AbstractElucidating the mechanisms by which ATP-dependent chromatin remodeling enzymes disrupt nucleosome structure is essential to understanding how chromatin states are established and maintained. A key finding informing remodeler mechanism is the observation that the dynamics of protein residues buried within the histone core of the nucleosome are used by specific remodelers to mobilize the nucleosome1. Recently, a study obtaining cryo-electron microscopy (cryo-EM) structures of ISWI-family remodelernucleosome complexes failed to observe stable conformational rearrangements in the histone octamer2. The authors of this study also failed to replicate the earlier finding that site-specifically restraining histone dynamics inhibits nucleosome sliding by ISWI-family remodelers1,2. In contrast, a recent cryo-EM structure detected asymmetric histone dynamics in an ISWI-nucleosome complex3. Here, using two different protocols, we replicate the original finding in Sinha et al.1 that dynamics within the histone core are important for nucleosome sliding by the human ISWI remodeler, SNF2h. These results firmly establish histone dynamics as an essential feature of ISWI-mediated nucleosome sliding and highlight the care required in designing and performing biochemical experiments investigating nucleosome dynamics using disulfide linkages.