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Deciphering how N-terminal phosphorylation alters fused in sarcoma (FUS) function: Implications for FTD/ALS pathogenesis
1 de 9
The RNA-binding protein, ZC3H14, is critical for control of
polyadenylation and translation, neuronal development, brain
morphology, and working memory in mice
2 de 9
Age-dependent, region-specific mechanisms contribute to Spinocerebellar Ataxia 17 pathogenesis.
3 de 9
Characterization of disease-relevant targets of RNA binding proteins
4 de 9
Post-transcriptional regulation of BDNF and the Cdk5 pathway by the neuronal RNA binding protein HuD
5 de 9
The polyadenosine RNA-binding protein dNab2 interacts with the fragile X protein homolog and regulates gene expression in Drosophila neurons
6 de 9
Mutation of the Conserved Polyadenosine RNA binding protein,
ZC3H14/dNab2, Impairs Neural Function in Drosophila
and Humans
7 de 9
RNA-binding proteins with mixed charge domains self-assemble, aggregate, and interact with core pathologies in Alzheimer's Disease
8 de 9
Defining the function of the polyadenosine RNA-binding protein ZC3H14: Molecular insight into a disease associated RNA-binding protein
9 de 9