H3K9 and H4K20 methyltransferases are directly involved in the heterochromatinization of the paternal chromosomes in male Planococcus citri embryos.

Using a new method for bulk preparation of early stage embryos, we have investigated the role played by putative Planococcus citri H3K9 and H4K20 histone methyl transferases (HMTases) in regulating heterochromatinization of the imprinted paternal chromosomal set in male embryos. We found that H3K9 and H420 HMTases are required for heterochromatinization of the paternal chromosomes. We present evidence that both HMTases maintain the paternal "imprint" during the cleavage divisions when both parental chromosome sets are euchromatic. A testable model that accommodates our findings is proposed.

SetDB1 and Su(var)3-9 play non-overlapping roles in somatic cell chromosomes of Drosophila melanogaster.

We explored functional roles of two H3K9-specific histone methyltransferases of Drosophila melanogaster, SetDB1 (also known as Eggless) and Su(var)3-9. Using the DamID approach, we generated the binding profile for SetDB1 in Drosophila salivary gland chromosomes, and matched it to the profile of Su(var)3-9. Unlike Su(var)3-9, SetDB1 turned out to be an euchromatic protein that is absent from repeated DNA compartments, and is largely restricted to transcription start sites (TSSs) and 5' untranslated regions (5'UTRs) of ubiquitously expressed genes. Significant SetDB1 association is also observed at binding sites for the insulator protein CP190. SetDB1 and H3K9 di- and tri-methylated (me2 and me3)-enriched sites tend to display poor overlap. At the same time, SetDB1 has a clear connection with the distribution of H3K27me3 mark. SetDB1 binds outside the domains possessing this modification, and about half of the borders of H3K27me3 domains are decorated by SetDB1 together with actively transcribed genes. On the basis of poor correlation between the distribution of SetDB1 and H3K9 methylation marks, we speculate that, in somatic cells, SetDB1 may contribute to the methylation of a broader set of chromosomal proteins than just H3K9. In addition, SetDB1 can be expected to play a role in the establishment of chromatin functional domains.

Induced decondensation of heterochromatin in Drosophila melanogaster polytene chromosomes under condition of ectopic expression of the Supressor of underreplication gene.

Overexpression of Suppressor of Underreplication protein (SUUR) induces giant reversible swellings in intercalary and pericentric heterochromatin of salivary gland polytene chromosomes. Here, we demonstrate that morphology and extent of swellings are highly dependent on the fixation conditions used: upon glutaraldehyde fixation, we observed moderate decondensation of heterochromatic regions, which was significantly more pronounced upon acetic-acid fixation. Swellings are formed in a PARP-independent fashion. Together with data on inactive transcription in them, this indicates that the swelling-forming regions fail to acquire any features of puffs, the regions typically forming locally decondensed chromatin. Large swellings display striking re-localization of histones and SUUR protein, which are now found at the periphery of the swellings, in contrast to the DNA that fills the entirety of the swelling. We show that swelling-embedded DNA is capable of undergoing replication, however SUUR overexpression drastically alters replication timing in salivary gland cells. We speculate that swelling formation results from SUUR tipping the balance against other proteins that contribute to the organization of repressed chromatin regions.