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Literature DB >> 2005980

Coordination of expression of DNA synthesis genes in budding yeast by a cell-cycle regulated trans factor.

N F Lowndes¹, A L Johnson, L H Johnston.

Abstract

All of the DNA synthesis genes of budding yeast examined so far are periodically expressed and hence under cell-cycle control (Table 1). Expression occurs near the G1/S phase boundary and the genes seem to be coordinately regulated (reviewed in ref. 4). The upstream promoter sequences of these genes have only a hexamer element, ACGCGT (an MluI restriction site), in common. Here we show that this hexamer is able to impart periodic expression to a heterologous gene and, significantly, this expression occurs coincidentally with that of CDC9, one of the DNA synthesis genes (Table 1). We have also identified a protein that binds specifically to these sequences in a similar periodic manner. These ACGCGT sequences and the transcription factor that binds to them therefore seem to be the elements controlling both the periodic expression and coordinate regulation of the DNA synthesis genes.

Entities: Gene Species

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Year: 1991 PMID： 2005980 DOI： 10.1038/350247a0

Source DB: PubMed Journal: Nature ISSN： 0028-0836 Impact factor: 49.962

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Cited

85 in total

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Authors: Stephanie E Porter; Taylor M Washburn; Meiping Chang; Judith A Jaehning
Journal: Eukaryot Cell Date: 2002-10

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4. A meristem-related gene from tomato encodes a dUTPase: analysis of expression in vegetative and floral meristems.

Authors: A Pri-Hadash; D Hareven; E Lifschitz
Journal: Plant Cell Date: 1992-02 Impact factor: 11.277

5. The role of the promoter in the expression of the PCNA gene.

Authors: R H Charollais; H Alder; A Ferber; J Koniecki; C Sell; R Baserga
Journal: Gene Expr Date: 1992

6. Histone H3 transcription in Saccharomyces cerevisiae is controlled by multiple cell cycle activation sites and a constitutive negative regulatory element.

Authors: K B Freeman; L R Karns; K A Lutz; M M Smith
Journal: Mol Cell Biol Date: 1992-12 Impact factor: 4.272

7. The REV3 gene of Saccharomyces cerevisiae is transcriptionally regulated more like a repair gene than one encoding a DNA polymerase.

Authors: R K Singhal; D C Hinkle; C W Lawrence
Journal: Mol Gen Genet Date: 1992-12