The
effort to sequence the human genome has generated a new discipline,
"functional genomics," or the study of the relationship between the
genetic code and its biologic potential. Gene expression studies are made
possible not only by the decoding of the human genome, but by the development
of new technologies. The preeminent technology in this area, DNA microarrays,
is helping to revolutionize the field of neuroscience. Rather than looking at
one gene at a time, researchers using DNA microarrays can monitor the
expression patterns of large numbers of genes simultaneously. Bridging the
traditional gap between molecular neurobiology and systems neurobiology, DNA
microarray technology has the potential to elevate molecular genetic studies of
the nervous system to the system level.
This book provides a comprehensive guide to the use of DNA microarrays in neuroscience and provides approaches that are applicable to other complex biological systems. Human nervous system tissue is remarkably complex. The number of cell types, the architecture, the developmental program, and the importance of environmental factors in development and functioning all pose particular challenges to the researcher using gene expression studies. After an overview of the technology, the book discusses array scanning and image application, statistical methods for array analysis, specific applications of gene expression studies in the central nervous system, the use of postmortem human tissue, and novel methods for using microarray data to develop hypotheses about regulatory networks.
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