Research Keyword: network pharmacology

Synergistic target network construction and dynamic simulation analysis based on a prospective systems pharmacology strategy

mycolabadmin

Researchers used computer-based methods to study how Sang Huang, a traditional medicinal fungus, might help treat type 2 diabetes. They identified 17 active compounds in the fungus and found that a key component called estradiol dipropionate could improve insulin sensitivity and glucose control by activating specific protein pathways. The study suggests Sang Huang could be a promising natural treatment for diabetes, though more laboratory and animal testing is needed.

Read More »

Isolation and Antioxidant Mechanism of Polyphenols from Sanghuangporous vaninii

mycolabadmin

Researchers found that a medicinal mushroom called Sanghuangporous vaninii grown on mulberry sawdust in China contains exceptionally high levels of polyphenols—powerful antioxidant compounds. They isolated and purified a particularly potent polyphenol mixture called HNMS3, which contains 33 different compounds. Through advanced molecular analysis, they discovered that HNMS3 works by activating eight key proteins in the body to fight oxidative stress, making it potentially beneficial for brain health and preventing nerve degeneration.

Read More »

Advances in Fungal Natural Products: Insights into Bioactivity and Therapeutic Potential

mycolabadmin

Medicinal mushrooms and fungi contain powerful natural chemicals that can boost immunity, reduce inflammation, fight cancer, and protect the brain. Scientists are now better able to identify and study these compounds using advanced techniques, and some are being tested as supplements or alongside traditional medicines. This research shows that mushrooms could become important tools in treating diseases like inflammatory bowel disease, rheumatoid arthritis, and cancer.

Read More »

Quest for Anti-SARS-CoV-2 antiviral therapeutics: in-silico and in-vitro analysis of edible mushroom- Cordyceps militaris

mycolabadmin

Researchers tested an edible mushroom called Cordyceps militaris to see if it could fight SARS-CoV-2, the virus that causes COVID-19. Using computer modeling and laboratory experiments, they found that a compound in the mushroom called cordycepin strongly attached to the virus’s spike protein and reduced viral numbers by about 50% in cell cultures. The study supports traditional uses of this mushroom and suggests it could be helpful in managing COVID-19 as the disease becomes endemic.

Read More »
Scroll to Top