Abstract
Eukaryotic origins of DNA replication are bound by the origin recognition complex (ORC), which scaffolds assembly of a pre-replicative complex (pre-RC) that is then activated to initiate replication. Both pre-RC assembly and activation are strongly influenced by developmental changes to the epigenome, but molecular mechanisms remain incompletely defined. We have been examining the activation of origins responsible for developmental gene amplification in Drosophila. At a specific time in oogenesis, somatic follicle cells transition from genomic replication to a locus-specific replication from six amplicon origins. Previous evidence indicated that these amplicon origins are activated by nucleosome acetylation, but how this affects origin chromatin is unknown. Here, we examine nucleosome position in follicle cells using micrococcal nuclease digestion with Ilumina sequencing. The results indicate that ORC binding sites and other essential origin sequences are nucleosome-depleted regions (NDRs). Nucleosome position at the amplicons was highly similar among developmental stages during which ORC is or is not bound, indicating that being an NDR is not sufficient to specify ORC binding. Importantly, the data suggest that nucleosomes and ORC have opposite preferences for DNA sequence and structure. We propose that nucleosome hyperacetylation promotes pre-RC assembly onto adjacent DNA sequences that are disfavored by nucleosomes but favored by ORC.
Highlights
Eukaryotic cells rapidly duplicate their genome by initiating DNA replication at multiple origins
Our data lead us to propose that hyperacetylation of positioned nucleosomes promotes pre-replicative complex (pre-RC) assembly onto adjacent DNA sequences that are disfavored by nucleosomes but preferred by origin recognition complex (ORC)
Our data from tissues are consistent with evidence from cells in culture that ORC binds in nucleosome depleted regions (NDRs), and confirms that being an NDR is not sufficient for ORC binding and origin activity
Summary
Eukaryotic cells rapidly duplicate their genome by initiating DNA replication at multiple origins. Eukaryotic origins are binding sites for a multi-subunit pre-replicative complex (pre-RC) [3]. During pre-RC assembly, origin DNA is first bound by the six subunit origin recognition complex (ORC). The ORC recruits Cdc and Cdt, which are required to clamp the hexameric MCM helicase around DNA to complete pre-RC assembly [3,4,5,6,7,8,9,10]. The pre-RC assembles during G1 phase of the cell cycle, and is activated by Cyclin / CDKs and Dbf4 / CDC7 kinases to initiate DNA replication during the subsequent S phase [10,11]
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