Molecular Biologyby David P. Clark
Molecular Biology, Second Edition, examines the basic concepts of molecular biology while incorporating primary literature from today’s leading researchers. This updated edition includes Focuses on Relevant Research sections that integrate primary literature from Cell Press and focus on helping the student learn how to read and understand research to/i>
Molecular Biology, Second Edition, examines the basic concepts of molecular biology while incorporating primary literature from today’s leading researchers. This updated edition includes Focuses on Relevant Research sections that integrate primary literature from Cell Press and focus on helping the student learn how to read and understand research to prepare them for the scientific world.
The new Academic Cell Study Guide features all the articles from the text with concurrent case studies to help students build foundations in the content while allowing them to make the appropriate connections to the text. Animations provided deal with topics such as protein purification, transcription, splicing reactions, cell division and DNA replication and SDS-PAGE. The text also includes updated chapters on Genomics and Systems Biology, Proteomics, Bacterial Genetics and Molecular Evolution and RNA. An updated ancillary package includes flashcards, online self quizzing, references with links to outside content and PowerPoint slides with images.
This text is designed for undergraduate students taking a course in Molecular Biology and upper-level students studying Cell Biology, Microbiology, Genetics, Biology, Pharmacology, Biotechnology, Biochemistry, and Agriculture.
- NEW: "Focus On Relevant Research" sections integrate primary literature from Cell Press and focus on helping the student learn how to read and understand research to prepare them for the scientific world.
- NEW: Academic CellStudy Guidefeatures all articles from the text with concurrent case studies to help students build foundations in the content while allowing them to make the appropriate connections to the text.
- NEW: Animations provided include topics in protein purification, transcription, splicing reactions, cell division and DNA replication and SDS-PAGE
- Updated chapters on Genomics and Systems Biology, Proteomics, Bacterial Genetics and Molecular Evolution and RNA
- Updated ancillary package includes flashcards, online self quizzing, references with links to outside content and PowerPoint slides with images.
- Fully revised art program
Description: This is an excellent survey of the main topics in modern day molecular biology as well as the new and updated topics such as proteomics and molecular evolution, among others. The presentation is clear and straightforward and the accompanying illustrations, also updated, enhance student understanding. A nice feature is the tie-in to relevant Cell Press articles that introduce students to the process of analytical thinking. Each chapter is followed by a section of key concepts, review questions, and conceptual questions, helpful for review.
Purpose: The main purpose is to present a survey of current topics in molecular biology. The interesting chapters on genomics and systems biology (chap. 9), proteomics (chap. 15), and molecular evolution (chap. 26), provide an excellent roadmap to how molecular biology has impacted our understanding of life on earth and possible future applications.
Audience: The book is written primarily for upper-division students interested in the study of molecular biology and genomics. It provides a good primer for first year graduate students, but it also is a good starting point for biological investigators not familiar with the different aspects of modern day molecular biology as well as those who are interested in biotechnology, since this is the required precursor to a second book in this series, Biotechnology, by the same authors.
Features: The book's six units cover general areas of molecular biology: basic chemical and biological principles, the genome, the central dogma of molecular biology, regulating gene expression, subcellular life forms, and changing the DNA blueprint. Each unit has three to six chapters covering topics related to each of these areas of study. Since each unit can be read or studied independently of the other units, this permits instructors as well as students to concentrate on their area of interest. Some of the convenient features include, for example, the accompanying online animations, which help to illustrate important points, and the sections called "Focus on Relevant Research," which are helpful in integrating some of the original literature from Cell Press. In addition, the key concepts, review questions, and conceptual questions are an excellent aid for students to review the material.
Assessment: Overall, this is an excellent textbook for students interested in molecular biology and its potential applications. This second edition is a significant update, with new chapters that address recent advances in molecular biology. The "Focus on Relevant Research" is a welcome new feature that connects the various topics with recent original scientific journal publications. The accompanying online resources are also excellent tools for both students and instructors.
- Elsevier Science
- Publication date:
- Sold by:
- Barnes & Noble
- NOOK Book
- File size:
- 181 MB
- This product may take a few minutes to download.
Meet the Author
David P. Clark did his graduate work on bacterial antibiotic resistance to earn his Ph.D. from Bristol University, in the West of England. During this time, he visited the British Government's biological warfare facility at Porton Down and was privileged to walk inside the (disused) Black Death fermenter. He later crossed the Atlantic to work as a postdoctoral researcher at Yale University and then the University of Illinois. David Clark recently retired from teaching Molecular Biology and Bacterial Physiology at Southern Illinois University which he joined in 1981. His research into the Regulation of Alcohol Fermentation in E. coli was funded by the U.S. Department of Energy, from 1982 till 2007. From 1984-1991 he was also involved in a project to use genetically altered bacteria to remove contaminating sulfur from coal, jointly funded by the US Department of Energy and the Illinois Coal Development Board. In 1991 he received a Royal Society Guest Research Fellowship to work at Sheffield University, England while on sabbatical leave. He has supervised 11 master’s and 7 PhD students and published approximately 70 articles in scientific journals. He has written or co-authored several textbooks, starting with Molecular Biology Made Simple and Fun (with Lonnie Russell; (Cache River Press, First edition, 1997) which is now in its fourth edition. Other books are Molecular Biology and Biotechnology (both published by Elsevier) He recently wrote a popular science book, Germs, Genes, & Civilization: How Epidemics Shaped Who We Are Today (2010, Financial Times Press/Pearson). David is unmarried, but his life is supervised by two cats, Little George and Mr Ralph.
Nanette J. Pazdernik, Ph.D. is a co-author of Biotechnology, 2nd edition and Molecular Biology, 2nd edition, with Dr. David Clark. The second edition of Molecular Biology won a Texty award from the Textbook and Academic Authors Association in 2013. She has also authored an on-line study guide to accompany the update edition of Molecular Biology. She has taught courses in General Biology, Genetics, as well as Anatomy and Physiology at Southwestern Illinois College, McKendree University, and Harris-Stowe University. She received her BA in Biology from Lawrence University in Appleton, Wisconsin, in 1990 and her PhD in Molecular, Cellular, Developmental Biology and Genetics from the University of Minnesota in 1996. Her doctoral thesis studied how alterations in the structure of lactose permease affect its ability to transport sugar across the membrane of E. coli. Following her degrees, she investigated the IL-1 and TNF signal transduction pathways that control apoptosis and immunity at Indiana University School of Medicine. She has most recently studied the various molecules that maintain the stem cell fate in C. elegans at Washington University School of Medicine in St. Louis, MO. She is married and the mother of three children, ages 15, 12, and 8, which always make her realize the role biology plays in personality and development!
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