Abstract
Dimorphic yeasts transform into filamentous cells or hyphae in response to environmental cues. The mechanisms for the hyphal transition of dimorphic yeasts have mainly been studied in Candida albicans, an opportunistic human fungal pathogen. The Ras1-MAPK pathway is a major signal transduction pathway for hyphal transition in C. albicans. Recently, the non-pathogenic dimorphic yeast Schizosaccharomyces japonicus has also been used for genetic analyses of hyphal induction. We confirmed that Ras1-MAPK and other MAPK pathways exist in Sz. japonicus. To examine how hyphal transition is induced by environmental stress-triggered signal transduction, we studied the hyphal transition of deletion mutants of MAPK pathways in Sz. japonicus. We found that the MAPK pathways are not involved in hyphal induction, although the mating response is dependent on these pathways. However, only Ras1 deletion caused a severe defect in hyphal development via both DNA damage and environmental stressors. In fact, genes on the Cdc42 branch of the Ras1 (Ras1-Cdc42) pathway, efc25Sj, scd1Sj and scd2Sj, are required for hyphal development. Cell morphology analysis indicated that the apical growth of hyphal cells was inhibited in Ras1-Cdc42-pathway deletion mutants. Thus, the control of cell polarity by the Ras1-Cdc42 pathway is crucial for hyphal development.
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