Research Keyword: Clavicipitaceae

Draft genome of Conoideocrella luteorostrata ARSEF 14590 (Clavicipitaceae), an entomopathogenic fungus with a wealth of biosynthetic and biocontrol potential

mycolabadmin

Scientists have sequenced the complete genome of a fungus that naturally kills elongate hemlock scale insects, pests that damage Christmas trees. The fungus contains genes for producing cephalosporin, a well-known antibiotic, and other bioactive compounds. This discovery opens new possibilities for using this fungus as a natural pest control method and potentially developing new medicines from its biological compounds.

Read More »

Five New Hypocrealean Species from Algae and Sediment in the Intertidal Zones of China

mycolabadmin

Scientists discovered five new types of fungi living in ocean sediments and seaweed along China’s coasts. These fungi belong to a group called Hypocrealeans that can live in many different environments and have various ecological roles. By studying their physical characteristics and DNA, researchers confirmed these are previously unknown species and documented them as new additions to science.

Read More »

New entomopathogenic species in the Clavicipitaceae family (Hypocreales, Ascomycota) from the subtropical forests of Fujian, China

mycolabadmin

Scientists discovered four new or newly recorded fungal species in the forests of Fujian, China that infect insects and could potentially be used for natural pest control. These fungi belong to a family called Clavicipitaceae and were identified using advanced genetic analysis combined with microscopic examination. The findings demonstrate that there is still much to discover about fungal diversity in Chinese subtropical forests, which could help develop more environmentally friendly pest management strategies.

Read More »

Five New Hypocrealean Species from Algae and Sediment in the Intertidal Zones of China

mycolabadmin

Scientists discovered five new types of fungi living in the ocean and sandy/muddy shores of China. These fungi were found in seaweed and seafloor sediments and were identified using both traditional microscopy and modern genetic analysis. The study shows that ocean environments in China likely contain many more species of fungi than previously documented. These fungi have various ecological roles including breaking down organic matter, and some species in related groups are being studied for uses in food production, medicine, and pest control.

Read More »
Scroll to Top