Experiments in Molecular Biology


Book Description

Experiments in Molecular Biology provides a thorough introduction to recombinant DNA methods used in molecular biology and nucleic acid biochemistry. This unique laboratory manual is particularly appropriate for courses in molecular cloning, molecular genetics techniques, molecular biology techniques, recombinant DNA techniques, bacterial genetics techniques, and genetic engineering. Included is an especially helpful section to aid new instructors in avoiding potential pitfalls of specific experiments. Key Features * Contains student-tested, easy-to-follow protocols * Presents background information that reinforces principles behind the methods presented * Includes questions at the end of laboratory exercises * Provides both detailed descriptions of experimental procedures and a theoretical support section * Sequentially links experiments to provide a "project" approach to studying molecular biochemistry * Includes student-tested, easy-to-follow protocols * Background information reinforces principles behind the methods presented * Includes questions at the end of laboratory exercises * Advises new instructors on potential pitfalls of specific experiments * Provides both detailed descriptions of experimental procedures and a theoretical support section * Sequentially links experiments to provide a "project" approach to studying




Biochemical Thermodynamics


Book Description

Navigate the complexities of biochemical thermodynamics with Mathematica(r) Chemical reactions are studied under the constraints of constant temperature and constant pressure; biochemical reactions are studied under the additional constraints of pH and, perhaps, pMg or free concentrations of other metal ions. As more intensive variables are specified, more thermodynamic properties of a system are defined, and the equations that represent thermodynamic properties as a function of independent variables become more complicated. This sequel to Robert Alberty's popular Thermodynamics of Biochemical Reactions describes how researchers will find Mathematica(r) a simple and elegant tool, which makes it possible to perform complex calculations that would previously have been impractical. Biochemical Thermodynamics: Applications of Mathematica(r) provides a comprehensive and rigorous treatment of biochemical thermodynamics using Mathematica(r) to practically resolve thermodynamic issues. Topics covered include: * Thermodynamics of the dissociation of weak acids * Apparent equilibrium constants * Biochemical reactions at specified temperatures and various pHs * Uses of matrices in biochemical thermodynamics * Oxidoreductase, transferase, hydrolase, and lyase reactions * Reactions at 298.15K * Thermodynamics of the binding of ligands by proteins * Calorimetry of biochemical reactions Because Mathematica(r) allows the intermingling of text and calculations, this book has been written in Mathematica(r) and includes a CD-ROM containing the entire book along with macros that help scientists and engineers solve their particular problems.




Biochemical Applications


Book Description

Fluorescence spectroscopy and its applications to the physical and life sciences have evolved rapidly during the past decade. The increased interest in fluorescence appears to be due to advances in time resolution, methods of data analysis and improved instrumentation. With these advances, it is now practical to perform time-resolved measurements with enough resolution to compare the results with the structural and dynamic features of mac- molecules, to probe the structures of proteins, membranes, and nucleic acids, and to acquire two-dimensional microscopic images of chemical or protein distributions in cell cultures. Advances in laser and detector technology have also resulted in renewed interest in fluorescence for clinical and analytical chemistry. Because of these numerous developments and the rapid appearance of new methods, it has become difficult to remain current on the science of fluorescence and its many applications. Consequently, I have asked the experts in particular areas of fluorescence to summarize their knowledge and the current state of the art. This has resulted in the initial three volumes of Topics in Fluorescence Spectroscopy, which is intended to be an ongoing series which summarizes, in one location, the vast literature on fluorescence spectroscopy. These first three volumes are designed to serve as an advanced text. These volumes describe the more recent techniques and technologies (Volume 1), the principles governing fluorescence and the experimental observables (Volume 2), and applications in biochemistry and biophysics (Volume 3).




Biochemical Applications In Forensics


Book Description

Forensic biochemistry is the branch of biochemistry that deals with solving crimes. The biochemical method of DNA fingerprinting is often used for this kind of study. Since sequencing technology became available, genetic markers might be used to uniquely identify individuals within a group. The employment of such methods, however, requires extreme care due to the gravity of the consequences. The field of forensics makes use of scientific methods to provide evidence in court. Crime is usually involved, though not always. Forensic biochemists are sometimes called upon to investigate the history of an unknown material, establish biological kinship between individuals, or monitor the progression of an illness. A career in forensic biochemistry requires dedication and perseverance, but it pays off in the end. To do well in this field, one has not just to be ethical and truthful but also patient and detail-oriented. This book covers all the topics related to biochemistry in forensics science like Basic Principles and Significance of Forensic Science, scene of investigation, Biological science and its application in investigation, Establishment of identity of individuals, Biochemical basis for determination of cause of death, Chemical science and its application in investigation, Blood splatter analysis, Recent advances in forensics, Facial reconstruction, DNA Finger Printing, Mass disaster and other forensic case work etc




