2.  I can explain how the change in the structure of a molecular system may result in a change of the function of the system.

3.  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.  I can explain how the shape of enzymes, active sites and interaction with specific molecules are essential for basic functioning of the enzyme. › I can explain how for an enzyme- mediated chemical reaction to occur, the substrate must be complementary to the surface properties (shape and charge of the active site). In other words, the substrate must fit into the enzyme’s active site.

5.  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

6.  How do the following relate to enzymes? › active site › substrate › induced fit › energy of activation

7.  How reactions work  How reactions work with enzymes

8.  Enzymes act on one molecule at a time  Reach a saturation point when all enzymes are engaged in reaction › Reaction rate will not change

9.  All enzymes have a specific range for optimal performance  Outside of that range  denature  don’t function

10.  Disruption of R-groups at each level of structure › H-bonds at 2° › Disulfide bridges, ionic bonds, hydrophobic interactions at 3° › Disassociation of subunits at 4°  When structure changes, function changes

11.  Sometimes reversible, sometimes not

12. › I can explain how cofactors and coenzymes affect enzyme function; this interaction relates to a structural change that alters the activity rate of the enzyme. The enzyme may only become active when all the appropriate cofactors or coenzymes are present and bind to the appropriate sites on the enzyme. › I can explain how other molecules and the environment in which the enzyme acts can enhance or inhibit enzyme activity. Molecules can bind reversibly or irreversibly to the active or allosteric sites, changing the activity of the enzyme.

13. Help/Increase Enzyme Function

14.  Co-factors assist with catalytic activities of enzyme › Can activate active site, assist with substrate bonding › Ex: iron, zinc, copper, magnesium, potassium  Co-enzyme is an organic co-factor › Ex: vitamins (ie: B, C)

15.  One substrate molecule primes an enzyme to receive more substrates readily  Ex: hemoglobin

16. Prevent/Interfere with Enzyme Function

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

18.  Inhibitor binds to allosteric site of enzyme  Active site changes shape, no substrate binds

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

20.  The switching off of a biochemical pathway by the product of the pathway › Negative feedback › Conserve energy!

21.  Bozeman Enzymes Video Bozeman Enzymes Video

22.  I can explain that the change in function of an enzyme can be interpreted from data regarding the concentrations of product or substrate as a function of time. These representations demonstrate the relationship between an enzyme’s activity, the disappearance of substrate, and/or presence of a competitive inhibitor.

23.  Bozeman video Bozeman video