Research Keyword: phosphorylation

A Review of Synthetic Access to Therapeutic Compounds Extracted from Psilocybe

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Scientists have discovered that magic mushrooms contain compounds called psilocybin and psilocin that show promise in treating depression and other psychiatric conditions. However, extracting enough of these compounds from mushrooms is difficult, so chemists have developed multiple ways to synthesize them in laboratories. This review examines different chemical and biological methods for producing these therapeutic compounds, from traditional synthesis techniques to modern approaches using special catalysts and enzymes, making these medicines more accessible for clinical research.

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Scalable Hybrid Synthetic/Biocatalytic Route to Psilocybin

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Researchers developed a new method to manufacture psilocybin, a promising therapeutic compound from magic mushrooms being tested to treat depression. Instead of using toxic chemicals, they replaced a difficult chemical step with an enzyme from the mushroom itself called PsiK. This approach produced gram amounts of pure psilocybin efficiently and could eventually lower costs for future medical use.

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GlSlt2 positively regulates GlMyb-mediated cellulose utilization in Ganoderma lucidum

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Scientists discovered how a medicinal mushroom called Ganoderma lucidum breaks down cellulose from plant waste. The study found that a protein called GlSlt2 activates another protein called GlMyb, which then turns on genes that produce cellulase enzymes. These enzymes break down cellulose into sugar that the fungus can use for growth. This discovery could help improve the conversion of agricultural waste into biofuels and other useful products.

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Enhancing the Yield of Pleurotus ostreatus Through the Addition of Nucleotides and Nucleosides

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Researchers discovered that adding nucleotides and nucleosides to oyster mushroom growing medium significantly increases mushroom yield and nutritional value. These compounds enhanced the dietary fiber and amino acid content while helping the mushrooms break down tough plant materials more efficiently. The study suggests that nucleosides are particularly effective and could provide a simpler, safer alternative to traditional mushroom cultivation methods that involve lengthy composting processes.

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Comparative phosphoproteome analysis to identify candidate phosphoproteins involved in blue light-induced brown film formation in Lentinula edodes

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Researchers studied how blue light triggers brown film formation on shiitake mushroom mycelia by analyzing protein modifications called phosphorylation. Using advanced mass spectrometry techniques, they identified thousands of phosphorylation changes in proteins when mushroom mycelia are exposed to blue light. The findings revealed that blue light activates several important processes including light sensing, pigment production, and cell wall degradation, providing insights into how mushrooms develop fruiting bodies in response to light signals.

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The Ptk2-Pma1 pathway enhances tolerance to terbinafine in Trichophyton rubrum

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Researchers discovered that a protein called TrPtk2 helps dermatophytes resist terbinafine, a common antifungal medicine. They found that blocking this protein makes the fungus more susceptible to terbinafine. Additionally, they discovered that omeprazole, a stomach medication approved for human use, can be combined with terbinafine to make it more effective against resistant fungal infections.

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