Derived from the classic text originated by Lubert Stryer and continued by John Tymoczko and Jeremy Berg, Biochemistry: A Short Course focuses on the major topics taught in a one-semester biochemistry course. With its short chapters and relevant examples, it's uniquely effective in helping students see the connections between the biochemistry they're studying and their own lives. This new edition takes into account recent discoveries and advances that have changed how we think about the fundamental concepts in biochemistry and human health. A number of new interactive features are designed…mehr
Derived from the classic text originated by Lubert Stryer and continued by John Tymoczko and Jeremy Berg, Biochemistry: A Short Course focuses on the major topics taught in a one-semester biochemistry course. With its short chapters and relevant examples, it's uniquely effective in helping students see the connections between the biochemistry they're studying and their own lives.
This new edition takes into account recent discoveries and advances that have changed how we think about the fundamental concepts in biochemistry and human health. A number of new interactive features are designed to help instructors create a more active environment in the classroom. Those new resources are found in LaunchPad, the third edition's dedicated version of W.H. Freeman's breakthrough online course space. See 'Instructor Resources' and 'Student Resources' for further information.
John L. Tymoczko is Towsley Professor of Biology at Carleton College, where he has taught since 1976. He currently teaches Biochemistry, the Metabolic Basis of Human Disease, Oncogenes and the Molecular Biology of Cancer, and Exercise Biochemistry and co-teaches an introductory course, Energy Flow in Biological Systems.
Jeremy M. Berg received his B.S. and M.S. degrees in Chemistry from Stanford (where he did research with Keith Hodgson and Lubert Stryer) and his Ph.D. in Chemistry from Harvard with Richard Holm. He then completed a postdoctoral fellowship with Carl Pabo in Biophysics at Johns Hopkins University School of Medicine.
Lubert Stryer is Winzer Professor of Cell Biology, Emeritus, in the School of Medicine and Professor of Neurobiology, Emeritus, at Stanford University, where he has been on the faculty since 1976. He received his M.D. from Harvard Medical School."
Inhaltsangabe
PART I: THE MOLECULAR DESIGN OF LIFE Section 1: Biochemistry Chapter 1: Biochemistry and the Unity of Life Chapter 2: Water, Weak Bonds and the Generation of Order Out of Chaos
Section 2: Protein Composition and Structure Chapter 3: Amino Acids Chapter 4: Protein Three-Dimensional Structure Chapter 5: Techniques in Protein Biochemistry
Section 3: Basic Concepts and Kinetics of Enzymes Chapter 6: Basic Concepts of Enzyme Action Chapter 7: Kinetics and Regulation Chapter 8: Mechanisms and Inhibitors Chapter 9: Hemoglobin, An Allosteric Protein
Section 5: Cell Membranes, Channels, Pumps and Receptors Chapter 12: Membrane Structure and Function Chapter 13: Signal-Transduction Pathways
PART II: TRANSDUCING AND STORING ENERGY Section 6: Basic Concepts and Design of Metabolism Chapter 14: Digestion: Turning a Meal into Cellular Biochemicals Chapter 15: Metabolism: Basic Concepts and Design
Section 13: The Metabolism of Nitrogen-Containing Molecules Chapter 30: Amino Acid Degradation and the Urea Cycle Chapter 31: Amino Acid Synthesis Chapter 32: Nucleotide Metabolism
PART III: SYNTHESIZING THE MOLECULES OF LIFE Section 14: Nucleic Acid Structure and DNA Replication Chapter 33: The Structure of Informational Macromolecules: DNA and RNA Chapter 34: DNA Replication Chapter 35: DNA Repair and Recombination Section 15: RNA Synthesis, Processing and Regulation Chapter 36: RNA Synthesis and Regulation in Bacteria Chapter 37: Gene Expression in Eukaryotes Chapter 38: RNA Processing in Eukaryotes
Section 16: Protein Synthesis and Recombinant DNA Techniques Chapter 39: The Genetic Code Chapter 40: The Mechanism of Protein Synthesis Chapter 41: Recombinant DNA Techniques
PART I: THE MOLECULAR DESIGN OF LIFE Section 1: Biochemistry Chapter 1: Biochemistry and the Unity of Life Chapter 2: Water, Weak Bonds and the Generation of Order Out of Chaos
Section 2: Protein Composition and Structure Chapter 3: Amino Acids Chapter 4: Protein Three-Dimensional Structure Chapter 5: Techniques in Protein Biochemistry
Section 3: Basic Concepts and Kinetics of Enzymes Chapter 6: Basic Concepts of Enzyme Action Chapter 7: Kinetics and Regulation Chapter 8: Mechanisms and Inhibitors Chapter 9: Hemoglobin, An Allosteric Protein
Section 5: Cell Membranes, Channels, Pumps and Receptors Chapter 12: Membrane Structure and Function Chapter 13: Signal-Transduction Pathways
PART II: TRANSDUCING AND STORING ENERGY Section 6: Basic Concepts and Design of Metabolism Chapter 14: Digestion: Turning a Meal into Cellular Biochemicals Chapter 15: Metabolism: Basic Concepts and Design
Section 13: The Metabolism of Nitrogen-Containing Molecules Chapter 30: Amino Acid Degradation and the Urea Cycle Chapter 31: Amino Acid Synthesis Chapter 32: Nucleotide Metabolism
PART III: SYNTHESIZING THE MOLECULES OF LIFE Section 14: Nucleic Acid Structure and DNA Replication Chapter 33: The Structure of Informational Macromolecules: DNA and RNA Chapter 34: DNA Replication Chapter 35: DNA Repair and Recombination Section 15: RNA Synthesis, Processing and Regulation Chapter 36: RNA Synthesis and Regulation in Bacteria Chapter 37: Gene Expression in Eukaryotes Chapter 38: RNA Processing in Eukaryotes
Section 16: Protein Synthesis and Recombinant DNA Techniques Chapter 39: The Genetic Code Chapter 40: The Mechanism of Protein Synthesis Chapter 41: Recombinant DNA Techniques
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