Table of Contents
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To the Student 1: Amino Acids and the Primary Structure of Proteins 2: 3-D Structure of Proteins 3: Tools of Biochemistry 4: Problem-Solving Challenge: LWBGase 5: Problem-Solving Challenge: Working with Proteins 6: Hemoglobin: Protein Structure and Function 7: Enzyme Catalysis 8: Enzyme Kinetics 9: Enzyme Inhibition 10: Enzyme Problems 11: Carbohydrates and Glycoproteins 12: Lipid Structure and Function 13: Membranes and Transmembrane Proteins 14: Membrane Proteins — Interpreting a Research Paper 15: Transmembrane Proteins Problem 16: Problem Solving 17: DNA and the Central Dogma 18: Higher Order Structure of Nucleic Acids
19: Understanding the Rate
Determining Step in a Metabolic Pathway
20: Understanding
Metabolically Far From Equilibrium Reactions
21: High Energy
Compounds
22: Enzymes in
Glycolysis
23: Regulation of
Glycolysis and Gluconeogenesis
24: Metabolic and
Hormonal Control in Glycolysis and Gluconeogenesis
25: Regulation of
Glycogen Storage and Breakdown
26: Glycolysis and
Gluconeogenesis Problem Solving
27: Glycolysis and
Gluconeogenesis Problem Solving, Part 2
28: Pentose Phosphate
Pathway
29: Exploring Pyruvate
Dehydrogenase and the Citric Acid Cycle
30: Exploring the Citric
Acid Cycle
31: Electron Transport
32: Oxidative
Phosphorylation
33: Fatty Acid
Degradation and Glucose Synthesis
34: Understanding Fatty
Acid Biosynthesis
35: The Urea Cycle and
the Effects of Protein Degradation
36: Integrated
Metabolism |