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Molecular and Cellular Biology Volume 27, 2007 - Issue 22
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Article

Histone H3 K4 Demethylation during Activation and Attenuation of GAL1 Transcription in Saccharomyces cerevisiae

Kristin Ingvarsdottir1 Gene Expression and Regulation Program, The Wistar Institute, Philadelphia, Pennsylvania;2 Cell and Molecular Biology Program, University of Pennsylvania Medical School, Philadelphia, Pennsylvania
,
Chris Edwards1 Gene Expression and Regulation Program, The Wistar Institute, Philadelphia, Pennsylvania;2 Cell and Molecular Biology Program, University of Pennsylvania Medical School, Philadelphia, Pennsylvania
,
Min Gyu Lee1 Gene Expression and Regulation Program, The Wistar Institute, Philadelphia, Pennsylvania
,
Jung Shin Lee3 Department of Biochemistry and Molecular Biology, Saint Louis University Health Sciences Center, St. Louis, Missouri
,
David C. Schultz1 Gene Expression and Regulation Program, The Wistar Institute, Philadelphia, Pennsylvania
,
Ali Shilatifard3 Department of Biochemistry and Molecular Biology, Saint Louis University Health Sciences Center, St. Louis, Missouri
,
Ramin Shiekhattar1 Gene Expression and Regulation Program, The Wistar Institute, Philadelphia, Pennsylvania
&
Shelley L. Berger1 Gene Expression and Regulation Program, The Wistar Institute, Philadelphia, PennsylvaniaCorrespondence[email protected]
 show all
Pages 7856-7864 | Received 07 May 2007, Accepted 06 Sep 2007, Published online: 27 Mar 2023
 
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Abstract

In mammalian cells, histone lysine demethylation is carried out by two classes of enzymes, the LSD1/BHC110 class and the jumonji class. The enzymes of the jumonji class in the yeast Saccharomyces cerevisiae have recently also been shown to have lysine demethylation activity. Here we report that the protein encoded by YJR119c (termed KDM5), coding for one of five predicted jumonji domain proteins in yeast, specifically demethylates trimethylated histone H3 lysine 4 (H3K4me3), H3K4me2, and H3K4me1 in vitro. We found that loss of KDM5 increased mono-, di-, and trimethylation of lysine 4 during activation of the GAL1 gene. Interestingly, cells deleted of KDM5 also displayed a delayed reduction of K4me3 upon reestablishment of GAL1 repression. These results indicate that K4 demethylation has two roles at GAL1, first to establish appropriate levels of K4 methylation during gene activation and second to remove K4 trimethylation during the attenuation phase of transcription. Thus, analysis of lysine demethylation in yeast provides new insight into the physiological roles of jumonji demethylase enzymes.

SUPPLEMENTAL MATERIAL

Research was supported by grants from NIH (GM55360) and NSF (MCB-9604208) to S.L.B.

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