AI Article Synopsis
- Vertebrate genomes have three large histone H2A variants, including macroH2A, which influence chromatin structure and gene regulation.
- A study developed a split-GFP assay to investigate how macroH2A is integrated into chromatin and identified ANP32B as a key protein that aids in its deposition.
- ANP32B not only associates with macroH2A but also promotes its incorporation into nucleosomes, suggesting it plays a crucial role in regulating macroH2A dynamics in cells.
Article Abstract
All vertebrate genomes encode for three large histone H2A variants that have an additional metabolite-binding globular macrodomain module, macroH2A. MacroH2A variants impact heterochromatin organization and transcription regulation and establish a barrier for cellular reprogramming. However, the mechanisms of how macroH2A is incorporated into chromatin and the identity of any chaperones required for histone deposition remain elusive. Here, we develop a split-GFP-based assay for chromatin incorporation and use it to conduct a genome-wide mutagenesis screen in haploid human cells to identify proteins that regulate macroH2A dynamics. We show that the histone chaperone ANP32B is a regulator of macroH2A deposition. ANP32B associates with macroH2A in cells and in vitro binds to histones with low nanomolar affinity. In vitro nucleosome assembly assays show that ANP32B stimulates deposition of macroH2A-H2B and not of H2A-H2B onto tetrasomes. In cells, depletion of ANP32B strongly affects global macroH2A chromatin incorporation, revealing ANP32B as a macroH2A histone chaperone.
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| http://dx.doi.org/10.1016/j.celrep.2023.113300 | DOI Listing |
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