Playing inside the genes: Intragenic histone acetylation after membrane depolarization of neural cells opens a path for alternative splicing regulation
IE Schor, AR Kornblihtt - Communicative & Integrative Biology, 2009 - Taylor & Francis
Communicative & Integrative Biology, 2009•Taylor & Francis
Regulation of alternative splicing is coupled to transcription quality, the polymerase
elongation rate being an important factor in modulating splicing choices. In a recently
published work, we provide evidence that intragenic histone acetylation patterns can be
affected by neural cell excitation in order to regulate alternative splicing of the neural cell
adhesion molecule (NCAM) mRNA. This example illustrates how an extracellular stimulus
can influence transcription-coupled alternative splicing, strengthening the link between …
elongation rate being an important factor in modulating splicing choices. In a recently
published work, we provide evidence that intragenic histone acetylation patterns can be
affected by neural cell excitation in order to regulate alternative splicing of the neural cell
adhesion molecule (NCAM) mRNA. This example illustrates how an extracellular stimulus
can influence transcription-coupled alternative splicing, strengthening the link between …
Regulation of alternative splicing is coupled to transcription quality, the polymerase elongation rate being an important factor in modulating splicing choices. In a recently published work, we provide evidence that intragenic histone acetylation patterns can be affected by neural cell excitation in order to regulate alternative splicing of the neural cell adhesion molecule (NCAM) mRNA. This example illustrates how an extracellular stimulus can influence transcription-coupled alternative splicing, strengthening the link between chromatin structure, transcriptional elongation and mRNA processing.
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