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Marks' Basic Medical Biochemistry Sixth, International Edition
ÆǸŰ¡°Ý  : 75,000¿ø
Àû¸³±Ý  : 2,250Á¡
ÃâÆǻ砠: Wolters Kluwer
ÀúÀÚ  : Michael A. Lieberman PhD, Alisa Peet MD
¹ßÇàÀÏ  : 2022
ÆäÀÌÁö ¼ö  : 1136¸é
ISBN  : 9781975174712
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  1. Description:

    Marks¡¯ Basic Medical Biochemistry: A Clinical Approach, 6th Edition links biochemistry to physiology and pathophysiology, empowering students to confidently apply fundamental concepts to the practice of medicine — from diagnosing patients to recommending effective treatments. This proven, application-centered approach builds biochemical coverage around related clinical concepts to anchor students¡¯ understanding to a clinical context from day one. Intuitively organized chapters center on hypothetical patient vignettes to emphasize clinical applications, and helpful icons, images, and review questions make complex concepts easier to grasp.
  2.  
  3. Cover
  4. Title Page
  5. Copyright
  6. Preface to the Sixth Edition
  7. How to Use This Book
  8. Acknowledgments
  9. Reviewers
  10. Contents
  11. Animation
  12. Section I: Fuel Metabolism
  13. 1 Metabolic Fuels and Dietary Components
  14. I. Dietary Fuels
  15. A. Carbohydrates
  16. B. Proteins
  17. C. Fats
  18. D. Alcohol
  19. II. Body Fuel Stores
  20. A. Fat
  21. B. Glycogen
  22. C. Protein
  23. III. Daily Energy Expenditure
  24. A. Basal Metabolic Rate
  25. B. Physical Activity
  26. C. Diet-Induced Thermogenesis
  27. D. Calculations of Daily Energy Expenditure
  28. E. Healthy Body Weight
  29. F. Weight Gain and Loss
  30. IV. Dietary Requirements
  31. A. Carbohydrates
  32. B. Essential Fatty Acids
  33. C. Protein
  34. D. Vitamins
  35. E. Minerals
  36. F. Water
  37. V. Dietary Guidelines
  38. A. General Recommendations
  39. B. Carbohydrates
  40. C. Fats
  41. D. Proteins
  42. E. Alcohol
  43. F. Vitamins and Minerals
  44. VI. Xenobiotics
  45. Chapter 1: Review Questions
  46. 2 The Fed or Absorptive State
  47. I. Digestion and Absorption
  48. A. Carbohydrates
  49. B. Proteins
  50. C. Fats
  51. II. Changes in Hormone Levels after a Meal
  52. III. Fate of Glucose
  53. A. Conversion to Glycogen, Triacylglycerols, and CO2 in the Liver
  54. B. Glucose Metabolism in Other Tissues
  55. IV. Lipoproteins
  56. V. Amino Acids
  57. VI. Summary of the Fed (Absorptive) State
  58. Chapter 2: Review Questions
  59. 3 Fasting
  60. I. The Fasting State
  61. A. Blood Glucose and the Role of the Liver during Fasting
  62. B. Role of Adipose Tissue during Fasting
  63. C. Summary of the Metabolic Changes during a Brief Fast
  64. II. Metabolic Changes during Prolonged Fasting
  65. A. Role of Liver during Prolonged Fasting
  66. B. Role of Adipose Tissue during Prolonged Fasting
  67. Chapter 3: Review Questions
  68. Section II: Chemical and Biologic Foundations of Biochemistry
  69. 4 Water, Acids, Bases, and Buffers
  70. I. Water
  71. A. Fluid Compartments in the Body
  72. B. Hydrogen Bonds in Water
  73. C. Electrolytes
  74. D. Osmolality and Water Movement
  75. II. Acids and Bases
  76. A. The pH of Water
  77. B. Strong and Weak Acids
  78. III. Buffers
  79. IV. Metabolic Acids and Buffers
  80. A. The Bicarbonate Buffer System
  81. B. Bicarbonate and Hemoglobin in Red Blood Cells
  82. C. Intracellular pH
  83. D. Urinary Hydrogen, Ammonium, and Phosphate Ions
  84. E. Hydrochloric Acid
  85. Chapter 4: Review Questions
  86. 5 Structures of the Major Compounds of the Body
  87. I. Functional Groups on Biologic Compounds
  88. A. Biologic Compounds
  89. B. Functional Groups
  90. C. Polarity of Bonds and Partial Charges
  91. D. Nomenclature
  92. II. Carbohydrates
  93. A. Monosaccharides
  94. B. Glycosides
  95. III. Lipids
  96. A. Fatty Acids
  97. B. Acylglycerols
  98. C. Phosphoacylglycerols
  99. D. Sphingolipids
  100. E. Steroids
  101. IV. Nitrogen-Containing Compounds
  102. A. Amino Acids
  103. B. Nitrogen-Containing Ring Structures
  104. V. Free Radicals
