Mucins : Methods and protocols
Explores the latest advancements in mucin research. The chapters in this book are organized into 8 parts and cover a wide range of topics such as mucin extraction, isolation, physicochemical property analysis, and experimental methods. The chapters also discuss the origins of mucins in jellyfish, feces, saliva and salivary glands, bronchi, stomach, and cervical tract; organic synthesis of peptides glycosylated at specific sites; analysis of mucin gene expression and methylation-specific electrophoresis of genes; imaging of mucin networks by AFM; and experimental methods using supported molecular matrix electrophoresis. 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.
Molecular mechanisms in nutritional epigenetics
The field of nutritional epigenetics/nutri-epigenetics has expanded significantly, shedding light on how environmentally-driven epigenetic pathways can be modulated through nutrition and eating habits. The book provides a comprehensive introduction to the various epigenetic mechanisms affected by dietary compounds and focuses on specific topics such as the relationship between diet and the gut microbiome, the impact of diet on cardiovascular disease and psychopathology and the role of diet in pregnancy.
Introduction to Epigenetics
This textbook leads the reader from basic concepts of chromatin structure and function and RNA mechanisms to the understanding of epigenetics, imprinting, regeneration and reprogramming. The textbook treats epigenetic phenomena in animals, as well as plants.
Gene Expression and Regulation
This book offers a comprehensive look into the science of gene expression and regulation. Focusing on topics such as actions of nuclear receptors, RNA processing, and DNA methylation and imprinting, Gene Expression and Regulation is edited by a leading biologist and includes contributions by experts in the field. Presented in the following five sections, this book covers a full spectrum of topics: The History; The Machinery; The Regulators; The Genome; and Special Topics. The Machinery section covers the transcriptional apparatus and general transcription factors. The Regulators section examines selected gene-specific transcription factors important to regulating gene expression. The Genome section covers issues relevant to the behavior of the genome in relation to gene regulation. The Special Topics section discusses several selected topics ranging from bacterial and plant gene expression to DNA topology and interference RNA. The book’s focus is on scientific concepts and issues, rather than specific organisms or experimental approaches.
Fine-Tuning of RNA Functions by Modification and Editing
This book provides advance information on RNA modification, including the associated editing machinery, while offering the reader some perspective on the significance of such modifications in fine-tuning the structure and functions of mature RNA molecules and hence the ability to influence the efficiency and accuracy of genetic expression.
DNA Methylation, Epigenetics and Metastasis
Provides an outline of the epigenetic mechanisms involved in cancer progression and the generation of metastasis. This book describes the tumor suppressor genes undergoing transcriptional silencing by CpG island promoter hypermethylation in the different tumor types of the human anatomy and their association with tumoral behaviour
DNA Methylation and Cancer Therapy
DNA methylation pat terns emerged as the only component of the chemical structure of DNA that exhibited tissue and cell specificity. This data seemingly provided an attrac tively simple explanation for the longstanding dilemma of how could one identical genome manifest itself in so many different forms in multicellular organisms? The DNA methylation pattern has thus become the only known factor to confer upon DNA a unique cellular identity.
DNA Methylation : Development, Genetic Disease and Cancer
It has become apparent that the genomes of many organisms are characterized by unique patterns of DNA methylation which can differ from genome segment to genome segment and cell type to cell type. These patterns can be instrumental in determining cell type and function. Thus, it is not surprising that studies on the role of DNA methylation now occupy center stage in many fields of biology and medicine such as developmental biology, genetic imprinting, genetic disease, tumor biology, gene therapy, cloning of organisms and others. Once again, basic research in molecular biology has provided the essential foundation for investigations of biomedical problems.
DNA Methylation : Basic Mechanisms
The structural and functional importance of the correct patterns of DNA methylation in all parts of a mammalian genome is not well understood. The stability, inheritability, and developmental flexibility of these patterns point to a major role that these patterns appear to play in determining structure and function of the genome.
Latency Strategies of Herpesviruses
This is the first book dealing with the intricate epigenetic mechanisms (DNA methylation, histone modification, alteration of chromatin structure) that regulate latency-associated transcription. Special attention is given to immune evasion "tricks" blocking immune responses to herpesvirus infected cells and viral RNAs and proteins involved in malignant transformation.
Chromatin Dynamics in Cellular Function
This volume includes timely reviews of several aspects of chromatin biology written by scientists at the forefront of this rapidly moving field. Topics covered include the structure and function of protein modules within chromatin-remodeling proteins, newly characterized histone modifications (methylation, ubiquitylation) and their functional consequences, transcription and histone dynamics, roles of chromatin remodeling factors in DNA replication and repair, and current models of nucleosome-remodeling mechanisms.
Cell Signaling in Vascular Inflammation
Although inflammatory disease of the vascular bed of the lung is a major cause of morbidity and mortality in both adult and pediatric age groups, the importance of vascular biology to its understanding, and in developing novel therapeutics, has been overlooked. In Cell Signaling in Vascular Inflammation, leading basic and clinical researchers review the signal transduction mechanisms responsible for lung inflammation, including vascular hyperpermeability, white cell accumulation, and vascular remodeling. The authors cut across disciplines to bring together a broad-based presentation of inflammatory challenge, both in the initial phases of the inflammatory response, as well as in the more prolonged phase of genomic involvement.











