TEST BANK - FUNDAMENTALS OF BIOCHEMISTRY LIFE AT THE MOLECULAR LEVEL 6TH EDITION (DONALD VOET, 2025/2026) ALL CHAPTERS||LATEST EDITION

TEST BANK - FUNDAMENTALS OF
BIOCHEMISTRY LIFE AT THE
MOLECULAR LEVEL 6TH EDITION
(DONALD VOET, 2025/2026) ALL
CHAPTERS||LATEST EDITION

, TABLE OF CONTENTS
1. CHAPTER 1 Introduction to the Chemistry of Life
2. 1.1 The Origin of Life
3. 1.2 Cellular Architecture
4. 1.3 Thermodynamics
5. Summary
6. Key Terms
7. Problems
8. CHAPTER 2 Water
9. 2.1 Physical Properties of Water
10. 2.2 Chemical Properties of Water
11. Summary
12. Key Terms
13. Problems
14. CHAPTER 3 Amino Acids and Polypeptides
15. 3.1 Amino Acid Structure
16. 3.2 Stereochemistry
17. 3.3 Amino Acid Derivatives
18. 3.4 Polypeptides and Proteins
19. Summary
20. Key Terms
21. Problems
22. CHAPTER 4 Proteins: Three-Dimensional Structure
23. 4.1 Secondary Structure
24. 4.2 Tertiary Structure
25. 4.3 Quaternary Structure and Multiprotein Complexes
26. 4.4 Protein Folding and Unfolding
27. Biochemistry in Focus: Oxygen Transport
28. Summary
29. Key Terms
30. Problems
31. CHAPTER 5 Carbohydrates
32. 5.1 Monosaccharides
33. 5.2 Polysaccharides
34. 5.3 Glycoproteins
35. Summary
36. Key Terms

,37. Problems
38. CHAPTER 6 Nucleotides, Nucleic Acids, and Genetic Information
39. 6.1 Nucleotides and Polynucleotides
40. 6.2 Nucleic Acid Structure: DNA
41. 6.3 Nucleic Acid Structure: RNA
42. 6.4 Overview of Nucleic Acid Function
43. Summary
44. Key Terms
45. Problems
46. CHAPTER 7 Lipids and Biological Membranes
47. 7.1 Lipid Classification
48. 7.2 Lipid Bilayers
49. 7.3 Membrane Proteins
50. 7.4 Membrane Structure and Assembly
51. Summary
52. Key Terms
53. Problems
54. CHAPTER 8 Membrane Transport
55. 8.1 Thermodynamics of Transport
56. 8.2 Passive-Mediated Transport
57. 8.3 Active Transport
58. Summary
59. Key Terms
60. Problems
61. CHAPTER 9 Enzymatic Catalysis
62. 9.1 General Properties of Enzymes
63. 9.2 Enzymes Work by Lowering Activation Energy
64. 9.3 Catalytic Mechanisms
65. 9.4 Lysozyme
66. 9.5 Serine Proteases
67. Summary
68. Key Terms
69. Problems
70. CHAPTER 10 Enzyme Kinetics, Inhibition, and Control
71. 10.1 Reaction Kinetics
72. 10.2 Enzyme Inhibition
73. 10.3 Control of Enzyme Activity
74. Biochemistry in Focus: Enzymes as Targets for Drug Design
75. Summary

, 76. Key Terms
77. Problems
78. CHAPTER 11 Biochemical Signaling
79. 11.1 Hormones
80. 11.2 Receptor Tyrosine Kinases
81. 11.3 Heterotrimeric G Proteins
82. 11.4 The Phosphoinositide Pathway
83. Biochemistry in Focus: Chemical Signaling and Movement
84. Summary
85. Key Terms
86. Problems
87. CHAPTER 12 Introduction to Metabolism
88. 12.1 Overview of Metabolism
89. 12.2 “High-Energy” Compounds
90. 12.3 Oxidation–Reduction Reactions
91. 12.4 Experimental Approaches to the Study of Metabolism
92. Summary
93. Key Terms
94. Problems
95. CHAPTER 13 Glucose Metabolism
96. 13.1 Overview of Glycolysis
97. 13.2 The Reactions of Glycolysis
98. 13.3 Metabolism of Hexoses Other than Glucose
99. 13.4 Fermentation: The Anaerobic Fate of Pyruvate
100. 13.5 Gluconeogenesis
101. 13.6 Regulation of Glycolysis and Gluconeogenesis
102. 13.7 The Pentose Phosphate Pathway
103. Summary
104. Key Terms
105. Problems
106. CHAPTER 14 Glycogen Metabolism
107. 14.1 Glycogen Breakdown
108. 14.2 Glycogen Synthesis
109. 14.3 Control of Glycogen Metabolism
110. 14.4 Other Carbohydrate Biosynthetic Pathways
111. Summary
112. Key Terms
113. Problems
114. CHAPTER 15 Citric Acid Cycle