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Epidermal Cells: Methods and Protocols (Methods in Molecular Biology #2109)
by Kursad TurksenThis fully updated edition brings together a new set of protocols to arm epidermal cell biologists with tools and approaches to continue the quest to uncover the intricacies and regulatory mechanisms underlying epidermal cell development and function. The collection takes a detailed view at techniques currently being applied to this developing field. 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. Comprehensive and cutting-edge, Epidermal Cells: Methods and Protocols, Fourth Edition serves as a valuable reference for experts as well as novices in the epidermal cell field.
Epidermal Growth Factor: Methods and Protocols (Methods in Molecular Biology #327)
by Tarun B. Patel and Paul J. BerticsA comprehensive collection of optimized methods for dissecting the mechanisms that control epidermal growth factors (EGF) and their regulators in both normal and pathological states. These readily reproducible techniques range from the study of purified EGF receptor to complex signaling and processing networks in intact cells, including a chapter on the clinical and pharmacological considerations of their use in cancer therapy. The protocols follow the successful Methods in Molecular Biology™ series format, each offering step-by-step laboratory instructions, an introduction outlining the principles behind the technique, lists of the necessary equipment and reagents, and tips on troubleshooting and avoiding known pitfalls.
Epidermale Mikrostrukturen von Blütenblättern: Einfluss auf spektrale Reflexion und Attraktivität für Hummeln (BestMasters)
by Saskia WilmsenSaskia Wilmsen charakterisiert die Epidermiszellformen von 37 Blütenpflanzen, um einerseits den Einfluss epidermaler Mikrostrukturen in optisch wirksamen Bereichen von Petalen hinsichtlich ihrer Attraktivität auf Hummeln zu untersuchen und andererseits deren Unterschiede in Bezug auf spektrale Reflexion und Glanzeffekte zu analysieren. Die Autorin weist nach, dass blütennaive Individuen von Bombus terrestris eine spontane Präferenz für Blütenattrappen mit konischen Zellstrukturen zeigen und stellt die Bedeutung von spektral reinen und konstanten Farbsignalen bei unterschiedlichen Anflugwinkeln der Versuchstiere heraus.
Epidermis cross section (Large Print)
by RnibThe image shows the cross section of the epidermis. The outer layer is at the top of the diagram, the basal layer at the bottom of the page. There is a key on page one of the tactile version of this diagram. A locator dot and title are shown. These must always be at the top left of the page when the image is the right way up. There are five distinct layers. These are labelled on the left of the diagram, and reading from the top downwards are: * horny layer (stratum corneum) * clear layer (stratum lucidum) * granular layer (stratum granulosum) * prickle cell layer (stratum spinosum) * basal layer (stratum germinative) On the right of the diagram are the two zones (the keratinisation zone and the germinative zone) indicated by curly brackets.
Epidermis cross section (UEB Uncontracted)
by RnibThe image shows the cross section of the epidermis. The outer layer is at the top of the diagram, the basal layer at the bottom of the page. There is a key on page one of the tactile version of this diagram. A locator dot and title are shown. These must always be at the top left of the page when the image is the right way up. There are five distinct layers. These are labelled on the left of the diagram, and reading from the top downwards are: * horny layer (stratum corneum) * clear layer (stratum lucidum) * granular layer (stratum granulosum) * prickle cell layer (stratum spinosum) * basal layer (stratum germinative) On the right of the diagram are the two zones (the keratinisation zone and the germinative zone) indicated by curly brackets.
The Epididymis: A Comprehensive Survey of the Efferent Ducts, the Epididymis and the Vas Deferens
by Bernard Robaire,Barry T. HintonSince the late 1960s, there has been an acceleration of research focused on understanding how the efferent ducts, the epididymis, and the vas deferens function with respect to the maturation and storage of spermatozoa and as hormone dependent tissues. Another major interest in the epididymis is that it is an attractive target for the development of male contraceptives. There are well over 16,000 peer reviewed articles in the literature on these tissues, their structure, gene expression, protein synthesis and function. Regular international meetings have been initiated that are dedicated to this field. Thus, there is an urgent need for a comprehensive reference volume that spans every facet of epididymal biology, from historical background to the most current results, from basic cell and molecular biology to clinical issues. Well-established experts from every part of the world have contributed to this volume. By necessity, each author was given page limitations so that many topics are not dealt with exhaustively. Whenever possible, references to more comprehensive discussion of specific topics are included.
