ATP-dependent chromatin remodelling: action and reaction.

Alterations of chromatin structure play an important role in gene regulation. One way of doing so involves ATP-dependent chromatin remodelling enzymes that act as molecular machines coupling ATP-hydrolysis to structural changes of the nucleosome. Several recent studies shed important insights into the mechanism of these factors and indicate that they couple DNA translocation within the nucleosome to DNA loop propagation through the nucleosome. This reaction causes the movement of a nucleosome with respect to a given DNA sequence and also drives its disassembly. It is becoming clear that the biology of these factors is very complex considering the plethora of known ATP-dependent nucleosome remodelling factors and their many, in part overlapping functions and varied ways of regulation and targeting. Finally, nucleosome remodelling may only be one aspect of the function of these enzymes, because they may impart or regulate higher order levels of chromatin organization. The importance of these enzymes for normal growth and development is illustrated by disorders and neoplasias linked to mutations of those factors or their misregulation. Given that these enzymes have such profound roles in gene expression and cell proliferation, they may constitute important drug targets for clinical applications in the future