Ustilago maydis is a phytopathogenic fungus causing corn smut disease. It also is known for its extreme tolerance to UV- and ionizing radiation. It has not been elucidated whether light-sensing proteins, and in particular photolyases play a role in its UV-tolerance. Based on homology analysis, U. maydis has 10 genes encoding putative light-responsive proteins. Four amongst these belong to the cryptochrome/photolyase family (CPF) and one represents a white collar 1 ortholog (wco1). Deletion mutants in the predicted cyclobutane pyrimidine dimer CPD- and (6-4)-photolyase were impaired in photoreactivation. In line with this, in vitro studies with recombinant CPF proteins demonstrated binding of the catalytic FAD cofactor, its photoreduction to fully reduced FADH(-) and repair activity for cyclobutane pyrimidine dimers (CPDs) or (6-4)-photoproducts, respectively. We also investigated the role of Wco1. Strikingly, transcriptional profiling showed 61 genes differentially expressed upon blue light exposure of wild-type, but only eight genes in the Δwco1 mutant. These results demonstrate that Wco1 is a functional blue light photoreceptor in U. maydis regulating expression of several genes including both photolyases. Finally, we show that the Δwco1 mutant is less tolerant against UV-B due to its incapability to induce photolyase expression.
Keywords: DNA-repair; U. maydis; UV-tolerance; light regulation; photolyase; white collar 1.
© 2015 The Authors. MicrobiologyOpen published by John Wiley & Sons Ltd.