Journal of Molecular Evolution

, Volume 38, Issue 5, pp 443–454

Phylogeny of Drosophila and related genera inferred from the nucleotide sequence of the Cu,Zn Sod gene

  • Jan Kwiatowski
  • Douglas Skarecky
  • Kevin Bailey
  • Francisco J. Ayala
Article

DOI: 10.1007/BF00178844

Cite this article as:
Kwiatowski, J., Skarecky, D., Bailey, K. et al. J Mol Evol (1994) 38: 443. doi:10.1007/BF00178844

Abstract

The phylogeny and taxonomy of the drosophilids have been the subject of extensive investigations. Recently, Grimaldi (1990) has challenged some common conceptions, and several sets of molecular data have provided information not always compatible with other taxonomic knowledge or consistent with each other. We present the coding nucleotide sequence of the Cu,Zn superoxide dismutase gene (Sod) for 15 species, which include the medfly Ceratitis capitata (family Tephritidae), the genera Chymomyza and Zaprionus, and representatives of the subgenera Dorsilopha, Drosophila, Hirtodrosophila, Scaptodrosophila, and Sophophora. Phylogenetic analysis of the Sod sequences indicates that Scaptodrosophila and Chymomyza branched off the main lineage before the major Drosophila radiations. The presence of a second intron in Chymomyza and Scaptodrosophila (as well as in the medfly) confirms the early divergence of these two taxa. This second intron became deleted from the main lineage before the major Drosophila radiations. According to the Sod sequences, Sophophora (including the melanogaster, obscura, saltans, and willistoni species groups) is older than the subgenus Drosophila; a deep branch splits the willistoni and saltans groups from the melanogaster and obscura groups. The genus Zaprionus and the subgenera Dorsilopha and Hirtodrosophila appear as branches of a prolific “bush” that also embraces the numerous species of the subgenus Drosophila. The Sod results corroborate in many, but not all, respects Throckmorton's (King, R.C. (ed) Handbook of Genetics. Plenum Press, New York, pp. 421–469, 1975) phylogeny; are inconsistent in some important ways with Grimaldi's (Bull. Am. Museum Nat. Hist.197:1–139, 1990) cladistic analysis; and also are inconsistent with some inferences based on mitochondrial DNA data. The Sod results manifest how, in addition to the information derived from nucleotide sequences, structural features (i.e., the deletion of an intron) can help resolve phylogenetic issues.

Key words

Superoxide dismutase gene Drosophila phylogeny Nucleotide sequence Medfly Ceratitis capitata Intron evolution G + C content 

Copyright information

© Springer-Verlag 1994

Authors and Affiliations

  • Jan Kwiatowski
    • 1
    • 2
  • Douglas Skarecky
    • 1
  • Kevin Bailey
    • 1
  • Francisco J. Ayala
    • 1
  1. 1.Department of Ecology and Evolutionary BiologyUniversity of CaliforniaIrvineUSA
  2. 2.Institute of Botany, Warsaw UniversityWarsawPoland

Personalised recommendations