The eukaryotic genome: a system regulated at different hierarchical levels

doi:10.1242/jcs.00779

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First published online September 12, 2003
doi: 10.1242/10.1242/jcs.00779

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Journal of Cell Science 116, 4067-4075 (2003)
doi: 10.1242/jcs.00779

Commentary

The eukaryotic genome: a system regulated at different hierarchical levels

Roel van Driel^*, Paul F. Fransz and Pernette J. Verschure

Swammerdam Institute for Life Sciences, BioCentrum Amsterdam, University of Amsterdam, Kruislaan 318,1098SM Amsterdam, The Netherlands

^* Author for correspondence (e-mail: van.driel{at}science.uva.nl)

Eukaryotic gene expression can be viewed within a conceptualframework in which regulatory mechanisms are integrated at threehierarchical levels. The first is the sequence level, i.e. thelinear organization of transcription units and regulatory sequences.Here, developmentally co-regulated genes seem to be organizedin clusters in the genome, which constitute individual functionalunits. The second is the chromatin level, which allows switchingbetween different functional states. Switching between a statethat suppresses transcription and one that is permissive forgene activity probably occurs at the level of the gene cluster,involving changes in chromatin structure that are controlledby the interplay between histone modification, DNA methylation,and a variety of repressive and activating mechanisms. Thisregulatory level is combined with control mechanisms that switchindividual genes in the cluster on and off, depending on theproperties of the promoter. The third level is the nuclear level,which includes the dynamic 3D spatial organization of the genomeinside the cell nucleus. The nucleus is structurally and functionallycompartmentalized and epigenetic regulation of gene expressionmay involve repositioning of loci in the nucleus through changesin large-scale chromatin structure.

Key words: Chromatin, Histone code, Nuclear organization, Gene expression

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