Title of article
Regulation of Vertebrate Nervous System Alternative Splicing and Development by an SR-Related Protein
Author/Authors
John A. Calarco، نويسنده , , Simone Superina، نويسنده , , Dave OʹHanlon، نويسنده , , Mathieu Gabut، نويسنده , , Bushra Raj، نويسنده , , Li-Qun Pan، نويسنده , , Ursula Skalska، نويسنده , , Laura Clarke، نويسنده , , Danielle Gelinas، نويسنده , , Derek van der Kooy، نويسنده , , Mei Zhen، نويسنده , , Brian Ciruna، نويسنده , , Benjamin J. Blencowe، نويسنده ,
Issue Information
هفته نامه با شماره پیاپی سال 2009
Pages
13
From page
898
To page
910
Abstract
Alternative splicing is a key process underlying the evolution of increased proteomic and functional complexity and is especially prevalent in the mammalian nervous system. However, the factors and mechanisms governing nervous system-specific alternative splicing are not well understood. Through a genome-wide computational and expression profiling strategy, we have identified a tissue- and vertebrate-restricted Ser/Arg (SR) repeat splicing factor, the neural-specific SR-related protein of 100 kDa (nSR100). We show that nSR100 regulates an extensive network of brain-specific alternative exons enriched in genes that function in neural cell differentiation. nSR100 acts by increasing the levels of the neural/brain-enriched polypyrimidine tract binding protein and by interacting with its target transcripts. Disruption of nSR100 prevents neural cell differentiation in cell culture and in the developing zebrafish. Our results thus reveal a critical neural-specific alternative splicing regulator, the evolution of which has contributed to increased complexity in the vertebrate nervous system.
Journal title
CELL
Serial Year
2009
Journal title
CELL
Record number
1019919
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