Thermosensitive Nucleosome Editing Reveals the Role of DNA Sequence in Targeted Histone Variant Deposition.
In preparation for transcription, the chromatin remodeler SWR installs homotypic ZZ nucleosomes at promoters by replacing the two nucleosomal H2A with H2A.Z in a stepwise manner. Nucleosome-free regions (NFRs) help recruit SWR to promoters; this is thought to position SWR asymmetrically on one side of the +1 nucleosome. How SWR accesses ... the opposite side of +1 to generate a ZZ nucleosome remains unclear. Using biochemical assays that monitor the sub-nucleosomal position of nascent H2A.Z, we find that NFR-recruited SWR switches sides to insert H2A.Z into asymmetrically positioned nucleosomes; however, at decreasing temperatures, H2A.Z insertion becomes progressively biased for one side. We find that a 16-bp element containing G/C runs (>3 consecutive G or C nucleotides) is sufficient to promote H2A.Z insertion. Because H2A.Z-rich +1 nucleosomes in yeast have more G/C runs, we propose that nucleosome editing is a thermosensitive process that can be hard coded by the genome.
Mesh Terms:
Base Composition, Base Sequence, Chromatin Assembly and Disassembly, DNA, Fungal, Dimerization, Histones, Models, Biological, Nucleosomes, Saccharomyces cerevisiae, Saccharomyces cerevisiae Proteins, Temperature
Base Composition, Base Sequence, Chromatin Assembly and Disassembly, DNA, Fungal, Dimerization, Histones, Models, Biological, Nucleosomes, Saccharomyces cerevisiae, Saccharomyces cerevisiae Proteins, Temperature
Cell Rep
Date: Dec. 07, 2019
PubMed ID: 31914392
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