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Molecular Cardiology: Methods and Protocols (Methods in Molecular Medicine #112)
by Zhongjie SunThe aim of Molecular Cardiology: Methods and Protocols is to document state-of-the-art molecular and genetic techniques in the area of cardiology. These modern approaches enable researchers to readily study heart diseases at the molecular level and will promote the development of new therapeutic str- egies. Methods for genetic dissection, signal transduction, and microarray analysis are excellent tools for the study of the molecular mechanisms of cardiovascular diseases. Protocols for transgenesis take advantage of recent advances in many areas of molecular and cell biology. Transgenic models of heart diseases (cardiac hypertrophy, cardiac dysfunction, and so on. ) are powerful tools for the study of heart disease pathogenesis. Methods for gene transfer to heart tissue using viral and nonviral vectors form the basis of gene therapy for heart diseases. Heart-specific promoters containing a hypox- inducible cardioprotective gene switch are key for protection of the heart from ischemia. Gene and stem cell therapies open novel and exciting avenues for the prevention and treatment of heart diseases. Molecular Cardiology: Methods and Protocols consists of 26 chapters de- ing with various aspects of molecular cardiology, including gene transfer and gene therapy for cardiovascular disease, stem cell therapy for cardiovascular disease, gene analysis in the injured and hypertrophied heart, and transgenesis in cardiovascular research. This book provides step-by-step methods for the successful completion of experimental procedures, and would be useful for both experienced and new investigators in the field of molecular cardiology.
Molecular Cardiology for the Cardiologist (Developments in Cardiovascular Medicine #208)
by Bernard SwynghedauwMolecular Cardiology for the Cardiologist, Second Edition provides a short, easily readable summary of what the new biology brings to cardiology. Special efforts have been made to include comprehensive diagrams and drawings, as well as teaching tables, and also to keep the size of the second edition within the modest limits of the first edition. The book remains divided into 5 parts. The first part is a general introduction to the new terminology. The second part is devoted to the normal structure of the heart and vessels. Parts 3 and 4 deal with physiopathology. One of the important contributions of molecular biology to cardiology is a better understanding of the general process of adaptation of the heart and vessels to a permanent mechanical overloading. Such a process is generally called remodeling, and results from coordinate changes in the expression of the genes. The last part of the book includes information on gene and cellular therapy.
Molecular Cardiology for the Cardiologists (Developments in Cardiovascular Medicine #172)
by Bernard SwynghedauwMolecular Cardiology for the Cardiologist provides a short, easily readable summary of what the new biology brings to cardiology. With this in mind, special efforts have been made to present many comprehensive schemes and drawings, as well as teaching tables. The five parts of the book provide a general introduction to the new language of biology; the normal structure of the heart and blood vessels; the physiopathology and the new therapeutic avenues that have been opened up by the new biology. A concise summary of the keys that assist the cardiologist or student who seeks to learn and read more about this field. Provides practical examples to illustrate the clinical interest of the new approach.
Molecular Cardiology in Clinical Practice (Basic Science for the Cardiologist #2)
by John B. Kostis MichaelSandersCardiology is an area of great recent triumphs in pharmacological and surgical treatment, yet cardiovascular disease remains the leading cause of death and disability in the industrialized world. Coronary disease, heart failure, stroke and sudden arrhythmic cardiac death challenge both medical practitioners and scientists. With the dawning of the new `molecular' era, there is an awakened hope that a more fundamental understanding of biologic processes may eventually lead to new progress in the prevention and treatment of these persistent and seemingly intransigent problems. Molecular Cardiology in Clinical Practice brings together an outstanding panel of experts in cardiovascular disease who have been at the forefront of the application of molecular medicine to cardiology. Its intent is to help bridge the gap between modern medical practice and modern science, in the belief that an understanding of basic principles can lead to new insight into the problems of cardiac patients.
Molecular, Cellular, and Clinical Aspects of Angiogenesis (Nato Science Series A: #285)
by Michael E. MaragoudakisThere has been an explosion of research activity related to angiogenesis in recent years, and hundreds of laboratories worldwide are actively involved in many aspects of angiogenesiS. The literature on angiogenesis increases exponentially every year, and more than 16,000 peer-reviewed articles have been published the past 25 years, which are scattered in basic science and clinical journals. The complexity of the cascade of events leading to new vessel formation from preexisting ones has challenged scientists in cell biology, biochemistry, physiology, pharmacology, molecular biology, developmental biology, and other fields. With their multidisciplinary approach and the powerful new techniques that have been developed, the progress in understanding angiogenesis has been impressive indeed. Only 12 years ago the mention of an angiogenic factor caused skepticism. Today we have the complete amino-acid fiequence and their genes cloned for at least 9 angiogenic factors. Many laboratories are studying their role in angiogenesis, and several biotechnology firms have a keen interest in commercial developments relative to these molecules. The role of extracellular matrix components in angiogenesis and the interaction of endothelial cells with other cell types such as pericytes, smooth muscle cells, and inflammatory cells have been studied by other groups. This rapid expansion is the result of a realization that in many disease states a common underlying pathology is a derangement in angiogenesis.
