mitochondrial membrane potential

Cinchona-based liquid formulation exhibits antifungal activity through Tryptophan starvation and disruption of mitochondrial respiration in Rhizoctonia Solani

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Scientists discovered that a liquid extract from Cinchona bark, which contains quinine, can effectively kill a fungus that damages rice crops. The treatment works by blocking the fungus’s ability to absorb tryptophan (an important amino acid) and damaging its energy-producing mitochondria. When tryptophan was added back to the treatment, the fungus recovered, confirming this is the main way the extract works. This natural, plant-based approach could provide an eco-friendly alternative to chemical fungicides while reducing the risk of the fungus developing resistance.

Immunometabolic reprogramming in macrophages infected with active and dormant Cryptococcus neoformans: differential modulation of respiration, glycolysis, and fatty acid utilization

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Researchers discovered that when fungal yeast cells enter a dormant state inside immune cells, they trigger different metabolic changes compared to actively growing yeast. While active yeast pushes immune cells to work harder metabolically, dormant yeast causes minimal stress but increases fat uptake by immune cells. This difference may explain how some fungal infections can remain hidden in the body for long periods without causing symptoms.

Immunometabolic reprogramming in macrophages infected with active and dormant Cryptococcus neoformans: differential modulation of respiration, glycolysis, and fatty acid utilization

mycolabadmin

This research examines how immune cells (macrophages) respond differently to active versus dormant forms of a dangerous fungus called Cryptococcus neoformans. The dormant form causes the immune cells to accumulate fatty acids differently than the active fungus, which may help the fungus establish long-term infections. Understanding these differences could lead to better treatments for cryptococcal infections, which are particularly dangerous for immunocompromised individuals.

Research Keyword: mitochondrial membrane potential

Cinchona-based liquid formulation exhibits antifungal activity through Tryptophan starvation and disruption of mitochondrial respiration in Rhizoctonia Solani

Immunometabolic reprogramming in macrophages infected with active and dormant Cryptococcus neoformans: differential modulation of respiration, glycolysis, and fatty acid utilization

Immunometabolic reprogramming in macrophages infected with active and dormant Cryptococcus neoformans: differential modulation of respiration, glycolysis, and fatty acid utilization