N/A – mycolab.ai

Characterization of C16–C36 alkane degradation and oily sludge bioremediation by Rhodococcus erythropolis XP

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This research describes a highly effective bacterium, Rhodococcus erythropolis XP, that can break down the persistent oily components found in petroleum pollution. The strain can degrade oil alkanes ranging from 16 to 36 carbon atoms in length, making it superior to most other known oil-degrading bacteria. Researchers also developed a faster analytical method to detect and measure alkane degradation and identified a key enzyme that helps the bacteria metabolize these contaminants.

Valorization of Quercus suber L. Bark as a Source of Phytochemicals with Antimicrobial Activity against Apple Tree Diseases

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This research shows that waste cork from bottle stopper production contains natural compounds with strong antimicrobial properties. When combined with chitosan oligomers, these cork extracts effectively inhibit fungal and bacterial pathogens that damage apple trees. The natural antimicrobial activity was even more potent than some commercial synthetic fungicides, suggesting cork waste could provide an environmentally sustainable alternative for protecting fruit crops.

The Role of Plant Extracts in Enhancing Nutrition and Health for Dogs and Cats: Safety, Benefits, and Applications

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This review examines how plant-based supplements like tea extracts, curcumin, and quercetin can improve the health of pet dogs and cats. These natural compounds act as antioxidants and anti-inflammatory agents, supporting gut health, immune function, and overall wellness in companion animals. While generally safe when properly dosed, cats and dogs metabolize these compounds differently, requiring species-specific dosing strategies to maximize benefits and minimize risks.

Two Cases of Curvularia geniculata Keratitis Successfully Treated with Natamycin-Based Therapy

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This report describes two patients who developed rare fungal eye infections caused by Curvularia geniculata after eye injuries. Both patients were successfully treated with antifungal eye drops, particularly natamycin. Molecular testing confirmed the specific fungus causing the infection. Both patients recovered well with excellent vision restoration, demonstrating that proper diagnosis and targeted antifungal treatment can effectively manage this rare condition.

Effect of AgNPs on PLA-Based Biocomposites with Polysaccharides: Biodegradability, Antibacterial Activity and Features

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Scientists created new plastic-like materials made from corn-based PLA combined with silver nanoparticles and natural starches or chitosan. These biocomposites break down in soil while also killing harmful bacteria. The materials showed that adding silver particles didn’t prevent fungi from breaking them down in nature, making them suitable for environmentally-friendly products like food packaging that need to both degrade naturally and prevent bacterial growth.

Antifungal Potential of Streptomyces-Derived Metabolites Against Fluconazole-Resistant Oral Candida albicans: In vitro Evaluation and Mechanistic Insights

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Researchers studied a type of soil bacteria called Streptomyces that produces natural compounds with strong antifungal properties. These compounds effectively killed drug-resistant Candida fungal infections that commonly affect cancer patients undergoing radiation therapy. The bacterial extract worked by damaging fungal cell membranes and blocking biofilm formation, which are protective structures the fungus uses to survive. While the results are promising for treating stubborn fungal infections, more research is needed to ensure safety for human patients.

Consecutive non-Aspergillus Fungal Invasive Infections in Chronic Granulomatous Disease: Data from the French National Reference Center for Primary ImmunoDeficiencies and literature review

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This study examines rare fungal infections in patients with Chronic Granulomatous Disease, a genetic disorder affecting the immune system. Researchers found that these patients develop various unusual fungal infections despite taking preventive antifungal medications. The infections are difficult to diagnose, often requiring surgical procedures, but can sometimes be cured through stem cell transplantation combined with intensive antifungal treatment.

Changing Climate, Changing Candida: Environmental and Social Pressures on Invasive Candidiasis and Antifungal Resistance in Latin America

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Invasive fungal infections caused by Candida species are becoming increasingly common and dangerous in Latin American hospitals, with newer strains showing resistance to multiple antifungal drugs. Rising temperatures from climate change and widespread use of fungicides in agriculture appear to be selecting for these resistant fungi. Most hospitals in the region lack advanced diagnostic tools to quickly identify which fungal strain is causing infection, leading to delayed and sometimes inappropriate treatment. Implementing better diagnostic access, stricter antifungal use policies, and coordinated surveillance programs across the region could help control this growing public health problem.

Bacterial Cellulose for Scalable and Sustainable Bio-Gels in the Circular Economy

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Bacterial cellulose is a naturally produced material that offers an eco-friendly alternative to plastics and synthetic fabrics. Scientists are developing efficient ways to produce it using waste products from food and agricultural industries through fermentation with special bacteria. This approach not only creates useful materials for textiles, packaging, and medical applications but also helps reduce environmental waste. The technology is advancing rapidly with genetic engineering techniques that can increase production yields and customize the material properties for different uses.

Identification of an antifungal lipopeptide from Bacillus amyloliquefaciens HAU3 inhibiting the growth of Fusarium graminearum using preparative chromatography and 2D-NMR

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Scientists discovered a beneficial soil bacterium called Bacillus amyloliquefaciens that produces a natural antifungal compound called fengycin, which effectively kills dangerous mold (Fusarium graminearum) that contaminates animal feed. This bacterium can be used as a biological control agent to prevent fungal growth and reduce harmful mycotoxins in livestock feed, offering a safer and more environmentally friendly alternative to chemical fungicides. The study shows the bacterium’s compounds damage fungal cell membranes and generate harmful stress molecules that kill the fungus.

Fungal Species: N/A