Pathogenic fungi – Page 3

Do farnesol and tyrosol production in Candidozyma auris biofilms reflect virulence potential?

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Researchers discovered that a dangerous fungus called Candidozyma auris produces signaling molecules called farnesol and tyrosol in biofilms. These molecules appear to be linked to how dangerous the fungus is—strains that produce more of these molecules were more virulent in infection studies. Understanding these signaling molecules could help develop new strategies to fight this drug-resistant pathogen.

Aspergillus terreus IFM 65899-THP-1 cells interaction triggers production of the natural product butyrolactone Ia, an immune suppressive compound

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Scientists discovered that when a dangerous fungus called Aspergillus terreus is grown together with immune cells, it produces a special compound called butyrolactone Ia that helps it hide from the body’s defense system. This compound works by reducing inflammatory signals that immune cells use to fight the fungus. The research shows that direct contact between the fungus and immune cells is needed to trigger this protective compound production, suggesting the fungus responds directly to the threat of immune attack.

Functions of the Three Common Fungal Extracellular Membrane (CFEM) Domain-Containing Genes of Arthrobotrys flagrans in the Process of Nematode Trapping

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Researchers studied three genes (CFEM1-3) in a fungus called Arthrobotrys flagrans that traps and kills parasitic worms. By deleting or increasing these genes, scientists found they control how the fungus makes sticky trap networks and how thick the trap walls are. This knowledge could help develop natural pest control products to protect plants and animals from harmful parasitic nematodes.

Co-application of dazomet and azoxystrobin reconstructs soil microbial communities and suppresses the violet root rot of Codonopsis tangshen under a continuous cropping system

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Codonopsis tangshen is an important medicinal plant in China, but it suffers from a serious fungal disease called violet root rot when grown repeatedly in the same soil. Researchers found that treating soil with dazomet fumigant followed by azoxystrobin fungicide completely eliminated this disease while dramatically increasing plant yields. The treatment works by reducing the harmful fungus while promoting growth of beneficial soil microbes that naturally suppress disease.

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.

Draft genome sequences for four isolates of the hemp (Cannabis sativa) fungal pathogen Neofusicoccum parvum

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Scientists sequenced the complete genomes of four samples of a fungal disease that infects hemp plants. This fungus, called Neofusicoccum parvum, causes dying branches and damage to hemp crops. By mapping out the genetic code of these fungal samples, researchers now have important tools to better understand how this pathogen works and potentially develop strategies to protect hemp plants.

Endophytic fungal community composition and function response to strawberry genotype and disease resistance

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Researchers studied fungi living inside three varieties of strawberry plants to understand why some varieties are more resistant to diseases. They found that disease-resistant strawberries like White Elves naturally harbor beneficial fungi such as Trichoderma and Talaromyces that fight off pathogens, while disease-susceptible varieties like Akihime have more harmful fungi. This discovery could help farmers grow healthier strawberries without relying solely on chemical pesticides by using natural beneficial fungi.

Regulation and functions of alternative polyadenylation in fungi

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This review explains how fungi use a process called alternative polyadenylation to create different versions of proteins from the same gene. Think of it like different recipes using the same ingredients but with different instructions. This process is important for fungal survival, growth, and ability to cause disease. Scientists are developing new tools and techniques to study this process, which could lead to better treatments for fungal infections.

Investigating fungal diversity through metabarcoding for environmental samples: assessment of ITS1 and ITS2 Illumina sequencing using multiple defined mock communities with different classification methods and reference databases

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Scientists developed a comprehensive method for identifying different fungi in environmental samples using DNA sequencing technology called metabarcoding. They tested 37 mixtures of known fungi species to compare different approaches, including which DNA markers to use, which reference databases to search, and which computer analysis methods to apply. The study found that the choice of method significantly affects results, with some approaches better at genus-level identification and others at species identification, helping researchers select the best approach for their specific needs.

Species diversity of Cytospora associated with forest canker diseases in Xizang (Tibet), China

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Scientists studying forests in Tibet discovered 23 new species of Cytospora fungi that cause canker diseases in trees like poplars and willows. Using advanced genetic analysis combined with traditional microscopic examination, researchers identified a total of 50 Cytospora species in the region. These fungi cause bark damage and branch death in many important forest trees. Understanding which species are present and how they spread is crucial for protecting Tibet’s valuable forest ecosystems.

Research Keyword: Pathogenic fungi