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Microfluidic Techniques
Hands-on researchers review the principles behind successful miniaturization and describe the key techniques for miniaturizing large-scale biochemical and bioanalytical methods for microchip analysis. The authors cover not only the most popular methods for the fabrication of microchips (photolithography, laser ablation, and soft lithography), but also microfluidic techniques for such bioanalytical assays and bioprocesses as DNA analysis, PCR, immunoassays, and cell reactors. Highlights include PCR on a microchip, microscale cell culturing, and the study of cellular processes on a microchip. The protocols offer step-by-step laboratory instructions, an introduction outlining the principles behind the technique, lists of the necessary equipment and reagents, and tips on troubleshooting and avoiding known pitfalls.
Enzymatic Bioelectrocatalysis
This book covers the fundamental aspects of the electrochemistry and redox enzymes that underlie enzymatic bioelectrocatalysis, in which a redox enzyme reaction is coupled with an electrode reaction. Described here are the basic concept and theoretical aspects of bioelectrocatalysis and the various experimental techniques and materials used to study and characterize related problems. Also included are the various applications of bioelectrocatalysis to bioelectrochemical devices including biosensors, biofuel cells, and bioreactors. This book is a unique source of information in the area of enzymatic bioelectrocatalysis, approaching the subject from a cross-disciplinary point of view.
Enzyme Stabilization and Immobilization
This volume introduces the reader to the field of enzyme stabilization and the different theories of enzyme stabilization, including the use of immobilization as a stabilization technique. The first part of the book focuses on protocols for enzyme stabilization in solutions including liposome formation, micelle introduction, crosslinking, and additives. The second part of the book discusses protocols for enzyme stabilization during enzyme immobilization, including common techniques like sol-gel encapsulation, polymer encapsulation, and single enzyme nanoparticle formation. Protocols for a variety of enzymes are shown, but the enzymes are chosen as examples to show that these protocols can be...
Micro Fuel Cells
Today's consumers of portable electronics consumers are demanding devices not only deliver more power but also work healthy for the environment. This fact alone has lead major corporations like Intel, BIC, Duracell and Microsoft to believe that Microfuel Cells could be the next-generation power source for electronic products. Compact and readable, Microfuels Principles and Applications, offers engineers and product designers a reference unsurpassed by any other in the market. The book starts with a clear and rigorous exposition of the fundamentals engineering principles governing energy conversion for small electronic devices, followed by self-contained chapters concerning applications. The ...
Handbook of Electrochemistry
Electrochemistry plays a key role in a broad range of research and applied areas including the exploration of new inorganic and organic compounds, biochemical and biological systems, corrosion, energy applications involving fuel cells and solar cells, and nanoscale investigations. The Handbook of Electrochemistry serves as a source of electrochemical information, providing details of experimental considerations, representative calculations, and illustrations of the possibilities available in electrochemical experimentation. The book is divided into five parts: Fundamentals, Laboratory Practical, Techniques, Applications, and Data. The first section covers the fundamentals of electrochemistry...
Techniques in Electroanalytical Chemistry
Electrochemical science as a field is growing at a tremendous rate. It was central to the emergence of chemistry as a discipline through the discovery of elements and is now poised to revolutionize energy, neuroscience, and organic synthesis, among more traditional applications in corrosion prevention. In this brief digital primer the authors introduce selected techniques in electroanalytical chemistry through text, laboratory-based tutorial videos, and data analysis practice problems. This primer is suitable for scientists interested in a brief introduction to the recent advances in electroanalytical chemistry, instructors wanting to supplement an undergraduate or graduate course in instrumental analysis, or the scientist wishing to incorporate electroanalytical techniques into projects to study reaction mechanisms, design energy conversion or energy storage devices, and/or design electrochemical sensors.
Nuclear Reprogramming
A wide-ranging collection of readily reproducible methods for performing nuclear reprogramming by nuclear transfer in several different species, by fusion through both chemical treatment and electrically shocking cells, and by in vivo treatment of cells with cell extracts. Several methods of monitoring nuclear reprogramming are also presented, including the use of transgenic markers, activation of telomerase as an ES-specific marker, light and electron microscopic observation of structural changes in the nucleus, and verification of surface marker expression and the differentiation potential of stem cells. Biochemical methods are provided for the examination of chromatin protein modifications, nucleosomal footprinting, transcription factor binding, and the study of DNA methylation changes both at the specific locus level and at the level of the whole nucleus.
Cell Imaging Techniques
A diverse collection of state-of-the-art methods for the microscopic imaging of cells and molecules. The authors cover a wide spectrum of complimentary techniques, including such methods as fluorescence microscopy, electron microscopy, atomic force microscopy, and laser scanning cytometry. Additional readily reproducible protocols on confocal scanning laser microscopy, quantitative computer-assisted image analysis, laser-capture microdissection, microarray image scanning, near-field scanning optical microscopy, and reflection contrast microscopy round out this eclectic collection of cutting-edge imaging techniques now available. The authors also discuss preparative methods for particles and cells by transmission electron microscopy.
Cytochrome P450 Protocols
For this second edition of their much praised Cytochrome P450, the editors have collected accounts of the essential core techniques that use the latest methodologies for the investigation of P450s. Highlights include protocols for spectral analysis and purification of P450s, enzymatic assays of P450s and flavin-containing monooxygenases (FMOs), expression of P450s and FMOs in heterologous systems, and the production and use of antipeptide antibodies. Additional chapters contain readily reproducible techniques for the transfection of hepatocytes for gene regulation studies, P450 reporter gene assays, in situ hybridization, and analysis of genetic polymorphisms. Although the emphasis is on P450s of mammalian origin, many of the readily reproducible methods described are suitable for P450s from any source.
Transplantation Immunology
Leading clinicians and scientists in solid organ transplantation review the current status of the field and describe cutting-edge techniques for detecting the immune response to the allografted organ. The authors present the latest techniques for HLA typing, detecting HLA antibodies, and monitoring T-cell response, and examine more specialized methods utilizing proteomics, laser dissection microscopy, and real-time polymerase chain reaction. The area of tolerance induction and reprogramming of the immune system is also covered, along with a discussion of up-to-date methods of organ preservation, of today's optimal immunosuppressive drug regimens, as well as the difficulty of mimicking chronic rejection in experimental models. Introductory chapters provide a theoretical update on current practices in renal, liver, islet, and lung transplantation and on the pathways of antigen presentation and chronic rejection.