  105. Chapter 5: Review Questions
  106. 6 Amino Acids in Proteins
  107. I. General Structure of the Amino Acids
  108. II. Classification of Amino Acid Side Chains
  109. A. Nonpolar, Aliphatic Amino Acids
  110. B. Aromatic Amino Acids
  111. C. Aliphatic, Polar, Uncharged Amino Acids
  112. D. Sulfur-Containing Amino Acids
  113. E. The Acidic and Basic Amino Acids
  114. III. Variations in Primary Structure
  115. A. Polymorphism in Protein Structure
  116. B. Tissue and Developmental Variations in Protein Structure
  117. C. Species Variations in the Primary Structure of Insulin
  118. A. Protein Families and Superfamilies
  119. B. Creatine Kinase and Myocardial Infarctions
  120. IV. Modified Amino Acids
  121. A. Glycosylation
  122. B. Fatty Acylation or Prenylation
  123. C. Regulatory Modifications
  124. D. Other Amino Acid Posttranslational Modifications
  125. E. Selenocysteine
  126. Chapter 6: Review Questions
  127. 7 Structure–Function Relationships in Proteins
  128. I. General Characteristics of Three-Dimensional Structure
  129. A. Descriptions of Protein Structure
  130. B. Requirements of the Three-Dimensional Structure
  131. II. The Three-Dimensional Structure of the Peptide Backbone
  132. III. Secondary Structure
  133. A. The ¥á-Helix
  134. B. ¥â-Sheets
  135. C. Nonrepetitive Secondary Structures
  136. D. Patterns of Secondary Structure
  137. IV. Tertiary Structure
  138. A. Domains in the Tertiary Structure
  139. B. Folds in Globular Proteins
  140. C. The Solubility of Globular Proteins in an Aqueous Environment
  141. D. Tertiary Structure of Transmembrane Proteins
  142. V. Quaternary Structure
  143. VI. Quantitation of Ligand Binding
  144. VII. Structure–Function Relationships in Myoglobin and Hemoglobin
  145. A. Oxygen Binding and Heme
  146. B. Cooperativity of O2 Binding in Hemoglobin
  147. C. Agents That Affect Oxygen Binding
  148. C. Carbon Dioxide
  149. VIII. Structure–Function Relationships in Immunoglobulins
  150. IX. Protein Folding
  151. A. Primary Structure Determines Folding
  152. B. Fibrous Proteins—Collagen
  153. C. Protein Denaturation
  154. Chapter 7: Review Questions
  155. 8 Enzymes as Catalysts
  156. I. The Enzyme-Catalyzed Reaction
  157. A. The Active Site
  158. B. Substrate-Binding Sites
  159. C. The Transition-State Complex
  160. II. Strategies for Catalysis
  161. A. General Acid–Base Catalysis
  162. II. Catalytic Mechanism of Chymotrypsin
  163. A. The Reaction in the Absence of Enzyme
  164. B. Catalytic Strategies in the Reaction Catalyzed by Chymotrypsin
  165. C. Energy Diagram in the Presence of Chymotrypsin
  166. B. Covalent Catalysis
  167. C. Metal-Ion Catalysis
  168. D. Catalysis by Approximation
  169. E. Cofactor Catalysis
  170. III. Functional Groups in Catalysis
  171. A. Functional Groups on Amino Acid Side Chains
  172. B. Coenzymes in Catalysis
  173. C. Metal Ions in Catalysis (See Also Section II.C)
  174. D. Noncatalytic Roles of Cofactors
  175. IV. Optimal pH and Temperature
  176. V. Mechanism-Based Inhibitors
  177. A. Covalent Inhibitors
  178. B. Transition-State Analogs and Compounds That Resemble Intermediate Stages of the Reaction
  179. C. Heavy Metals
  180. Chapter 8: Review Questions
  181. 9 Regulation of Enzymes
  182. I. General Overview
  183. II. Regulation by Substrate and Product Concentration
  184. A. Velocity and Substrate Concentration
  185. B. Reversible Inhibition within the Active Site
  186. III. Regulation through Conformational Changes
  187. A. Conformational Changes in Allosteric Enzymes
  188. B. Conformational Changes from Covalent Modification
  189. C. Conformational Changes Regulated by Protein–Protein Interactions
  190. D. Proteolytic Cleavage
  191. IV. Regulation through Changes in Amount of Enzyme
  192. A. Regulated Enzyme Synthesis
  193. B. Regulated Protein Degradation
  194. V. Regulation of Metabolic Pathways
  195. A. Principles of Pathway Regulation
  196. Chapter 9: Review Questions
  197. 10 Cell Structure and Signaling by Chemical Messengers
  198. I. Compartmentation in Cells
