The agouti locus (A) of the mouse determines the timing and type of pigment deposition in the growing hair bulb, and several alleles at this locus are lethal when homozygous. Apparent instances of intragenic recombination and complementation between different recessive lethal alleles have suggested that the locus has a complex structure. We have begun to investigate the molecular basis of agouti gene action and recessive lethality by using a series of genetically linked DNA probes and pulsed field gel electrophoresis to detect structural alterations in radiation-induced agouti mutations. Hybridization probes from the Src and Emv-15 loci do not reveal molecular alterations in DNA corresponding to the ae, ax, and al alleles, but a probe from the parotid secretory protein gene (Psp) detects a 75-kilobase (kb) deletion in DNA containing the non-agouti lethal allele (al). The deletion is defined by a 75-kb reduction in the size of BssHII, NotI, NruI and SacII high molecular weight restriction fragments detected with the Psp probe and is located between 25 kb and 575 kb from Psp coding sequences. Because the genetic distance between A and Emv-15 is much less than A and Psp, there may be a preferred site of recombination close to Psp, or suppression of recombination between A and Emv-15. The al deletion has allowed us to determine the genotype of mice heterozygous for different recessive lethal alleles. We find that three different recessive lethal complementation groups are present at the agouti locus, two of which are contained within the al deletion.