Literature DB >> 12101252

An RNA polymerase pause site is associated with the immunoglobulin mus poly(A) site.

Martha L Peterson1, Shannon Bertolino, Frankie Davis.   

Abstract

Immunoglobulin mu alternative RNA processing is regulated during B-cell maturation and requires balanced efficiencies of the competing splice (mum) and cleavage-polyadenylation (mus) reactions. When we deleted sequences 50 to 200 nucleotides beyond the mus poly(A) site, the mus/mum mRNA ratio decreased three- to eightfold in B, plasma, and nonlymphoid cells. The activity could not be localized to a smaller fragment but did function in heterologous contexts. Our data suggest that this region contains an RNA polymerase II pause site that enhances the use of the mus poly(A) site. First, known pause sites replaced the activity of the deleted fragment. Second, the mu fragment, when placed between tandem poly(A) sites, enhanced the use of the upstream poly(A) site. Finally, nuclear run-ons detected an increase in RNA polymerase loading just downstream from the mus poly(A) site, even when the poly(A) site was inactivated. When this mu fragment and another pause site were inserted 1 kb downstream from the mus poly(A) site, they no longer affected the mRNA expression ratio, suggesting that pause sites affect poly(A) site use over a limited distance. Fragments from the immunoglobulin A gene were also found to have RNA polymerase pause site activity.

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Year:  2002        PMID: 12101252      PMCID: PMC133935          DOI: 10.1128/MCB.22.15.5606-5615.2002

Source DB:  PubMed          Journal:  Mol Cell Biol        ISSN: 0270-7306            Impact factor:   4.272


  56 in total

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Review 3.  Factors regulating the transcriptional elongation activity of RNA polymerase II.

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Authors:  M Palangat; T I Meier; R G Keene; R Landick
Journal:  Mol Cell       Date:  1998-06       Impact factor: 17.970

6.  The G-rich auxiliary downstream element has distinct sequence and position requirements and mediates efficient 3' end pre-mRNA processing through a trans-acting factor.

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7.  Poly(A)-driven and poly(A)-assisted termination: two different modes of poly(A)-dependent transcription termination.

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Authors:  F Chen; J Wilusz
Journal:  Nucleic Acids Res       Date:  1998-06-15       Impact factor: 16.971

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Authors:  H Lou; D M Helfman; R F Gagel; S M Berget
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  21 in total

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3.  The eleven-nineteen lysine-rich leukemia gene (ELL2) influences the histone H3 protein modifications accompanying the shift to secretory immunoglobulin heavy chain mRNA production.

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4.  Coordination of RNA Polymerase II Pausing and 3' End Processing Factor Recruitment with Alternative Polyadenylation.

Authors:  Becky Fusby; Soojin Kim; Benjamin Erickson; Hyunmin Kim; Martha L Peterson; David L Bentley
Journal:  Mol Cell Biol       Date:  2015-11-02       Impact factor: 4.272

5.  The conserved AAUAAA hexamer of the poly(A) signal can act alone to trigger a stable decrease in RNA polymerase II transcription velocity.

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Authors:  Martha L Peterson; Gina L Bingham; Clarissa Cowan
Journal:  Mol Cell Biol       Date:  2006-09       Impact factor: 4.272

7.  Epigenomic and RNA structural correlates of polyadenylation.

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8.  Yeast pheromone receptor genes STE2 and STE3 are differently regulated at the transcription and polyadenylation level.

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