antifungal agents – Page 4

Molecular epidemiology, diversity, and antifungal susceptibility profiles of clinical and environmental mucorales: a five-year multicenter study in Iran (2018–2023)

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This research examined dangerous mold infections (Mucormycosis) that became more common after COVID-19. Scientists identified the types of molds causing these infections in Iran by testing 116 patient samples and 65 soil samples from across the country. They tested these molds against 13 different antifungal medications to find which drugs work best. The results showed that amphotericin B and posaconazole were the most effective medications, and patient samples were more susceptible to these drugs than environmental soil samples.

Antagonistic mechanism of Bacillus velezensis HX0039 as a biocontrol agent against Trichoderma virens-induced ‘Sanghuang’ green mold

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Scientists discovered a beneficial bacteria called Bacillus velezensis HX0039 that can protect ‘Sanghuang’ mushrooms from harmful green mold disease. This bacteria produces natural antifungal compounds like iturin A that stop the disease without harming the mushrooms or the environment. Testing showed it was 83% effective at preventing green mold and was completely safe for both mushroom cultivation and animal consumption, making it a promising alternative to chemical fungicides.

Assessing Diagnostic Capabilities and Treatment Accessibility for Invasive Fungal Infections in the Balkan Region

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Researchers surveyed medical centers across 12 Balkan countries to understand how well-equipped they are to diagnose and treat serious fungal infections. They found that while most centers have basic laboratory tools like microscopes and cultures, advanced molecular tests for identifying fungal species are less common. Antifungal medications like triazoles are widely available, but other important treatment options are harder to find in the region.

Inhibitory Effects of Origanum vulgare Essential Oil on Mycogone perniciosa Growth in Agaricus bisporus Cultivation

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A new study shows that oregano essential oil can effectively prevent and treat wet bubble disease in button mushrooms, a fungal infection that costs farmers millions in crop losses. The oil works better than conventional chemical fungicides and contains powerful antifungal compounds like carvacrol and thymol. When applied at the right time, oregano oil completely stopped the disease from developing while maintaining healthy mushroom yields. This natural solution could help organic mushroom farmers reduce their reliance on synthetic chemicals.

Isolation and Identification of Chemical Compounds from Agaricus blazei Murrill and Their In Vitro Antifungal Activities

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Researchers extracted and identified six chemical compounds from A. blazei mushrooms and tested their ability to fight fungal infections. The compounds showed promising activity against common fungal pathogens that cause infections in humans. This research suggests that A. blazei could be developed into natural antifungal treatments. The findings add to growing evidence that medicinal mushrooms contain valuable bioactive compounds with therapeutic potential.

Caged-hypocrellin mediated photodynamic therapy induces chromatin remodeling and disrupts mitochondrial energy metabolism in multidrug-resistant Candida auris

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Researchers developed a new photodynamic therapy treatment using a light-activated compound called COP1T-HA to fight drug-resistant Candida auris infections. The therapy works by reorganizing the fungal cell’s genetic material architecture and disrupting energy production in mitochondria, ultimately killing the fungal cells. This approach represents a novel strategy to overcome antibiotic resistance, as it targets multiple cellular processes rather than a single pathway that fungi can easily resist.

Drug repurposing to fight resistant fungal species: Recent developments as novel therapeutic strategies

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This editorial highlights the growing problem of fungal infections that resist current treatments, causing millions of deaths worldwide each year. Researchers are finding new ways to fight these resistant infections by repurposing existing drugs in new combinations and discovering novel compounds from natural sources. The collection of studies presented shows promising results using combinations like minocycline with antifungal drugs, natural compounds like baicalin, and AI technology to predict resistance patterns. These innovative approaches offer hope for better treatment options for patients suffering from serious fungal infections.

Design, synthesis, and antimicrobial evaluation of novel 1,2,4-triazole thioether derivatives with a 1,3,4-thiadiazole skeleton

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Scientists created 17 new chemical compounds that can fight harmful fungi and bacteria that damage plants. One of these compounds, called 9d, proved to be even more effective than existing commercial pesticides at fighting plant diseases. Tests on kiwifruit showed that this new compound could protect and treat bacterial infections better than currently available treatments. These new compounds could help protect crops and reduce reliance on older pesticides.

Mycoremediation of azole antifungal agents using in vitro cultures of Lentinula edodes

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This research shows that shiitake mushrooms (Lentinula edodes) can help clean up antifungal medications that contaminate water and soil. When the mushroom mycelium was exposed to two common antifungal drugs used in creams and treatments, it absorbed and broke down these compounds. The mushrooms degraded about one-third of the drugs by targeting their chemical structure, particularly the imidazole ring. This suggests mushrooms could be used as a natural, cost-effective solution for removing pharmaceutical pollution from the environment.

A mass spectrometry-based strategy for investigating volatile molecular interactions in microbial consortia: unveiling a Fusarium-specific induction of an antifungal compound

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Scientists developed a new method to study how different fungi communicate and compete with each other through invisible chemical signals called volatile organic compounds. By growing three types of fungi together in a controlled setup, they discovered that Fusarium culmorum specifically produces a compound called γ-terpinene when in contact with other fungi. This compound acts as a natural antifungal agent, helping Fusarium fight off competing fungi. This research provides a blueprint for understanding complex fungal interactions in environments like human lungs and could eventually help diagnose or prevent fungal-related diseases.

Research Keyword: antifungal agents