Nuclear movement is β-tubulin-dependent in Aspergillus nidulans

Abstract

We have examined nuclear transport in Aspergillus nidulans to determine whether microtubles function in the movement of this organelle. Nuclear movement was found to be inhibited in germinating conidia (uninucleate asexual spores) by the microtubule inhibitor benomyl. To show that the benomyl inhibition was due to its effect on microtubules, the test was repeated with mutants which have genetic lesions in β-tubulin which produce resistance to benomyl in one case ( benA15) and super-sensitivity in another ( benA16). Nuclear movement was resistant to benomyl in the strain carrying benA15 and super-sensitive in the strain carrying benAl6. Since altered sensitivity to benomyl in these strains is specifically due to alterations in β-tubulin, these results show that β-tubulin is involved in nuclear movement. To eliminate the possibility that nuclear movement blockage was a secondary consequence of nuclear division blockage, this experiment was repeated with temperature-sensitive nuclear division mutants. At restrictive temperature, nuclear division was blocked in these mutants but nuclear movement was not. In the presence of benomyl, nuclear division and migration were blocked at permissive and restrictive temperatures. Thus nuclear division blockage alone is not sufficient to block nuclear movement. These experiments were corroborated by similar experiments on a temperature-sensitive nuclear movement mutant. Five previously isolated nonallelic temperature-sensitive nuclear movement mutants, nudA-E, were analyzed genetically and found not to be allelic to the benA (β-tubulin) tubA α-tubulin genes.