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  • cTag-PAPERCLIP Reveals Alternative Polyadenylation Promotes Cell-Type Specific Protein Diversity and Shifts Araf Isoforms with Microglia Activation.

cTag-PAPERCLIP Reveals Alternative Polyadenylation Promotes Cell-Type Specific Protein Diversity and Shifts Araf Isoforms with Microglia Activation.

Neuron (2017-09-15)
Hun-Way Hwang, Yuhki Saito, Christopher Y Park, Nathalie E Blachère, Yoko Tajima, John J Fak, Ilana Zucker-Scharff, Robert B Darnell
ZUSAMMENFASSUNG

Alternative polyadenylation (APA) is increasingly recognized to regulate gene expression across different cell types, but obtaining APA maps from individual cell types typically requires prior purification, a stressful procedure that can itself alter cellular states. Here, we describe a new platform, cTag-PAPERCLIP, that generates APA profiles from single cell populations in intact tissues; cTag-PAPERCLIP requires no tissue dissociation and preserves transcripts in native states. Applying cTag-PAPERCLIP to profile four major cell types in the mouse brain revealed common APA preferences between excitatory and inhibitory neurons distinct from astrocytes and microglia, regulated in part by neuron-specific RNA-binding proteins NOVA2 and PTBP2. We further identified a role of APA in switching Araf protein isoforms during microglia activation, impacting production of downstream inflammatory cytokines. Our results demonstrate the broad applicability of cTag-PAPERCLIP and a previously undiscovered role of APA in contributing to protein diversity between different cell types and cellular states within the brain.

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Anti-NeuN-Antikörper (Kaninchen), from rabbit, purified by affinity chromatography
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Anti-GAD67-Antikörper, Klon 1G10.2, clone 1G10.2, Chemicon®, from mouse
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Lipopolysaccharide aus Escherichia coli O55:B5, purified by ion-exchange chromatography, TLR ligand tested