 |  Human Physiology, 7/e Stuart I Fox,
Pierce College
Enzymes and Energy
Chapter Objectives After studying
this chapter, students should be able to . . .
1.State the principles of catalysis and explain how enzymes function as catalysts. |
| | | 2.Explain how the names of enzymes are derived and comment on the significance of isoenzymes. |
| | | 3.Describe the effects of pH and temperature on the rate of enzyme-catalyzed reactions and explain how these effects are
produced. |
| | | 4.Describe the roles of cofactors and coenzymes in enzymatic reactions. |
| | | 5.Explain how the law of mass action helps to account for the direction of reversible reactions. |
| | | 6.Explain how enzymes work together to produce a metabolic pathway and how this pathway may be affected by end-product inhibition
and inborn errors of metabolism. |
| | | 7.Explain how the first and second laws of thermodynamics can be used to predict if metabolic reactions will be endergonic
or exergonic. |
| | | 8.Describe how ATP is produced and explain its significance as the universal energy carrier. |
| | | 9.Define the terms oxidation, reduction, oxidizing agent, and reducing agent. |
| | | 10.Describe the use of NAD and FAD in oxidation-reduction reactions and explain the functional significance of these two molecules. |
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2002 McGraw-Hill Higher Education