Serine Phosphorylation of SR Proteins Is Required for Their Recruitment to Sites of Transcription in vivo

Expression of most RNA polymerase II transcripts requires the coordinated execution of transcription, splicing, and 3′ processing. We have previously shown that upon transcriptional activation of a gene in vivo, pre-mRNA splicing factors are recruited from nuclear speckles, in which they are concent...

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Bibliographic Details
Published in:The Journal of cell biology 1998-10, Vol.143 (2), p.297-307
Main Authors: Misteli, Tom, Cáceres, Javier F., Clement, Jade Q., Krainer, Adrian R., Wilkinson, Miles F., Spector, David L.
Format: Article
Language:English
Subjects:
Amino Acid Sequence
Cell lines
Cell nucleus
Cells
Cellular biology
Gene Deletion
Genes
HeLa Cells
Humans
Molecular Sequence Data
Mutagenesis - physiology
Mutant proteins
Nuclear Proteins - genetics
Nuclear Proteins - metabolism
Phosphoproteins - genetics
Phosphoproteins - metabolism
Phosphorylation
Proteins
Reed Sternberg cells
Regular
Ribonucleic acid
RNA
RNA Precursors - metabolism
RNA Splicing - physiology
RNA-Binding Proteins - genetics
RNA-Binding Proteins - metabolism
Serine - metabolism
Serine-Arginine Splicing Factors
Splicing
Transcription, Genetic - physiology
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Summary:Expression of most RNA polymerase II transcripts requires the coordinated execution of transcription, splicing, and 3′ processing. We have previously shown that upon transcriptional activation of a gene in vivo, pre-mRNA splicing factors are recruited from nuclear speckles, in which they are concentrated, to sites of transcription (Misteli, T., J.F. Cáceres, and D.L. Spector. 1997. Nature. 387:523-527). This recruitment process appears to spatially coordinate transcription and pre-mRNA splicing within the cell nucleus. Here we have investigated the molecular basis for recruitment by analyzing the recruitment properties of mutant splicing factors. We show that multiple protein domains are required for efficient recruitment of SR proteins from nuclear speckles to nascent RNA. The two types of modular domains found in the splicing factor SF2/ASF exert distinct functions in this process. In living cells, the RS domain functions in the dissociation of the protein from speckles, and phosphorylation of serine residues in the RS domain is a prerequisite for this event. The RNA binding domains play a role in the association of splicing factors with the target RNA. These observations identify a novel in vivo role for the RS domain of SR proteins and suggest a model in which protein phosphorylation is instrumental for the recruitment of these proteins to active sites of transcription in vivo.
ISSN:0021-9525
1540-8140
DOI:10.1083/jcb.143.2.297