Biochemistry 1st Edition by Roger Miesfeld, Megan McEvoy – Ebook PDF Instant Download/Delivery: 0393614026 , 978-0393614022
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ISBN 10: 0393614026
ISBN 13: 978-0393614022
Author: Roger Miesfeld, Megan McEvoy
Biochemistry promotes understanding of biochemical concepts through highly readable chapters that consistently integrate stunning graphics with text. Its distinctive table of contents highlights how biochemical processes work, and applications to everyday biochemistry ensure that students develop a complete understanding of why biochemistry matters.
Biochemistry 1st Table of contents:
1 – Principles of Biochemistry
1.1 – What Is Biochemistry?
1.2 – The Chemical Basis of Life: A Hierarchical Perspective
1.3 – Storage and Processing of Genetic Information
1.4 – Determinants of Biomolecular Structure and Function
2 – Physical Biochemistry: Energy Conversion, Water, and Membranes
2.1 – Energy Conversion in Biological Systems
2.2 – Water Is Critical for Life Processes
2.3 – Cell Membranes Function as Selective Hydrophobic Barriers
3 – Nucleic Acid Structure and Function
3.1 – Structure of DNA and RNA
3.2 – Genomics: The Study of Genomes
3.3 – Methods in Nucleic Acid Biochemistry
4 – Protein Structure
4.1 – Proteins Are Polymers of Amino Acids
4.2 – Hierarchical Organization of Protein Structure
4.3 – Protein Folding
5 – Methods in Protein Biochemistry
5.1 – The Art and Science of Protein Purification
5.2 – Working with Oligopeptides: Sequencing and Synthesis
5.3 – Protein Structure Determination
5.4 – Protein-Specific Antibodies Are Versatile Biochemical Reagents
6 – Protein Function
6.1 – The Five Major Functional Classes of Proteins
6.2 – Globular Transport Proteins: Transporting Oxygen
6.3 – Membrane Transport Proteins: Controlling Cellular Homeostasis
6.4 – Structural Proteins: The Actin–Myosin Motor
7 – Enzyme Mechanisms
7.1 – Overview of Enzymes
7.2 – Enzyme Structure and Function
7.3 – Enzyme Reaction Mechanisms
7.4 – Enzyme Kinetics
7.5 – Regulation of Enzyme Activity
8 – Cell Signaling Systems
8.1 – Components of Signaling Pathways
8.2 – G Protein–Coupled Receptor Signaling
8.3 – Receptor Tyrosine Kinase Signaling
8.4 – Tumor Necrosis Factor Receptor Signaling
8.5 – Nuclear Receptor Signaling
9 – Glycolysis: A Paradigm of Metabolic Regulation
9.1 – Overview of Metabolism
9.2 – Structures of Simple Sugars
9.3 – Glycolysis Generates ATP under Anaerobic Conditions
9.4 – Regulation of the Glycolytic Pathway
9.5 – Metabolic Fate of Pyruvate
10 – The Citrate Cycle
10.1 – The Citrate Cycle Captures Energy Using Redox Reactions
10.2 – Pyruvate Dehydrogenase Converts Pyruvate to Acetyl-CoA
10.3 – Enzymatic Reactions of the Citrate Cycle
10.4 – Regulation of the Citrate Cycle
10.5 – Metabolism of Citrate Cycle Intermediates
11 – Oxidative Phosphorylation
11.1 – The Chemiosmotic Theory
11.2 – The Mitochondrial Electron Transport System
11.3 – Structure and Function of the ATP Synthase Complex
11.4 – Transport Systems in Mitochondria
11.5 – Regulation of Oxidative Phosphorylation
12 – Photosynthesis
12.1 – Plants Harvest Energy from Sunlight
12.2 – Energy Conversion by Photosystems I and II
12.3 – Photophosphorylation Generates ATP
12.4 – Carbohydrate Biosynthesis in Plants
12.5 – The Glyoxylate Cycle Converts Lipids into Carbohydrates
13 – Carbohydrate Structure and Function
13.1 – Carbohydrates: The Most Abundant Biomolecules in Nature
13.2 – Important Biological Functions of Glycoconjugates
13.3 – Biochemical Methods in Glycobiology
14 – Carbohydrate Metabolism
14.1 – The Pentose Phosphate Pathway
14.2 – Gluconeogenesis
14.3 – Glycogen Degradation and Synthesis
15 – Lipid Structure and Function
15.1 – Many Lipids Are Made from Fatty Acids
15.2 – Triacylglycerols Are Energy Storage Lipids
15.3 – Cell Membranes Contain Three Major Types of Lipids
15.4 – Lipids Function in Cell Signaling
16 – Lipid Metabolism
16.1 – Fatty Acid Oxidation and Ketogenesis
16.2 – Synthesis of Fatty Acids and Triacylglycerols
16.3 – Cholesterol Synthesis and Metabolism
17 – Amino Acid Metabolism
17.1 – Nitrogen Fixation and Assimilation
17.2 – Amino Acid Degradation
17.3 – Amino Acid Biosynthesis
17.4 – Biosynthesis of Amino Acid Derivatives
18 – Nucleotide Metabolism
18.1 – Structure and Function of Nucleotides
18.2 – Purine Metabolism
18.3 – Pyrimidine Metabolism
18.4 – Deoxyribonucleotide Metabolism
19 – Metabolic Integration
19.1 – Metabolic Integration at the Physiologic Level
19.2 – Metabolic Energy Balance
19.3 – Nutrition and Exercise
20 – DNA Replication, Repair, and Recombination
20.1 – DNA Replication
20.2 – DNA Damage and Repair
20.3 – DNA Recombination
21 – RNA Synthesis, Processing, and Gene Silencing
21.1 – Structure and Function of RNA
21.2 – Biochemistry of RNA Synthesis
21.3 – Eukaryotic RNA Processing
21.4 – RNA-Mediated Gene Silencing
22 – Protein Synthesis, Posttranslational Modification, and Transport
22.1 – Deciphering the Genetic Code
22.2 – Biochemistry of mRNA Translation
22.3 – Posttranslational Modification of Proteins
23 – Gene Regulation
23.1 – Principles of Gene Regulation
23.2 – Mechanisms of Prokaryotic Gene Regulation
23.3 – Mechanisms of Eukaryotic Gene Regulation
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Tags: Roger Miesfeld, Megan McEvoy, Biochemistry