therapeutic action: Infection prevention

Genotype-by-genotype interactions reveal transcription patterns underlying resistance responses in Norway spruce to Heterobasidion annosum s.s

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This study examined how different types of Norway spruce trees respond to infection by a fungus that causes root rot. Researchers found that the spruce tree’s genetics are more important than the fungus’s virulence in determining disease severity. Resistant tree clones activate specific defense genes early in infection, particularly genes related to pathogen recognition, while susceptible trees mount a delayed and broader response. Understanding these genetic differences could help with breeding more resistant trees for forests.

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Antifungal Effects of Pterostilbene on Candida albicans, Candida dubliniensis, and Microcosm Biofilms of Denture Stomatitis

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Pterostilbene, a natural compound found in blueberries and grapes, has been shown to effectively kill Candida fungi that cause denture-related mouth infections. In laboratory tests, it successfully eliminated fungal cells and disrupted harmful biofilms within 8 hours. When tested in a living organism model, pterostilbene proved safe and reduced infection severity, suggesting it could be a promising natural alternative to conventional antifungal medications.

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Clinical Mycology Today: Emerging Challenges and Opportunities

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Fungal infections are becoming more common due to new cancer treatments and other medical advances, while some fungal species are developing resistance to standard antifungal medications. The good news is that several new antifungal drugs are in development with better safety profiles and novel mechanisms to fight these infections. However, the field faces challenges including limited specialized mycologists and difficulty designing clinical trials to properly test new treatments.

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