EVOLUTION OF ALLORECOGNITION IN BOTRYLLID ASCIDIANS INFERRED FROM A MOLECULAR PHYLOGENY.

Despite the functional and phyletic ubiquity of highly polymorphic genetic recognition systems, the evolution and maintenance of these remarkable loci remain an empirical and theoretical puzzle. Many clonal invertebrates use polymorphic genetic recognition systems to discriminate kin from unrelated individuals during behavioral interactions that mediate competition for space. Space competition may have been a selective force promoting the evolution of highly polymorphic recognition systems, or preexisting polymorphic loci may have been coopted for the purpose of mediating space competition. Ascidian species in the family Botryllidae have an allorecognition system in which fusion or rejection between neighboring colonies is controlled by allele-sharing at a single, highly polymorphic locus. The behavioral sequence involved in allorecognition varies in a species-specific fashion with some species requiring extensive intercolony tissue integration prior to the allorecognition response, while other species contact opposing colonies at only a few points on the outer surface before resolving space conflicts. Due to an apparent species-specific continuum of behavioral variation in the degree of intercolony tissue integration required for allorecognition, this system lends itself to a phylogenetic analysis of the evolution of an allorecognition system. We constructed a molecular phylogeny of the botryllids based on 18S rDNA sequence and mapped allorecognition behavioral variation onto the phylogeny. Our phylogeny shows the basal allorecognition condition for the group is the most internal form of the recognition reaction. More derived species show progressively more external allorecognition responses, and in some cases loss of some features of internal function. We suggest that external allorecognition appears to be a secondary function of a polymorphic discriminatory system that was already in place due to other selective pressures such as gamete, pathogen, or developmental cell lineage recognition. © 1998 The Society for the Study of Evolution.