Biochemical Applications of Nonlinear Optical Spectroscopy


Book Description

For a host of reasons, nonlinear optical spectroscopy is a valuable tool for biochemical applications where minimally invasive diagnostics is desired. Biochemical Applications of Nonlinear Optical Spectroscopy presents the latest technological advances and offers a perspective on future directions in this important field. Written by an international panel of experts, this volume begins with a comparison of nonlinear optical spectroscopy and x-ray crystallography. The text examines the use of multiphoton fluorescence to study chemical phenomena in the skin, the use of nonlinear optics to enhance traditional optical spectroscopy, and the multimodal approach, which incorporates several spectroscopic techniques in one instrument. Later chapters explore Raman microscopy, third-harmonic generation microscopy, and non-linear Raman microspectroscopy. The text explores the promise of beam shaping and the use of broadband laser pulse generated through continuum generation and an optical pulse shaper. Lastly, the book discusses the effects of spatial beam shaping on the generated nonlinear Raman signals in a tightly focused geometry and provides insight into the extension of nonlinear optical spectroscopy to the nanoscale through the use of plasmonic tip-enhanced arrangement. With novel experimental approaches to this technology expanding day-by-day, the book’s balanced coverage from a wide range of international contributors not only elucidates important achievements, but also outlines future directions in this dynamic and promising field.




Physical Biochemistry


Book Description

"As will be seen, there is not much missing here. I thought that the sections were well balanced, with rarely too much or too little on a given topic...This is a text to be welcomed by both teachers and students." BIOCHEMISTRY & MOLECULAR BIOLOGY EDUCATION (on the first edition) The second edition of this successful textbook explains the basic principles behind the key techniques currently used in the modern biochemical laboratory and describes the pros and cons of each technique and compares one to another. It is non-mathematical, comprehensive and approachable for students who are not physical chemists. A major update of this comprehensive, accessible introduction to physical biochemistry. Includes two new chapters on proteomics and bioinformatics. Introduces experimental approaches with a minimum of mathematics and numerous practical examples. Provides a bibliography at the end of each chapter. Written by an author with many years teaching and research experience, this text is a must-have for students of biochemistry, biophysics, molecular and life sciences and food science.




Tools and Applications of Biochemical Engineering Science


Book Description

This special volume "Tools and Applications of Biochemical Engineering Science" is dedicated to Professor Wolf-Dieter Deckwer on the occasion of his 60th bir- day. It was a great pleasure for me to act together with Professor Karl Schtigerl as volume editor and to present here a collection of 11 outstanding review articles written mainly by former students, associates, colleagues and friends of Wolf- Dieter Deckwer. The title of this special volume well reflects the research interests and sci- tific pursuit of Wolf-Dieter Deckwer during his more than 20 years’ work in the area of biochemical engineering, particularly during the last 15 years when he was the head of the Biochemical Engineering Division of GBF (German Nat- nal Research Center for Biotechnology). He has decisively pushed the devel- ment not only of "software tools" ranging from analytical means and mathe- tical models for monitoring and understanding cellular processes to gene expression systems for designing microorganisms, but also of "hardware tools" such as computer control systems, bioreaction and separation devices for eff- tively producing a variety of bioproducts on semi-production scale. New developments in some of these important tools in biochemical engineering are reviewed in articles included in this volume. Wolf-Dieter Deckwer was among the leading biochemical engineers who timely pointed out the necessity of applying these tools in an integrated manner for bioprocess development. By establishing "Integrated Bioprocess Development" as one of the GBF main - search topics as early as 1990 he also actively promoted this idea.




Applications of Infrared Spectroscopy in Biochemistry, Biology, and Medicine


Book Description

This book is not intended to be a basic text in infrared spectroscopy. Many such books exist and I have referred to them in the text. Rather, I have tried to find applications that would be interesting to a variety of people: advanced undergraduate chemistry students, graduate students and research workers in several disciplines, spectros copists, and physicians active in research or in the practice of medicine. With this aim in mind there was no intent to have exhaustive coverage of the literature. I should like to acknowledge my use of several books and reviews, which were invaluable in my search for material: G. H. Beaven, E. A. Johnson, H. A. Willis and R. G. 1. Miller, Molecular Spec troscopy, Heywood and Company, Ltd., London, 1961. J. A. Schell man and Charlotte Schellman, 'The Conformation of Polypeptide Chains in Proteins," in The Proteins, Vol. II, 2nd Ed. (H. Neurath, ed.), Academic Press, New York, 1964. R. T. O'Connor, "Application of Infrared Spectrophotometry to Fatty Acid Derivatives," J. Am. Oil Chemists' Soc. 33, 1 (1956). F. L. Kauffman, "Infrared Spectroscopy of Fats and Oils," J. Am. Oil Chemists' Soc. 41,4 (1964). W. J. Potts, Jr., Chemical Infrared Spectroscopy, Vol. I, Techniques, Wiley, New York, 1963. R. S. Tipson, Infrared Spectroscopy of Carbohydrates, National Bureau of Standards Monograph llO, Washington, D.C., 1968. C. N. R. Rao, Chemical Applications of Infrared Spectroscopy, Academic Press, New York, 1963.