Pseudomonas aeruginosa can convert to a mucoid colony morphology by a genetic mechanism called alginate conversion; this results in the production of copious amounts of the exopolysaccharide alginate. The mucoid phenotype of P. aeruginosa is commonly associated with its ability to cause chronic pulmonary tract infections in patients with cystic fibrosis. In this study we isolated the cis-acting locus involved in alginate conversion, called algS, from both mucoid and nonmucoid isogenic strains. We then examined the role of algS in the control of algT, a trans-active gene required for alginate production in P. aeruginosa. We used a new cosmid cloning vector, called pEMR2, that permitted both the cloning of large DNA fragments and their subsequent gene replacement in P. aeruginosa. To verify the predicted properties of this vector, we isolated and tested a pEMR2 hisI+ clone. Using cloned algS-containing DNA and a method for gene replacement, we constructed isogenic strains of P. aeruginosa that had Tn501 adjacent to algS on the chromosome. Two pEMR2 clone banks containing genomic fragments from isogenic algS(On) (exhibiting the alginate production phenotype) and algS(Off) (exhibiting the non-alginate production phenotype) strains were constructed, and Tn501 served as an adjacent marker to select for clones containing the respective algS allele. The pEMR2 algS(On) and pEMR2 algS(Off) clones were shown to contain the indicated algS allele by gene replacement with the chromosome of strains that carried the opposite allele. To test whether algS controls the expression of the adjacent algT gene, we constructed a pLAFR1 algS(Off)T clone and showed it to be unable to complement an algT::Tn501 mutation in trans. In contrast, a pLAFR1 algS(On)T clone did complement algT::Tn501 in trans. Thus, algS appears to control the activation of algT expression, bringing about alginate conversion.