Summary
The corn pathogen Ustilago maydis requires its host plant maize for development
and completion of its sexual cycle. We have identified the fungal mig2–1
gene as being specifically expressed during this biotrophic stage. Intriguingly,
mig2–1 is part of a gene cluster comprising five highly homologous
and similarly regulated genes designated mig2–1 to mig2–5.
Deletion analysis of the mig2–1 promoter provides evidence for negative
and positive regulation. The predicted polypeptides of all five genes lack significant
homologies to known genes but have characteristic N‐terminal secretion sequences.
The secretion signals of mig2–1 and mig2–5 were shown
to be functional, and secretion of a full length Mig2–1‐eGFP fusion protein
to the extracellular space was demonstrated. The central domains of the Mig2 proteins
are highly variable whereas the C‐termini are strongly conserved and share a characteristic
pattern of eight cysteine residues. The mig2 gene cluster was conserved in
a wide collection of U. maydis strains. Interestingly, some U. maydis
isolates from South America had lost the mig2–4 gene as a result of
a homologous recombination event. Furthermore, the related Ustilago scitaminea
strain, which is pathogenic on sugar cane, appears to lack the mig2 cluster.
We describe a model of how the mig2 cluster might have evolved and discuss its possible role in governing host interaction.
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