الصفحة 4
الصفحة 4
Heat Shock Proteins in Cancer
Heat shock proteins are emerging as important molecules in the development of cancer and as key targets in cancer therapy. These proteins enhance the growth of cancer cells and protect tumors from treatments such as drugs or surgery.
Heat Shock Proteins and the Brain : Implications for Neurodegenerative Diseases and Neuroprotection
Neurodegenerative disorders such as Alzheimer’s disease, Huntington’s disease, Parkinson’s disease and amyotrophic lateral sclerosis have been termed ‘protein misfolding disorders’ that are char- terized by the neural accumulation of protein aggregates. Manipulation of the cellular stress response involving the induction of heat shock proteins offers a the- peutic strategy to counter conformational changes in neural proteins that trigger pathogenic cascades resulting in neurodegenerative diseases. Heat shock proteins are protein repair agents that provide a line of defense against misfolded, aggregati- prone proteins. Heat Shock Proteins and the Brain: Implications for Neurodegenerative Diseases and Neuroprotection reviews current progress on neural heat shock proteins (HSP) in relation to neurodegenerative diseases (Part I), neuroprotection (Part II), ext- cellular HSP (Part III) and aging and control of life span (Part IV).
Heat shock proteins : Potent mediators of inflammation and immunity
Written by leaders in the field of heat shock protein immunobiology, the chapters systematically and in a step wise fashion takes the reader through the fascinating sequence of events by which heat shock proteins activate immune responses and provides answers as to its biological significance to the host.
Handbook of pharmaceutical manufacturing formulations ; Vol.2 : Uncompressed solid products
Covers uncompressed solids, which include formulations of powders, capsules, powders ready for reconstitution, and other similar products.Highlights from Uncompressed Solid Products, Volume Two include:the fundamental issues of good manufacturing practicesformulations for more than 400 pharmaceutical products, including currently approved products and innovative products such as small proteins, instantly liquifiable powders, and nanoparticlesaccess to US FDA guidelines, as well as all major guid
Handbook of neurochemistry and molecular neurobiology : Neurotransmitter Systems
The brain is the organ that collects information from the environment, processes and stores the information, and generates behavior as and when needed. In essence, the brain makes us who we are. For this reason, understanding the biology of brain function is a great challenge and a major goal of modern science. The brain is one of the last great frontiers in science, and the unraveling of its mysteries is comparable in complexity to efforts in space exploration. A fundamental goal of neuroscience is to understand how neurons generate behavior and the pathophysiology of different mental and neurological diseases. This requires, among other things, information about where these neurons are located, how they are connected, and how they communicate with each other in various physiological and pathophysiological conditions. Our aim is to describe recent discoveries about the basic operations of the brain and to provide an introduction to the adaptations for specific types of information processing.
Handbook of molecular force spectroscopy
Modern materials science and biophysics are increasingly focused on studying and controlling intermolecular interactions on the single-molecule level. Molecular force spectroscopy was developed in the past decade as the result of several unprecedented advances in the capabilities of modern scientific instrumentation, and defines a number of techniques that use mechanical force measurements to study interactions between single molecules and molecular assemblies in chemical and biological systems. Examples of these techniques, which typically target a specific range of experimental systems and geometries, include atomic force microscopy, optical tweezers, surface forces apparatus, and magnetic tweezers.
Guide to Biomolecular Simulations
Molecular dynamics simulations have become instrumental in replacing our view of proteins as relatively rigid structures with the realization that they were dynamic systems, whose internal motions play a functional role. Over the years, such simulations have become a central part of biophysics. Applications of molecular dynamics in biophysics range over many areas. They are used in the structure determination of macromolecules with x-ray and NMR data, the modelling of unknown structures from their sequence, the study of enzyme mechanisms, the estimation of ligand-binding free energies, the evaluation of the role of conformational change in protein function, and drug design for targets of known structures.
GPCRs as Therapeutic Targets ; 2-Vol. Set
Delivers an authoritative and in-depth compendium of a vibrant and active area of academic and industrial drug discovery. The book serves as an important reference for new and experienced researchers studying G protein-coupled receptors and discusses the molecular pharmacology of this important target class. It also includes up-to-date material on GPCR structures and structure-based drug design.
Glycopeptides and Glycoproteins : Synthesis, Structure, and Application
Their structure, biosynthesis, and mode of action are summarized in the fth chapter. The last chapter covers current methods for the determination of high-resolution structures of glycopeptides and glycoproteins mainly based onNMRspectroscopy, X-raycrystallography,and molecular modeling.This series presents critical reviews of the present position and future trends in modern chemical research Short and concise reports on chemistry.
Glycobiology and Medicine ; Proceedings of the 7th Jenner Glycobiology and Medicine Symposium.
The potential for glycobiology to improve the practice of medicine has been well recognised, which is why biannual meetings concerning the association have been taking place for the last 14 years. The science of glycobiology has matured rapidly, and with it the far reaching clinical implications are becoming understood. The next decade is going to see this final frontier of science conquered. The impact this understanding of glycobiology will have upon our practice of medicine is going to be exciting. The 7th Jenner Glycobiology and Medicine Symposium was designed to reflect these advances. All the major clinical areas were involved, with contributions from pivotal players in science and medicine.
Genetic Engineering : Principles and Methods
Genetic Engineering: Principles and Methods presents state-of-the-art discussions in modern genetics and genetic engineering. Recent volumes have covered gene therapy research, genetic mapping, plant science and technology, transport protein biochemistry, and viral vectors in gene therapy, among many other topics.
