Disease: cancer risk

Exploring the Potential of Fungal Biomass for Bisphenol A Removal in Aquatic Environments

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Researchers discovered that mushroom fruiting bodies can effectively remove bisphenol A (BPA), a harmful plastic component, from water. Five mushroom species were particularly efficient, removing between 72-82% of BPA from solutions. The mushroom biomass works best at room temperature and neutral pH, can be reused multiple times after treatment with ethanol, and could potentially clean enormous volumes of contaminated water using small amounts of material.

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Assessment of Heavy Metals in Mexican Dietary Supplements Using Total X-Ray Fluorescence Spectrometry and Health Risk Evaluation

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Mexican dietary supplements commonly contain toxic heavy metals like lead, arsenic, and chromium. While individual metal levels in most supplements appeared safe when consumed alone, the cumulative exposure from multiple metals could increase cancer risk over a lifetime. The study found that some popular supplements, particularly those marketed for weight loss and blood detoxification, contained concerning metal levels, especially seaweed-based products and animal-origin supplements. Better regulation and labeling of dietary supplements in Mexico is urgently needed to protect consumers from long-term health risks.

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Arsenic Stress Resistance in the Endophytic Fungus Cladosporium cladosporioides: Physiological and Transcriptomic Insights into Heavy Metal Detoxification

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A special fungus called Cladosporium cladosporioides, found living inside the roots of Gentiana yunnanensis (a traditional Chinese medicine herb), can tolerate extremely high levels of arsenic. Researchers discovered that this fungus protects itself from arsenic poisoning by storing arsenic mostly in its cell walls, converting toxic arsenic into less harmful forms, and activating its antioxidant defense systems. This discovery could help reduce arsenic contamination in medicinal herbs and lead to new methods for cleaning arsenic-polluted soil.

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Isolation and Identification of Aspergillus spp. from Rotted Walnuts and Inhibition Mechanism of Aspergillus flavus via Cinnamon Essential Oil

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Researchers collected rotted walnuts from storage in Shanxi, China and identified five types of Aspergillus fungi contaminating them, with Aspergillus flavus being the most common. They tested cinnamon essential oil as a natural antifungal treatment and found it effectively stopped fungal growth by damaging the fungi’s cell membranes and causing oxidative stress. This research suggests cinnamon essential oil could be used as a safe, natural alternative to chemical fungicides for preserving walnuts and other foods from fungal spoilage.

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