Abstract
In eukaryotic cells, DNA maintenance requires ordered disassembly and re-assembly of chromatin templates. These processes are highly regulated and require extrinsic factors such as chromatin remodelers and histone chaperones. The histone chaperone FACT (facilitates chromatin transcription) is a large heterodimeric complex with roles in transcription, replication, and repair. FACT promotes and subsequently restricts access to DNA as a result of dynamic nucleosome reorganization. However, until now, there lacked a truly quantitative assessment of the critical contacts mediating FACT function. Here, we demonstrate that FACT binds histones, DNA, and intact nucleosomes at nanomolar concentrations. We also determine roles for the histone tails in free histone and nucleosome binding by FACT. Furthermore, we propose that the conserved acidic C-terminal domain of the FACT subunit Spt16 actively displaces nucleosomal DNA to provide access to the histone octamer. Experiments with tri-nucleosome arrays indicate a possible mode for FACT binding within chromatin. Together, the data reveal that specific FACT subunits synchronize interactions with various target sites on individual nucleosomes to generate a high affinity binding event and promote reorganization.
Highlights
The histone chaperone FACT binds and reorganizes nucleosomes during critical cellular processes
Development of High Throughput Method to Measure Thermodynamic Parameters Guiding Chromatin Binding by FACT— We have recently designed a fluorescencequenching microplate assay that permits the precise quantification of apparent dissociation constants (Kd(app)), Hill coefficients, and stoichiometries for a near complete set of FACT/nucleosome and FACT/histone interactions
Measurements with individual FACT subunits and an Spt16 truncation construct allowed us to dissect their relative contributions to the different binding events. 384-Well clear bottom microplates were utilized for titration of FACT, or any other chromatin binding protein, into a fluorescently labeled chromatin component near physiological conditions
Summary
The histone chaperone FACT binds and reorganizes nucleosomes during critical cellular processes. Results: FACT binds histones, DNA, and mono- and tri-nucleosomes with high affinity. Conclusion: Multiple regions of FACT strategically bind target sites on nucleosomes to coordinate (dis)assembly. Significance: The thermodynamic parameters guiding multiple FACT/nucleosome interaction(s) coincide with reorganization events. DNA maintenance requires ordered disassembly and re-assembly of chromatin templates These processes are highly regulated and require extrinsic factors such as chromatin remodelers and histone chaperones. FACT promotes and subsequently restricts access to DNA as a result of dynamic nucleosome reorganization. The data reveal that specific FACT subunits synchronize interactions with various target sites on individual nucleosomes to generate a high affinity binding event and promote reorganization
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
