Pub. Date:
Elsevier Science
Microarray Technology in Practice

Microarray Technology in Practice

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Using chips composed of thousands of spots, each with the capability of holding DNA molecules corresponding to a given gene, DNA microarray technology has enabled researchers to measure simultaneously gene expression across the genome. As with other large-scale genomics approaches, microarray technologies are broadly applicable across disciplines of life and biomedical sciences, but remain daunting to many researchers. This guide is designed to demystify the technology and inform more biologists about this critically important experimental technique.

  • Cohesive overview of the technology and available platforms, followed by detailed discussion of experimental design and analysis of microarray experiments
  • Up-to-date description of normalization methods and current methods for sample amplification and labeling
  • Deep focus on oligonucleotide design, printing, labeling and hybridization, data acquisition, normalization, and meta-analysis
  • Additional uses of microarray technology such as ChIP (chromatin immunoprecipitation) with hybridization to DNA arrays, microarray-based comparative genomic hybridization (CGH), and cell and tissue arrays

Product Details

ISBN-13: 9780123725165
Publisher: Elsevier Science
Publication date: 10/06/2008
Edition description: New Edition
Pages: 464
Product dimensions: 5.90(w) x 8.90(h) x 1.00(d)

Table of Contents


1. What are microarrays?
A. The basics
2. Designing and producing a microarray
A. Platform options
B. Oligonucleotide design
C. Whole genome or boutique arrays
D. The problems of multiple testing
E. Array layout
F. Quality assessment

3. Sample collection and labelling
A. RNA extraction
B. Quality assessment
C. Direct labelling techniques
D. Indirect labelling techniques
E. End labelling techniques
F. Amplification techniques
G. Hybridization

4. Data acquisition
A. Scanners
B. Image acquisition
C. Multiple scans and data merging
D. Finding spots
E. Background measurement
G. Quality control basics

5. Experimental Design and Data Normalisation
A. Experimental design
B. Why normalize?
C. Unwanted signal variation
D. Common normalization approaches
E. Data transformation
F. Dealing with ‘S’-shaped trends
G. Replicates and spatial detrending
H. Normalization of single channel arrays

6. Meta analysis
A. Data filtering
B. Screening for differentially expressed genes
C. Hierarchical clustering
D. Other clustering techniques
E. Components analysis
F. Prediction tools

7. Data annotation, storage and submission
A. Functional data annotation
B. Microarray databases
C. Public repositories

8. Applications in health & disease
A. Malaria – parasite expression
B. Cancer classification
C. Diagnostic Arrays

9. It's not all gene expression
A. ChIP-array
C. Protein arrays
D. Cell arrays

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