Molecular, Cellular, and Tissue Engineering (The Biomedical Engineering Handbook, Fourth Edition)
by Joseph D. Bronzino Donald R. PetersonKnown as the bible of biomedical engineering, The Biomedical Engineering Handbook, Fourth Edition, sets the standard against which all other references of this nature are measured. As such, it has served as a major resource for both skilled professionals and novices to biomedical engineering. Molecular, Cellular, and Tissue Engineering, the fourth volume of the handbook, presents material from respected scientists with diverse backgrounds in molecular biology, transport phenomena, physiological modeling, tissue engineering, stem cells, drug delivery systems, artificial organs, and personalized medicine. More than three dozen specific topics are examined, including DNA vaccines, biomimetic systems, cardiovascular dynamics, biomaterial scaffolds, cell mechanobiology, synthetic biomaterials, pluripotent stem cells, hematopoietic stem cells, mesenchymal stem cells, nanobiomaterials for tissue engineering, biomedical imaging of engineered tissues, gene therapy, noninvasive targeted protein and peptide drug delivery, cardiac valve prostheses, blood substitutes, artificial skin, molecular diagnostics in personalized medicine, and bioethics.
Molecular, Cellular, and Tissue Engineering of the Vascular System (Advances in Experimental Medicine and Biology #1097)
by Bingmei M. Fu Neil T. WrightThis book introduces the latest research in molecular, cellular, and tissue engineering of the vascular system. Topics covered include the roles of endothelial surface glycocalyx as a mechano-sensor and transducer for blood flow, a barrier to water and solute transport across the vascular wall and to the interaction between circulating cells and the vessel wall, the roles of nuclear envelope proteins and nuclear lamina in regulating vascular functions under blood flow-induced forces, and the roles of smooth muscle cells and extracellular components in arterial vasoconstriction. Other topics covered include non-surgical vascular interventions for coronary artery diseases, genesis and mechanisms of atherosclerotic plaque microcalcifications and human abdominal aortic aneurysms, experiments and modelling for red blood cell and tumor cell movement in microcirculation, transport across the blood-brain barrier and its role in Alzheimer’s disease, mathematical models for cell survival after hyperthermia, application of hypothermia in enhancing treatment for brain and spinal cord injuries, and damage of eardrums due to blast waves. This is an ideal book for biomedical engineers and researchers, medical researchers, and students in biomedical engineering and medical sciences.
Molecular Chaperones
by R. J. Ellis R. A. Laskey G. H. LorimerCurrently one of the hottest topics in biochemistry, the concept of molecular chaperones has challenged the paradigm of protein self-assembly. Key figures in many disciplines review all aspects of molecular chaperones in this volume, which arises from a Royal Society discussion meeting. Overview chapters discuss the significance of chaperones in biochemistry, molecular genetics and cell biology. Each chapter is well referenced providing access to the literature.
Molecular Chaperones in Health and Disease (Handbook of Experimental Pharmacology #172)
by Matthias GaestelMolecular chaperones are involved in a wide variety of essential cellular processes in living cells. A subset of molecular chaperones have been initially described as heat shock proteins protecting cells from stress damage by keeping cellular proteins in a folding competent state and preventing them from irreversible aggregation. Later it became obvious that molecular chaperones are also expressed constitutively in the cell and are involved in complex processes such as protein synthesis, intracellular protein transport, post-translational modification and secretion of proteins as well as receptor signalling. Hence, it is not surprising that molecular chaperones are implicated in the pathogenesis of many relevant diseases and could be regarded as potential pharmacological targets. Starting with the analysis of the mode of action of chaperones at the molecular, cellular and organismic level, this book will then describe specific aspects where modulation of chaperone action could be of pharmacological and therapeutic interest.
