Identification of a gene for β-tubulin in aspergillus nidulans

The tubulins of Aspergillus nidulans have been characterized in wild-type and ben A, B and C benomyl-resistant strains by two-dimensional gel electrophoresis, co-polymerization with porcine brain tubulin and peptide mapping. Four α-tubulins and at least four β-tubulins were resolved by two-dimensional gel electrophoresis of wild-type proteins. Eighteen of 26 benA mutants studied had electrophoretically abnormal β-tubulins. In these strains, one or more of the β-tubulins had either an altered isoelectric point or an altered electrophoretic mobility in the SDS gel dimension, or was diminished in amount. The a-tubulins were normal. Two-dimensional gels of protein extracts of a ben A/wild-type diploid strain demonstrated co-expression of the wild-type β-tubulins with the variant ben A tubulin. This experiment rules out post-translational modification as the source of the β-tubulin abnormalities in the benA mutants. We therefore conclude that benA must be a structural gene for β-tubulin. Due to the variety of abnormalities affecting β-tubulins in ben A mutants, and the absence of abnormalities affecting α-tubulins in any of the benomyl-resistant mutants, we also believe that the benomyl binding site must be located on the β-subunit of the tubulin dimer. The benA mutants of A. nidulans promise to be useful not only for characterizing the biochemical determinants of the benomyl binding site of tubulin but also for understanding the relationship between tubulin structure and function.