A recent study conducted by scientists at ESPOL has unveiled the biotechnological potential of microorganisms from Antarctica ...

The fungus produces a chemical compound called cordycepin, which disrupts the cell growth signals that are often overactive in cancerous cells. Scientists from the University of Nottingham’s School of ...

A new study has researched a chemical compound derived from a unique caterpillar fungus known for its potential as a cancer ... effectively disrupting the signals that promote cell growth. By ...

Cordycepin, a chemical produced by a parasitic fungus that infects the animals, interacts with genes to interrupt cell growth signals. Scientists from the University of Nottingham’s School of ...

Cordycepin, a chemical produced by a parasitic fungus that infects the animals, interacts with genes to interrupt cell growth signals. Scientists from the University of Nottingham’s School of Pharmacy ...

New research into a chemical produced by a caterpillar fungus that has shown promise as a possible cancer treatment has revealed how it interacts with genes to interrupt cell growth signals. The ...

A new study has researched a chemical compound derived from a unique caterpillar fungus known for its potential ... effectively disrupting the signals that promote cell growth.

Researchers at the University of Nottingham have uncovered how cordycepin, a compound derived from the caterpillar fungus Cordyceps militaris, may help disrupt cancer cell growth by targeting ...