Overview
- Editors:
-
-
Keith R. Mitchelson
-
Australian Genome Research Facility, University of Queensland, Brisbane
Walter & Eliza Hall Institute, Parkville, Australia
-
Jing Cheng
-
Biochip Research and Development Center State Key Laboratory for Biomembrane and Membrane Biotechnology, Tsinghua University, Beijing, China
Aviva Biosciences Corporation, San Diego
Access this book
Other ways to access
Table of contents (31 protocols)
-
Practical Applications for Genetic Analysis
-
- Paolo Fortina, Jing Cheng, Larry J. Kricka, Larry C. Waters, Stephen C. Jacobson, Peter Wilding et al.
Pages 211-219
-
- Yuriko Kiba, Yoshinobu Baba
Pages 221-229
-
-
Practical Applications for Analysis of RNA and Gene Expression
-
Front Matter
Pages 241-267
-
- Stephen J. Williams, P. Mickey Williams
Pages 243-252
-
- Giorgio Stanta, Serena Bonin, Maurizio Lugli
Pages 253-258
-
- Xilin Zhao, Kimberly S. George
Pages 259-267
-
Practical Applications for DNA Sequence Analysis
-
Front Matter
Pages 269-343
-
- Masao Kamahori, Hideki Kambara
Pages 271-287
-
- Peter Lindberg, Johan Roeraade
Pages 289-308
-
-
- Tao Li, Kazunori Okano, Hideki Kambara
Pages 317-336
-
- John Davis, Ivan BiroÅ , Ian Findlay, Keith Mitchelson
Pages 337-343
-
Applications for Analysis of DNA-Protein and DNA-Ligand Interactions
-
Front Matter
Pages 345-391
-
-
-
- Glenn J. Foulds, Felicia A. Etzkorn
Pages 369-378
-
- Imad I. Hamdan, Graham G. Skellern, Roger D. Waigh
Pages 379-391
-
Back Matter
Pages 393-408
About this book
The development of PCR, which enables extremely small amounts of DNA to be amplified, led to the rapid development of a multiplicity of a- lytical procedures to utilize this new resource for analysis of genetic variation and for the detection of disease causing mutations. The advent of capillary electrophoresis (CE), with its power to separate and analyze very small amounts of DNA, has also stimulated researchers to develop analytical procedures for the CE format. The advantages of CE in terms of speed and reproducibility of analysis are manifold. Further, the high sensitivity of detection, and the ab- ity to increase sample throughput with parallel analysis, has led to the creation of a full range of analysis of DNA molecules, from modified DNA-adducts and single–strand oligonucleotides through to PCR-amplified DNA fragments and whole chromosomes. Capillary Electrophoresis of Nucleic Acids focuses on such analytical protocols, which can be used for detection and analysis of mutations and modification, from precise DNA loci through to entire genomes of organisms. Important practical considerations for CE, such as the choice of separation media, electrophoresis conditions, and the influence of buffer additives and dyes on DNA mobility, are discussed in several key chapters and within particular applications.
Reviews
"These volumes comprehensively and accurately present CE technology and techniques with an emphasis on providing an understanding of the theory and instrumentation (Vol. 1), as well as detailed examples of successful analytical protocols (both volumes)....Chapters on the use of microchip and mass spectrometric detection are also included....Although numerous experimental protocols can be found in Vol. 1, it is clear that the intent is to communicate the underlying theory and capability of CE for separations. Vol. 1 should be of interest to the novice as well as the expert. In Vol. 2, each of the 31 chapters present specific examples of the use of CE. ...Nonetheless, these two volumes of the Methods in Molecular Biology series offer a representative and needed overview of the current theory and practice of CE of nucleic acids. These texts should prove very useful to both active investigators in this area and those seeking to learn more about the use and and capability of CE." - Clinical Chemistry
Editors and Affiliations
-
Australian Genome Research Facility, University of Queensland, Brisbane
Keith R. Mitchelson
-
Walter & Eliza Hall Institute, Parkville, Australia
Keith R. Mitchelson
-
Biochip Research and Development Center State Key Laboratory for Biomembrane and Membrane Biotechnology, Tsinghua University, Beijing, China
Jing Cheng
-
Aviva Biosciences Corporation, San Diego
Jing Cheng