phylogenetic analysis – Page 38

Morpho-phylogenetic evidence reveals novel species and new records of Torula (Torulaceae, Pleosporales) from medicinal plants in China

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Researchers discovered two new species of fungi (Torula dispora and Torula strychnicola) living on medicinal plants in China. These fungi, which break down dead plant material, were identified using both physical characteristics and genetic analysis. The study also documented three additional species of Torula fungi on medicinal plants for the first time, suggesting that medicinal plants harbor greater fungal diversity than previously known.

Bioactivity and chemical screening of endophytic fungi associated with seaweeds Gracilaria sp. and Sargassum sp. of the Bay of Bengal, Bangladesh

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Researchers discovered several types of fungi living inside seaweed from Bangladesh’s Bay of Bengal coast. These fungi produce natural compounds that can fight bacteria, reduce harmful oxidative damage, and potentially kill cancer cells. The study identified specific chemical compounds responsible for these beneficial properties, suggesting these fungi could be useful sources for developing new medicines.

Morpho-molecular analyses reveal two novel species and two new records of Dictyosporiaceae (Pleosporales) from Dulongjiang River in northwestern Yunnan Province, China

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Scientists discovered and identified four new or newly recorded fungal species from a river in China’s Yunnan Province. These fungi, belonging to the Dictyosporiaceae family, were found growing on submerged wood in the Dulongjiang River. By combining detailed microscopic observation with genetic analysis, researchers confirmed two completely new species and two species not previously recorded in this region, expanding our understanding of freshwater fungal diversity.

Two new fungal genera (Diaporthales) found on Dipterocarpaceae in Thailand

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Researchers studying fungal diversity in Thailand discovered two entirely new types of fungi living on Dipterocarpaceae trees, which are economically important trees that produce lumber and resin. Using a combination of microscopic examination and DNA analysis, they identified and named these new fungi as Pulvinaticonidioma hyalinum and Subellipsoidispora guttulata. This discovery suggests that many more fungal species remain unknown, especially on plants that haven’t been extensively studied for their fungal communities.

Identification of a Novel Pathogen of Peanut Root Rot, Ceratobasidium sp. AG-A, and the Potential of Selected Bacterial Biocontrol Agents

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Scientists in China discovered a new fungal disease causing peanut root rot, identified as Ceratobasidium sp. AG-A. They tested three types of beneficial bacteria as natural pest control agents and found they effectively inhibited the disease-causing fungus while promoting peanut plant growth. These findings offer farmers an environmentally friendly alternative to chemical fungicides for managing this newly identified threat to peanut crops.

Ectophoma salviniae sp. nov., Neottiosporina mihintaleensis sp. nov. and four other endophytes associated with aquatic plants from Sri Lanka and their extracellular enzymatic potential

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Scientists in Sri Lanka discovered and identified six species of fungi living inside aquatic plants from freshwater lakes. Two of these were entirely new species never documented before. The researchers found that these fungi produce different enzymes that could break down starches, cellulose, and other complex molecules, which might have useful applications in biotechnology and other industries.

Exploring Fungal Diversity in Marine Plastic (PET) Wastes and Seafoam in Udo Island, South Korea, with Reports of Two New Species

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Researchers collected fungi from plastic waste and seafoam on a South Korean island and identified 45 different types, including two completely new species never described before. These findings show that marine fungi are diverse and may help break down plastic or participate in ocean nutrient cycling. The study highlights how even seemingly temporary habitats like seafoam and pollution sources like plastic waste can harbor unique and important fungal communities.

Identification, characterization, antimicrobial activity and biocontrol potential of four endophytic fungi isolated from Amazonian plants

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Scientists isolated four types of fungi living inside the leaves of medicinal plants from the Amazon region of Bolivia. These fungi produce natural compounds that kill harmful bacteria and fungi that damage potato crops. The findings show promise for developing natural alternatives to synthetic pesticides and antibiotics for agricultural and medical applications.

The subfamily Chalciporoideae (Boletaceae, Boletales) in China

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Researchers conducted a comprehensive study of a group of small fungi called Chalciporoideae found throughout China. They discovered four new species and confirmed the presence of 16 different species total using both physical characteristics and DNA analysis. Some of these fungi have interesting properties, like being edible or having potential for mushroom farming. The study provides detailed descriptions and identification keys to help scientists and enthusiasts identify these fungi in the future.

Identification and functional analysis of the SET domain-containing gene family in Cordyceps militaris

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Researchers identified 22 genes in the medicinal fungus Cordyceps militaris that control how genetic information is accessed through histone modifications. By studying how these genes respond to salt and amino acid treatments, they found that two specific genes (CmSET14 and CmSET16) are linked to cordycepin production, a compound with potential anti-cancer properties. When these genes were enhanced in the fungus, cordycepin production increased significantly, offering a new strategy to boost production of this valuable medicinal compound.

Research Keyword: phylogenetic analysis