  199. II. Plasma Membrane
  200. A. Structure of the Plasma Membrane
  201. B. Transport of Molecules across the Plasma Membrane
  202. III. Lysosomes
  203. IV. Mitochondria
  204. V. Peroxisomes
  205. VI. Nucleus
  206. VII. Endoplasmic Reticulum
  207. VIII. Golgi Complex
  208. IX. Cytoskeleton
  209. X. General Features of Chemical Messengers
  210. A. General Features of Chemical Messenger Systems Applied to the Nicotinic Acetylcholine Receptor
  211. B. Endocrine, Paracrine, Autocrine, and Juxtacrine Actions
  212. C. Types of Chemical Messengers
  213. XI. Intracellular Transcription Factor Receptors
  214. A. Intracellular versus Plasma Membrane Receptors
  215. B. The Steroid Hormone/Thyroid Hormone Superfamily of Receptors
  216. XII. Plasma Membrane Receptors and Signal Transduction
  217. A. Ion-Channel Receptors
  218. B. Receptors That Are Kinases or That Bind Kinases
  219. C. Heptahelical Receptors
  220. D. Juxtacrine Signaling
  221. XIII. Signal Termination
  222. Chapter 10: Review Questions
  223. 11 Structure of the Nucleic Acids
  224. I. DNA Structure
  225. A. Location of DNA
  226. B. Determination of the Structure of DNA
  227. C. Concept of Base Pairing
  228. D. DNA Strands Are Antiparallel
  229. E. The Double Helix
  230. F. Characteristics of DNA
  231. II. Structure of Chromosomes
  232. A. Size of DNA Molecules
  233. B. Packaging of DNA
  234. C. The Human Genome
  235. III. Structure of RNA
  236. A. General Features of RNA
  237. B. Structure of mRNA
  238. C. Structure of rRNA
  239. D. Structure of tRNA
  240. E. Other Types of RNA
  241. Chapter 11: Review Questions
  242. Section III: Gene Expression and the Synthesis of Proteins
  243. 12 Synthesis of DNA
  244. I. DNA Synthesis in Prokaryotes
  245. A. Bidirectional Replication
  246. B. Semiconservative Replication
  247. C. DNA Unwinding
  248. D. DNA Polymerase Action
  249. E. Base-Pairing Errors
  250. F. RNA Primer Requirement
  251. G. The Replication Fork
  252. H. DNA Ligase
  253. II. DNA Synthesis in Eukaryotes
  254. A. Eukaryotic Cell Cycle
  255. B. Points of Origin for Replication
  256. C. Eukaryotic DNA Polymerases
  257. D. The Eukaryotic Replication Complex
  258. E. Replication at the Ends of Chromosomes
  259. III. DNA Repair
  260. A. Actions of Mutagens
  261. B. Repair Mechanisms
  262. IV. Genetic Rearrangements
  263. A. General or Homologous Recombination
  264. B. Translocations
  265. C. Repair of Single- and Double-Strand Breaks in DNA
  266. D. Transposable Elements
  267. V. Reverse Transcriptase
  268. Chapter 12: Review Questions
  269. 13 Transcription: Synthesis of RNA
  270. I. Action of RNA Polymerase
  271. II. Types of RNA Polymerases
  272. A. Sequences of Genes
  273. B. Recognition of Genes by RNA Polymerase
  274. C. Promoter Regions of Genes for mRNA
  275. III. Transcription of Bacterial Genes
  276. IV. Transcription of Eukaryotic Genes
  277. A. Synthesis of Eukaryotic mRNA
  278. B. Synthesis of Eukaryotic rRNA
  279. C. Synthesis of Eukaryotic tRNA
  280. V. Differences in Size between Eukaryotic and Prokaryotic DNA
  281. A. Diploid versus Haploid
  282. B. Introns
  283. C. Repetitive Sequences in Eukaryotic DNA
  284. D. Summary of the Differences between Eukaryotic and Prokaryotic DNA and RNA
  285. Chapter 13: Review Questions
  286. 14 Translation: Synthesis of Proteins
  287. I. The Genetic Code
  288. A. The Code Is Degenerate Yet Unambiguous
  289. B. The Code Is Nonoverlapping
  290. C. Relationship between mRNA and the Protein Product
  291. II. Effects of Mutations
  292. A. Point Mutations
  293. B. Insertions, Deletions, and Frameshift Mutations
  294. III. Formation of Aminoacyl-tRNA
  295. IV. Process of Translation
  296. A. Initiation of Translation
  297. B. Elongation of Polypeptide Chains
  298. C. Termination of Translation
  299. V. Polysomes
  300. VI. Processing of Proteins
  301. VII. Posttranslational Modifications
  302. VIII. Targeting of Proteins to Subcellular and Extracellular Locations
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