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Targeted Combinatorial Alternative Splicing Generates Brain Region-specific Repertoires of Neurexins

Overview
Journal Neuron
Publisher Cell Press
Specialty Neurology
Date 2014 Oct 7
PMID 25284007
Citations 109
Authors
Dietmar Schreiner
Thi-Minh Nguyen
Giancarlo Russo
Steffen Heber
Andrea Patrignani
Erik Ahrne
Peter Scheiffele
Affiliations
Soon will be listed here.
Abstract

Molecular diversity of surface receptors has been hypothesized to provide a mechanism for selective synaptic connectivity. Neurexins are highly diversified receptors that drive the morphological and functional differentiation of synapses. Using a single cDNA sequencing approach, we detected 1,364 unique neurexin-α and 37 neurexin-β mRNAs produced by alternative splicing of neurexin pre-mRNAs. This molecular diversity results from near-exhaustive combinatorial use of alternative splice insertions in Nrxn1α and Nrxn2α. By contrast, Nrxn3α exhibits several highly stereotyped exon selections that incorporate novel elements for posttranscriptional regulation of a subset of transcripts. Complexity of Nrxn1α repertoires correlates with the cellular complexity of neuronal tissues, and a specific subset of isoforms is enriched in a purified cell type. Our analysis defines the molecular diversity of a critical synaptic receptor and provides evidence that neurexin diversity is linked to cellular diversity in the nervous system.

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