
I can describe the structure and explain the significance and functions of enzymes in biological systems
I can describe why an investment of activation energy is necessary to initiate a spontaneous reaction.
I can explain how enzymes speed up chemical reactions.
I can explain the interactions between substrates and active sites of enzymes.
I can explain how the following affect enzymatic function:
Enzyme and substrate concentrations
pH, temperature and salinity
coenzymes
inhibition; competitive, non-competitive and allosteric cooperativity
I can describe the role that enzymes play in feedback inhibition.
I can design a lab that quantifiably measures the effect of an environmental factor on enzymatic activity.

7. Enzymes are Catalysts

8. Induced Fit
Shape of active site can change slightly as substrate binds
The active site is then molded into a precise conformation--sort of like a hand in a glove
So, some enzymes can act on similar molecules, not just specific ones

9. Learning Targets
I can describe the structure and explain the significance and functions of enzymes in biological systems
I can describe why an investment of activation energy is necessary to initiate a spontaneous reaction.
I can explain how enzymes speed up chemical reactions.
I can explain the interactions between substrates and active sites of enzymes.
I can explain how the following affect enzymatic function:
Enzyme and substrate concentrations
pH, temperature and salinity
coenzymes
inhibition; competitive, non-competitive and allosteric cooperativity
I can describe the role that enzymes play in feedback inhibition.
I can design a lab that quantifiably measures the effect of an environmental factor on enzymatic activity.

10. Enzyme-Substrate Interaction
How do the following relate to enzymes?
active site
substrate
induced fit
energy of activation

11. Learning Targets
I can describe the structure and explain the significance and functions of enzymes in biological systems
I can describe why an investment of activation energy is necessary to initiate a spontaneous reaction.
I can explain how enzymes speed up chemical reactions.
I can explain the interactions between substrates and active sites of enzymes.
I can explain how the following affect enzymatic function:
Enzyme and substrate concentrations
pH, temperature and salinity
coenzymes
inhibition; competitive, non-competitive and allosteric cooperativity
I can describe the role that enzymes play in feedback inhibition.
I can design a lab that quantifiably measures the effect of an environmental factor on enzymatic activity.

12. Enzyme-Substrate Concentration
Enzymes act on one molecule at a time
Reach a saturation point when all enzymes are engaged in reaction

13. pH, Temperature, Salinity
All enzymes have a specific range for optimal performance
Outside of that range  denature  don’t function

14. Denaturation

15. Inhibiting Factors
Prevent/Interfere with Enzyme Function

16. Competitive Inhibition
Competitive inhibitor has same shape as substrate
(competes for active site)
Prevents substrate from binding to active site by binding to active site itself

17. Allosteric Inhibition
Inhibitor binds to allosteric site of enzyme
Active site changes shape, no substrate binds

18. Enhancing Factors
Help/Increase Enzyme Function

19. Cofactors & Coenzymes
Cofactor assist with catalytic activities of enzyme
Coenzyme is an organic cofactor
Ex: vitamins

20. Allosteric Activation
Change in the enzyme’s shape due to binding of activator at allosteric site
Enzyme is stabilized by activator

21. Allosteric Cooperativity
One substrate molecule primes an enzyme to receive more substrates readily
Ex: hemoglobin

22. Learning Targets
I can describe the structure and explain the significance and functions of enzymes in biological systems
I can describe why an investment of activation energy is necessary to initiate a spontaneous reaction.
I can explain how enzymes speed up chemical reactions.
I can explain the interactions between substrates and active sites of enzymes.
I can explain how the following affect enzymatic function:
Enzyme and substrate concentrations
pH, temperature and salinity
coenzymes
inhibition; competitive, non-competitive and allosteric cooperativity
I can describe the role that enzymes play in feedback inhibition.
I can design a lab that quantifiably measures the effect of an environmental factor on enzymatic activity.

23. Feedback Inhibition
The switching off of a biochemical pathway by the product of the pathway
Negative feedback
Conserve energy!

24. Bozeman Enzymes Video

25. Learning Targets
I can describe the structure and explain the significance and functions of enzymes in biological systems
I can describe why an investment of activation energy is necessary to initiate a spontaneous reaction.
I can explain how enzymes speed up chemical reactions.
I can explain the interactions between substrates and active sites of enzymes.
I can explain how the following affect enzymatic function:
Enzyme and substrate concentrations
pH, temperature and salinity
coenzymes
inhibition; competitive, non-competitive and allosteric cooperativity
I can describe the role that enzymes play in feedback inhibition.
I can design a lab that quantifiably measures the effect of an environmental factor on enzymatic activity.

26. AP Lab 13
Bozeman video