endocrine disruptors

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.

Engineering bacterial biocatalysts for the degradation of phthalic acid esters

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Phthalic acid esters (PAEs) are chemicals used to make plastics flexible that can leak into the environment and harm human health. Scientists are engineering bacteria with improved enzymes to break down PAEs more efficiently through a process called bioremediation. The review discusses how bacteria naturally degrade these pollutants and outlines strategies to make this process faster and more practical for cleaning contaminated environments.

Biodegradation of the endocrine-disrupting compound bisphenol F by Sphingobium yanoikuyae DN12

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Scientists discovered a bacterium called Sphingobium yanoikuyae that can break down bisphenol F (BPF), a toxic chemical used in plastics and coatings. The bacterium uses three special enzymes working together like a molecular assembly line to safely degrade BPF into harmless byproducts. This discovery could lead to better methods for cleaning up polluted water and soil contaminated with BPF and similar harmful chemicals.

Oestrogen Detoxification Ability of White Rot Fungus Trametes hirsuta LE-BIN 072: Exoproteome and Transformation Product Profiling

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A type of white rot fungus called Trametes hirsuta can effectively remove harmful oestrogen chemicals from water and soil. The fungus produces special enzymes that break down these hormones into less toxic compounds within just one day. This discovery suggests the fungus could be used as a natural treatment to clean up environmental contamination caused by oestrogens from human waste and pharmaceutical use.

Oestrogen Detoxification Ability of White Rot Fungus Trametes hirsuta LE-BIN 072: Exoproteome and Transformation Product Profiling

mycolabadmin

Scientists discovered that a white rot fungus called Trametes hirsuta can effectively remove harmful oestrogen hormones from water and soil. Within just one day, the fungus eliminated more than 90% of two common oestrogens (E1 and E2) that pollute our environment through pharmaceutical waste and animal farming. The fungus achieves this by producing special enzymes that couple oestrogen molecules together into larger, less harmful compounds that can be easily removed.

Biochar from fungiculture waste for adsorption of endocrine disruptors in water

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Researchers developed a new material called biochar from leftover mushroom growing waste that can effectively remove harmful hormones from water. By heating the mushroom waste to 600°C, they created a porous material with a large surface area that can trap and remove synthetic estrogen and progesterone from contaminated water. Testing showed this biochar removed over 95% of these hormones, making it a promising sustainable solution for cleaning water supplies.

Research Keyword: endocrine disruptors

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

Engineering bacterial biocatalysts for the degradation of phthalic acid esters

Biodegradation of the endocrine-disrupting compound bisphenol F by Sphingobium yanoikuyae DN12

Oestrogen Detoxification Ability of White Rot Fungus Trametes hirsuta LE-BIN 072: Exoproteome and Transformation Product Profiling

Oestrogen Detoxification Ability of White Rot Fungus Trametes hirsuta LE-BIN 072: Exoproteome and Transformation Product Profiling

Biochar from fungiculture waste for adsorption of endocrine disruptors in water