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Gene Function Analysis
With the advent of high-throughput technologies following completion of the human genome project and similar projects, the number of genes of interest has expanded and the traditional methods for gene function analysis cannot achieve the throughput necessary for large-scale exploration. This book brings together a number of recently developed techniques for looking at gene function, including computational, biochemical and biological methods and protocols.
Tumor Immunology and Immunotherapy - Integrated Methods Part B
Tumor Immunology and Immunotherapy - Integrated Methods Part B, Volume 636 in the Methods in Enzymology series, continues the legacy of this premier serial with quality chapters authored by leaders in the field. Chapters in this update include Quantification methods of Transforming Growth Factor beta (TGF??) activity in the setting of cancer immunotherapy, Decoding cancer cell death-driven immune cell recruitment: An in vivo method for site-of-vaccination analyses, Tracking and interrogating tissue-resident and recruited microglia in brain tumors, Metabolomics and lipidomics of the tumor microenvironment, Monitoring abscopal responses to radiation in mice, and much more. Provides an array of authors who are authorities in the field Presents comprehensiveness coverage of the topics Includes a broad level of detail and in-depth coverage
Applications of Chimeric Genes and Hybrid Proteins, Part C: Protein-Protein Interactions and Genomics
The critically acclaimed laboratory standard for more than forty years, Methods in Enzymology is one of the most highly respected publications in the field of biochemistry. Since 1955, each volume has been eagerly awaited, frequently consulted, and praised by researchers and reviewers alike. Now with more than 300 volumes (all of them still in print), the series contains much material still relevant today--truly an essential publication for researchers in all fields of life sciences.
The Yeast Two-hybrid System
Biologists have already identified thousands of new gene sequences, and genome sequencing efforts are speeding up the discovery process even further. With this explosion of sequence information comes the need to understand how genes work in concert in order to fulfill the cells functions. The yeast two-hybrid system--used to identify protein-protein interactions--is one of the most powerful and versatile methods for characterizing a protein's function. It has become an essential tool for both academic researchers and those in biotechnology and pharmaceutical companies. This volume presents work by pioneers in the field and is the first publication devoted solely to the yeast two-hybrid syste...
Regulators and Effectors of Small GTPases: Ras Family
The Ras superfamily (>150 human members) encompasses Ras GTPases involved in cell proliferation, Rho GTPases involved in regulating the cytoskeleton, Rab GTPases involved in membrane targeting/fusion and a group of GTPases including Sar1, Arf, Arl and dynamin involved in vesicle budding/fission. These GTPases act as molecular switches and their activities are controlled by a large number of regulatory molecules that affect either GTP loading (guanine nucleotide exchange factors or GEFs) or GTP hydrolysis (GTPase activating proteins or GAPs). In their active state, they interact with a continually increasing, functionally complex array of downstream effectors. Since the last Methods in Enzymo...
Molecular Analysis and Genome Discovery
This advanced level textbook provides a comprehensive overview ofrecent developments in the area of molecular based diagnostics(including nucleic acids, biosensors and immunoessays) of diseasemarkers. It also covers the impact of techniques such as in vitronucleic acid amplifications (e.g. PCR) and other amplificationmethods, as well as gene and biochip production and automatedtechniques such as fluorescent sequencing. The book discusses key concepts where new and merging areas,including pharmacogenomics, proteomics and functional genomics, arebeing researched and developed. In addition, examples are givenwhere this new area of bioscience has or may be successfullyapplied.
Chemical Genomics
Chemical genomics is an exciting new field that aims to transform biolo- cal chemistry into a high-throughput industrialized process, much in the same way that molecular biology has been transformed by genomics. The inter- tion of small organic molecules with biological systems (mostly proteins) underpins drug discovery in the pharmaceutical and biotechnology industries, and therefore a volume of laboratory protocols that covers the key aspects of chemical genomics would be of use to biologists and chemists in these orga- zations. Academic scientists have been exploring the functions of proteins using small molecules as probes for many years and therefore would also b- efit from sharing idea...
Two-Hybrid Systems
The yeast two-hybrid system is one of the most widely used and productive techniques available for investigating the macromolecular interactions that affect virtually all biological processes. In Two-Hybrid Systems: Methods and Protocols, Paul N. MacDonald has assembled a collection of these powerful molecular tools for examining and characterizing protein-protein, protein-DNA, and protein-RNA interactions. The techniques range from the most basic (introducing plasmids into yeasts, interaction assays, and recovering the plasmids from yeast) to the most advanced alternative strategies (involving one-hybrid, split two-hybrid, three-hybrid, membrane recruitment systems, and mammalian systems). ...
