Accelerated chromatin biochemistry using DNA-barcoded nucleosome libraries

Elucidating the molecular details of how chromatin-associated factors deposit, remove and recognize histone posttranslational modification (‘PTM’) signatures remains a daunting task in the epigenetics field. Here, we introduce a versatile platform that greatly accelerates biochemical investigations into chromatin recognition and signaling. This technology is based on the streamlined semi-synthesis of DNA-barcoded nucleosome libraries with distinct combinations of PTMs. Chromatin immunoprecipitation of these libraries treated with purified chromatin effectors or the combined chromatin recognizing and modifying activities of the nuclear proteome is followed by multiplexed DNA-barcode sequencing. This ultrasensitive workflow allowed us to collect thousands of biochemical data points revealing the binding preferences of various nuclear factors for PTM patterns and how pre-existing PTMs, alone or synergistically, affect further PTM deposition via crosstalk mechanisms. We anticipate that the high-throughput and -sensitivity of the technology will help accelerate the decryption of the diverse molecular controls that operate at the level of chromatin