Genes on the Menu : Facts for Knowledge-Based Decisions
Only little more than a decade ago the term "genetic engineering" was hardly known outside research laboratories. Today it regularly makes headlines in the news. Supporters and opponents as well tell us that it could change our lives more than any other technological advance. This book delivers the state-of-the-art facts in order to empower the public to make knowledge-based decisions about plant biotechnology and GM crops and GM food, in particular. It discusses the hot topics of the present debate in a neutral manner and will function as a personal reference book for the interested public, for decision maker, and managers of consumer organisations.
Gap Junctions in Development and Disease
Starting with a comprehensive review of the various mouse and human genes encoding the channel-forming protein connexin, further chapters describe the most important connexin mutations that lead to diseases such as hereditary deafness and female infertility in humans. Erroneous signaling mediated via connexin-protein interactions, thought to be responsible for disfunction of organs such as heart, muscle, brain, skin, lens, placenta, and endocrine tissue in mice and men, is also addressed.
Fundamentals of Protein Structure and Function
This book serves as an introduction to the fundamentals of protein structure and function. Starting with their make up from simple building blocks called amino acids, the 3-dimensional structure of proteins is explained. This is followed by an introduction into enzymology and modern concepts of enzyme kinetics, taking into account the physiological and medical significance of this often neglected topic.
Fundamentals of Protein NMR Spectroscopy
NMR spectroscopy has proven to be a powerful technique to study the structure and dynamics of biological macromolecules. Fundamentals of Protein NMR Spectroscopy is a comprehensive textbook that guides the reader from a basic understanding of the phenomenological properties of magnetic resonance to the application and interpretation of modern multi-dimensional NMR experiments on 15N/13C-labeled proteins. Beginning with elementary quantum mechanics, a set of practical rules is presented and used to describe many commonly employed multi-dimensional, multi-nuclear NMR pulse sequences. A modular analysis of NMR pulse sequence building blocks also provides a basis for understanding and developing novel pulse programs.
Functional ultrastructure: Atlas of tissue biology and pathology
The quality of data represented by the a growing tendency to substitute modern light mic- images of cells and tissues had been perfected to a very scopic techniques for electron microscopy because it is high level by the great microscopists of the era including less technically demanding and is more readily available. This atlas reminds us that the images that we see in leading tion obtained by electron microscopy is invaluable and journals for the most part do not reach the same techni- has no substitute.
Fruit Manufacturing : Scientific Basis, Engineering Properties, and Deteriorative Reactions of Technological Importance
The fruit processing industry is a major global business. While basic principles of fruit processing have shown only minor changes over the last years, major improvements continually occur. More efficient equipment is capable of converting huge quantities of fruits into pulp, juice, dehydrated, frozen and refrigerated products, etc. that make possible the preservation of products for year-round consumption. Fruit processing and storage involve physical and chemical changes that negatively modify fruit quality. The industry’s ability to provide a nutritious and healthful fruit product to the consumer is highly dependent on the knowledge of the quality modifications that occur during the processing.
Frontiers of multifunctional integrated nanosystems ; Proceedings of the NATO ARW on Frontiers of molecular-scale science and technology of nanocarbon, nanosilicon and biopolymer integrated nanosystems,Ilmenau, Germany from 12 to 16 July 2003
Presents exciting new developments of the early 21st century. Significant progress has been made in nanotechnology of building blocks for integrated nanosystems, single and assembled molecules, nanoparticles characterisation, and multifunctional applications of nanosystems. The realisation and the application of novel multifunctional nanosystems in electronics, optics, biomedicine (nano-bioelectronic devices based on DNA and proteins, silicon nanocrystal memory devices, monolithically integrated silicon photonics, nanocapsules, biosensor nanosystems) are described by well known experts. This multi-disciplinary, scientific display of cutting-edge research across the entire spectrum of nanoscience and nanotechnology of inorganic, and organic systems, as well as systems for electronics photonics, and spintronics demonstrates that researching nanocarbon, nanosilicon, biomolecular integrated nanosystems, and developing their new applications, is a complex and exiting topic that will continue to attract scientists and engineers for many years to come.
From globular proteins to amyloids
Proposes a model and mechanism for explaining protein misfolding. Concepts presented are based on a model originally intended to show how proteins attain their native conformations. This model is quantitative in nature and founded upon arguments derived from information theory. It facilitates prediction and simulation of the amyloid fibrillation process, also identifying the progressive changes that occur in native proteins that lead to the emergence of amyloid aggregations. Introduces basic rules for protein folding, along with the conditions that result in misfolding Presents research that lies in treating the aqueous environment as a continuum rather than a set of individual water molecules (i.e. the classic representation) Provides practical applications for helping the prevention of amyloidosis and improving drug design
From Cells to Proteins : Imaging Nature across Dimensions ; Proceedings of the NATO Advanced Study Institute, held in Pisa, Italy, 12-23 September 2004
This book offers updated information on how much information we are able to obtain in the exploration of the inner details of biological specimens in their native structure and composition. And deals with the implementation of laser beam and stage scanning systems incorporating confocal optics or multiphoton microscopy; the advent of new electro-optical detectors with great sensitivity, linearity, and dynamic range; the possibility of 2D fast image enhancement, reconstruction, restoration, analysis and 3D display, and the application of luminescence techniques.
