LAUSR

Although a functional relationship between active DNA demethylation and chromatin structure is often implied, direct experimental evidence is lacking. We investigated the relationship between chromatin structure and thymine DNA glycosylase (TDG) using chemically defined nucleosome arrays containing site-specifically positioned 5-formylcytosine (5fC) residues. We show that the extent of array compaction, as well as nucleosome positioning, dramatically influence the abil-ity of TDG to excise 5fC from DNA, indicating that chromatin structure is likely a key determinant of whether 5fC is removed from the genome or retained as an epigenetic mark. Furthermore, the H2A.Z/H3.3 dou-ble-variant nucleosome and the pioneering transcription factor forkhead box A1 (FOXA1), both of which are implicated in shaping the chromatin landscape during demethylation of tissue-specific enhancers, differentially regulate TDG activity on chromatin. Together, this work provides the first direct evidence that higher-order chromatin structure regulates active DNA demethylation through TDG, and provides novel insights into the mechanism of 5fC turnover at enhancers.