Abstract
The relationship between changes in cyclic AMP content and germ tube formation in exponential phase Candida albicans was investigated using two simple media containing glucose plus ammonium chloride, or N-acetyl-D-glucosamine (GlcNAc). The glucose medium did not promote germ tube formation unless the cells were starved before inoculation, whereas the GlcNAc medium promoted germ tube formation in both non-starved and starved cells. The cyclic AMP content of exponential phase cells, non-starved cells and starved cells was 0·21, 0·34 and 0·64 pmol mg-1 dry wt, respectively. In glucose medium, cyclic AMP content in both non-starved cells and starved cells increased for a period of 60 min after inoculation, but then decreased for a further 120 min. The cyclic AMP content of non-starved cells and starved cells was 0·16 and 0·29 pmol mg-1 dry wt, respectively, after 180 min. The maximum percentage of non-starved cells with germ tubes was around 20%. Starved cells with germ tubes were observed after 40 min and reached a maximum (around 90%) after 140 min. The number of germ tubes remained constant for the next 40 min. In GlcNAc medium, the cyclic AMP content of both non-starved cells and starved cells showed a tendency to increase for 180 min. The content of non-starved cells and starved cells was 2·02 and 1·75 pmol mg-1 dry wt, respectively, after 180 min. Germ tube formation in non-starved cells started after 70 min, reached around 80% after 150 min, and remained stable for the next 30 min. In starved cells, germ tube formation started after 60 min, reached around 80% after 120 min, and was over 90% after 180 min.