cell wall modification

Fungal graviresponses: Physiological and molecular insights from tissue reorientation in the gravity vector

mycolabadmin

Fungi can sense gravity and grow in specific directions to help disperse their spores effectively. They use several different biological ‘sensors’ like protein crystals and fat droplets that shift with gravity, triggering growth changes. This review explains how these sensing systems work at the cellular and molecular levels, and why understanding them matters for growing mushrooms and studying biology in space.

Nitric Oxide-Mediated Regulation of Chitinase Activity and Cadmium Sequestration in the Response of Schizophyllum commune to Cadmium Stress

mycolabadmin

Schizophyllum commune is an edible mushroom with health benefits, but cadmium pollution threatens both the fungus and human health. Researchers discovered that when exposed to cadmium, the mushroom produces a signaling molecule called nitric oxide that makes its cell wall enzymes more active, causing cadmium to accumulate in the cell wall and damaging the fungus. By controlling nitric oxide levels, scientists could potentially make these fungi more resistant to heavy metal pollution and safer for consumption.

Research Topic: cell wall modification

Fungal graviresponses: Physiological and molecular insights from tissue reorientation in the gravity vector

Nitric Oxide-Mediated Regulation of Chitinase Activity and Cadmium Sequestration in the Response of Schizophyllum commune to Cadmium Stress