Download Free Lecture Notes On Molecular Medicine Book in PDF and EPUB Free Download. You can read online Lecture Notes On Molecular Medicine and write the review.

Lecture Notes on Molecular Medicine provides a concise and straightforward introduction to molecular biology, explaining how it is used to understand and treat human disease. This new edition has been written in response to exciting changes in this fast-moving field. Fully updated, it explains the human genome project and how the sequence will change medicine. It also covers many new methods that have been introduced since the first edition was published. Beginning with first principles, the book is a useful primer for any science student new to molecular biology and genetics. It is also an invaluable resource for medical students and practicing doctors who need an understanding of how advances in molecular biology have impacted clinical medicine, especially in the fields of gene therapy and screening. For ease of use Lecture Notes on Molecular Medicine is divided into four sections: Basic Principles: describing the fundamentals of DNA structure and function that underpin molecular biology Biomolecular Tools: covering the manipulation of DNA and RNA and molecular techniques. Understanding Genetics: covering the basic principles of inheritance, biodiversity, gene mapping and expression and gene therapy. Molecular Medicine in Practice: discussing the profound effect which molecular biology has had on medical practice at all levels. This chapter has been greatly expanded in this new edition to cover all the latest developments in the field. A concise introduction to the basic principles & applications of molecular medicine. Explains complicated science in simple terms with clear diagrams. Integrates basic and clinical science by emphasising application to clinical medicine. Expanded chapter examining molecular medicine in clinical practice.
The concept of molecular medicine dates back to Linus means that there are many new opportunities and challenges Pauling, who in the late 1940s and early 1950s generalized for clinical medicine. One of the effects of the completion of from the ideas that came from the study of the sickle cell the Human Genome Project is the increasing application of hemoglobin molecule. With the first cloning of human genes the fields of molecular biology and genetics to the und- about 1976, molecular genetics took the molecular perspec- standing and management of common diseases. Assimi- tive on disease to the level of DNA. The term molecular tion of the new developments since the first edition has been medicine achieved wide currency in the 1980s with the ably accomplished by Drs. Runge and Patterson with the assignment of this designation to journals, at least one soci- help of their many knowledgeable authors. ety, institutes, and academic divisions of departments of in- As was evident in the first edition, molecular genetics is ternal medicine. Undoubtedly, molecular medicine has been involved in every specialty of medicine. A recurrent theme abetted by the Human Genome Project, which has aided in that edition, perhaps even more striking in the present one, greatly in the molecular characterization of disease.
How will increased understanding of the human genome affect our ability to diagnose and treat disease? The subject of recombinant DNA technology is no longer limited to the research laboratory; it is being discussed in ever-widening medical circles. Introduction to Molecular Medicine is especially written for the physician who is not a genetics expert but wishes to understand this new science and find entry to the more specialized publications. The first chapters present the basic concepts of the human genome and gene regulation. Subsequent chapters consider how today's new approach can be applied in areas such as forensic medicine, transplantation medicine, drug manufacture and genetic engineering. For example, a major section on cancer explores the diagnosis of leukemia and lymphoma through the detection of gene rearrangement and oncongeny mutation. One feature that will especially interest pathologists, pediatricians and residents is the discussion of diagnostic tests that are used in current practice.
Das vorliegende Buch stellt das erste Kurs-basierte Lehrbuch der Molekularen Medizin dar. In einem einheitlichen Konzept vermitteln fünfzehn Kapitel ein breites Spektrum an Themen, die von den Grundlagen der Immunologie bis zu krankheitsrelevanten Signalwegen reichen. Neue molekular basierte Entwicklungen werden dargestellt, die Disziplinen von der Onkologie über Virologie, Gentherapie, Stammzelltechnologie bis hin zu neuen Ansätzen der personalisierten Medizin umfassen. Die Inhalte werden durch zahlreiche professionelle Abbildungen verdeutlicht. Ein Ethikkapitel und zusätzliche Arbeitsmaterialien runden das Buch ab.
Lecture Notes: Medical Genetics provides a concise and straightforward introduction to medical genetics. The text aims to give students a fundamental understanding of the science of genetics and molecular medicine and a knowledge of the core clinical conditions caused by genetic abnormalities. Previously titled Lecture Notes on Molecular Medicine, this new edition has a greater focus on clinical genetics while continuing to provide core information on the scientific background and advances in genetics and molecular medicine. Thoroughly revised and updated, Lecture Notes: Medical Genetics is an invaluable primer for any science student new to molecular biology and genetics, and an excellent resource for medical students, junior doctors and practicing clinicians requiring an understanding of scientific advances in the field and their impact on clinical medicine.
This book explains the basic concepts of macromolecules and describes the different molecular biology methods which are used in laboratory practice. It explains the practical utilities of these techniques and their use in day-to-day practice and research. It has a large number of illustrations and real life examples which would be of interest to doctors.The book is meant for undergraduate and post graduate students who want to comprehend the basic concepts of molecular biology before moving on to more advanced textbooks. It will also serve as a comprehensive textbook for practicing doctors in various specialities who are interested in molecular biology.
The fascinating area of molecular medicine provides a molecular and cellular description of health and disease. Starting with the understanding of gene regulation and epigenetics, i.e., the interplay of transcription factors and chromatin, this book will provide an fundamental basis of nearly all processes in physiology, both in health as well as in most common disorders, such as cancer, diabetes as well as in autoimmune diseases. Most non-communicable human diseases have a genetic (= inherited) as well as an epigenetic component. The later one is based on our lifestyle choices and environmental exposures. Many common diseases, such as type 2 diabetes, can be explained only to some 20% via a genetic predisposition. We cannot change the genes that we are born with but we can take care of the remaining 80% being primarily based on our epigenome. Therefore, there is a high level of individual responsibility for staying healthy. Thus, not only biologists and biochemists should be aware of this topic, but all students of biomedical disciplines will benefit from being introduced into the concepts of molecular medicine. This will provide them with a good basis for their specialized disciplines of modern life science research. The book is subdivided into 42 chapters that are linked to a series of lecture courses in “Molecular Medicine and Genetics”, “Molecular Immunology”, “Cancer Biology” and “Nutrigenomics” that is given by one of us (C. Carlberg) in different forms since 2002 at the University of Eastern Finland in Kuopio. This book represents an updated version and fusion of the books textbooks “Mechanisms of Gene Regulation: How Science Works” (ISBN 978-3-030-52321-3), “Human Epigenetics: How Science Works” (ISBN 978-3-030-22907-8). “Molecular Immunology: How Science Works” (ISBN 978-3-031-04024-5), “Cancer Biology: How Science Works” (ISBN 978-3-030-75699-4) and “Nutrigenomics: How Science Works” (ISBN 978-3-030-36948-4). By combining basic understanding of cellular mechanism with clinical examples, the authors hope to make this textbook a personal experience. A glossary in the appendix will explain the major specialist’s terms.
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