Biotransformation – mycolab.ai

Current status and future prospects of microalgae-based degradation of spent lubricant oil hydrocarbon towards environmental sustainability: a mini review and bibliometric analysis

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Spent oil waste from cars and industries is a major environmental problem that traditional cleanup methods struggle to handle. This review shows that microalgae, tiny organisms that are already used for various purposes, can effectively break down the harmful chemicals in used oil. A bibliometric analysis reveals that scientists worldwide, especially in China, are increasingly researching this promising green solution to clean up oil pollution in soil and water.

Biotransformation of Pesticides across Biological Systems: Molecular Mechanisms, Omics Insights, and Biotechnological Advances for Environmental Sustainability

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This review explains how living organisms like bacteria, plants, and animals break down pesticides through biological processes called biotransformation. The body uses special enzymes to transform pesticides into forms that are easier to eliminate. Understanding these natural cleanup processes helps scientists develop better strategies to remove pesticide pollution from soil and water, protecting both human health and ecosystems.

Baicalein as a potent antifungal agent against Candida albicans: synergy with fluconazole and sustainable production through probiotic-mediated bioconversion

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Baicalein, a natural compound from a traditional medicinal plant, is significantly more effective at fighting Candida albicans infections than its parent compound baicalin. When combined with the common antifungal drug fluconazole, baicalein creates a powerful synergistic effect that is especially useful against drug-resistant fungal strains. Scientists discovered that a beneficial probiotic bacterium, Lactobacillus rhamnosus, can efficiently convert the abundant baicalin into baicalein, providing a sustainable and safe way to produce this potent antifungal compound at scale.

Amelioration of Ulcerative Colitis in BALB/c Mice by Probiotic-Fermented Aegle marmelos Juice

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Researchers tested a fermented bael fruit juice with probiotics as a treatment for ulcerative colitis in mice. The mice treated with this juice showed significant improvement in weight recovery, reduced inflammation markers, and increased antioxidant protection compared to untreated diseased mice. The fermentation process increased the beneficial compounds in the juice. These results suggest that probiotic-fermented bael fruit juice could be a natural and effective treatment option for people with ulcerative colitis.

Harnessing Aspergillus fumigatus for Sustainable Development: Biotechnological and Industrial Relevance

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Aspergillus fumigatus is a fungus commonly known for causing lung infections, but scientists have discovered it can be harnessed for environmentally friendly industrial processes. This fungus produces powerful enzymes useful in making biofuels, detergents, and textiles, and can even create tiny nanoparticles with antibacterial properties. By leveraging these capabilities while developing safer strains through genetic engineering, this fungus could play a major role in sustainable development and circular economy initiatives.

Fungal biodegradation of chlorinated herbicides: an overview with an emphasis on 2,4-D in Argentina

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Fungi can effectively break down and remove harmful herbicides like 2,4-D, which is widely used in Argentine agriculture but poses health and environmental risks. Through their powerful enzymatic machinery, certain fungal species can degrade these toxic chemicals into less harmful substances. This review examines how these fungal degradation processes work and discusses how such fungi might be safely introduced into contaminated environments to clean them up, following Argentina’s regulatory requirements.

Innovative Approaches and Evolving Strategies in Heavy Metal Bioremediation: Current Limitations and Future Opportunities

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Heavy metals like lead, mercury, and arsenic accumulate in soil and water, harming both ecosystems and human health. Traditional cleanup methods are expensive and harmful to the environment. Scientists are developing biological solutions using microorganisms and special plants that can absorb or break down these toxic metals, combined with genetic engineering and nanotechnology to make the process faster and more effective.

Advances in the Degradation of Polycyclic Aromatic Hydrocarbons by Yeasts: A Review

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This review explores how yeasts, tiny single-celled fungi, can clean up environments contaminated with polycyclic aromatic hydrocarbons (PAHs) – harmful chemicals produced by car emissions, factories, and burning. These yeasts use special enzymes to break down these toxic compounds into less harmful substances, making them a promising natural solution for environmental cleanup. Scientists are also improving these yeasts through genetic engineering to make them even more effective at removing pollution.

Research progress of edible mushroom polysaccharide-metal trace element complexes

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This research reviews how edible mushroom polysaccharides can be combined with essential metals like iron, selenium, and zinc to create health-boosting supplements. These complexes improve how our bodies absorb and use these important minerals, offering benefits like better immune function, antioxidant protection, and potential cancer-fighting properties. Scientists are studying different ways to make these complexes and testing their effectiveness for treating various health conditions.

Dynamic changes of nutrients, isoflavone composition and antioxidant activities during liquid-state fermentation of soybean embryo homogenate by Ganoderma lucidum

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Researchers fermented soybean embryo using Ganoderma lucidum mushroom to create a more nutritious and better-tasting food product. During fermentation, the mushroom’s enzymes broke down hard-to-digest compounds and converted isoflavones into more absorbable forms while dramatically increasing antioxidant activity. The fermented product showed 8-fold higher antioxidant power and reduced unpleasant flavors, making soybean embryo a viable functional food ingredient.

Research Keyword: Biotransformation