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This volume of Methods in Enzymology looks at Gene Transfer Vectors for Clinical Application. The chapters provide an invaluable resource for academics, researchers and students alike. With an international board of authors, this volume covers such topics as General principles of retrovirus vector design, Chronic granulomatous disease (CGD), Gene therapy for blindness, and Retrovirus genetic strategy and vector design. - Chapters provide an invaluable resource for academics, researchers and students alike - International board of authors - This volume covers such topics as general principles of retrovirus vector design, chronic granulomatous disease (CGD), gene therapy for blindness, and retrovirus genetic strategy and vector design
Serpins are a group of proteins with similar structures that were first identified as a set of proteins able to inhibit proteases. The acronym serpin was originally coined because many serpins inhibit chymotrypsin-like serine proteases. This volume of Methods in Ezymology is split into 2 parts and comprehensively covers the subject.
This volume of Methods in Enzymology is the second of three parts looking at current methodology for the imaging and spectroscopic analysis of live cells. The chapters provide hints and tricks not available in primary research publications. It is an invaluable resource for academics, researchers and students alike. - Expert authors who are leaders in the field - Extensively referenced and useful figures and tables - Provides hints and tricks to facilitate reproduction of methods
For over fifty years the Methods in Enzymology series has been the critically aclaimed laboratory standard and one of the most respected publications in the field of biochemistry. The highly relevant material makes it an essential publication for researchers in all fields of life and related sciences. This volume, the first of three on the topic of Translation Initiation includes articles written by leaders in the field.
This volume in the Methods in Enzymology series comprehensively covers Infectious Diseases, Immunotheraphy, Gene Medicine, Diagnostics and Toxicology of Nanomedicine. With an international board of authors, this volume is split into sections that cover subjects such as Nanomedicines in Immunotherapy, Nanomedicine toxicity, and Diagnostic Nanomedicine. Comprehensively covers infectious diseases, immunotherapy, gene medicine, diagnostics, and toxicology of nanomedicine International board of authors Split into sections that cover subjects such as Nanomedicines in Immunotherapy, Nanomedicine Toxicity, and Diagnostic Nanomedicine
RNA processing plays a critical role in realizing the full potential of a given genome. One means of achieving protein diversity is through RNA editing. A diverse array of editing events has been characterized, affecting gene expression in organisms from viruses and single cell parasites to humans and plants. The variety of editing mechanisms has required the development of many different experimental approaches, many of which are likely to be broadly applicable, particularly given the interplay between editing and other cellular processes, including transcription, splicing, and RNA silencing. RNA Editing not only covers most of the principal methods employed in the field, but also offers innovative solutions to the significant challenges posed by these experimental systems. - Presents newly developed methods - Covers topics ranging from biochemistry to bioinformatics - Includes innovative solutions to potential problems
Specific complexes of protein and RNA carry out many essential biological functions, including RNA processing, RNA turnover, and RNA folding, as well as the translation of genetic information from mRNA into protein sequences. Messenger RNA (mRNA) decay is now emerging as an important control point and a major contributor to gene expression. Continuing identification of the protein factors and cofactors and mRNA instability elements responsible for mRNA decay allow researchers to build a comprehensive picture of the highly orchestrated processes involved in mRNA decay and its regulation. - Covers the nonsense-mediated mRNA decay (NMD) or mRNA surveillance pathway - Expert researchers introduce the most advanced technologies and techniques - Offers step-by-step lab instructions, including necessary equipment and reagents
This volume provides descriptions of the occurrence of the UPR, methods used to assess it, pharmacological tools and other methodological approaches to analyze its impact on cellular regulation. The authors explain how these methods are able to provide important biological insights. This volume provides descriptions of the occurrence of the UPR, methods used to assess it, pharmacological tools and other methodological approaches to analyze its impact on cellular regulation. The authors explain how these methods are able to provide important biological insights
Specific complexes of protein and RNA carry out many essential biological functions, including RNA processing, RNA turnover, RNA folding, as well as the translation of genetic information from mRNA into protein sequences. Messenger RNA (mRNA) decay is now emerging as an important control point and a major contributor to gene expression. Continuing identification of the protein factors and cofactors, and mRNA instability elements, responsible for mRNA decay allow researchers to build a comprehensive picture of the highly orchestrated processes involved in mRNA decay and its regulation. Covers the difference in processing of mRNA between eukaryotes, bacteria and archea. Benefit: Processing of mRNA differs greatly between eukaryotes, bacteria and archea and this affords researchers readily reproducible techniques to understand and study the molecular pathogenesis of disease Expert researchers introduce the most advanced technologies and techniques to identify mRNA processing, transport, localization and turnover which are central to the process of gene expression. Benefit: Keeps MIE buyers and online subscribers up-to-date with the latest research Offers step by step lab instructions including necessary equipment and reagents. Benefit: Provides tried and tested techniques which eliminate searching through many different sources. Tested techniques are trustworthy and avoid pitfalls so the same mistakes are not made over and over
Fluorescence spectroscopy is a type of electromagnetic spectroscopy, using a beam of light, which analyzes fluorescence from a sample. Given its extremely high sensitivity and selectivity, it is an important investigational tool in many areas including material sciences, analytical sciences, and across a broad range of chemical, biochemical and medical research. It has become an essential investigational technique allowing detailed, real-time observation of the structure and dynamics of intact biological systems. The pharmaceutical industry uses it heavily and it has become a dominating technique in biochemistry and molecular genetics. - Keeps MIE buyers and online subscribers up-to-date with the latest research with this highly used technique - Provides tried and tested techniques which eliminate searching through many different sources