fungal pathogenesis – Page 5

Non-wounding contact-based Inoculation of fruits with fungal pathogens in postharvest

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Researchers developed a new laboratory method to test how fungal molds spread between fruits during storage without damaging the fruit surface. Using oranges, tomatoes, and apples infected with common storage molds, they showed that disease can successfully spread through simple contact between fruits. The method achieved infection rates of 80% or higher and even detected infections before visible mold appeared using special imaging technology.

Fungus-targeted nanomicelles enable microRNA delivery for suppression of virulence in Aspergillus fumigatus as a novel antifungal approach

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Researchers developed a new way to fight dangerous fungal infections caused by Aspergillus fumigatus, which increasingly resists standard antifungal drugs. They used tiny molecules called microRNAs packaged in even tinier delivery vehicles to turn off genes that help the fungus survive. When these microRNAs were introduced, the fungus became much more vulnerable to the body’s immune system and to stress. This novel approach could eventually help treat infections that are otherwise difficult to cure.

New epidemiological routes of Coccidioidomycosis in Mexico – the extension of this pathogen to new areas

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Coccidioidomycosis, a fungal lung disease traditionally found in desert regions of Mexico and the southwestern United States, is spreading to new areas where it was never seen before. Researchers tracked 122 cases between 1991 and 2023 and found that nearly half of the patients had no history of travel to known high-risk areas, suggesting the disease is becoming established in new locations. Climate change and drought conditions are likely helping the fungus expand its range, making it important for doctors everywhere to consider this disease when diagnosing respiratory infections.

In Vitro Screening of the Antifungal and Antimycotoxin Effects of a Stilbenoids-Rich Grapevine Cane Extract on Fusarium graminearum, Aspergillus flavus and Penicillium expansum

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This study tested a natural extract from grapevine pruning waste to see if it could stop three dangerous fungi that produce harmful toxins in crops. The extract worked well at stopping both fungal growth and toxin production, with effects that lasted even after the extract was removed. These results suggest that grapevine waste could be turned into a natural fungicide to protect crops from contamination.

Antifungal mechanism of nanosilver biosynthesized with Trichoderma longibrachiatum and its potential to control muskmelon Fusarium wilt

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Researchers created tiny silver particles using a beneficial fungus to fight a serious disease that damages muskmelon plants. At low doses, these silver nanoparticles killed the disease-causing fungus while actually helping the melon plants grow better and germinate faster. The silver particles work by damaging the fungus’s cell structure and triggering harmful reactive oxygen species inside fungal cells, ultimately destroying them.

A rare case of invasive necrotizing myositis of the thigh caused by Basidiobolus ranarum: a multi-pronged approach to successfully managing a near-fatal polybacterial mycotic infection

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A 46-year-old man developed a severe fungal infection caused by a rare fungus called Basidiobolus ranarum in his thigh, which started from an insect bite two years earlier. The infection caused tissue death and was complicated by bacterial superinfection, requiring aggressive treatment with multiple antibiotics and antifungal medications along with several surgeries. Doctors used a combination approach including voriconazole, potassium iodide, and itraconazole to finally control the infection, though amputation was necessary due to the extent of tissue damage. The case highlights the importance of early medical care and demonstrates that rare fungal infections can be life-threatening even in otherwise healthy people.

Transcription factor RonA-driven GlcNAc catabolism is essential for growth, cell wall integrity, and pathogenicity in Aspergillus fumigatus

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Researchers identified how a deadly fungus called Aspergillus fumigatus uses a special nutrient (GlcNAc) to survive and cause disease. They found that a protein called RonA controls this nutrient processing and also helps the fungus hide from the immune system by building a protective outer coating. When RonA is disabled, the fungus becomes much less dangerous because the immune system can recognize it better. This discovery suggests RonA could be a new target for developing antifungal drugs.

Characterization of Biofilm Formation by the Dermatophyte Nannizzia gypsea

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This research studies how a fungus called Nannizzia gypsea forms protective biofilms on skin and hair, making infections harder to treat. Scientists grew the fungus in the lab and on real human hair, discovering it creates thick slime-like protective layers containing proteins, sugars, and DNA. The fungus also produces enzymes that break down keratin (the main protein in skin and hair) and activates drug-pumping proteins that help it resist antifungal medications. Understanding these defense mechanisms could help develop better treatments for fungal skin infections that are currently difficult to cure.

Saprotrophic Arachnopeziza Species as New Resources to Study the Obligate Biotrophic Lifestyle of Powdery Mildew Fungi

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Scientists have discovered that two types of fungi called Arachnopeziza species are the closest living relatives to powdery mildew fungi, which cause plant diseases. Unlike powdery mildews, these Arachnopeziza fungi can be easily grown in the lab and genetically modified. By studying these more manageable fungi, researchers can better understand how powdery mildew fungi became obligate parasites that must live on plants, potentially leading to better ways to control this widespread plant disease.

Sporothrix davidellisii: A new pathogenic species belonging to the Sporothrix pallida complex

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Scientists have identified a new fungal species called Sporothrix davidellisii that causes an infection in cats. This fungus was found in an infected cat in Australia and is related to other fungi that cause sporotrichosis, a skin disease in humans and animals. The discovery shows that cats can help scientists identify new fungal pathogens in their environments, making them important sentinels for tracking emerging diseases.

Research Keyword: fungal pathogenesis