Genetic susceptibility to toxic chemicals is of major importance but most studies concentrate on candidate genes and searches for unknown susceptibility genes are uncommon. Human sporadic porphyria cutanea tarda is usually precipitated by alcohol, oestrogens, hepatitis viruses, HIV or haemodialysis. The mechanism is not known but there is a role for iron metabolism and an underlying genetic predisposition is suspected. A similar porphyria in humans has also been caused by hexachlorobenzene. These human porphyrias can be modelled in iron-loaded mice exposed to hexachlorobenzene, in which C57BL/10ScSn is a prototype susceptible strain whereas DBA/2 mice are extremely resistant. A search for susceptibility genes was undertaken using complex trait analysis with DNA microsatellite markers of 'high' and 'low' responders from an F2 intercross. Correlation of markers with susceptibility, defined as accumulation of uroporphyrin in the liver, was assessed by chi-squared test for the proportion of C57BL/10ScSn and DBA/2 alleles present. Susceptibility loci on chromosomes 12, 14 and 17 were identified. Further analysis of markers on chromosomes 14 and 17 by MAPMAKER/EXP and MAPMAKER/QTL gave LOD scores of 7.3 and 3.6, respectively. Typing of chromosome 12 for the Ahr gene, using a restriction fragment length polymorphism distinguishing between the b-1 and d alleles, gave significant but not perfect linkage. However, no strong association between alleles or expression of Cyp1a1/2 genes, regulated by Ahr, and susceptibility for porphyria was detected. The results demonstrate that the porphyria induced by hexachlorobenzene in C57BL/10ScSn mice is a complex trait determined by at least three genes, which may be of relevance to susceptibility in the development of sporadic porphyria cutanea tarda and unknown aspects of liver damage.