Epigenetic Aspects of Chronic Diseases
by Helmtrud I. Roach, Felix Bronner and Richard O.C. OreffoEpigenetic Aspects of Chronic Diseases assembles in comprehensive form what is known about the role of epigenetics in chronic disease development. This book provides new insights into treatment, including modulation of epigenetic regulation. Each chapter gives an outline of a respective disease, explains why epigenetics may be involved in the disease process and then presents the evidence of how changes in epigenetic status contribute to initiation and progress of the disease. The final chapters look towards future therapeutic treatment, based on manipulation of epigenetic aspects. Written by widely published experts, Epigenetic Aspects of Chronic Diseases is a valuable reference tool for clinicians and researchers who investigate and treat chronic diseases, as well as health care personnel, post-doctoral fellows and medical or dental students.
Epigenetic Epidemiology
by Karin B. MichelsNow in its second edition, this book provides a state of the art overview on basic concepts of epigenetic epidemiology and a comprehensive review of the rapidly evolving field of human epigenetics.Epigenetics plays an important role in shaping who we are and contributes to our prospects of health and disease. Unlike our genetic inheritance, our epigenome is malleable throughout the lifecourse and is shaped by our environmental experiences. Population-based epidemiologic studies increasingly incorporate epigenetic components. These so called epigenome-wide association studies (EWAS) contribute substantially to our understanding of the relevance of epigenetic marks, such as DNA methylation, histone modification, and non-coding RNAs for disease causation.Written by leading experts in the field, the book opens with a comprehensive introduction of the principles of epigenetic epidemiology and discusses challenges in study design, analysis, and interpretation. It summarizes the latest advances in epigenetic laboratory techniques, the influence of age and environmental factors on shaping the epigenome, the epigenetic clock, and the role of epigenetics in the developmental origins hypothesis. The final part focuses on epigenetic epidemiology of various health conditions such as imprinting disorders, cancer, infectious diseases, inflammation and rheumatoid arthritis, asthma, metabolic disorder and vascular disease, as well as neurodevelopmental and psychiatric disorders. Given its scope, Epigenetic Epidemiology is an indispensable resource for researchers working in the field of human epigenetics.
Epigenetic Mechanisms in Cellular Reprogramming (Epigenetics and Human Health)
by Alexander Meissner Jörn WalterThe ability of a single genome to give rise to hundreds of functionally distinct cell type programs is in itself remarkable. Pioneering studies over the past few decades have demonstrated that this plasticity is retained throughout development, a phenomenon of epigenetic programming and reprogramming that remains one of the most fascinating areas of modern biology, with major relevance to human health and disease. This book presents the basic biology involved, including key mechanistic insights into this rapidly growing field.
Epigenetic Mechanisms of Cell Programming and Reprogramming (Reports of China’s Basic Research)
by Gang PeiThis book presents a major research program on epigenetic mechanisms of cell programming and reprogramming. The program was launched by the National Natural Science Foundation of China during the 11th Five-Year Plan period, which was started in October 2008 and concluded at the end of 2016. It first summarizes the epigenetic research plans and the current situation of epigenetic research in China and the international frontier. With the application of interdisciplinary research methods, the book discusses the development trends of epigenetic research, such as mechanisms of establishment and maintenance of epigenetic information and epigenetic regulation on reproduction and development. It also presents a variety of research achievements. For example, the discovery of new epigenetic regulators and chromatin remodulaters and their biological functions and mechanisms are highlighted. Several regulation mechanisms of cell differentiation and trans-differentiation are discussed, especially the discovery of the key factors to promote the trans-differentiation of somatic cells to hepatocytes. In addition, this book puts forward some key academic fields with increasing importance, such as biochemistry, cell biology, and clinical medicine. Given its scope, the book is of interest to researchers who work in cell biology, biochemistry, structural biology, bioinformatics, clinical medicine, and other related fields.
Epigenetic Memory and Control in Plants (Signaling and Communication in Plants)
by Gideon Grafi and Nir OhadEpigenetics commonly acts at the chromatin level modulating its structure and consequently its function in gene expression and as such plays a critical role in plant response to internal and external cues. This book highlights recent advances in our understanding of epigenetic mechanisms as a major determinant through which internal and external signals, such as those occurring during hybridization, flowering time, reproduction and response to stress, communicate with plant cells to bring about activation of multiple nuclear processes and consequently plant growth and development. The outcome of these processes may persist for generations long after the initial cues have expired and may contribute to plant evolution.
