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Loss of Quaking RNA binding protein disrupts the expression of genes associated with astrocyte maturation in mouse brain
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Loss of Quaking RNA binding protein disrupts the expression of genes associated with astrocyte maturation in mouse brain
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Loss of Quaking RNA binding protein disrupts the expression of genes associated with astrocyte maturation in mouse brain
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Journal Article
Loss of Quaking RNA binding protein disrupts the expression of genes associated with astrocyte maturation in mouse brain
2021
Overview
Quaking RNA binding protein (QKI) is essential for oligodendrocyte development as myelination requires myelin basic protein mRNA regulation and localization by the cytoplasmic isoforms (e.g., QKI-6). QKI-6 is also highly expressed in astrocytes, which were recently demonstrated to have regulated mRNA localization. Here, we define the targets of QKI in the mouse brain via CLIPseq and we show that QKI-6 binds 3′UTRs of a subset of astrocytic mRNAs. Binding is also enriched near stop codons, mediated partially by QKI-binding motifs (QBMs), yet spreads to adjacent sequences. Using a viral approach for mosaic, astrocyte-specific gene mutation with simultaneous translating RNA sequencing (CRISPR-TRAPseq), we profile ribosome associated mRNA from QKI-null astrocytes in the mouse brain. This demonstrates a role for QKI in stabilizing CLIP-defined direct targets in astrocytes in vivo and further shows that QKI mutation disrupts the transcriptional changes for a discrete subset of genes associated with astrocyte maturation.
Quaking RNA binding protein (QKI) is known for its role in oligodendrocyte maturation. Here, the authors define the QKI targets in the mouse brain and show that loss of QKI disrupts the expression of cell maturation-associated genes in astrocytes in vivo.
Publisher
Nature Publishing Group UK,Nature Publishing Group,Nature Portfolio
Subject
/ 45
/ 45/90
/ 45/91
/ 49
/ Animals
/ Brain
/ Codons
/ CRISPR
/ Genes
/ Humanities and Social Sciences
/ Isoforms
/ Mice
/ Mutation
/ Myelin
/ Myelin Basic Protein - genetics
/ Myelin Basic Protein - metabolism
/ Proteins
/ RNA
/ RNA-Binding Proteins - genetics
/ RNA-Binding Proteins - metabolism
/ Science
