RecQ DNA helicases function in DNA replication, recombination and repair. Although the precise cellular roles played by this family of enzymes remain elusive, the importance of RecQ proteins is clear; mutations in any of three human RecQ genes lead to genomic instability and cancer. In this report, proteolysis is used to define a two-domain structure for Escherichia coli RecQ, revealing a large (approximately 59 kDa) N-terminal and a small (approximately 9 kDa) C-terminal domain. A short N-terminal segment (7 or 21 residues) is also shown to be sensitive to proteases. The effects of removing these regions of RecQ are tested in vitro. Removing 21 N-terminal residues from RecQ severely diminishes its DNA-dependent ATPase and helicase activities, but does not affect its ability to bind DNA in electrophoretic mobility shift assays. In contrast, removing the approximately 9 kDa C-terminal domain from RecQ results in a fragment with normal levels of ATPase and helicase activity, but that has lost the ability to stably associate with DNA. These results establish the biochemical roles of an N-terminal sequence motif in RecQ catalytic function and for the C-terminal RecQ domain in stable DNA binding.