Hypocreales – mycolab.ai

Mitochondrial genome characterization, evolution and intron dynamics of the entomopathogenic genus Cordyceps

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This research examined the genetic instruction manuals (mitochondrial DNA) of seven different Cordyceps fungal species. Scientists found that these fungi have varying amounts of genetic material, primarily due to differences in introns—sections that can be inserted or removed from genes. By comparing their genomes, researchers clarified how different Cordyceps species are related to each other evolutionarily, providing better tools for identifying and classifying these medically valuable fungi.

Two new Cordyceps-like species, Perennicordyceps zongqii sp. nov. (Polycephalomycetaceae) and Purpureocillium zongqii sp. nov. (Ophiocordycipitaceae), in Hypocreales from karst region of China

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Scientists discovered two new types of specialized fungi in the karst regions of China that infect insects and live in soil. These fungi, named Perennicordyceps zongqii and Purpureocillium zongqii, were identified using genetic analysis and microscopic examination. The findings highlight how special cave and valley environments in karst regions support unique fungal species that haven’t been previously documented in these areas.

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

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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.

Morpho-phylogenetic evidence reveals novel hyphomycetous fungi on medicinal plants in Southwestern China

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Scientists discovered twelve new species of fungi growing on medicinal plants in southwestern China. Using microscopy and DNA analysis, researchers identified these fungi and studied how they relate to each other genetically. The study is important because these fungi can affect the quality of herbal medicines that millions of people use worldwide. This research helps protect medicinal plant quality and expands our knowledge of fungi in nature.

Eleven new species of Trichoderma (Hypocreaceae, Hypocreales) from China

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Scientists discovered 11 new species of Trichoderma fungi in China that were isolated from soil and grass plants. These fungi are important because they can produce useful compounds, help control plant diseases, and promote plant growth. The researchers used genetic analysis and microscopy to identify and describe these new species, expanding our knowledge of fungal diversity in China.

Morphological and phylogenetic evidence reveals three new arthropod-associated species of Hypocreales (Clavicipitaceae, Bionectriaceae, and Myrotheciomycetaceae) from karst habitats in Guizhou, China

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Scientists discovered three new species of fungi living on arthropods (insects and spiders) in the karst limestone regions of Guizhou, China. These fungi were identified using both traditional microscopy and modern DNA analysis. The findings add to our understanding of fungal diversity in these unique and threatened ecosystems, and researchers also determined that two previously separated fungal genera should actually be classified as one.

Introducing a global database of entomopathogenic fungi and their host associations

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Scientists have created a global database called EntomoFun 1.0 that brings together information about fungi that naturally infect insects and other arthropods. The database contains nearly 1,800 records of different fungal species and the insects they infect, collected from scientific literature and museum specimens. This resource helps researchers understand where these fungi are found, which insects they target, and how they might be used for pest control or studied for their ecological importance.

Verticillium-like Anamorphic Fungi in Sordariomycetes from Southwestern China: Two New Taxa and a New Record

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Researchers discovered two new fungal species in southwestern China’s rainforests: Leptobacillium gasaense and Ovicillium yunnanense. They also documented the asexual reproductive structures of Muscodor coffeanus, an endophytic fungus known for producing antibiotic compounds. These findings expand our understanding of beneficial fungi that can control pests and diseases in agriculture and forestry.

Introducing a global database of entomopathogenic fungi and their host associations

mycolabadmin

Scientists have created a comprehensive online database called EntomoFun 1.0 that catalogs nearly 1,800 documented cases of fungi that infect insects worldwide. This database brings together information scattered across hundreds of scientific papers and museum collections, showing which fungal species infect which insects and where these interactions occur geographically. This tool will help researchers understand how these fungal pathogens affect insect populations and ecosystems, and may eventually lead to better pest management strategies.

Chemical clues to infection: A pilot study on the differential secondary metabolite production during the life cycle of selected Cordyceps species

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This study examined two types of parasitic fungi (Cordyceps javanica and Cordyceps blackwelliae) that infect insects, comparing how they kill their hosts and what chemical compounds they produce during infection. Researchers found that each species uses different toxic molecules to infect insects, with C. javanica being more deadly and producing diverse compounds called beauveriolides. By analyzing infected insect corpses, scientists provided the first direct evidence that these toxic compounds are actually made during real infections, not just in laboratory cultures.

Research Keyword: Hypocreales