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Bioluminescence and Chemiluminescence: Basic Chemistry and Analytical Applications is a compendium of papers presented at the second International Symposium on Analytical Applications of Bioluminescene and Chemiluminescence in San Diego, California on August 26-28, 1980. Part I deals with chemilunescence and excited states including topics on the spectroscopy of the solvent cage — generation and characteristics of the excited state and the three features of chemi- and bioluminescence. Part II deals with events prior to producing luminol-dependent chemiluminescence; this part also examines the effects of stimulants on membrane potential. Part III discusses bacterial bioluminescence and analyzes the properties of a lumazine protein from a bioluminescent bacterium. This part also analyzes accessory enzymes responsible for such bacterial bioluminescence. Part IV examines the chemistry of firefly bioluminescence and presents the formula of three reactions catalyzed by firefly luciferase. Part V analyzes bioluminescence from other sources such as the earthworm and land snails. Part VI discusses the applications of bioluminescence in clinical chemistry, soil science, and marine biology. Part VII deals with the future uses of bioluminescence, while Part VIII is an abstract of other papers dealing with this subject. This collection can be helpful for biologists, zoologists, micro-biologists, marine biologists, and researchers dealing with bio-chemistry and related disciplines.
In life science, bioluminescence and chemiluminescence have become a vital tool for laboratory analysis and biomedical imaging both in academic research and industrial product development. The latest advances in this exciting field, from fundamental research to cutting-edge applications, are explored in this most recent volume of the biannual symposium series, the Proceedings of the 14th International Symposium on Bioluminescence and Chemiluminescence.The volume highlights advances in fundamental knowledge about the origins and mechanisms of naturally occurring luminescence, including luciferases from firefly, beetle, marine, bacterial and fungal sources. Developments in instrumentation are presented, together with a wide variety of optical imaging applications for light-emitting gene expressions in optical imaging, such as imaging of gene expression and protein folding in cells, tissues and live animals. In particular, the various contributors describe in detail the use of light-emitting bacteria and viruses for the detection and therapy of tumors, as was highlighted in the symposium.
This comprehensive overview of chemiluminescence and bioluminescence covers historical developments, fundamental principles, recent advances, instrumentation, and applications.
Describes the occurrence, chemistry, and measurement of chemiluminescence, a phenomenon that together with the use of very sensitive light detectors has led to a number of biomedical applications and new concepts about disease processes. Covers the principles of using the reactions from fireflies and luminous bacteria to measure enzymes and metabolites; calcium-sensitive proteins from luminous jellyfish to measure changes in calcium inside living cells; the measurement of oxygen radicals and the replacement of radioactive labels in immunoassay by chemiluminescent compounds; and future applications in research and clinical laboratories. Acidic paper. Annotation copyrighted by Book News, Inc., Portland, OR
This book is the bible of bioluminescence and a must-read not only for the students but for those who work in various fields relating to bioluminescence. It summarizes current structural information on all known bioluminescent systems in nature, from well-studied ones to those that have been seldom investigated.This book remains an important source of chemical knowledge on bioluminescence and, since the second edition's publication in 2012, has been revised to include major developments in two systems: earthworm Fridericia and higher fungi whose luciferins have been elucidated and synthesized. These two new luciferins represent an essential addition to seven previously known, with fully rewritten sections covering this new subject matter.
In the last decade, great advances have been made in fundamental research and in the applications of bioluminescence and chemiluminescence. These techniques have become vital tools for laboratory analysis. Bioluminescence imaging has emerged as a powerful new optical imaging technique, offering real-time monitoring of spatial and temporal progression of biological processes in living animals. Bioluminescence resonance energy transfer (BRET) methodology has also emerged as a powerful technique for the study of protein-protein interactions. Luciferase reporter gene technology facilitates monitoring of gene expression and is used to probe molecular mechanisms in the regulation of gene expression. Chemiluminescence detection and analysis have also found diverse applications in life science research; for example, chemiluminescent labels and substrates are now widely used in immunoassay and nucleic acid probe-based assays. The latest advances in this exciting field, from fundamental research to cutting-edge applications, are explored in this most recent volume of the biannual symposium series, the Proceedings of the 15th International Symposium on Bioluminescence and Chemiluminescence. The volume highlights advances in fundamental knowledge of luciferase-based bioluminescence, photoprotein-based bioluminescence, fundamental aspects and applications of chemiluminescence, luminescence imaging, fluorescence quantum dots and other inorganic fluorescent materials, phosphorescence and ultraweak luminescence, and instrumentation for measurement and imaging of luminescence.
