Abstract
The mechanisms that establish DNA replication timing programs in eukaryotes remain incompletely understood. Drosophila SNF2-related factor SUUR imparts under-replication (UR) of late-replicating intercalary heterochromatin (IH) in polytene chromosomes. We developed a proteomics technique termed MERCI to isolate a native complex SUMM4 comprising SUUR and chromatin boundary protein Mod(Mdg4)-67.2. Mod(Mdg4) stimulates the ATPase activity of SUUR and is required for its normal spatiotemporal distribution in vivo. Both SUMM4 subunits mediate the activities of gypsy insulator disrupting enhancer-promoter interactions and establishing chromatin barriers. Furthermore, SuUR or mod(mdg4) mutations reverse UR of IH. Our findings uncover a critical role for architectural proteins in attenuating replication fork progression and suggest an alternative mechanism for DNA replication timing that does not depend on an asynchronous firing of replication origins.
One-Sentence Summary A stable protein complex comprising an insulator factor and a SNF2-like ATPase imparts late replication of heterochromatin.
Competing Interest Statement
Competing interests LS and MCK are employed by Epicypher, Inc., a commercial developer and supplier of the EpiDyne nucleosomes and associated remodeling assay platforms used in this study. The remaining authors declare no competing interests.
