Abstract
Mimetic colour pattern races of Heliconius butterflies provide a striking example of adaptive radiation and numerous crossing experiments have investigated the genetics of these racial differences. However, colour pattern differentiation between closely related Heliconius species has not been previously studied. Here we present data from crosses between H. erato cyrbia and its sister species, H. himera. The genetic architecture underlying colour pattern divergence between these species is identical to that observed between races of H. erato. As in inter-racial crosses, colour pattern differences resulted from segregation at a few major loci. Evidence from 1321 offspring in 4 F(1), 17 backcross, 7 F(2) and 21 further crosses showed that two major loci controlled most of the colour pattern differences between H. erato and H. himera. There were strong interactions between these loci in their patterns of expression and evidence for other loci with relatively minor phenotypic effects. More importantly, based on patterns of expression within broods and linkage with Aconitase, we conclude that these major loci were homologous with those known to be responsible for colour pattern differences within H. erato. Our crosses also permit a re-evaluation of the relationships between colour pattern races of H. erato. This suggests that H. e. hydara, which occurs across a major mtDNA break, is the ancestral phenotype from which other races have evolved. Based on this assumption, we find no evidence to support the recent suggestion that apparently homologous colour pattern alleles have arisen multiple times.