Principles of Biochemistry
United States Edition
3rd Edition
Published on 23. May 2001
Book
Hardback
896 pages
978-0-13-026672-9 (ISBN)
Description
For one-semester introductory courses in Biochemistry. May be taught out of departments of chemistry, biology, or biochemistry.
This concise, introductory text focuses on the basic principles of biochemistry, filling the gap between the encyclopedic volumes and the cursory overview texts. Widely praised in its previous edition for accuracy, currency, and clarity of exposition, the new edition has been thoroughly revised and updated to reflect recent changes in this dynamic discipline.
This concise, introductory text focuses on the basic principles of biochemistry, filling the gap between the encyclopedic volumes and the cursory overview texts. Widely praised in its previous edition for accuracy, currency, and clarity of exposition, the new edition has been thoroughly revised and updated to reflect recent changes in this dynamic discipline.
More details
Edition
3rd edition
Language
English
Place of publication
United States
Publishing group
Pearson Education (US)
Target group
Professional and scholarly
Dimensions
Height: 284 mm
Width: 223 mm
Thickness: 31 mm
Weight
2034 gr
ISBN-13
978-0-13-026672-9 (9780130266729)
Copyright in bibliographic data and cover images is held by Nielsen Book Services Limited or by the publishers or by their respective licensors: all rights reserved.
Schweitzer Classification
Other editions
New editions
Robert A. Horton | Laurence A. Moran | Gray Scrimgeour
Principles of Biochemistry
International Edition
Book
07/2005
4th Edition
Pearson
€58.31
Article is exhausted; no reprint
Previous edition
H. Robert Horton | Laurence A. Moran | Raymond S. Ochs
Principles of Biochemistry
Book
04/1996
2nd Edition
Pearson
€51.98
Article exhausted; check for reprint
Persons
H. Robert Horton. Dr. Horton, who received his Ph.D from the University of Missouri.in 1962, is William Neal Reynolds Professor Emeritus and Alumni Distinguished Professor Emeritus in the Department of Biochemistry at North Carolina State University, where he served on the faculty for over 30 years. Most of Professor Horton's research was in protein and enzyme mechanisms.
Laurence A. Moran. After earning his Ph.D from Princeton University in 1974, Professor Moran spent four years at the Universite de Geneve in Switzerland. He has been a member of the Department of Biochemistry at the University of Toronto since 1978, specializing in molecular biology and molecular evolution. His research findings on heat-shock genes have been published in many scholarly journals.
Raymond S. Ochs. Professor Ochs, who earned his Ph.D from Indiana University, is a Professor in the Department of Pharmaceutical Sciences at St. John's University. He is an expert on metabolic regulation and has edited a monograph on this topic-Ochs, R. S., Hanson, R. W., and Hall, J., eds. Metabolic Regulation (1985, Elsevier)-and authored and coauthored numerous research papers and reports.
J. David Rawn. Professor Rawn, who received his Ph.D from Ohio State University in 1971, has taught and done research in the Department of Chemistry at Towson State University for the past 25 years. He did not write chapters for Principles of Biochemistry, but his textbook Biochemistry (1989, Neil Patterson) served as a source of information and ideas concerning content and organization and the use of stereo images to illuminate molecular structures and conformational change.
K. Gray Scrimgeour. Professor Scrimgeour received his doctorate from the University of Washington in 1961 and has been a faculty member at the University of Toronto since 1967. He is the author of The Chemistry and Control of Enzymatic Reactions (1977, Academic Press), and his work on enzymatic systems has been published in more than 50 professional journal articles during the past 40 years. From 1984-1992, he was editor of the journal Biochemistry and Cell Biology.
Laurence A. Moran. After earning his Ph.D from Princeton University in 1974, Professor Moran spent four years at the Universite de Geneve in Switzerland. He has been a member of the Department of Biochemistry at the University of Toronto since 1978, specializing in molecular biology and molecular evolution. His research findings on heat-shock genes have been published in many scholarly journals.
Raymond S. Ochs. Professor Ochs, who earned his Ph.D from Indiana University, is a Professor in the Department of Pharmaceutical Sciences at St. John's University. He is an expert on metabolic regulation and has edited a monograph on this topic-Ochs, R. S., Hanson, R. W., and Hall, J., eds. Metabolic Regulation (1985, Elsevier)-and authored and coauthored numerous research papers and reports.
J. David Rawn. Professor Rawn, who received his Ph.D from Ohio State University in 1971, has taught and done research in the Department of Chemistry at Towson State University for the past 25 years. He did not write chapters for Principles of Biochemistry, but his textbook Biochemistry (1989, Neil Patterson) served as a source of information and ideas concerning content and organization and the use of stereo images to illuminate molecular structures and conformational change.
K. Gray Scrimgeour. Professor Scrimgeour received his doctorate from the University of Washington in 1961 and has been a faculty member at the University of Toronto since 1967. He is the author of The Chemistry and Control of Enzymatic Reactions (1977, Academic Press), and his work on enzymatic systems has been published in more than 50 professional journal articles during the past 40 years. From 1984-1992, he was editor of the journal Biochemistry and Cell Biology.
Content
1. Introduction to Biochemistry.
2. Water.
3. Amino Acids and the Primary Structure of Proteins.
4. Proteins: Three-Dimensional Structure and Function.
5. Properties of Enzymes.
6. Mechanisms of Enzymes.
7. Coenzymes.
8. Carbohydrates.
9. Lipids and Membranes.
10. Introduction to Metabolism.
11. Glycolysis.
12. The Citric Acid Cycle.
13. Additional Pathways in Carbohydrate Metabolism.
14. Electron Transport and Oxidative Phosphorylation.
15. Photosynthesis.
16. Lipid Metabolism.
17. Amino Acid Metabolism.
18. Nucleotide Metabolism.
19. Nucleic Acids.
20. DNA Replication, Repair, and Recombination.
21. Transcription and RNA Processing.
22. Protein Synthesis.
23. Recombinant DNA Technology.
2. Water.
3. Amino Acids and the Primary Structure of Proteins.
4. Proteins: Three-Dimensional Structure and Function.
5. Properties of Enzymes.
6. Mechanisms of Enzymes.
7. Coenzymes.
8. Carbohydrates.
9. Lipids and Membranes.
10. Introduction to Metabolism.
11. Glycolysis.
12. The Citric Acid Cycle.
13. Additional Pathways in Carbohydrate Metabolism.
14. Electron Transport and Oxidative Phosphorylation.
15. Photosynthesis.
16. Lipid Metabolism.
17. Amino Acid Metabolism.
18. Nucleotide Metabolism.
19. Nucleic Acids.
20. DNA Replication, Repair, and Recombination.
21. Transcription and RNA Processing.
22. Protein Synthesis.
23. Recombinant DNA Technology.