The Gypsy Insulator of Drosophila Affects Chromatin Structure in a Directional Manner

The Gypsy Insulator of Drosophila Affects Chromatin Structure in a Directional Manner

Siquan Chen^a and Victor G. Corces^a
^a Department of Biology, The Johns Hopkins University, Baltimore, Maryland 21218

Corresponding author: Victor G. Corces, Department of Biology, The Johns Hopkins University, 3400 N. Charles St., Baltimore, MD 21218., corces{at}jhu.edu (E-mail)

Communicating editor: F. WINSTON

Chromatin insulators are thought to regulate gene expressionby establishing higher-order domains of chromatin organization,although the specific mechanisms by which these sequences affectenhancer-promoter interactions are not well understood. Herewe show that the gypsy insulator of Drosophila can affect chromatinstructure. The insulator itself contains several DNase I hypersensitivesites whose occurrence is dependent on the binding of the Suppressorof Hairy-wing [Su(Hw)] protein. The presence of the insulatorin the 5' region of the yellow gene increases the accessibilityof the DNA to nucleases in the promoter-proximal, but not thepromoter-distal, region. This increase in accessibility is notdue to alterations in the primary chromatin fiber, because thenumber and position of the nucleosomes appears to be the samein the presence or absence of the insulator. Binding of theSu(Hw) protein to insulator DNA is not sufficient to inducechanges in chromatin accessibility, and two domains of thisprotein, presumed to be involved in interactions with otherinsulator components, are essential for this effect. The presenceof Modifier of mdg4 [Mod(mdg4)] protein, a second componentof the gypsy insulator, is required to induce these alterationsin chromatin accessibility. The results suggest that the gypsyinsulator affects chromatin structure and offer insights intothe mechanisms by which insulators affect enhancer-promoterinteractions.

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