Budding patterns during the cell cycle of the maize smut pathogen Ustilago maydis

Abstract

Haploid sporidia of the dimorphic phytopathogen Ustilago maydis (D.C.) Corda reproduce by budding once each cell cycle. Homogeneous log-phase sporidial cultures were generated by serial passage in liquid culture, and the growth characteristics and percentages of budded cells were determined for the cultures. The characteristics of budding were determined for individual cells by light and electron microscopy. Buds emerged only from the poles of mother cells, and cells could select either a previously used bud site, or a new bud site, each cycle. Time-lapse photomicroscopy indicated that, on solid medium, the first two buds emerged from new cells at a point distal to the site of attachment to the mother cell. In subsequent cell cycles, the buds tended to emerge from alternate poles of the mother cell. The cells used multiple bud sites at each pole. In addition, transmission and scanning electron microscopy revealed a series of annulations (bud scars) at the base of some buds, indicating that cells also used the same budding site many times. This versatility in selecting bud sites indicates that budding likely depends on complex regulatory pathways for determining cellular polarity. Key words: Ustilago maydis, bud, polarity, cell cycle, morphogenesis, yeast.