000			00351nam a2200145Ia 4500
999			_c150656 _d150656
020			_a9780471193500
040			_cCUS
082			_a574.192 _bVOE/B
100			_aVoet, Donald.
245		0	_aBiochemistry/ _cDonald Voet, Judith G. Voet.
250			_a3rd ed.
260			_aNew Delhi: _bJohn Wiley, _c2004.
300			_axv, 1591 p. : _bill. ; _c29 cm.
505			_aPART I. INTRODUCTION AND BACKGROUND. Chapter 1. Life. Chapter 2. Aqueous Solutions. Chapter 3. Thermodynamic Principles: A Review. PART II. BIOMOLECULES. Chapter 4. Amino Acids. Chapter 5. Nucleic Acids, Gene Expression, and Recombinant DNA Technology. Chapter 6. Techniques of Protein and Nucleic Acid Purification. Chapter 7. Covalent Structures of Proteins and Nucleic Acids. Chapter 8. Three-Dimensional Structures of Proteins. Chapter 9. Protein Folding, Dynamics, and Structural Evolution. Chapter 10. Hemoglobin: Protein Function in Microcosm. Chapter 11. Sugars and Polysaccharides. Chapter 12. Lipids and Membranes. PART III. MECHANISMS OF ENSYME ACTION. Chapter 13. Introduction to Enzymes. Chapter 14. Rates of Enzymatic Reactions. Chapter 15. Enzymatic Catalysis. PART IV. METABOLISM. Chapter 16. Introduction to Metabolism. Chapter 17. Glycolysis. Chapter 18. Glycogen Metabolism. Chapter 19. Signal Transduction. Chapter 20. Transport through Membranes. Chapter 21. Citric Acid Cycle. Chapter 22. Electron Transport and Oxidative Phosphorylation. Chapter 23. Other Pathways of Carbohydrate Metabolism. Chapter 24. Photosynthesis. Chapter 25. Lipid Metabolism. Chapter 26. Amino Acid Metabolism. Chapter 27. Energy Metabolism: Integration and Organ Specializations. Chapter 28. Nucleotide Metabolism. PART V. EXPRESSION AND TRANSMISSION OF GENETIC INFORMATION. Chapter 29. Nucleic Acid Structures. Chapter 30. DNA Replication, Repair, and Recombination. Chapter 31. Transcription. Chapter 32. Translation. Chapter 33. Viruses: Paradigms for Cellular Function. Chapter 34. Eukaryotic Gene Expression. Chapter 35. Molecular Physiology. Index.
650			_aBiochemistry
700			_aVoet, Judith G.
942			_cWB16