The Molecular Chaperones Interaction Networks in Protein Folding and Degradation (Interactomics and Systems Biology #1)
by Walid A. HouryMolecular chaperones are a fundamental group of proteins that have been identified only relatively recently. They are key components of a protein quality machinery in the cell which insures that the folding process of any newly-synthesized polypeptide chain results in the formation of a properly folded protein and that the folded protein is maintained in an active conformation throughout its functional lifetime. Molecular chaperones have been shown to play essential roles in cell viability under both normal and stress conditions. Chaperones can also assist in the unfolding and degradation of misfolded proteins and in disaggregating preformed protein aggregates. Chaperones are also involved in other cellular functions including protein translocation across membranes, vesicle fusion events, and protein secretion. In recent years, tremendous advances have been made in our understanding of the biology, biochemistry, and biophysics of function of molecular chaperones. In addition, recent technical developments in the fields of proteomics and genomics allowed us to obtain a global view of chaperone interaction networks. Finally, there is now a growing interest in the role of molecular chaperones in diseases. This book will provide a comprehensive analysis of the structure and function of the diverse systems of molecular chaperones and their role in cell stress responses and in diseases from a global network perspective.
Molecular, Clinical and Environmental Toxicology: Volume 3: Environmental Toxicology (Experientia Supplementum #101)
by Andreas LuchEnvironmental Toxicology is the third volume of a three-volume set on molecular, clinical and environmental toxicology that offers a comprehensive and in-depth response to the increasing importance and abundance of chemicals of daily life. By providing intriguing insights far down to the molecular level, this three-volume work covers the entire range of modern toxicology with special emphasis on recent developments and achievements. It is written for students and professionals in medicine, science, public health or engineering who are demanding reliable information on toxic or potentially harmful agents and their adverse effects on the human body.
Molecular, Clinical and Environmental Toxicology: Volume 1: Molecular Toxicology (Experientia Supplementum #99)
by Andreas LuchMolecular Toxicology is the first volume of a three-volume set Molecular, Clinical and Environmental Toxicology that offers a comprehensive and in-depth response to the increasing importance and abundance of chemicals in daily life. By providing intriguing insights far down to the molecular level, this work covers the entire range of modern toxicology with special emphasis on recent developments and achievements. It is written for students and professionals in medicine, science, public health and engineering who are demanding reliable information on toxic or potentially harmful agents and their adverse effects on the human body.
Molecular, Clinical and Environmental Toxicology: Volume 2: Clinical Toxicology (Experientia Supplementum #100)
by Andreas LuchClinical Toxicology is the second volume of a three-volume set on molecular, clinical and environmental toxicology that offers a comprehensive and in-depth response to the increasing importance and abundance of chemicals of daily life. By providing intriguing insights far down to the molecular level, this three-volume work covers the entire range of modern toxicology with special emphasis on recent developments and achievements. It is written for students and professionals in medicine, science, public health or engineering who are demanding reliable information on toxic or potentially harmful agents and their adverse effects on the human body.
Molecular Components of Hepatitis B Virus (Developments in Molecular Virology #6)
by M. FeitelsonSince the discovery of Australia antigen and its association with type B hepatitis, molecular characterization of the components making up hepatitis B virus (RBV) have been pursued with worldwide interest. Over the past two decades, such characterization has led to the development of sensitive assays to screen and exclude contaminated units from blood banks and has recently resulted in the licensing of several RBV vaccines. That more than 200 million people worldwide are chronically infected with RBV, and that they are at a high risk for the development of chronic hepatitis and hepatocellular carcinoma, still represent formidable problems in our understanding of host-virus relationships on the molecular level. In the absence of a suitable tissue culture system, and with a very limited host range of infection, characterization of RBV on the molecular level has made remarkable progress recently with the advent of genome cloning, sequencing and expression of individual virus genes by recombinant DNA technology. The presence of hepatitis B-like viruses in an expanding number of animal hosts, and the possibility of virus replication in cells other than hepatocytes, provide great promise that future work will elucidate the molecular mechanisms operative in the various outcomes of RBV infection.
Molecular Control Mechanisms in Striated Muscle Contraction (Advances in Muscle Research #1)
by R. J. Solaro R. MossMolecular Control Mechanisms in Striated Muscle Contraction addresses the molecular mechanisms by which contraction of heart and skeletal muscles is regulated, as well as the modulation of these mechanisms by important (patho)physiological variables such as ionic composition of the myoplasm and phosphorylations of contractile and regulatory proteins.For the novice, this volume includes chapters that summarize current understanding of excitation-contraction coupling in striated muscles, as well as the compositions and structures myofibrillar thick and thin filaments. For the expert, this volume presents detailed pictures of current understanding of the mechanisms underlying the CA2+ regulation of contraction in heart and skeletal muscles and discusses important directions for future investigation.
