The genetic basis of nuclear-cytoplasmic incompatibility was examined using the wild pea (Pisum sativum subsp. elatius) accession VIR320. When this accession is used as the female parent in crosses with domesticated peas (Pisum sativum subsp. sativum) the F(1) is highly sterile and displays chlorophyll deficiency, chlorophyll variegation, reduction of leaflets and stipulae while the reciprocal cross produces hybrids that appear normal. A mapping recombinant inbred line (RIL) population was established based on a cross in a compatible direction of a tester line WL1238 with VIR320. The ability to cause nuclear-cytoplasmic conflict was analysed by crossing individual RIL plants as pollen parents with VIR320 as donor of cytoplasm and scoring each F(1) for major signs of the conflict. It is concluded that two unlinked nuclear genes are involved in the genetic control of the observed incompatibility. One of the genes, denoted as Scs1, is closely linked to the PhlC gene on linkage group III and the other, denoted as Scs2, is closely linked to the gp gene on linkage group V. Alleles of both genes in WL1238 are dominant and appear to be lethal in the homozygous condition in the VIR320 cytoplasm background.