Research Keyword: shikimate pathway

Genetic regulation of l-tryptophan metabolism in Psilocybe mexicana supports psilocybin biosynthesis

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Researchers studied how magic mushrooms (Psilocybe mexicana) regulate their chemistry to produce psilocybin, the psychoactive compound. They found that when mushrooms start fruiting, they turn on genes that make tryptophan (an amino acid building block) and turn off genes that break it down, directing all the tryptophan toward psilocybin production. This coordinated genetic control ensures the mushroom has enough of this key ingredient. This knowledge could help grow these mushrooms in labs for legitimate medical research into treating depression.

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Genetic regulation of l-tryptophan metabolism in Psilocybe mexicana supports psilocybin biosynthesis

mycolabadmin

Researchers studied how magic mushrooms (Psilocybe mexicana) control their chemical processes to make psilocybin. They found that when mushrooms start producing psilocybin, they turn on genes that make more of an amino acid called tryptophan, while turning off genes that would break it down. They also discovered and studied an enzyme that helps control tryptophan use. This understanding could help grow these mushrooms with more consistent psilocybin levels for legitimate medical research into treating depression.

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A broadly conserved fungal chorismate mutase targets the plant shikimate pathway to regulate salicylic acid production and other secondary metabolites

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Fungal pathogens produce proteins called effectors that help them infect plants. This study discovered that a fungus called Sclerotinia sclerotiorum produces an effector that enters plant cells and travels to chloroplasts. Unlike similar effectors in other fungi, this protein increases the production of salicylic acid, a plant defense hormone, while reducing other protective compounds. This creates conditions favorable for the fungus to establish infection.

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