Mucor circinelloides is an opportunistic dimorphic pathogen, with the dimorphic process controlled in parts by fermentative and oxidative metabolisms, which lead to yeast or mycelial growth, respectively. Dimorphic transition is important for pathogenesis since the mycelium represents the virulent morphology. We previously reported that the deletion of arl1 or arl2 stimulate anaerobic germination in M. circinelloides, suggesting an augmented fermentative metabolism. In the present study, we demonstrate that the heterokaryon Δarl1(+)(-) and homokaryon Δarl2 strains contain low number of mitochondria, which possibly results in a dysfunctional oxidative metabolism, marked by a low oxygen consumption in glucose and poor growth in glycerol as the unique carbon source. This dysfunction is compensated for by an increase in the glycolysis and fermentation in aerobic conditions, demonstrating growth kinetics similar to that in the wild-type strain. Moreover, as a consequence a high fermentative activity, the Δarl1(+)(-) and Δarl2 strains possibly increased the yeast cell growth during low oxygen concentrations in presence of glucose. To the best of our knowledge, this is the first study to demonstrate the control of members of Arf family on the mitochondrial population in a Mucor species.
Keywords: Arf member; Fermentation; Glycolysis; Mitochondria; Mucoral; Virulence.
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