Research Keyword: sesquiterpene synthase

Chromosome-Scale Genome and Transcriptomic Analyses Reveal Differential Regulation of Terpenoid Secondary Metabolites in Hericium coralloides

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Researchers sequenced the complete genome of Hericium coralloides, an edible medicinal mushroom, at the chromosome level for the first time. They identified genes responsible for producing terpenoids, which are beneficial compounds with antioxidant, anti-inflammatory, and anti-tumor properties. The study found that these beneficial compounds are produced in higher amounts in the mushroom’s mycelium (root-like structure) compared to fruiting bodies, which could help optimize mushroom cultivation for medicinal use.

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Phytohormones and volatile organic compounds, like geosmin, in the ectomycorrhiza of Tricholoma vaccinum and Norway spruce (Picea abies)

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This research examines how a fungus (Tricholoma vaccinum) and spruce tree communicate through chemical signals. The fungus produces unique compounds including geosmin (the earthy smell of soil after rain), limonene (lemon scent), and plant hormones. These chemicals help the fungus and tree establish their beneficial partnership by affecting how the fungus grows and branches around the tree roots. The findings show that these chemical signals are crucial for successful formation of the mycorrhizal relationship.

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Towards engineering agaricomycete fungi for terpenoid production

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Mushroom-forming fungi, particularly species like shiitake and oyster mushrooms, naturally produce valuable compounds called terpenoids used in medicines, food, and cosmetics. Scientists are learning to genetically engineer these fungi to produce even larger amounts of these beneficial compounds, potentially making them as important to biotechnology as baker’s yeast and mold have been historically. This could create new sustainable sources for medicinal compounds and industrial chemicals.

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Bifunctional Sesquiterpene/Diterpene Synthase Agr2 from Cyclocybe aegerita Gives Rise to the Novel Diterpene Cyclocybene

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Scientists discovered that a special enzyme from a mushroom called Cyclocybe aegerita can make two different types of aromatic compounds instead of just one. By growing this enzyme in a different mushroom species that provides better raw materials, researchers identified a completely new compound called cyclocybene. This finding shows that using fungi as hosts for producing useful natural chemicals can work better than traditional bacterial systems, potentially opening new paths for making medicines and fragrances.

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Bifunctional Sesquiterpene/Diterpene Synthase Agr2 from Cyclocybe aegerita Gives Rise to the Novel Diterpene Cyclocybene

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Scientists discovered that a fungal enzyme from the black poplar mushroom (Cyclocybe aegerita) can produce two different types of beneficial compounds called terpenes. Using a baker’s yeast relative as a host organism, they found that the enzyme makes both a known sesquiterpene and an entirely new diterpene compound they named cyclocybene. This discovery shows that fungi can be better factories for producing these valuable compounds than bacteria previously used, opening doors for developing new medicines, fragrances, and biofuels.

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