THE USE OF PROTEIN‐SEROLOGICAL CHARACTERS IN THE SYSTEMATICS OF THE FAMILY OLEACEAE

Serological analyses of soluble seed proteins of 12 representative taxa of the family Oleaceae by the techniques of Ouchterlony, presaturation, and immunoelectrophoresis (IEP) yielded complementary taxonomic information. Ouchterlony reactions differentiated among protein extracts of three species, and the combined serological techniques permitted the detection of protein differences of respective taxa of the two subfamilies Jasminoideae and Oleoideae. IEP enabled the separation of the 12 taxa investigated and the distribution into the two subfamilies, by the differential electrophoretic positions of precipitin arcs, which were consistent with members of each of the two subfamilies. Presaturation data, when analyzed by two cluster analysis computer programs, were taxonomically significant. One program, which calculated amalgamation distances from the presaturation data, clustered the 12 taxa into subgroups which corresponded to tribes, and within two groups, which corresponded to two subfamilies. A monothetic clustering program provided theoretical information on evolution of taxa within the family Oleaceae based on serological correspondences obtained from the presaturation data; the subfamily Jasminoideae was found phylogenetically primitive and the subfamily Oleoideae was advanced. Additionally, IEP data supported those theories suggesting that taxa of the Oleoideae evolved from taxa of the Jasminoideae. The groupings of taxa and different information obtained from the cluster analyses of data and all serological techniques reinforced each other, as well as contemporary taxonomic and phylogenetic treatments of taxa of the family Oleaceae. This research demonstrated the taxonomic value of protein‐serological data, particularly as applied to the taxonomy of the Oleaceae.