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Footprinting of Nucleic Acid-Protein Complexes provides protocols for studying the stoichiometry, binding site size and location, and structural changes in nucleic acids caused by their interaction with proteins. The methods are central to studying key biological processes, such as transcription and translation. The techniques are important to experiments in vivoand in vitro, in eukaryotes and in prokaryotes, at qualitative and quantitative levels,and across many disciplines.This book is a laboratory manual of footprinting techniques for studying nucleic acid-protein interactions. It contains clear and concise descriptions of the most important methodologies, and includes in vivo as well as in vitro applications. It is aimed at bench scientists from graduate students on, and should be of value in industrial labs as well as in academic settings. Use of different footprinting approaches can provide unique insights into DNA-protein systems. The protocols containedin this handbook are written to be"user-friendly,"and thus should be conducive to extending the use of footprinting to new systems. The section on quantitative analysis of DNAse I footprints should prove especially useful for in depth evaluation of cooperative interactions.(For the End User)Provides clear exposition of footprinting techniques for characterizing DNA-protein interactionsCovers both protection methods for identifying sites of protein binding and interference methods for determining points of contact between DNA and proteinIncludes approaches for both in vitro and in vivo measurementsHigh quality, timely, and of lasting practical value in the laboratory
This volume contains a series of essays which describe a range of problems in the field of nucleic-acid interactions, investigated by a variety of techniques. An introductory chapter on DNA-protein interactions in the regulation of gene expression is followed by papers on selected model systems.
This book is indexed in Chemical Abstracts ServiceThe interactions of proteins with other molecules are important in many cellular activities. Investigations have been carried out to understand the recognition mechanism, identify the binding sites, analyze the the binding affinity of complexes, and study the influence of mutations on diseases. Protein interactions are also crucial in structure-based drug design.This book covers computational analysis of protein-protein, protein-nucleic acid and protein-ligand interactions and their applications. It provides up-to-date information and the latest developments from experts in the field, using illustrations to explain the key concepts and applications. This volume can serve as a single source on comparative studies of proteins interacting with proteins/DNAs/RNAs/carbohydrates and small molecules.
In this volume expert researchers in the field detail many of the methods which are now commonly used to study RNA. These methods are presented as a guidebook to scientists who are experienced with RNA research and want to brush up on a new technique. 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 key tips on troubleshooting and avoiding known pitfalls. Thorough and intuitive, RNA-RNA Interactions: Methods and Protocols guides scientists investigating biological systems and studying RNA.
In recent years, the field of epigenetics has grown significantly, driving new understanding of human developmental processes and disease expression, as well as advances in diagnostics and therapeutics. As the field of epigenetics continues to grow, methods and technologies have multiplied, resulting in a wide range of approaches and tools researchers might employ. Epigenetics Methods offers comprehensive instruction in methods, protocols, and experimental approaches applied in field of epigenetics. Here, across thirty-five chapters, specialists offer step-by-step overviews of methods used to study various epigenetic mechanisms, as employed in basic and translational research. Leading the reader from fundamental to more advanced methods, the book begins with thorough instruction in DNA methylation techniques and gene or locus-specific methylation analyses, followed by histone modification methods, chromatin evaluation, enzyme analyses of histone methylation, and studies of non-coding RNAs as epigenetic modulators. Recently developed techniques and technologies discussed include single-cell epigenomics, epigenetic editing, computational epigenetics, systems biology epigenetic methods, and forensic epigenetic approaches. Epigenetics methods currently in-development, and their implication for future research, are also considered in-depth. In addition, as with the wider life sciences, reproducibility across experiments, labs, and subdisciplines is a growing issue for epigenetics researchers. This volume provides consensus-driven methods instruction and overviews. Tollefsbol and contributing authors survey the range of existing methods; identify best practices, common themes, and challenges; and bring unity of approach to a diverse and ever-evolving field. - Includes contributions by leading international investigators involved in epigenetic research and clinical and therapeutic application - Integrates technology and translation with fundamental chapters on epigenetics methods, as well as chapters on more novel and advanced epigenetics methods - Written at verbal and technical levels that can be understood by scientists and students alike - Includes chapters on state-of-the-art techniques such as single-cell epigenomics, use of CRISPR/Cas9 for epigenetic editing, and epigenetics methods applied to forensics
Dr. Tom Moss assembles the new standard collection of cutting-edge techniques to identify key protein-DNA interactions and define their components, their manner of interaction, and their manner of function, both in the cell and in the test tube. The techniques span a wide range, from factor identification to atomic detail, and include multiple DNA footprinting analyses, including in vivo strategies, gel shift (EMSA) optimization, SELEX, surface plasmon resonance, site-specific DNA-protein crosslinking, and UV laser crosslinking. Comprehensive and broad ranging, DNA-Protein Interactions: Principles and Protocols, 2nd Edition, offers a stellar array of over 100 up-to-date and readily reproducible techniques that biochemists and molecular, cellular, and developmental biologists can use successfully today to understand DNA-protein interactions.
The second edition of a highly acclaimed handbook and ready reference. Unmatched in its breadth and quality, around 100 specialists from all over the world share their up-to-date expertise and experiences, including hundreds of protocols, complete with explanations, and hitherto unpublished troubleshooting hints. They cover all modern techniques for the handling, analysis and modification of RNAs and their complexes with proteins. Throughout, they bear the practising bench scientist in mind, providing quick and reliable access to a plethora of solutions for practical questions of RNA research, ranging from simple to highly complex. This broad scope allows the treatment of specialized methods side by side with basic biochemical techniques, making the book a real treasure trove for every researcher experimenting with RNA.
Recombinant DNA methods are powerful, revolutionary techniques that allow the isolation of single genes in large amounts from a pool of thousands or millions of genes and the modification of these isolated genes or their regulatory regions for reintroduction into cells for expression at the RNA or protein levels. These attributes lead to the solution of complex biological problems and the production of new and better products in the areas of medicine, agriculture, and industry. Recombinant DNA Methodology, a volume in the Selected Methods in Enzymology series produced in benchtop format, contains a selection of key articles from Volumes 68, 100, 101, 153, 154, and 155 of Methods in Enzymology. The essential and widely used procedures provided at an affordable price will be an invaluable aid to the graduate student and the researcher. - Enzymes in DNA research - DNA isolation, hybridization, and cloning - DNA sequence analysis - cDNA cloning - Gene products - Identification of cloned genes and mapping of genes - Monitoring cloned gene expression - Cloning and transferring of genes into yeast cells - Cloning and transferring of genes into plant cells - Cloning and transferring of genes into animal cells - Site-directed mutagenesis - Protein engineering - Expression vectors
Methods in Nucleic Acids Research provides extensively referenced overviews of chapter topics, in addition to step-by-step laboratory protocols. Topics include discussions regarding the preparation and assay of antibodies against oligopeptides, RNA footprinting, gel-retardation assays for nucleic acid binding proteins, in vitro transcription and translation assays for studies of eukaryotic gene expression, human genome mapping, forensic analysis of DNA polymorphism, in situ hybridization for the detection of specific RNA, and other methods. Biochemists, molecular biologists, immunologists, cell biologists, and geneticists will find this book invaluable for their research.