Progress in Molecular Biology and Translational Science provides a forum for discussion of new discoveries, approaches, and ideas in molecular biology and translational science. It contains contributions from leaders in their fields and abundant references. This volume focuses on translational control in health and disease. - Contributions from leading scholars and industry experts - Reference guide for researchers involved in molecular biology and related fields
Transcription and Translation in Health and Disease provides a detailed overview of the regulators underlying transcription and translation in relation to a variety of human diseases and disorders. Beginning with an introduction into the current perspectives relating to these processes in human disease, the book expands to focus on specific mechanisms underlying conditions such as arthritis, cancer, neurological disorders, diabetes and cardiovascular disease. This book considers RNA processing and related mechanisms in eukaryotes including RNA splicing, RNA binding proteins, RNA interference, microRNAs, RNA editing, transcription factors, RNAi screening, CRISPR activation, CRISPR-Cas9 interference, and post-translational modifications. It provides a structured and detailed overview of the various regulators underlying molecular processes and their impact on health and disease, equipping readers with the necessary knowledge for further investigation in the areas of treatment and therapeutic intervention. - Discusses the role played by transcription and translational regulation in various diseases, including cancer, diabetes, cardiovascular disease and neurological disease - Considers a range of post-transcriptional regulators, including RNA-binding proteins, non-coding RNAs, epigenetic modifiers, alternative splicing and telomerase-binding proteins - Covers the topic from fundamental knowledge to the latest developments in clinical application - Includes a section dedicated to therapeutic applications
After sequencing the human genome a decade ago, researchers have continued their projects, but now to try to better understand how, and when, genes are expressed in health and disease. Efforts have been concentrated on the measurement of the expression of RNA transcripts. In an analogy to the genome, the term "transcriptome" was created to refer to the complete set of RNAs in a cell type or tissue in a particular situation. Transcriptomics is the science that studies this issue and it is a branch of functional genomics. Transcriptomics in Heath and Disease provides a comprehensive overview of the science of transcriptomics initially in health, focusing on the concept of the transcriptome and the main methods to evaluate it. The authors discuss the concept and use of gene expression signatures and transcriptional biomarkers in normal development and diseased tissues and organs. As the transcriptome changes depending on the pathology, there is also a focus on the variations in the gene expression in different diseases such as autoimmune, inflammation, cancer and infections. This book should be very useful for researchers in molecular biology focusing on gene expression, human genetics, immunology, and genomics.
This volume explores some of the most exciting recent advances in basic research on protein phosphorylation in health and disease and how this knowledge is leading to advances in the various fields. - Contributions from leading authorities - Informs and updates on all the latest developments in the field
Translational research links scientific findings with programs and policies that improve human health and well-being. It includes research that evaluates interventions or policies for efficacy and effectiveness, as well as research that applies field experience to future development of basic theory and its applications. Although translational research has traditionally emphasised biomedical studies with one type of application (i.e., individual-level intervention to treat disease), the concept has expanded to include various sciences and many types of applications. Social and behavioural sciences now often contribute to public- and individual-level interventions that promote education, disease prevention, health care delivery, health care access, and more. This broader, more inclusive approach to translational research has gained popularity and been promoted by the National Institutes of Health, the Centers for Disease Control, medical centers, and university programs. This book demonstrates how emerging methods of translational research can be applied to important topics of interest to social and behavioural scientists. Accessible models and real-world case studies are provided to help bridge the gaps among research, policy, and practice.
Molecular Biology: Structure and Dynamics of Genomes and Proteomes second edition illustrates the essential principles behind the transmission and expression of genetic information at the level of DNA, RNA, and proteins. Emphasis is on the experimental basis of discovery and the most recent advances in the field while presenting a rigorous, yet still concise, summary of the structural mechanisms of molecular biology. Topics new to this edition include the CRISPR-Cas gene editing system, Coronaviruses – structure, genome, vaccine and drug development, and newly recognized mechanisms for transcription termination. The text is written for advanced undergraduate or graduate-level courses in molecular biology. Key Features · Highlights the experimental basis of important discoveries in molecular biology. · Thoroughly updated with new information on gene editing tools, viruses, and transcription mechanisms, termination and antisense. · Provides learning objectives for each chapter. · Includes a list of relevant videos from the Internet about the topics covered in the chapter.
This volume is divided in six section covering the most experimental approaches involved in the study of the unfolded protein response (UPR) pathway. Chapters detail determination of unfolded protein levels, methods to study UPR signal transmission, analysing the outcomes of the UPR pathway activation, UPR studies in mammalian models, UPR in alternative models, and UPR and disease. Written in the format of the highly successful Methods in Molecular Biology series, each chapter includes an introduction to the topic, lists necessary materials and reagents, includes tips on troubleshooting and known pitfalls, and step-by-step, readily reproducible protocols. Authoritative and cutting-edge, The Unfolded Protein Response: Methods and Protocols aims to describe key methods and approaches used in the study of the UPR pathway and its complex cellular implications. Chapter 6 is available open access under a Creative Commons Attribution 4.0 International License via link.springer.com.
One of the Most Rapidly Advancing Fields in Modern Neuroscience The success of molecular biology and the new tools derived from molecular genetics have revolutionized pain research and its translation to therapeutic effectiveness. Bringing together recent advances in modern neuroscience regarding genetic studies in mice and humans and the practical
The human genome is a linear sequence of roughly 3 billion bases and information regarding this genome is accumulating at an astonishing rate. Inspired by these advances, The Human Genome in Health and Disease: A Story of Four Letters explores the intimate link between sequence information and biological function. A range of sequence-based functional units of the genome are discussed and illustrated with inherited disorders and cancer. In addition, the book considers valuable medical applications related to human genome sequencing, such as gene therapy methods and the identification of causative mutations in rare genetic disorders. The primary audiences of the book are students of genetics, biology, medicine, molecular biology and bioinformatics. Richly illustrated with review questions provided for each chapter, the book helps students without previous studies of genetics and molecular biology. It may also be of benefit for advanced non-academics, which in the era of personal genomics, want to learn more about their genome. Key selling features: Molecular sequence perspective, explaining the relationship between DNA sequence motifs and biological function Aids in understanding the functional impact of mutations and genetic variants Material presented at basic level, making it accessible to students without previous studies of genetics and molecular biology Richly illustrated with questions provided to each chapter
