TY - JOUR
T1 - Co-transcriptional splicing of pre-messenger RNAs
T2 - Considerations for the mechanism of alternative splicing
AU - Goldstrohm, Aaron C.
AU - Greenleaf, Arno L.
AU - Garcia-Blanco, Mariano A.
N1 - Funding Information:
We thank Mr Eric J. Wagner for suggestions and critically reading of this manuscript and for sharing unpublished data. We thank Mrs Annette Kennett for help in the preparation of this manuscript. We acknowledge the support the NIH and the Raymond and Beverly Sackler Foundation to M.A.G.-B. We also acknowledge the support of the NIH and them American Heart Association to A.L.G.
Copyright:
Copyright 2007 Elsevier B.V., All rights reserved.
PY - 2001/10/17
Y1 - 2001/10/17
N2 - Nascent transcripts are the true substrates for many splicing events in mammalian cells. In this review we discuss transcription, splicing, and alternative splicing in the context of co-transcriptional processing of pre-mRNA. The realization that splicing occurs co-transcriptionally requires two important considerations: First, the cis-acting elements in the splicing substrate are synthesized at different times in a 5′ to 3′ direction. This dynamic view of the substrate implies that in a 100 kb intron the 5′ splice site will be synthesized as much as an hour before the 3′ splice site. Second, the transcription machinery and the splicing machinery, which are both complex and very large, are working in close proximity to each other. It is therefore likely that these two macromolecular machines interact, and recent data supporting this notion is discussed. We propose a model for co-transcriptional pre-mRNA processing that incorporates the concepts of splice site-tethering and dynamic exon definition. Also, we present a dynamic view of the alternative splicing of FGF-R2 and suggest that this view could be generally applicable to many regulated splicing events.
AB - Nascent transcripts are the true substrates for many splicing events in mammalian cells. In this review we discuss transcription, splicing, and alternative splicing in the context of co-transcriptional processing of pre-mRNA. The realization that splicing occurs co-transcriptionally requires two important considerations: First, the cis-acting elements in the splicing substrate are synthesized at different times in a 5′ to 3′ direction. This dynamic view of the substrate implies that in a 100 kb intron the 5′ splice site will be synthesized as much as an hour before the 3′ splice site. Second, the transcription machinery and the splicing machinery, which are both complex and very large, are working in close proximity to each other. It is therefore likely that these two macromolecular machines interact, and recent data supporting this notion is discussed. We propose a model for co-transcriptional pre-mRNA processing that incorporates the concepts of splice site-tethering and dynamic exon definition. Also, we present a dynamic view of the alternative splicing of FGF-R2 and suggest that this view could be generally applicable to many regulated splicing events.
KW - Dynamic exon definition
KW - Pre-mRNA splicing
KW - Splice site-tethering
KW - Transcription
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U2 - 10.1016/S0378-1119(01)00695-3
DO - 10.1016/S0378-1119(01)00695-3
M3 - Review article
C2 - 11602343
AN - SCOPUS:0035904279
SN - 0378-1119
VL - 277
SP - 31
EP - 47
JO - Gene
JF - Gene
IS - 1-2
ER -