Guanine nucleotide exchange factors (GEFs) activate Rho GTPases by catalyzing the exchange of bound GDP for GTP, thereby resulting in downstream effector recognition. Two metazoan families of GEFs have been described: Dbl-GEF family members that share conserved Dbl homology (DH) and Pleckstrin homology (PH) domains and the more recently described Dock180 family members that share little sequence homology with the Dbl family and are characterized by conserved Dock homology regions 1 and 2 (DHR-1 and -2, respectively). While extensive characterization of the Dbl family has been performed, less is known about how Dock180 family members act as GEFs, with only a single X-ray structure having recently been reported for the Dock9-Cdc42 complex. To learn more about the mechanisms used by the founding member of the family, Dock180, to act as a Rac-specific GEF, we set out to identify and characterize its limit functional GEF domain. A C-terminal portion of the DHR-2 domain, composed of approximately 300 residues (designated as Dock180(DHR-2c)), is shown to be necessary and sufficient for robust Rac-specific GEF activity both in vitro and in vivo. We further show that Dock180(DHR-2c) binds to Rac in a manner distinct from that of Rac-GEFs of the Dbl family. Specifically, Ala(27) and Trp(56) of Rac appear to provide a bipartite binding site for the specific recognition of Dock180(DHR-2c), whereas for Dbl family Rac-GEFs, Trp(56) of Rac is the sole primary determinant of GEF specificity. On the basis of our findings, we are able to define the core of Dock180 responsible for its Rac-GEF activity as well as highlight key recognition sites that distinguish different Dock180 family members and determine their corresponding GTPase specificities.