AI Article Synopsis
- Single-cell sequencing methods are valuable for identifying different cell types in specific brain regions and understanding how activated neurons respond to experiences.
- The study demonstrates that single-nuclei RNA-sequencing (snRNA-seq) effectively captures the changes in gene expression associated with neuronal activity, including the induction of immediate early genes like Fos, Arc, and Egr1.
- Analysis of mouse dentate granule cells shows significant transcriptional changes after exposure to a new environment, revealing distinct activation states and providing insights into neuronal activation patterns beyond just immediate early genes.
Article Abstract
Single-cell sequencing methods have emerged as powerful tools for identification of heterogeneous cell types within defined brain regions. Application of single-cell techniques to study the transcriptome of activated neurons can offer insight into molecular dynamics associated with differential neuronal responses to a given experience. Through evaluation of common whole-cell and single-nuclei RNA-sequencing (snRNA-seq) methods, here we show that snRNA-seq faithfully recapitulates transcriptional patterns associated with experience-driven induction of activity, including immediate early genes (IEGs) such as Fos, Arc and Egr1. SnRNA-seq of mouse dentate granule cells reveals large-scale changes in the activated neuronal transcriptome after brief novel environment exposure, including induction of MAPK pathway genes. In addition, we observe a continuum of activation states, revealing a pseudotemporal pattern of activation from gene expression alone. In summary, snRNA-seq of activated neurons enables the examination of gene expression beyond IEGs, allowing for novel insights into neuronal activation patterns in vivo.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC4838832 | PMC |
| http://dx.doi.org/10.1038/ncomms11022 | DOI Listing |
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