Epigenetic Processes and Evolution of Life
by Jana Švorcová Anton MarkošThe book covers the possible story of emergence of life and its subsequent evolution, emphasizing the necessary evolutionary step negotiation of a common "language set" which kept all inhabitants in the biosphere together, ensuring a basic level of understanding among them. The book focuses on "protocols of communication" (both genetic and epigenetic) representing norms shared and understood across the whole biosphere, enabling a plethora of holobiotic relationships. Cooperative nature of organismal evolution and epigenetic processes as a major force in evolution are also covered. Topics discussed are illustrated in detail on selected casuistics.
Epigenetic Processes and Evolution of Life
by Jana Švorcová Anton MarkošThe book covers the possible story of emergence of life and its subsequent evolution, emphasizing the necessary evolutionary step negotiation of a common "language set" which kept all inhabitants in the biosphere together, ensuring a basic level of understanding among them. The book focuses on "protocols of communication" (both genetic and epigenetic) representing norms shared and understood across the whole biosphere, enabling a plethora of holobiotic relationships. Cooperative nature of organismal evolution and epigenetic processes as a major force in evolution are also covered. Topics discussed are illustrated in detail on selected casuistics.
Epigenetic Regulation and Epigenomics (Current Topics from the Encyclopedia of Molecular Cell Biology and Molecular Medicine)
by Robert A. MeyersEpigenetics is a term in biology referring to heritable traits that do not involve changes in the underlying DNA sequence of the organism. Epigenetic traits exist on top of or in addition to the traditional molecular basis for inheritance. The "epigenome" is a parallel to the word "genome," and refers to the overall epigenetic state of a cell. Cancer and stem cell research have gradually focused attention on these genome modifications. The molecular basis of epigenetics involves modifications to DNA and the chromatin proteins that associate with it. Methylation, for example, can silence a nearby gene and seems to be involved in some cancers.Epigenetics is beginning to form and take shape as a new scientific discipline, which will have a major impact on Medicine and essentially all fields of biology. Increasingly, researchers are unearthing links between epigenetics and a number of diseases.Although in recent years cancer has been the main focus of epigenetics, recent data suggests that epigenetic plays a critical role in psychology and psychopathology. It is being realized that normal behaviors such as maternal care and pathologies such as Schizophrenia and Alzheimer's might have an epigenetic basis. It is also becoming clear that nutrition and life experiences have epigenetic consequences.Discover more online content in the Encyclopedia of Molecular Cell Biology and Molecular Medicine.
Epigenetic Regulation and Epigenomics (Current Topics from the Encyclopedia of Molecular Cell Biology and Molecular Medicine)
by Robert A. MeyersEpigenetics is a term in biology referring to heritable traits that do not involve changes in the underlying DNA sequence of the organism. Epigenetic traits exist on top of or in addition to the traditional molecular basis for inheritance. The "epigenome" is a parallel to the word "genome," and refers to the overall epigenetic state of a cell. Cancer and stem cell research have gradually focused attention on these genome modifications. The molecular basis of epigenetics involves modifications to DNA and the chromatin proteins that associate with it. Methylation, for example, can silence a nearby gene and seems to be involved in some cancers.Epigenetics is beginning to form and take shape as a new scientific discipline, which will have a major impact on Medicine and essentially all fields of biology. Increasingly, researchers are unearthing links between epigenetics and a number of diseases.Although in recent years cancer has been the main focus of epigenetics, recent data suggests that epigenetic plays a critical role in psychology and psychopathology. It is being realized that normal behaviors such as maternal care and pathologies such as Schizophrenia and Alzheimer's might have an epigenetic basis. It is also becoming clear that nutrition and life experiences have epigenetic consequences.Discover more online content in the Encyclopedia of Molecular Cell Biology and Molecular Medicine.
