The Aspergillus nidulans swoC1 Mutant Shows Defects in Growth and Development

The Aspergillus nidulans swoC1 Mutant Shows Defects in Growth and Development

Xiaorong Lin^a and Michelle Momany^a
^a Department of Plant Biology, University of Georgia, Athens, Georgia 30602

Corresponding author: Michelle Momany, 2502 Plant Sciences, University of Georgia, Athens, GA 30605., momany{at}plantbio.uga.edu (E-mail)

Communicating editor: M. SACHS

Previous work identified swoC1 as a single-gene mutant withdefects in polarity establishment. In this study swoC1 was shownto have defects in endocytosis, compartmentation, nuclear distribution,and conidiation. Temperature-shift experiments showed that theswoC1 mutant establishes multiple random sites of germ tubeemergence. Surprisingly, these experiments also showed thateven a slight delay in polarity establishment causes defectsin later vegetative growth and asexual reproduction. The swoCgene was mapped to the centromere of chromosome III and clonedby complementation of the temperature-sensitive phenotype. Thepredicted SwoCp is homologous to rRNA pseudouridine synthasesof yeast (Cbf5p) and humans (Dkc1p). However, neither rRNA pseudouridinesynthesis nor rRNA processing appears to be affected in theswoC1 mutant. The swoC1 mutation occurs in the putative RNA-bindingdomain upstream of the C terminus, leaving the N-terminal TRUBcatalytic domain intact. Interestingly, while deletion of theswoC gene was lethal in A. nidulans, the C terminus, includingNLS, microtubule-binding, and coiled-coil domains, was dispensablefor growth. SwoCp likely plays an important role in polar growthand nuclear distribution in A. nidulans, functions not yet describedfor its homologs.

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