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Treatment risk and response to therapy prediction can be forecasted through early diagnosis, which improves prognosis reliability and effectiveness of therapies. This book covers contemporary advances in molecular markers, disease-causing variants, retroelements, and the basis of distinct diseases.
This manual not only provides reliable, up-to-date protocols for lab use but also the theoretical background of molecular biology, allowing users to better understand the principles underlying these techniques. It covers a wide range of methods, including the purification of nucleic acids, enzymatic modification of DNA, isolation of specific DNA fragments, PCR, cloning techniques, and gene expression. A Springer Lab Manual
A thoroughly revised and updated collection readily reproducible techniques for culturing human cells. This new edition includes a wide range of human cell types relevant to human disease and new chapters on fibroblasts, Schwann cells, gastric and colonic epithelial cells, and parathyroid cells. The protocols follow the successful Methods in Molecular MedicineTM series format, each offering step-by-step laboratory instructions, an introduction outlining the principle behind the technique, lists of the necessary equipment and reagents, and tips on troubleshooting and avoiding known pitfalls.
The era of molecular pathology has arrived. From its promising beg- nings in research laboratories, the field has grown, and continues to grow, to become a vital part of the care of an ever-increasing number of patients. Because of its recent emergence from the research taboratory, many molecuIar pathology protocols we still to be found in the primary litcramre, and have not appeared in a text. MO~PCU~Q~ Padhoiogy Protocob contains la- ratory protocoIs that have been developed by many of the authors for use in clinical molecular pathology laboratories and describe in detail Row to perform these assays. This book is therefore intended for clinical laboratory use by medical technologists and pathologists. It will dso be of interest to research workers who are performing these assays. In its broadest meaning, pathology is the study of disease, and therefore it follows that any disease for which the molecular basis is understood would be suitable as a topic for inclusion in this work. When seiecting protocols, it was necessary to place limits on the number of chapters that could be feasibly presented in a single work. Those protoculs that were selected are performed more frequently, or have achieved recognition as having important diagnostic utility in contemporary practice. A decision was made to exclude inherited genetic diseases with certain exceptions, such as those diseases that are associated with thrombotic states and are part of the traditional dumain of pathology.
Clinical Molecular Medicine: Principles and Practice presents the latest scientific advances in molecular and cellular biology, including the development of new and effective drug and biological therapies and diagnostic methods. The book provides medical and biomedical students and researchers with a clear and clinically relevant understanding on the molecular basis of human disease. With an increased focus on new practice concepts, such as stratified, personalized and precision medicine, this book is a valuable and much-needed resource that unites the core principles of molecular biology with the latest and most promising genomic advances. Illustrates the fundamental principles and therapeutic applications of molecular and cellular biology Offers a clinically focused account of molecular heterogeneity Includes comprehensive coverage of many different disorders, including growth and development, cardiovascular, metabolic, skin, blood, digestive, inflammatory, neuropsychiatric disorders, and many more
Current techniques for studying biological macromolecules and their interactions are based on the application of physical methods, ranging from classical thermodynamics to more recently developed techniques for the detection and manipulation of single molecules. Reflecting the advances made in biophysics research over the past decade, and now including a new section on medical imaging, this new edition describes the physical methods used in modern biology. All key techniques are covered, including mass spectrometry, hydrodynamics, microscopy and imaging, diffraction and spectroscopy, electron microscopy, molecular dynamics simulations and nuclear magnetic resonance. Each method is explained in detail using examples of real-world applications. Short asides are provided throughout to ensure that explanations are accessible to life scientists, physicists and those with medical backgrounds. The book remains an unparalleled and comprehensive resource for graduate students of biophysics and medical physics in science and medical schools, as well as for research scientists looking for an introduction to techniques from across this interdisciplinary field.
Alzheimer's disease is the most common cause of senile dementia. Since the discovery in 1984 of the amyloid ?-peptide (A?) as the core protein of the senile plaques present in the brains of Alzheimer's disease sufferers, an immense amount of research has gone into mapping out the molecular basis of this debilitating disease. The aim of Alzheimer's Disease: Methods and Protocols is to bring together the main biochemical, cell biological, and molecular biological techniques and approaches that are being used to investigate the molecular basis of Alzheimer's disease. This volume begins with chapters of an introductory/ review nature. Chapter 1 provides a historical introduction to Alzheimer's d- ease with particular emphasis on the central role played by A? and its re- tion to tau. Chapter 2 examines the genetics underlying this neurodegenerative disease, covering the amyloid precursor protein, apolipoprotein E, and the presenilins. Chapter 3 presents an overview of currently available therapeutic agents and prospects for drugs of the future.
The term “natural products” spans an extremely large and diverse range of chemical compounds derived and isolated from biological sources. Our interest in natural products can be traced back thousands of years for their usefulness to humankind, and this continues to the present day. Compounds and extracts derived from the biosphere have found uses in medicine, agriculture, cosmetics, and food in ancient and modern societies around the world. Therefore, the ability to access natural products, understand their usefulness, and derive applications has been a major driving force in the field of natural product research. The first edition of Natural Products Isolation provided readers for the first time with some practical guidance in the process of extraction and isolation of natural products and was the result of Richard Cannell’s unique vision and tireless efforts. Unfortunately, Richard Cannell died in 1999 soon after completing the first edition. We are indebted to him and hope this new edition pays adequate tribute to his excellent work. The first edition laid down the “ground rules” and established the techniques available at the time. Since its publication in 1998, there have been significant developments in some areas in natural product isolation. To capture these developments, publication of a second edition is long overdue, and we believe it brings the work up to date while still covering many basic techniques known to save time and effort, and capable of results equivalent to those from more recent and expensive techniques.
This progressive book presents the basic principles of proper statistical analyses. It progresses to more advanced statistical methods in response to rapidly developing technologies and methodologies in the field of molecular biology.
Since the publication of the best-selling Handbook of Molecular and Cellular Methods in Biology and Medicine, the field of biology has experienced several milestones. Genome sequencing of higher eukaryotes has progressed at an unprecedented speed. Starting with baker's yeast (Saccharomyces cerevisiae), organisms sequenced now include human (Homo sa