Epigenetic Regulation in the Nervous System: Basic Mechanisms and Clinical Impact
by J. David Sweatt Michael J. Meaney Eric J. Nestler Schahram AkbarianEpigenetic Regulation in the Nervous System addresses current understanding of the roles of epigenetic processes at the molecular/cellular level, their impact on neural development and behavior, and the potential roles of these mechanisms in neurological and psychiatric disorders. This award-winning volume spans molecular epigenetics, development, cellular physiology and biochemistry, synaptic and neural plasticity, and behavioral models, and is unique in covering epigenetically based disorders of the central nervous system.Behavioral epigenetics is the study of how environmental factors alter behavior, addressing the fundamental mechanisms that shape development and individual vulnerability/resilience to adverse behavioral outcomes. By understanding the molecular mechanisms involved in epigenetic modulation, researchers may be able to develop targeted therapies for those individuals in whom it malfunctions.Edited by the most highly regarded leaders in the field, this book offers a comprehensive review of behavioral epigenetics and a balanced treatment of the strengths and weaknesses in experimentation in this area. Covering background material as well as topics of current interest, it serves both as a cutting-edge resource and a foundational reference. The book will benefit neuroscience researchers and graduate students with an interest in the links between gene regulation and behavior, as will clinicians dealing with disorders such as addiction, depression, and schizophrenia. - BMA Medical Book Awards 2014 - Highly Commended, Neurology, British Medical Association - BMA Medical Book Awards 2014 - First Prize, Neurology, British Medical Association - 2013 PROSE Award winner for Best in Reference Works and Best Single Volume Reference in Science from the Association of American Publishers - Presents a unified view of epigenetic mechanisms from behavior to genes and everything in between - Discusses clinically relevant disorders in the context of epigenetics research, making the volume appealing to clinicians as well as basic scientists - Provides numerous practical examples for the new investigator to facilitate implementation of research in neuroepigenetics
Epigenetic Regulation of Skin Development and Regeneration (Stem Cell Biology and Regenerative Medicine)
by Vladimir A. Botchkarev Sarah E. MillarThis indispensable volume highlights recent studies identifying epigenetic mechanisms as essential regulators of skin development, stem cell activity and regeneration. Chapters are contributed by leading experts and promote the skin as an accessible model system for studying mechanisms that control organ development and regeneration. The timely discussions contained throughout are of broad relevance to other areas of biology and medicine and can help inform the development of novel therapeutics for skin disorders as well as new approaches to skin regeneration that target the epigenome. Part of the highly successful Stem Cells and Regenerative Medicine series, Epigenetic Regulation of Skin Development and Regeneration uncovers the fundamental significance of epigenetic mechanisms in skin development and regeneration, and emphasizes the development of new therapies for a number of skin disorders, such as pathological conditions of epidermal differentiation, pigmentation and carcinogenesis. At least six categories of researchers will find this book essential, including stem cell, developmental, hair follicle or molecular biologists, and gerontologists or clinical dermatologists.
Epigenetic Reprogramming During Mouse Embryogenesis: Methods and Protocols (Methods in Molecular Biology #2214)
by Katia Ancelin Maud BorenszteinThis volume explores the latest techniques used to study and understand chromatin reprogramming in embryos and germ cells. Various culture systems are presented, which consist of invaluable tools to investigate many developmental processes. This book also looks at methods for direct examination of DNA, RNA, and proteins in embryos, along with low-input and single-cell assays for exploring these features at the genome-wide scale. Written in the highly successful Methods in Molecular Biology series format, 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.Cutting-edge and thorough, Epigenetics Reprogramming During Mouse Embryogenesis: Methods and Protocols is a valuable resource for any scientist and researcher looking to make new discoveries in this fascinating field of chromatin reprogramming.
Epigenetics
by Lyle ArmstrongThe concept of epigenetics has been known about since the 1940s, but it is only in the last 10 years that research has shown just how wide ranging its effects are. It is now a very widely-used term, but there is still a lot of confusion surrounding what it actually is and does.Epigenetics is a new textbook that brings together the structure and mac
Epigenetics
by Lyle ArmstrongThe concept of epigenetics has been known about since the 1940s, but it is only in the last 10 years that research has shown just how wide ranging its effects are. It is now a very widely-used term, but there is still a lot of confusion surrounding what it actually is and does.Epigenetics is a new textbook that brings together the structure and mac
Epigenetics (Novartis Foundation Symposia #214)
by Gail Cardew Derek J. ChadwickEpigenetics pertains to the development of an organism from an undifferential cell, resulting in the successive formation and development of organs and parts that did not pre-exist in the fertilized egg. An exciting and stimulating volume which used the extensive knowledge of basic transcriptional control as a foundation to explore the more complex and interesting level at which genes can be regulated.
Epigenetics and Anticipation (Cognitive Systems Monographs #45)
by Mihai NadinThis book helps transform the awareness of the anticipatory perspective into actionable methods for practitioners of medicine. It provides guidance for those who design new means and methods inspired by epigenetics, in particular to those who advance sustainable alternatives.
