Literature DB >> 12446762

A sequence element downstream of the yeast HTB1 gene contributes to mRNA 3' processing and cell cycle regulation.

Susan G Campbell1, Marcel Li Del Olmo, Paul Beglan, Ursula Bond.   

Abstract

Histone mRNAs accumulate in the S phase and are rapidly degraded as cells progress into the G(2) phase of the cell cycle. In Saccharomyces cerevisiae, fusion of the 3' untranslated region and downstream sequences of the yeast histone gene HTB1 to a neomycin phosphotransferase open reading frame is sufficient to confer cell cycle regulation on the resulting chimera gene (neo-HTB1). We have identified a sequence element, designated the distal downstream element (DDE), that influences both the 3'-end cleavage site selection and the cell cycle regulation of the neo-HTB1 mRNA. Mutations in the DDE, which is located approximately 110 nucleotides downstream of the HTB1 gene, lead to a delay in the accumulation of the neo-HTB1 mRNA in the S phase and a lack of mRNA turnover in the G(2) phase. The DDE is transcribed as part of the primary transcript and binds a protein factor(s). Maximum binding is observed in the S phase of the cell cycle, and mutations that affect the turnover of the HTB1 mRNA alter the binding activity. While located in the same general region, mutations that affect 3'-end cleavage site selection act independently from those that alter the cell cycle regulation.

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Year:  2002        PMID: 12446762      PMCID: PMC139887          DOI: 10.1128/MCB.22.24.8415-8425.2002

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


  38 in total

1.  Reassembly and protection of small nuclear ribonucleoprotein particles by heat shock proteins in yeast cells.

Authors:  A P Bracken; U Bond
Journal:  RNA       Date:  1999-12       Impact factor: 4.942

Review 2.  Connecting transcription to messenger RNA processing.

Authors:  N Proudfoot
Journal:  Trends Biochem Sci       Date:  2000-06       Impact factor: 13.807

3.  The stress-activated MAP kinase Sty1/Spc1 and a 3'-regulatory element mediate UV-induced expression of the uvi15(+) gene at the post-transcriptional level.

Authors:  M Kim; W Lee; J Park; J B Kim; Y K Jang; R H Seong; S Y Choe; S D Park
Journal:  Nucleic Acids Res       Date:  2000-09-01       Impact factor: 16.971

4.  Stem-loop binding protein, the protein that binds the 3' end of histone mRNA, is cell cycle regulated by both translational and posttranslational mechanisms.

Authors:  M L Whitfield; L X Zheng; A Baldwin; T Ohta; M M Hurt; W F Marzluff
Journal:  Mol Cell Biol       Date:  2000-06       Impact factor: 4.272

5.  Statistical analysis of yeast genomic downstream sequences reveals putative polyadenylation signals.

Authors:  J van Helden; M del Olmo; J E Pérez-Ortín
Journal:  Nucleic Acids Res       Date:  2000-02-15       Impact factor: 16.971

6.  Cleavage/polyadenylation factor IA associates with the carboxyl-terminal domain of RNA polymerase II in Saccharomyces cerevisiae.

Authors:  D Barillà; B A Lee; N J Proudfoot
Journal:  Proc Natl Acad Sci U S A       Date:  2001-01-09       Impact factor: 11.205

7.  The stem-loop binding protein forms a highly stable and specific complex with the 3' stem-loop of histone mRNAs.

Authors:  D J Battle; J A Doudna
Journal:  RNA       Date:  2001-01       Impact factor: 4.942

8.  Transcriptional termination factors for RNA polymerase II in yeast.

Authors:  A Aranda; N Proudfoot
Journal:  Mol Cell       Date:  2001-05       Impact factor: 17.970

9.  Evolutionarily conserved interaction between CstF-64 and PC4 links transcription, polyadenylation, and termination.

Authors:  O Calvo; J L Manley
Journal:  Mol Cell       Date:  2001-05       Impact factor: 17.970

10.  Poly(A) polymerase phosphorylation is dependent on novel interactions with cyclins.

Authors:  G L Bond; C Prives; J L Manley
Journal:  Mol Cell Biol       Date:  2000-07       Impact factor: 4.272
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  8 in total

1.  Contribution of Trf4/5 and the nuclear exosome to genome stability through regulation of histone mRNA levels in Saccharomyces cerevisiae.

Authors:  Clara C Reis; Judith L Campbell
Journal:  Genetics       Date:  2006-12-18       Impact factor: 4.562

2.  Spt10 and Swi4 control the timing of histone H2A/H2B gene activation in budding yeast.

Authors:  Peter R Eriksson; Dwaipayan Ganguli; David J Clark
Journal:  Mol Cell Biol       Date:  2010-11-29       Impact factor: 4.272

Review 3.  Regulation of histone gene expression in budding yeast.

Authors:  Peter R Eriksson; Dwaipayan Ganguli; V Nagarajavel; David J Clark
Journal:  Genetics       Date:  2012-05       Impact factor: 4.562

4.  Recombination between homoeologous chromosomes of lager yeasts leads to loss of function of the hybrid GPH1 gene.

Authors:  Jane Usher; Ursula Bond
Journal:  Appl Environ Microbiol       Date:  2009-05-08       Impact factor: 4.792

5.  The Schizosaccharomyces pombe HIRA-like protein Hip1 is required for the periodic expression of histone genes and contributes to the function of complex centromeres.

Authors:  Chris Blackwell; Kate A Martin; Amanda Greenall; Alison Pidoux; Robin C Allshire; Simon K Whitehall
Journal:  Mol Cell Biol       Date:  2004-05       Impact factor: 4.272

Review 6.  Regulation of histone gene transcription in yeast.

Authors:  Christoph F Kurat; Judith Recht; Ernest Radovani; Tanja Durbic; Brenda Andrews; Jeffrey Fillingham
Journal:  Cell Mol Life Sci       Date:  2013-08-23       Impact factor: 9.261

7.  The PolyA tail length of yeast histone mRNAs varies during the cell cycle and is influenced by Sen1p and Rrp6p.

Authors:  Suzanne Beggs; Tharappel C James; Ursula Bond
Journal:  Nucleic Acids Res       Date:  2011-11-28       Impact factor: 16.971

8.  Deletion of the nuclear exosome component RRP6 leads to continued accumulation of the histone mRNA HTB1 in S-phase of the cell cycle in Saccharomyces cerevisiae.

Authors:  Ruth Canavan; Ursula Bond
Journal:  Nucleic Acids Res       Date:  2007-09-13       Impact factor: 16.971
  8 in total

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