Chemiluminescence is a fascinating and mesmerizing phenomenon, which consists on the generation of light as the result of a chemical reaction. This process has been gaining attention in the last decades, being now a standard tool in analytical, bioimaging, biomedical and pharmaceutical applications. This book provides a detailed overview of the basic mechanisms and principles of the most relevant chemiluminescent systems, as well as describing the most recent advances and applications. Written by experts, this is a reference text suitable both for researchers focused on chemiluminescence and for those wanting to start working on this field. In Chapter One, the progress and evolution of the chemiluminescent studies in imidazopyrazinone-based compounds are reviewed, with emphasis on their potential as diagnosis tools. Chapter Two addresses the spectral changes associated with firefly bioluminescence by focusing on the tautomeric equilibria of the light emitter. Chapter Three reviews, for the first time, the liquid-phase chemiluminescence of fullerene and derivatives. Chapter Four is devoted to studies of chemiluminescence with the participation of lanthanide ions. Chapter Five summarizes the mechanism behind the chemiluminescence of acridinium esters, while discussing their current applications. Chapter Six explains the potential of phenothiazine derivatives as enhancers in analytic chemiluminescent assays. Chapter Seven collects the available information of both well-known and lesser-known examples of squid bioluminescence. Chapter Eight discusses the enhancement of chemiluminescent emission by using metal-nanoparticles near a luminescent molecule, which is known as metal-enhanced chemiluminescence. In Chapter Nine it is explained how model molecules can make the study of complex bioluminescence reaction mechanisms accessible, as well as allowing for chemiluminescence on macroscopic molecular crystals. Chapter Ten describes experimental and computational approaches used for enhancing the thermostability of firefly luciferase. Chapter Eleven demonstrates the usefulness of theoretical studies for better understanding chemiluminescent reactions. Chapter Twelve describes the fundamental theoretical aspects of state-of-the-art multiconfigurational methods and shows illustrative examples of their application to the study of chemiluminescence. Finally, Chapter Thirteen discusses chemiluminescent experiments that are simple, inexpensive and can be performed by students.
The first source on this expanding analytical science, this reference explores advances in the instrumentation, design, and application of techniques with electrogenerated chemiluminescence (ECL), examining the use and impact of ECL-based assays in clinical diagnostics, life science research, environmental testing, food and water evaluation, and th
This book review series presents current trends in modern biotechnology. The aim is to cover all aspects of this interdisciplinary technology where knowledge, methods and expertise are required from chemistry, biochemistry, microbiology, genetics, chemical engineering and computer science. Volumes are organized topically and provide a comprehensive discussion of developments in the respective field over the past 3-5 years. The series also discusses new discoveries and applications. Special volumes are dedicated to selected topics which focus on new biotechnological products and new processes for their synthesis and purification. In general, special volumes are edited by well-known guest editors. The series editor and publisher will however always be pleased to receive suggestions and supplementary information. Manuscripts are accepted in English. /div
In life science, bioluminescence and chemiluminescence have become a vital tool for laboratory analysis and biomedical imaging both in academic research and industrial product development. The latest advances in this exciting field, from fundamental research to cutting-edge applications, are explored in this most recent volume of the biannual symposium series, the Proceedings of the 14th International Symposium on Bioluminescence and Chemiluminescence.The volume highlights advances in fundamental knowledge about the origins and mechanisms of naturally occurring luminescence, including luciferases from firefly, beetle, marine, bacterial and fungal sources. Developments in instrumentation are presented, together with a wide variety of optical imaging applications for light-emitting gene expressions in optical imaging, such as imaging of gene expression and protein folding in cells, tissues and live animals. In particular, the various contributors describe in detail the use of light-emitting bacteria and viruses for the detection and therapy of tumors, as was highlighted in the symposium.