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E-raamat: Molecular Analysis and Genome Discovery

Edited by (Zetratronics Ltd), Edited by (University of Hertfordshire)
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  • Ilmumisaeg: 15-Sep-2011
  • Kirjastus: John Wiley & Sons Inc
  • Keel: eng
  • ISBN-13: 9781119977445
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Molecular Analysis and Genome DiscoverySuurem pilt
  • Formaat: PDF+DRM
  • Ilmumisaeg: 15-Sep-2011
  • Kirjastus: John Wiley & Sons Inc
  • Keel: eng
  • ISBN-13: 9781119977445
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Molecular Analysis and Genome Discovery, Second Edition is a completely revised and updated new edition of this successful book. The text provides a comprehensive overview of recent developments in the fast moving field of molecular based diagnostics of disease markers. Key concepts and applications are provided alongside practical information on current techniques currently being researched and developed. Each chapter offers an up-to-date analysis of the subject encompassing the very latest technology platforms and is an essential reference for researchers in the field looking for an up-to-date overview of the subject. The book will also be an indispensable resource for those working in the biotechnology and pharmaceutical industries. New for this edition: chapters on Genotyping through Mutation Detection; Differential Gene Expression; Haplotyping and Molecular Profiling.

Arvustused

It will be of immense value to students, biotechnologists, and scientists in the pharmaceutical industry. This update absolutely justifies replacement of the first edition.  (Doodys, 24 August 2012)

Preface ix
Contributors xi
1 Overview of Genotyping
1(23)
Monica Bayes
Ivo Glynne Gut
Introduction
1(2)
Methods for interrogating SNPs
3(4)
Commercial platforms for SNP genotyping
7(4)
Practical recommendations
11(3)
SNP databases
14(1)
Methylation analysis
15(1)
Copy number variation analysis
16(1)
Second generation sequencing technologies
17(1)
Conclusions
18(1)
References
19(5)
2 DNA Chip Analysis in Genome Discovery
24(19)
Ross N. Nazar
Jane Robb
Introduction
24(1)
Interrogating a genome
25(3)
Cross-species hybridization
28(3)
Comparative genomic hybridization and microarray-based genotyping
31(3)
Barcodes, DNA microarrays and organism identification
34(2)
Concluding remarks
36(1)
References
37(6)
3 qPCR, Theory, Reliability and Use in Molecular Analysis
43(13)
Jamie Murphy
Stephen A. Bustin
Sample preparation
44(1)
RNA quality
45(1)
Reagents
46(1)
Assay design
47(4)
Transparency of published data
51(1)
Further considerations
52(1)
Conclusion
52(1)
References
52(4)
4 DNA Analysis in Droplet-Based Microfluidic Devices
56(25)
Pinar Ozdemir
Yonghao Zhang
Introduction
56(2)
Continuous-flow microPCR chips
58(4)
PCR inhibition and carryover contamination
62(3)
PCR in droplets
65(8)
Conclusions
73(2)
References
75(6)
5 High-Resolution Melt Profiling
81(33)
Steven F. Dobrowolski
Carl T. Wittwer
Introduction
81(1)
Basic concepts of melt profiling
82(2)
HRMP and polymerase chain reaction
84(5)
DNA specimens and HRMP
89(1)
Determining a temperature window for melting
90(2)
Dyes and platforms for melt profiling
92(1)
Scanning PCR products for sequence variation
93(9)
Genotyping with high-resolution melt profiling
102(6)
Other applications of HRMP
108(1)
Final notes
109(1)
References
110(4)
6 Massively Parallel Sequencing
Tracy Tucker
Marco Marra
Jan M. Friedman
Sanger Sequencing
114(21)
Massively parallel sequencing
114(1)
Commercially available massively parallel sequencers
115(7)
Future technologies
122(1)
Paired-end or mate-paired reads
123(1)
Target-enrichment strategies for MPS
124(1)
Applications of MPS
125(6)
Summary
131(1)
References
132(3)
7 Aptamers for Analysis: Nucleic Acids Ligands in the Post-Genomic Era
135(40)
Pedro Nadal
Alessandro Pinto
Marketa Svobodova
Ciara K. O'Sullivan
Introduction
135(1)
SELEX
136(11)
Aptamers in analysis
147(10)
Imaging with aptamers
157(3)
Conclusions, outlooks and perspectives
160(1)
References
161(14)
8 Use of Nanotechnology for Enhancing of Cancer Biomarker Discovery and Analysis: A Molecular Approach
175(18)
Farid E. Ahmed
Introduction
175(1)
Proteomics and nanotechnology
176(1)
Nanoscale multicomponent separation
176(2)
Nanoscale protein detection strategies
178(4)
Surface-enhanced Raman scattering (SERS)
182(6)
References
188(5)
9 Chip-Based Proteomics
193(26)
Julian Bailes
Andrew Milnthorpe
Sandra Smieszek
Mikhail Soloviev Introduction
Lab-on-a-chip
194(2)
Arrays
196(9)
Chip-based mass spectrometry
203
Surface plasmon resonance (SPR) and quartz crystal microbalance (QCM) chip instruments
205(2)
Microfluidics
207(2)
Conclusion
209(2)
References
211(8)
10 Antibody Microarrays in Proteome Profiling
219(25)
Mohamed Saiel Saeed Alhamdani
Jorg D. Hoheisel Introduction
Technical aspects
220(6)
Antibody array applications
226(3)
Summary
229(1)
Acknowledgements
229(1)
References
229(15)
11 Biomarker Detection and Molecular Profiling by Multiplex Microbead Suspension Array Based Immunoproteomics
244(27)
V. V. Krishhan
Imran H. Khan
Paul A. Luciw
Introduction
244(1)
Principles of microbead-based multiplexing
245(2)
Experimental aspects of the multiplex microbead assay
247(3)
Multiplex microbead assay design and comparison with other methods
250(2)
Applications of the multiplex microbead assay system for biomedical research and clinical studies
252(3)
Selected investigational fields for multiplex analysis and examples of applications
255(1)
Challenges and current limitations
255(4)
Summary and future directions
259(2)
Acknowledgements
261(1)
References
261(10)
12 Mass Spectrometry in Metabolomics
271(28)
William J. Griffiths
Yuqin Wang
Introduction
271(1)
Sample collection and preparation
272(2)
Data acquisition
274(5)
Data analysis
279(4)
Applications
283(11)
Conclusion
294(1)
Acknowledgement
294(1)
References
295(4)
Index 299
Ralph Rapley, Ph.D. Department of Biosciences, University of Hertfordshire, Hatfield, UKElectrical Engineers, Mechanical Engineers, Automation Engineers, Optical Industry, Students in Electrical Engineering, Students in Physics, Robotics Engineers, Automation Industry, Sensor Industry, Automobile Industry, Aircraft and Space Industry, Company Libraries, University Institutes and Libraries, Industry.
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