Research Topic: stress response mechanisms

Revealing the metabolic potential and environmental adaptation of nematophagous fungus, Purpureocillium lilacinum, derived from hadal sediment

mycolabadmin

Scientists discovered a special fungus living in the deepest part of the ocean (Mariana Trench) that can survive extreme pressure and produce compounds with disease-fighting properties. This fungus, Purpureocillium lilacinum, showed promise against bacteria, cancer cells, and parasitic worms. The research revealed how this fungus adapts to survive in one of Earth’s most extreme environments, potentially opening new sources for developing medicines and biological pest control.

Read More »

A Possible Involvement of Sialidase in the Cell Response of the Antarctic Fungus Penicillium griseofulvum P29 to Oxidative Stress

mycolabadmin

Scientists studied a fungus from Antarctica to understand how it survives in extremely cold conditions. They discovered that when exposed to cold temperatures, this fungus produces more of an enzyme called sialidase, which appears to help protect cells from damage caused by reactive oxygen molecules. This finding adds to our understanding of how microorganisms adapt and survive in the world’s harshest environments.

Read More »

The effects of biotic stress on the sexual reproduction process of flowering plants

mycolabadmin

When plants get sick from fungal, bacterial, or viral infections or are eaten by insects and parasites, their ability to produce flowers, seeds, and fruits is severely affected. Different pathogens use different tricks to damage reproduction—some speed up flowering to take advantage of the plant quickly, while others slow it down or destroy floral structures directly. Understanding how these pathogens attack plant reproduction helps farmers protect their crops and maintain food production.

Read More »
Scroll to Top