Organization and expression of a-tubulin genes in Drosophila melanogaster: One member of the a-tubulin multigene family is transcribed in both oogenesis and later embryonic development

Abstract

Genomic clones containing α-tubulin sequences were isolated from a library of Drosophila melanogaster DNA and identified by a hybridization-selection and in vitro-translation procedure. The in vitro translation products were identical to the two electrophoretic variants of α-tubulin present in Drosophila embryos. They co-assembled with an embryonic tubulin fraction to form microtubules in vitro and generated the same partial proteolytic fragments as Drosophila α-tubulins. Hybridization in situ to polytene chromosomes revealed that the α-tubulin sequences constitute a multigene family localized on the right arm of chromosome 3 at sites 84 B3–6, 84 D4–8 and 85 E6–10. Clones hybridizing to these sites corresponded to the three major α-tubulin sequences in genomic DNA. The α-tubulin sequences at 84 B3–6 were present twice per haploid genome, embedded in a large duplicated DNA segment. The sequences of the three genomic α-tubulin genes showed considerable divergence, making it possible to conclude that both of the α-tubulin variants present in embryos are encoded by the genes at 84 B3–6. Furthermore, the abundance of this α-tubulin messenger RNA changes with the requirements for microtubule synthesis during embryo development. The genes at 84 B3–6 encoded both the stored maternal mRNA of the oocyte and the major mRNA transcribed during embryonic development.