Epigenetics and Cancer
by Fazlul H. SarkarOverall, this book illustrates the complexities of the regulation and deregulation of genes mediated through epigenetics in the development and progression of human malignancies. All the articles have been carefully chosen to represent several cancer systems with state of our knowledge on the role of epigenetic deregulation of microRNAs (miRNAs) and their target mRNAs along with epigenetic deregulation of mRNAs. This book also illustrates the role of several dietary agents, collectively called nutraceuticals or natural agents in modulating the epigenetic reprogramming of miRNAs and mRNAs for the prevention and/or treatment of human malignancies. It is well known that genetic aberrations, especially inherited through parents (somatic genetic alterations) contribute to the development of less than 10% of all cancer yet epigenetic alterations in genes especially through selective methylation and acetylation appears to be responsible for the development and progression of the vast majority of all cancers. Therefore, understanding the role of epigenetics in the regulation of genes especially through deregulated expression of miRNAs as presented in this book will allow scientists to devise targeted therapeutic strategies for re-expression of the lost genes or down-regulate the genes that are over-expressed in order to eradicate cancer. It is hoped that targeting epigenetics will not only target cancer cells but it will also target the tumor microenvironment (more like the entire tumor environment such as the entire host) for achieving better treatment outcomes for patients diagnosed with cancer which will lead to achieve the long-term objective for complete eradication of cancer. This book contains fifteen chapters which begins with the concept of systems and network biology for investigating the epigenetics of cancer followed by a series of articles on the role of miRNAs and their target genes in the biology of pancreatic cancer and other cancers such as breast, kidney, prostate and and colon. Since it is becoming increasingly clear that cancer stem cells (CSCs) are important in the development and progression of cancer, and CSCs are important in therapeutic resistance, treatment failure and tumor recurrence, thus the importance of CSCs and epigenetics has been highlighted by a very timely article on epigenetic variations of stem cell markers in cancer including miRNAs. Moreover, just targeting heterogeneous cancer cell populations may not be optimal to eradicate tumors and for which one must take a holistic approach for developing drugs that could also target the tumor microenvironment and tumor dormancy that are regulated through epigenetics. Keeping abreast with this thought process the concluding chapter provides a concept towards curative cancer therapy with maspin, which could be a unique window of opportunity to target tumor dormancy. Therefore, it suggest that targeting the tumor dormancy and the tumor microenvironment using novel therapeutics specifically by targeting epigenetics would become the future of medicine.
Epigenetics and Chromatin (Progress in Molecular and Subcellular Biology #38)
by Philippe JeanteurEpigenetics refers to heritable patterns of gene expression which do not depend on alterations of genomic DNA sequence. This book provides a state-of-the-art account of a few selected hot spots by scientists at the edge in this extremely active field. It puts special emphasis on two main streams of research. One is the role of post-translational modifications of proteins, mostly histones, on chromatin structure and accessibility. The other one deals with parental genomic imprinting, a process which allows to express a few selected genes from only one of the parental allele while extinguishing the other.
Epigenetics and Complex Traits
by Anna K. Naumova and Celia M.T. GreenwoodThis book will provide an overview of basic epigenetic phenomena; interaction between epigenetic and genetic factors; and the influence of epigenetic factors on inheritance. Epigenetic states may contribute to the penetrance of genetic polymorphisms or mutations and thereby modify inheritance patterns. This may result in non‐Mendelian inheritance of genetic traits such as observed in common human disease. The relationship between epigenetics and genetics, however, has not been comprehensively summarized yet. The topic is being more and more appreciated lately due to considerable advances in genomic and epigenomic approaches to study the origins of human disease. The editors will focus not only on describing epigenetic characteristics, mechanisms and results, but also on how considerations of epigenetics can alter interpretation and analysis of risks for complex traits. This book will be a resource for those who have been working in human genetics or analysis of human genetic data and are studying the impact of epigenetics on inheritance. An overview will be given of the impacts of inter‐individual variation in epigenetic states from major changes (errors in genomic imprinting) that cause congenital developmental defects to subtle changes and their impact on complex traits. The editors will discuss the relationship between epigenetic changes and genetic changes in human disease. Several chapters will also focus on statistical analysis of epigenetics effects, either in human disease genetic studies, or in population genetics.