Warm up (Engage)

1. Warm up (Engage) -Make a “T” chart and write “Break” on left side And “Build/assemble” on the right side. Using the pictures below identify which one breaks things and which ones build or assemble. Chain Saw Tape Glue Scissors Stapler Knife

2. What happens to the food after we eat them?

3. Video Reflection • Where is fat digested? • Where is carbohydrate digested? • Where is protein digested? • What is the name of the structure that aids in digestion for all these Biomolecules?

4. Enzymes, who are you?

5. This is what enzymes do …

6. How does it happen? Hydrogen peroxide (H2O2) Liver= host many enzymes such as Catalase Catalase turns H2O2 into… H2O2 + Catalase (in liver) = H20 +O2 What is H20? What is 02? So where is bubbling coming from?

7. Enzymes • Enzymes are proteins that act as biological catalysts. • The function of a catalysts is to speed up chemical reactions that take place in cells. • Enzymes act by lowering the activation energies in a chemical reaction.

8. ENZYMES • Proteins that regulate chemical reactions (ex. digestion). • Catalyst-speeds up chemical reaction but is not consumed in the reaction. • Enzymes are very specific to who they attach: Works like a lock and key: • Substrate • Active site

9. How are enzymes formed?

10. How enzyme works http://upload.wikimedia.org/wikipedia/commons/thumb/2/24/Induced_fit_diagram.svg/450px-Induced_fit_diagram.svg.png

11. They can also do this… What’s the difference?

12. How do enzymes work? • The Enzyme-Substrate Complex • Enzymes provide a site where reactants can be brought together to react (active sites). • The reactants that binds to the active site is called substrates.

13. Video summary of what enzymes do functionally Click here

14. Enzymes • Enzymes can break apart a chemical molecule. OR • Put them together.

15. Chemically this is what enzymes do… • Catalyst-speeds up chemical reaction but is not consumed in the reaction. • They Kick off the chemical reaction by Lowering the Activation energy. • Activation energy: The energy required to complete a reaction.

16. Reaction pathway without enzyme Activation energy without enzyme Activation energy with enzyme Reactants Reaction pathway with enzyme Products B A

17. Shape matters! Enzymes are proteins that have an active site some where on the molecule where others molecules can land and react. Pretizel Active site http://today.slac.stanford.edu/images/2010/algae-enzyme.jpg

18. Think of enzyme as Pac man http://3.bp.blogspot.com/_Q8OAp1ni8ys/S_d18_SKKkI/AAAAAAAAAHg/973QvIZGTYE/s1600/pacman.PNG

19. EXIT TICKET • Enzymes belong to which biomolecule? • What does a catalysts do to a chemical reaction? • T/F Any substrate can bind to the active site of an enzyme. • T/F Enzymes can only break apart a substrate. • T/F All proteins are enzymes.

20. What Affects Enzyme Activity? Three factors: 1. Environmental Conditions 2. Cofactors and Coenzymes 3. Enzyme Inhibitors 20

21. 1. Environmental Conditions 1. Extreme Temperature are the most dangerous - high tempsmay denature (unfold) the enzyme. 2. pH (most like 6 - 8 pH near neutral) 3. Ionic concentration (salt ions) 21

22. 2. Cofactors and Coenzymes Inorganic substances (zinc, iron)andvitamins (respectively) are sometimes need for proper enzymatic activity. Example: Iron must be present in the quaternary structure-hemoglobin in order for it to pick up oxygen. 22

23. Two examples of Enzyme Inhibitors a. Competitive inhibitors: are chemicals that resemble an enzyme’s normal substrate and compete with it for the active site. Enzyme Competitive inhibitor Substrate 23

24. Inhibitors b. Noncompetitive inhibitors: Inhibitors that do not enter the active site, but bind to another part of the enzyme causing the enzyme to change its shape, which in turn alters the active site. Noncompetitive Inhibitor Enzyme active site altered Substrate 24