ABSTRACT
Histone post-translational modifications (PTMs) play a critical role in chromatin regulation. It has been proposed that these PTMs form localized ‘codes’ that are read by specialized regions (reader domains) in chromatin associated proteins (CAPs) to regulate downstream function. Substantial effort has been made to define [CAP-histone PTM] specificity, and thus decipher the histone code / guide epigenetic therapies. However, this has largely been done using a reductive approach of isolated reader domains and histone peptides, with the assumption that PTM readout is unaffected by any higher order factors. Here we show that CAP-histone PTM interaction is in fact dependent on nucleosome context. Our results indicate this is due to histone tail accessibility and the associated impact on binding potential of reader domains. We further demonstrate that the in vitro specificity of a tandem reader for PTM-defined nucleosomes is recapitulated in a cellular context. This necessitates we refine the ‘histone code’ concept and interrogate it at the nucleosome level.
Competing Interest Statement
EpiCypher is a commercial developer and supplier of reagents (e.g. PTM-defined semi-synthetic nucleosomes; dNucs and versaNucs) and platforms (dCypher, CUTANA CUT&RUN) used in this study.
ABBREVIATIONS
- BD
- Bromodomain
- BPTF
- Bromodomain
- PHD
- Finger Transcription Factor
- CAP
- Chromatin Associated Protein
- CSP
- Chemical shift perturbation
- Nuc
- Nucleosome
- PTM
- Post-Translational Modification