The Cre/loxP and Flp/FRT systems mediate site-specific DNA recombination and are being increasingly utilized to study gene function in vivo. These systems allow targeted gene disruption in a single cell type in vivo, thereby permitting study of the physiological and pathophysiological impact of a given gene product derived from a particular cell type. In the kidney, the Cre/loxP system has been employed to achieve gene deletion selectively within principal cells of the collecting duct. Disruption of target genes in the collecting duct, such as endothelin-1 or polycystic kidney disease-1 (PKD1), could lead to important insights into the biological roles of these gene products. With selection of the appropriate renal cell-specific promoters, these recombination systems could be used to target gene disruption to virtually any renal cell type. Although transgenic studies utilizing these recombination systems are promising, they are in their relative infancy and can be time consuming and expensive and yield unanticipated results. It is anticipated that continued experience with these systems will produce an important tool for analyzing gene function in renal health and disease.