Anti-Therapeutic Action: cellular damage

A Biorefinery Approach Integrating Lipid and EPS Augmentation Along with Cr (III) Mitigation by Chlorella minutissima

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This research demonstrates that a common freshwater microalga called Chlorella minutissima can effectively remove toxic chromium from contaminated water while simultaneously producing high-quality biodiesel fuel and useful plant compounds. The microalga survives chromium exposure by activating powerful internal defense systems that protect it from oxidative stress. This integrated approach offers a sustainable solution to environmental contamination while generating renewable energy, supporting the transition to a circular economy.

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Efficacy of Lacticaseibacillus rhamnosus probiotic strains in treating chromate induced dermatitis

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This research shows that a beneficial bacteria called Lacticaseibacillus rhamnosus can help treat skin problems caused by chromate exposure, a common hazard for construction workers and factory employees. The bacteria work by reducing toxic chromate to a less harmful form through a special protein called flavin reductase. When tested on mice with chromate-induced skin damage, the probiotic treatment significantly improved skin healing and reduced inflammation. This suggests these beneficial bacteria could offer a safe, natural treatment for occupational skin conditions caused by heavy metal exposure.

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Toxic Effects of p-Chloroaniline on Cells of Fungus Isaria fumosorosea SP535 and the Role of Cytochrome P450

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Scientists discovered a fungus called Isaria fumosorosea that can completely break down p-chloroaniline, a toxic chemical used in dyes and pesticides that pollutes our environment. The fungus works by using special enzymes called cytochrome P450 to degrade the pollutant. This discovery could help clean up contaminated soil and water, though more research is needed to ensure it works safely in real-world environments.

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