Overview
- Editors:
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Michael P. Starkey
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UK Human Genome Mapping Project Resource Centre, Cambridge, UK
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Ramnath Elaswarapu
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UK Human Genome Mapping Project Resource Centre, Cambridge, UK
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Table of contents (30 protocols)
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- Stephen P. Bryant, Mathias N. Chiano
Pages 11-27
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- Deborah A. Nickerson, Natali Kolker, Scott L. Taylor, Mark J. Rieder
Pages 29-35
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- Farideh Mirzayans, Michael A. Walter
Pages 37-46
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- Mario A. J. A. Hermsen, Marjan M. Weiss, Gerrit A. Meijer, Jan P. A. Baak
Pages 47-55
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- Sangdun Choi, Ung-Jin Kim
Pages 57-68
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- Sean J. Humphray, Susan J. Knaggs, Ioannis Ragoussis
Pages 69-108
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- Yutaka Suzuki, Sumio Sugano
Pages 143-153
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- Günther Zehetner, Maria Pack, Katja Schäfer
Pages 169-188
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- Martin C. Wapenaar, Johan T. Den Dunnen
Pages 201-215
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- David E. Harris, Lee Murphy
Pages 217-234
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- Yvonne J. K. Edwards, Simon M. Brocklehurst
Pages 235-247
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- Christine Wallrapp, Thomas M. Gress
Pages 279-294
About this book
We must unashamedly admit that a large part of the motivation for editing Genomics Protocols was selfish. The possibility of assembling in a single volume a unique and comprehensive collection of complete protocols, relevant to our work and the work of our colleagues, was too good an opportunity to miss. We are pleased to report, however, that the outcome is something of use not only to those who are experienced practitioners in the genomics field, but is also valuable to the larger community of researchers who have recognized the potential of genomics research and may themselves be beginning to explore the technologies involved. Some of the techniques described in Genomics Protocols are clearly not restricted to the genomics field; indeed, a prerequisite for many procedures in this discipline is that they require an extremely high throughput, beyond the scope of the average investigator. However, what we have endeavored here to achieve is both to compile a collection of procedures concerned with geno- scale investigations and to incorporate the key components of “bottom-up” and “top-down” approaches to gene finding. The technologies described extend from those traditionally recognized as coming under the genomics umbrella, touch on proteomics (the study of the expressed protein complement of the genome), through to early therapeutic approaches utilizing the potential of genome programs via gene therapy (Chapters 27–30).
Reviews
"The two editors of this volume have invited contributors from a variety of authors to write a laboratory manual dealing exclusively with the application of genomic methods in eukaryotes....Each chapter is presented in a standardized fashion, beginning with an introduction followed by a list of all the materials needed (including the machines and software) a detailed experimental protocol, notes (troubleshooting), and a list of references....it will be of value for those requiring step-by-step "cookbook" procedures for some of the methodologies described, and this definitive and authorative volume belongs in the library of every quality research institution where genomics is performed." - CHEMBIOCHEM
"...a solid introduction to the basic techniques involved in the process of disease gene identification...should prove to be useful to those scientists who wish to expand their skills in the field." -Biotech Software & Internet Report