Molecular Cytogenetics: Protocols and Applications (Methods in Molecular Biology #204)
by Yao-Shan FanThe new techniques of molecular cytogenetics, mainly fluorescence in situ hybridization (FISH) of DNA probes to metaphase chromosomes or interphase nuclei, have been developed in the past two decades. Many FISH techniques have been implemented for diagnostic services, whereas some others are mainly used for investigational purposes. Several hundreds of FISH probes and hybridization kits are now commercially available, and the list is growing rapidly. FISH has been widely used as a powerful diagnostic tool in many areas of medicine including pediatrics, medical genetics, maternal–fetal medicine, reproductive medicine, pathology, hematology, and oncology. Frequently, a physician may be puzzled by the variety of FISH techniques and wonder what test to order. It is not uncommon that a sample is referred to a laboratory for FISH without indicating a specific test. On the other hand, a cytogeneticist or a technologist in a laboratory needs, from case to case, to determine which procedure to perform and which probe to use for an informative result. To obtain the best results, one must use the right DNA probes and have reliable protocols and measures of quality assurance in place. Also, one must have sufficient knowledge in both traditional and molecular cytogenetics, as well as the particular areas of medicine for which the test is used in order to appropriately interpret the FISH results, and to correlate them with clinical diagnosis, treatment, and prognosis.
Molecular Cytogenetics
by Barbara HamkaloThis volume represents the Proceedings of the Twenty-Sixth Annual Biology Division Research Conference held April 9-12, 1973 in Gatlinburg, Tennessee. The subject of the symposium was Molecular Cytogenetics and the aim of the meeting was to bring together researchers interested in problems of chromosome organi zation, activity and regulation in prokaryotes and eukaryotes. Cytological, biochemical and genetic approaches to these questions were included since the collective information gained from these disciplines provides an integrated approach to genome structure and function. The meeting was sponsored by the Biology Division of the Oak Ridge National Laboratory*. It would not have been possible with out the interest and cooperation of the organizing committee under the chairmanship of O. L. Miller, Jr. Special thanks are due to the chairmen and speakers for making this volume possible and to Dr. Waldo Cohn for his assistance in editing. Preparation of the completed volume was due in large part to the efforts of Sandra Vaughan of the Biology Division. The Editors Barbara Ann Hamkalo John Papaconstantinou August, 1973 * Operated by the Union Carbide Corporation for the U.S. Atomic Energy Commission.
Molecular Cytopathology (Essentials in Cytopathology #26)
by Bin Yang Jianyu RaoThis book reviews the current applications of molecular tools in cytopathology and provides a concise handbook for those who provide care in this era of personalized medicine. Specifically, the text provides a comprehensive and concise review of the emerging molecular tests available clinically in different subspecialities of diagnostic pathology. It reviews the current data of molecular testing already applied in cytopathology, discusses some of the biomarkers with potential utility in cytopathology in the near future and reviews the technical challenges in applying and validating molecular tools in liquid-based cytologic materials. Molecular Cytopathology will serve as a valuable resource for cytopathologists, cytotechnologists, pathology trainees, and clinicians with an interest in molecular applications in cytopathology.
Molecular Data Analysis Using R
by Csaba Ortutay Zsuzsanna OrtutayThis book addresses the difficulties experienced by wet lab researchers with the statistical analysis of molecular biology related data. The authors explain how to use R and Bioconductor for the analysis of experimental data in the field of molecular biology. The content is based upon two university courses for bioinformatics and experimental biology students (Biological Data Analysis with R and High-throughput Data Analysis with R). The material is divided into chapters based upon the experimental methods used in the laboratories. Key features include:• Broad appeal--the authors target their material to researchers in several levels, ensuring that the basics are always covered.• First book to explain how to use R and Bioconductor for the analysis of several types of experimental data in the field of molecular biology.• Focuses on R and Bioconductor, which are widely used for data analysis. One great benefit of R and Bioconductor is that there is a vast user community and very active discussion in place, in addition to the practice of sharing codes. Further, R is the platform for implementing new analysis approaches, therefore novel methods are available early for R users.
