Single-cell analysis of gene expression in the nervous system |
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Authors: | Diane K O’Dowd Martin A Smith |
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Institution: | (1) Department of Anatomy and Neurobiology, Developmental and Cell Biology, U.C. Irvine, 92697-1280 Irvine, CA |
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Abstract: | The characteristic functions of tissues and organs results from the integrated activity of individual cells. Nowhere is this
more evident than in the nervous system, where the activities of single neurons communicating via electrical and chemical
signals mediate complex functions, such as learning and memory. The past decade has seen an explosion in the identification
of genes encoding proteins, such as voltage-gated channels and neurotransmitter receptors, responsible for neuronal excitability.
These studies have highlighted the fact that even within a neuroanatomically defined region, the coexistence of multiple cell
types makes it difficult, if not impossible, to correlate patterns of gene expression with function The recent development
of techniques sensitive enough to, study gene expression at the single-cell level promises to break this bottleneck to our
further understanding. Using examples taken from our own laboratories and the work of others, we review these techniques,
their application, and discuss some of the difficulties associated with the interpretation of the data. |
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Keywords: | Expression profiling single-cell RT-PCR multiplex RT-PCR gene expression patch-clamp |
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