The World of the Cell, Sixth Edition continues the tradition of previous editions widely praised for covering some of the most difficult concepts for students – bioenergetics, metabolism, enzyme kinetics, thermodynamics, membrane transport, cell signaling, regulatory mechanisms, transcription and translation, signal transduction, and DNA replication and recombination – at the right level and clarity.
The authors integrate coverage of modern molecular techniques and recent research advances without losing students in overwhelming detail. The World of the Cell's trademark features – Art that Teaches, Multi-level Problem Sets, Quick Check Concept Statements, Guide to Techniques and Methods, and Boxed Essays (Further Insights, Experimental Techniques, and Human Applications) – help students learn the process of science, not just facts. As cell biology continues to incorporate molecular biology advances, instructors can count on Becker’s text to provide strong coverage of basic biochemistry in an easy-to-follow framework, while also offering a balanced coverage of cellular metabolism.
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The cell biology text written with you in mind
The World of the Cell, Fifth Edition, combines the most readable text and effective learning package available for a beginning course in cell biology. With its hallmark emphasis on cell biology, this book focuses on the basics of cell structure, function, and mechanisms. In this new edition, the authors integrate coverage of modern molecular techniques and recent advances in the field.
The Cell Place CD-ROM and Web site include over 30 animations and interactive activities that reinforce understanding of key concepts explained in the text. The Cell Place also contains a pop-up, searchable glossary, practice quizzes, and hundreds of annotated web links. The CD-ROM comes loaded with all the solutions to the end-of-chapter problems in the text ― you don't have to purchase a separate solutions manual!
Guide to Microscopy: Explore the fundamental principles of both light and electron microscopy, with an emphasis on the various specialized techniques that are used to adapt these two types of microscopy for a variety of specialized purposes.
NEW! Biology Labs On-Line: Cell Version 0-8053-4865-4
Expand your horizons beyond the traditional wet lab setting and perform potentially dangerous, lengthy, or expensive experiments in a safe electronic environment. Labs included are HemoglobinLab, MitochondriaLab, EnzymeLab, and TranslationLab. Go to www.biologylabsonline.com for more information.
Printed Solutions Manual 0-8053-4856-5
A collection of complete, detailed answers for all of the end-of-chapter questions and problems written by the authors.
The Benjamin Cummings Special Topics Series
These brief 32-page booklets, edited by Michael Palladino of Monmouth University, present the basic scientific facts, media myths, and social and ethical issues.
Please visit us at www.aw.com/bc for more information. To order any of our products, contact our customer service department at (800) 824-7799, (201) 767-5021 outside of the U.S., or visit your campus bookstore.
Wayne M. Becker teaches cell biology at the University of Wisconsin, Madison. His interest in textbook writing grew out of notes, outlines, and problem sets that he assembled for his students, culminating in Energy and the Living Cell, a paperback text on bioenergetics published in 1977, and The World of the Cell, the first edition of which appeared in 1986. He earned all his degrees at the University of Wisconsin, Madison. All three degrees are in biochemistry, an orientation that is readily discernible in his textbooks. His research interests have been in plant molecular biology, focused specifically on the regulation of the expression of genes that encode enzymes of the photorespiratory pathway.
His interests in teaching, learning, and research have taken him on sabbatical leaves at Harvard University, Edinburgh University, the University of Indonesia, the University of Puerto Rico, Canterbury University in Christchurch, New Zealand, and the Chinese University of Hong Kong. His honors include a Guggenheim Fellowship, a Chancellor's Award for Distinguished Teaching, and a Visiting Scholar Award from the Royal Society of London.
Lewis J. Kleinsmith is a Professor of Molecular, Cellular, and Developmental biology at the University of Michigan, where he has served on the faculty since receiving his Ph.D. from Rockefeller University in 1968. His teaching experiences have involved courses in introductory biology, cell biology, and cancer biology, and his research interests have included studies of growth control in cancer cells, the role of protein phosphorylation in eukaryotic gene regulation, and the control of gene expression during development.
Among his numerous publications, he is the author of Principles of Cell and Molecular Biology, first published in 1988, and several award-winning educational software programs. His honors include a Guggenheim Fellowship, the Henry Russell Award, a Michigan Distinguished Service Award, citations for outstanding teaching from the Michigan Students Association, a Thurnau Professorship, an NIH Plain Language Award, and a Best Curriculum Innovation Award from the EDUCOM Higher Education Software Awards Competition.
Jeff Hardin received his Ph.D. in biophysics from the University of California, Berkeley, and pursued post-doctoral work at Duke University. In 1991 he joined the faculty of the Zoology Department at the University of Wisconsin, Madison, where he is currently an associate professor. His research interests center on how the cells move and change the shape of the embryo. Dr. Hardin's teaching is enhanced by his extensive use of video-microscopy and his Web-based teaching materials, which are used on many campuses in the United States and other countries. As part of his interest in teaching biology, Dr. Hardin has been involved in several teaching initiatives, including being a founding member of the University of Wisconsin system-wide instructional technology initiative known as BioWeb. He is currently faculty director of the Biocore Curriculum, a four-semester honors biology sequence for undergraduates. His teaching awards include a Lily Teaching Fellowship and a National Science Foundation Young Investigator Award.
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