Molecular Data Analysis Using R
by Csaba Ortutay Zsuzsanna OrtutayThis book addresses the difficulties experienced by wet lab researchers with the statistical analysis of molecular biology related data. The authors explain how to use R and Bioconductor for the analysis of experimental data in the field of molecular biology. The content is based upon two university courses for bioinformatics and experimental biology students (Biological Data Analysis with R and High-throughput Data Analysis with R). The material is divided into chapters based upon the experimental methods used in the laboratories. Key features include:• Broad appeal--the authors target their material to researchers in several levels, ensuring that the basics are always covered.• First book to explain how to use R and Bioconductor for the analysis of several types of experimental data in the field of molecular biology.• Focuses on R and Bioconductor, which are widely used for data analysis. One great benefit of R and Bioconductor is that there is a vast user community and very active discussion in place, in addition to the practice of sharing codes. Further, R is the platform for implementing new analysis approaches, therefore novel methods are available early for R users.
Molecular Databases for Protein Sequences and Structure Studies: An Introduction
by John A.A. Sillince Maria SillinceThe amount of molecular information is too vast to be acquired without the use of computer-bases systems. The authors introduce students entering research in molecular biology and related fields into the efficient use of the numerous databases available. They show the broad scientific context of these databases and their latest developments. They also put the biological, chemical and computational aspects of structural information on biomolecules into perspective. The book is required reading for researchers and students who plan to use modern computer environment in their research.
Molecular Defects in Cardiovascular Disease
by Naranjan S. Dhalla, Makoto Nagano and Bohuslav OstadalMolecular Defects in Cardiovascular Disease provides an in-depth discussion of the molecular mechanisms underlying the genesis of cardiovascular defects and the implications this has on current and emerging targeted therapeutics. Divided into three sections, this book covers the scientific foundations of our present understanding as well as the array of clinical manifestations and their treatment. The first section covers Molecular Mechanisms of Heart Disease, with discussion of the development of cardiovascular dysfunction. The remaining two sections provide a more clinical focus. The second, Cardiac Hypertrophy and Heart Failure deals with metabolic derangements, Ca2+ handling, and subcellular remodeling. It illustrates the wide variety of molecular defects which may serve as targets associated with the transition from cardiac hypertrophy to advanced heart failure. The third section, Hypertension and Diabetes, provides molecular rationale for the pathogenesis of hypertension and diabetic cardiomyopathy, as well as highlighting the importance of hormones toward this end. A necessary resource for clinicians and researchers, this book elucidates the experimental basis of the practice of cardiology. It is the culmination of our advances in the understanding of cardiovascular molecular biology and a blueprint for the efficacious use of targeted therapies.
Molecular Dermatology: Methods and Protocols (Methods in Molecular Biology #2154)
by Natalia V. Botchkareva Gillian E. WestgateThis volume delivers the most important laboratory techniques that underlie dermatological investigation, including in situ, in vitro, ex vivo, and in vivo models of skin, its appendages (hair follicles, sebaceous and sweat glands), and immune cells. Also included are unique techniques that unravel epigenetic mechanisms in skin and hair follicle cells, such as gene organization in the nucleus and gene expression regulation by the non-coding transcriptome, which are important recent developments in investigative dermatology. Written for the highly successful Methods in Molecular Biology series, chapters include introductions to their respective topics, lists of the necessary materials and reagents, step-by-step, readily reproducible laboratory protocols, and tips on troubleshooting and avoiding known pitfalls. Authoritative and practical, Molecular Dermatology: Methods and Protocols serves as an essential resource for researchers working in the areas of fundamental as well as applied dermatological science.
Molecular Dermatology: Methods and Protocols (Methods in Molecular Biology #961)
by Cristina Has and Cassian SitaruThe sustained skin research efforts over the past decades has led to the accumulation of a significant collection of information on skin structure and physiology as well as on the pathogenesis of cutaneous diseases. In Molecular Dermatology: Methods and Protocols, leading experts in the field provide a collection of state-of-the-art reliable protocols covering a wide spectrum of techniques and experimental models, specific molecular assays and disease models, as well as overviews of diagnostic and research areas relevant to molecular dermatology. As a volume in the highly successful Methods in Molecular Biology™ series, chapters include introductions to their respective topics, lists of the necessary materials and reagents, step-by-step, readily reproducible laboratory protocols, and tips on troubleshooting and avoiding known pitfalls.Comprehensive and authoritative, Molecular Dermatology: Methods and Protocols emphasizes the vital importance of skin research and collects the methodologies necessary to aid scientists in moving forward in this valuable field.
Molecular Detection of Animal Viral Pathogens
by Dongyou LiuMolecular Detection of Animal Viral Pathogens presents expert summaries on state-of-the-art diagnostic approaches for major animal viral pathogens, with a particular emphasis on identification and differentiation at the molecular level. Written by specialists in related research areas, each chapter provides a concise overview of an individual virus