Updated project metadata.
Chemical modification of histone proteins by methylation plays a central role in chromatin regulation by recruiting epigenetic ‘readers’ via specialized binding domains. Depending on the degree of methylation, the exact modified amino acid, and the associated reader proteins histone methylations are involved in the regulation of all DNA-based processes, such as transcription, DNA replication, and DNA repair. We have previously established a method that allows the unbiased identification of nuclear proteins which binding to nucleosomes is regulated by the presence of specific histone modifications (1,2). The method is based on an in-vitro reconstitution of semi-synthetic nucleosomes bearing a predefined set of histone modifications which are subsequently used as baits for affinity purification pull-down experiments with nuclear extracts followed by identification and quantification of nucleosome-interacting proteins using LC-MS/MS. Here we provide a representative set of label-free MS results for nucleosome pull-down affinity purification experiments performed using unmodified as well as H3K4me3- and H3K9me3-modified di-nucleosomes and nuclear extract obtained from HeLa S3 cells. 1. Bartke T, Vermeulen M, Xhemalce B, Robson SC, Mann M, Kouzarides T (2010) Nucleosome-interacting proteins regulated by DNA and histone methylation. Cell 143:470-484 2. Makowski MM, Gräwe C, Foster BM, Nguyen NV, Bartke T, Vermeulen M (2018) Global profiling of protein-DNA and protein-nucleosome binding affinities using quantitative mass spectrometry. Nat Commun 9:1653