Journal
YEAST
Volume -, Issue -, Pages -Publisher
WILEY
DOI: 10.1002/yea.3911
Keywords
ammonium; cell cycle; G2/M arrest; Hanseniaspora vineae; quiescense; yeasts
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This study investigates the effects of varying nitrogen concentrations on the cell cycle progression of Hanseniaspora vineae. The findings suggest that nitrogen excess disrupts cell cycle progression and induces G2/M arrest in H. vineae after reaching the stationary phase. Additionally, nitrogen excess leads to a decrease in cell viability and various cellular damages.
Yeasts have been widely used as a model to better understand cell cycle mechanisms and how nutritional and genetic factors can impact cell cycle progression. While nitrogen scarcity is well known to modulate cell cycle progression, the relevance of nitrogen excess for microorganisms has been overlooked. In our previous work, we observed an absence of proper entry into the quiescent state in Hanseniaspora vineae and identified a potential link between this behavior and nitrogen availability. Furthermore, the Hanseniaspora genus has gained attention due to a significant loss of genes associated with DNA repair and cell cycle. Thus, the aim of our study was to investigate the effects of varying nitrogen concentrations on H. vineae's cell cycle progression. Our findings demonstrated that nitrogen excess, regardless of the source, disrupts cell cycle progression and induces G2/M arrest in H. vineae after reaching the stationary phase. Additionally, we observed a viability decline in H. vineae cells in an ammonium-dependent manner, accompanied by increased production of reactive oxygen species, mitochondrial hyperpolarization, intracellular acidification, and DNA fragmentation. Overall, our study highlights the events of the cell cycle arrest in H. vineae induced by nitrogen excess and attempts to elucidate the possible mechanism triggering this absence of proper entry into the quiescent state.
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