The necrotrophic pathogen Gibberella pulicaris infects potato tubers through wounds that contain fungitoxic secondary metabolites such as the phytoalexins rishitin and lubimin. In order to colonize tuber tissue, the fungus must possess a mechanism to tolerate potato defense compounds. In this paper, we show that a gene, Gpabc1, that codes an ATP-binding cassette (ABC) transporter is required for tolerance to these phytoalexins and for virulence on potato. The Gpabc1 gene, isolated in the course of a differential cDNA screen, shares high sequence homology with the ABC1 gene of Magnaporthe grisea. G. pulicaris mutants deficient in Gpabc1 were still able to metabolize rishitin but lost their tolerance to this phytoalexin as well as their virulence on potato. These results strongly suggest that the Gpabc1-encoded ABC transporter is necessary for tolerance of G. pulicaris to rishitin and that this tolerance is required for virulence on potato.