fungal infections – Page 8

Antifungal effect of soil Bacillus bacteria on pathogenic species of the fungal genera Aspergillus and Trichophyton

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Scientists found that certain bacteria naturally occurring in soil can effectively kill harmful fungi that cause infections in humans. By isolating and testing different Bacillus bacteria species, researchers discovered that some were even more effective at inhibiting fungal growth than commonly used antifungal medications. This finding suggests a promising natural alternative to combat fungal infections, especially as many fungi are becoming resistant to traditional antifungal drugs.

Effects and molecular mechanism of endophytic elicitors on the accumulation of secondary metabolites in medicinal plants

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This review explains how beneficial fungi living inside medicinal plants can boost the production of healing compounds. These endophytic fungi act as natural triggers that activate the plant’s own defense systems, causing it to produce more of the valuable medicinal substances used in traditional and modern medicine. By understanding how this process works, scientists can develop better methods to grow medicinal plants and produce natural drugs more sustainably without depleting wild plant populations.

Evaluation of the Cytotoxicity and Antifungal Efficacy of Crocus sativus (saffron) Petals on Clinical Isolates of Candida albicans

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Researchers tested saffron petals as a natural antifungal treatment against Candida albicans, a common fungal infection. While the saffron extract was less potent than the standard drug fluconazole, it showed promise as a safer alternative with minimal toxicity to human cells. The findings suggest saffron petals could be a cost-effective herbal option for treating fungal infections, especially as resistance to conventional antifungals increases.

Endophytic Fungi Isolated from the Marine Macroalga Dictyopteris pacifica in Korea

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Researchers in Korea discovered three species of fungi living inside a brown seaweed called Dictyopteris pacifica. These fungi were previously unknown in Korea and were identified using genetic analysis. The fungi have mutualistic relationships with the seaweed and may produce compounds useful for medicines and treating diseases.

Loss of the Aspergillus fumigatus spindle assembly checkpoint components, SldA or SldB, generates triazole heteroresistant conidial populations

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This research reveals that disabling certain cell division checkpoint proteins in the fungus Aspergillus fumigatus creates populations resistant to triazole antifungal drugs. The resistant fungal cells appear to have abnormal amounts of genetic material, suggesting that loss of these checkpoint controls allows cells with extra chromosomes to survive drug exposure. This discovery provides new insight into how dangerous fungal infections can develop resistance to our most important antifungal treatments.

Diversity of fungi attached to birds corresponds to the habitat ecologies of their avian dispersal vectors

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Researchers found that birds carry hundreds of different types of fungi on their feathers and feet, with different bird species carrying different fungal communities based on where they live and what they eat. European robins living in deciduous forests and gardens carried different fungi than goldcrests living in conifer forests, suggesting birds pick up fungi from their specific habitats. This study shows that migrating birds may be important for spreading fungi across long distances, potentially including plant diseases and lichens that don’t spread well by wind.

Cryptococcus neoformans/gattii and Histoplasma capsulatum var. capsulatum infections on tissue sections: Diagnostic pitfalls and relevance of an integrated histomolecular diagnosis

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This research addresses the challenge of identifying two common fungal infections (cryptococcosis and histoplasmosis) when examining tissue samples under a microscope. The study found that these infections often look similar and can be confusing for pathologists. The researchers discovered that looking for specific fungal features, particularly ‘dented-looking’ yeasts, can help differentiate cryptococcosis from histoplasmosis. When standard laboratory tests on fresh tissue aren’t available, using molecular testing (genetic analysis) on preserved tissue samples can successfully identify the fungus in about 75% of cases.

Structural and functional characterisation and regulatory mechanisms of SWI/SNF and RSC chromatin remodelling complexes in fungi

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This review examines two important protein complexes in fungal cells that help control which genes are turned on and off. These complexes, called SWI/SNF and RSC, use energy from ATP to move and adjust nucleosomes—the structures that package DNA. The researchers analyzed these complexes across different fungal species and found that while they share similar core components, fungi have evolved unique variations that allow them to survive and cause infections in different ways. Understanding how these complexes work could help scientists develop new antifungal drugs.

Multilocus sequence typing of Candida albicans isolates from wild and farm animals from southern Italy

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Researchers in Italy studied a fungus called Candida albicans that can infect both humans and animals. They analyzed samples from chickens, wild boars, and lizards to understand how genetically similar these animal strains are to human infections. They found that animal strains are very similar to human strains, suggesting the fungus could be passed between animals and people. This research highlights the importance of monitoring fungal infections in animals to understand public health risks.

The glycolipid flocculosin-A from the fungus Anthracocystis flocculosa, or how to deal with cotton-wool-like crystals

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Scientists successfully determined the three-dimensional structure of flocculosin-A, a powerful antifungal compound produced by a fungus called Anthracocystis flocculosa. The main challenge was that the compound naturally forms very thin, needle-like crystals unsuitable for analysis. By using a special cooling and heating cycle, researchers were able to grow better crystals and use X-ray diffraction to reveal the compound’s complete molecular structure, which contains a sugar backbone connected to two fatty acid chains with specific arrangements.

Disease: fungal infections