Dynamics of Eukaryotic Histone Exchange with Single Molecule Resolution

Abstract

Remodelling chromatin structure is important for regulating gene expression, DNA replication and repair and other fundamental nuclear processes. The basic chromatin unit is the nucleosome. SWR1 is a multi-subunit complex, whose chromatin remodelling activity is associated with regulation of gene expression in heterochromatin regions of chromosomes in plants and mammals, and with the cellular response to DNA damage. In yeast, the simplest eukaryotic organism, the SWR1 complex is responsible for the ATP-dependent nucleosome remodelling by exchanging its canonical H2A histone with Htz1 variant (also known as H2A.Z in mammalian cells). In spite of a large number of genetic, biochemical and structural studies on SWR1, its detailed histone exchange mechanism remains largely unknown. To investigate the mechanism of histone exchange by SWR1, we have developed a single-molecule FRET assay, which monitors the interaction between individual nucleosomes and yeast SWR1 complexes in real time. The data show distinct dynamic behaviours in the presence or absence of ATP, or in the presence of non-hydrolysable ATP analogue. We hypothesize that the observed dynamics are important for the removal of canonical H2A histones or deposition of the histone variant Htz1. We anticipate that our data will help elucidate the molecular mechanism of histone exchange by SWR1.