Overview
- Editors:
-
-
Bruce A. White
-
Department of Anatomy, University of Connecticut Health Center, Farmington
Access this book
Other ways to access
Table of contents (44 protocols)
-
Mutagenesis, Recombination, and In Vitro Selection
-
-
- Veronique Picard, Susan Clark Bock
Pages 183-188
-
-
-
-
- Jaume Pons, Antoni Planas, Miquel Juncosa, Enrique Querol
Pages 209-218
-
-
Cloning Unknown Neighboring DNA
-
Front Matter
Pages 231-231
-
-
- Mei-Zhong Luo, Rino Cella
Pages 239-245
-
- Hiroyuki Iwahana, Mitsuo Itakura
Pages 247-260
-
- Jean Baptiste Dumas Milne Edwards, Olivier Valdenaire, Jacques Mallet
Pages 261-278
-
- Umadevi V. Wesley, Cedric S. Wesley
Pages 279-285
-
-
- Sheng-He Huang, Ambrose Y. Jong
Pages 295-300
-
- Fernando Gibson, Steve D. M. Brown
Pages 301-313
-
Library Construction and Screening
-
Front Matter
Pages 315-315
-
- Philippe Ravassard, Christine Icard-Liepkalns, Jacques Mallet, Jean Baptiste Dumas Milne Edwards
Pages 317-329
-
-
About this book
The advent of PCR, with its power to amplify tiny amounts of DNA, quickly spawned the development of many analytical procedures that are widely used for detection, measurement, and characterization. However, creative investigators soon discovered the power of PCR for synthetic or preparative uses. This volume focuses on such preparative PCR protocols, which can be used in the cloning and modification of DNA. PCR Cloning Protocols: From Molecular Cloning to Genetic Engineer ing is divided into seven parts, each containing a collection of chapters address ing a general approach or goal. Part I presents basic PCR protocols, emphasizing optimizing conditions for (he amplification of DNA fragments of several kilobases in length. Part 11 offers several procedures for cloning PCR prod ucts, depending on whether a specific restriction site can be used in the clon ing vector, the PCR product is to be gel purified before cloning, or the fragmeni needs to be inserted in one or both orientations. Part III includes several pro tocols involved in the mutagenesis of DNA, either site-directed or not, as well as several approaches to recombinant PCR, either for mutagenesis or building a custom gene, as well as one chapter describing a specific use of in vitro selection. Part IV addresses the frequent need to amplify and clone segments of DNA that are to the right, left, or scattered within a stretch of DNA (either vector, chromosomal, or cDNA) of known sequence.
Reviews
This volume provides protocols useful to both the inexperienced and the experienced investigator. Most importantly it highlights the emerging role of PCR as a versatile tool for the molecular biologist eliminating many laborious and expensive techniques associated with traditional gene isolation and analysis.-Biochemical Education
Editors and Affiliations
-
Department of Anatomy, University of Connecticut Health Center, Farmington
Bruce A. White