Library Science

Book Description

An indispensable collection of novel techniques that have proven most useful for studying the physiological properties of p53 both in vitro and in vivo. The techniques provide proven solutions to problems in studying the purification, target identification, gene expression, quantitation, interaction, signaling, transactivation, and transrepression of p53. The methods are also useful for delineating the functions of other proteins that may act as tumor or growth suppressors. Each technique includes step-by-step instructions, troubleshooting notes, a theoretical review, and discussion of associated problems that might arise during the course of investigation.

Authors: Deb, Sumitra; Deb, Swati Palit

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Authors:Casali, Nicola; Preston, Andrew

A comprehensive collection of readily reproducible techniques for the manipulation of recombinant plasmids using the bacterial host E. coli. The authors describe proven methods for cloning DNA into plasmid vectors, transforming plasmids into E. coli, and analyzing recombinant clones. They also include protocols for the construction and screening of libraries, as well as specific techniques for specialized cloning vehicles, such as cosmids, bacterial artificial chromosomes, l vectors, and phagemids. Common downstream applications such as mutagenesis of plasmids, recombinant protein expression, and the use of reporter genes, are also described.

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Erich Grotewold has assembled a team of leading plant scientists to describe in detail the most commonly used methods for investigating plant gene function in a wide variety of plants, during plant pathogen interactions, and even in algae. These readily reproducible protocols include computational, molecular, and genetic methodologies designed for both general and specific problems. Here the reader will learn about powerful computational and statistical tools to help predict gene function either on the basis of comparative genomics, or from the analysis of complex genome sequences. Numerous loss-of-function and gain-of-function techniques for discovering gene function are presented in step-by-step detail.

Authors: Grotewold, Erich

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A collection of cutting-edge methods for investigating G protein signaling from a variety of perspectives ranging from in vitro biochemistry to whole animal studies. Among the readily reproducible techniques presented are those for the purification of G proteins and effectors enzymes, assays of these purified G proteins and effector enzymes, and for the study of G proteins interactions with effectors in intact cells. Additional methods are provided for assaying G protein coupled receptor structure, function, and localization; for studying the physiological roles for endogenous G proteins; and for examining lipid and phosphate modifications of RGS proteins.

Authors: Smrcka, Alan V.

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Expert laboratory researchers describe in a standard format all the diverse laboratory methods needed to perform state-of-the-art tissue engineering. Topics range from the synthesis, processing, and characterization of specific biomaterials, through the successful use of scaffolds in the engineering of tissues, to techniques useful in evaluating the biological quality of scaffold-engineered tissues. Topics of special interest include the incorporation of biological molecules into scaffold biomaterials and the use of a wide range of methods and techniques to generate a comprehensive description of cell–polymer construct quality.

Authors: Hollander, Anthony P.; Hatton, Paul V.

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