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Literature DB >> 10999609

Coupled in vitro synthesis and splicing of RNA polymerase II transcripts.

Abstract

Compelling in vivo studies suggest a tight functional linkage between RNA polymerase II transcription and premessenger RNA splicing. At present, the specific interactions involved in this coupling are poorly understood and deserve investigation. To this end, we developed an in vitro system that permits study of coupled transcription and splicing. Transcripts generated by RNA polymerase II were accurately and efficiently spliced under reaction conditions that permitted both transcription and splicing to occur simultaneously. The splicing of RNA-polymerase-II-driven transcripts was accelerated relative to that of the same transcripts driven by T7 RNA polymerase. Moreover, the product of exon ligation was found associated with the DNA template in reactions driven by RNA polymerase II. These two findings indicate that transcription and splicing were coupled in the in vitro system driven by RNA polymerase II, and suggest that this system will be useful for the biochemical study of this coupling.

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Year: 2000 PMID： 10999609 PMCID： PMC1370005 DOI： 10.1017/s1355838200992537

Source DB: PubMed Journal: RNA ISSN： 1355-8382 Impact factor: 4.942

37 in total

1. RNA polymerase II is an essential mRNA polyadenylation factor.

Authors: Y Hirose; J L Manley
Journal: Nature Date: 1998-09-03 Impact factor: 49.962

2. Co-transcriptional commitment to alternative splice site selection.

Authors: G C Roberts; C Gooding; H Y Mak; N J Proudfoot; C W Smith
Journal: Nucleic Acids Res Date: 1998-12-15 Impact factor: 16.971

Review 3. Transcription units as RNA processing units.

Authors: K M Neugebauer; M B Roth
Journal: Genes Dev Date: 1997-12-15 Impact factor: 11.361

4. mRNA capping enzyme is recruited to the transcription complex by phosphorylation of the RNA polymerase II carboxy-terminal domain.

Authors: E J Cho; T Takagi; C R Moore; S Buratowski
Journal: Genes Dev Date: 1997-12-15 Impact factor: 11.361

5. Functional association between promoter structure and transcript alternative splicing.

Authors: P Cramer; C G Pesce; F E Baralle; A R Kornblihtt
Journal: Proc Natl Acad Sci U S A Date: 1997-10-14 Impact factor: 11.205

Review 6. A CTD function linking transcription to splicing.

Authors: J L Corden; M Patturajan
Journal: Trends Biochem Sci Date: 1997-11 Impact factor: 13.807

Review 7. Pre-mRNA processing and the CTD of RNA polymerase II: the tail that wags the dog?

Authors: E J Steinmetz
Journal: Cell Date: 1997-05-16 Impact factor: 41.582

8. DSIF, a novel transcription elongation factor that regulates RNA polymerase II processivity, is composed of human Spt4 and Spt5 homologs.

Authors: T Wada; T Takagi; Y Yamaguchi; A Ferdous; T Imai; S Hirose; S Sugimoto; K Yano; G A Hartzog; F Winston; S Buratowski; H Handa
Journal: Genes Dev Date: 1998-02-01 Impact factor: 11.361

9. A nuclear matrix protein interacts with the phosphorylated C-terminal domain of RNA polymerase II.

Authors: M Patturajan; X Wei; R Berezney; J L Corden
Journal: Mol Cell Biol Date: 1998-04 Impact factor: 4.272

10. An intronic sequence element mediates both activation and repression of rat fibroblast growth factor receptor 2 pre-mRNA splicing.

Authors: R P Carstens; W L McKeehan; M A Garcia-Blanco
Journal: Mol Cell Biol Date: 1998-04 Impact factor: 4.272

26 in total

1. The transcription elongation factor CA150 interacts with RNA polymerase II and the pre-mRNA splicing factor SF1.

Authors: A C Goldstrohm; T R Albrecht; C Suñé; M T Bedford; M A Garcia-Blanco
Journal: Mol Cell Biol Date: 2001-11 Impact factor: 4.272

2. Coordination of editing and splicing of glutamate receptor pre-mRNA.

Authors: Eva Bratt; Marie Ohman
Journal: RNA Date: 2003-03 Impact factor: 4.942

3. Cotranscriptional exon skipping in the genotoxic stress response.

Authors: Martin Dutertre; Gabriel Sanchez; Marie-Cécile De Cian; Jérôme Barbier; Etienne Dardenne; Lise Gratadou; Gwendal Dujardin; Catherine Le Jossic-Corcos; Laurent Corcos; Didier Auboeuf
Journal: Nat Struct Mol Biol Date: 2010-10-24 Impact factor: 15.369

4. RNA polymerase II carboxy-terminal domain phosphorylation is required for cotranscriptional pre-mRNA splicing and 3'-end formation.

Authors: Gregory Bird; Diego A R Zorio; David L Bentley
Journal: Mol Cell Biol Date: 2004-10 Impact factor: 4.272

5. Small-scale nuclear extracts for functional assays of gene-expression machineries.

Authors: Eric G Folco; Haixin Lei; Jeanne L Hsu; Robin Reed
Journal: J Vis Exp Date: 2012-06-27 Impact factor: 1.355

6. Chironomus tentans-repressor splicing factor represses SR protein function locally on pre-mRNA exons and is displaced at correct splice sites.

Authors: Petra Björk; Ingela Wetterberg-Strandh; Göran Baurén; Lars Wieslander
Journal: Mol Biol Cell Date: 2005-10-19 Impact factor: 4.138

7. Functional coupling of last-intron splicing and 3'-end processing to transcription in vitro: the poly(A) signal couples to splicing before committing to cleavage.

Authors: Frank Rigo; Harold G Martinson
Journal: Mol Cell Biol Date: 2007-10-29 Impact factor: 4.272