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Literature DB >> 14734811

A genomewide oscillation in transcription gates DNA replication and cell cycle.

Robert R Klevecz¹, James Bolen, Gerald Forrest, Douglas B Murray.

Abstract

Microarray analysis from a yeast continuous synchrony culture system shows a genomewide oscillation in transcription. Maximums in transcript levels occur at three nearly equally spaced intervals in this approximately 40-min cycle of respiration and reduction. Two temporal clusters (4,679 of 5,329) are maximally expressed during the reductive phase of the cycle, whereas a third cluster (650) is maximally expressed during the respiratory phase. Transcription is organized functionally into redox-state superclusters with genes known to be important in respiration or reduction being synthesized in opposite phases of the cycle. The transcriptional cycle gates synchronous bursts in DNA replication in a constant fraction of the population at 40-min intervals. Restriction of DNA synthesis to the reductive phase of the cycle may be an evolutionarily important mechanism for reducing oxidative damage to DNA during replication.

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Year: 2004 PMID： 14734811 PMCID： PMC337030 DOI： 10.1073/pnas.0306490101

Source DB: PubMed Journal: Proc Natl Acad Sci U S A ISSN： 0027-8424 Impact factor: 11.205

33 in total

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3. Dynamic architecture of the yeast cell cycle uncovered by wavelet decomposition of expression microarray data.

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4. Genome wide oscillations in expression. Wavelet analysis of time series data from yeast expression arrays uncovers the dynamic architecture of phenotype.

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5. Singular value decomposition for genome-wide expression data processing and modeling.

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7. Geometry of gene expression dynamics.

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3. RNA expression microarrays (REMs), a high-throughput method to measure differences in gene expression in diverse biological samples.

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6. Metabolic cycling in single yeast cells from unsynchronized steady-state populations limited on glucose or phosphate.

Authors: Sanford J Silverman; Allegra A Petti; Nikolai Slavov; Lance Parsons; Ryan Briehof; Stephan Y Thiberge; Daniel Zenklusen; Saumil J Gandhi; Daniel R Larson; Robert H Singer; David Botstein
Journal: Proc Natl Acad Sci U S A Date: 2010-03-24 Impact factor: 11.205

10. Physiological and transcriptional responses of anaerobic chemostat cultures of Saccharomyces cerevisiae subjected to diurnal temperature cycles.

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