Research Keyword: cell cycle regulation

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

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This review examines special protein complexes called SWI/SNF and RSC that help fungi control their genes by rearranging DNA packaging. These complexes are important for fungal survival under stress and for causing disease. The researchers compared these complexes across different fungal species and found both similarities and differences that could help scientists develop new antifungal medicines.

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Is Cryptococcus neoformans a pleomorphic fungus?

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Researchers have discovered that Cryptococcus neoformans, a dangerous fungus that causes serious infections, is actually much more shape-shifting than previously thought. Instead of existing as just one simple budding yeast form, the fungus can transform into several different cell types including large ‘titan cells’ and small ‘seed cells,’ each with different characteristics that help it survive and spread in the body. These different forms have distinct genetic programs and can evade the immune system in different ways, making the infection harder to treat. This discovery fundamentally changes how scientists understand this pathogen and could lead to new treatment strategies.

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Is Cryptococcus neoformans a pleomorphic fungus?

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Cryptococcus neoformans is a dangerous fungal pathogen that causes serious infections in humans. For many years, scientists thought this fungus existed primarily as regular yeast cells. However, new research shows the fungus can change into several different cell forms during infection, including larger ‘titan cells’ and smaller ‘seed cells.’ These shape-shifting abilities help the fungus survive in the human body and evade immune responses, making infections harder to treat.

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Transcriptomic Profiling of Thermotolerant Sarcomyxa edulis PQ650759 Reveals the Key Genes and Pathways During Fruiting Body Formation

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Researchers studied how a special strain of Sarcomyxa edulis (a tasty edible mushroom from Northeast China) develops fruiting bodies by analyzing which genes are turned on and off during this process. By comparing immature mycelium with developing fruiting bodies, they identified key genes responsible for cell division, DNA repair, and energy metabolism that control fruiting body formation. This knowledge can help mushroom farmers improve yield and quality through better understanding of how mushrooms grow. The findings provide a foundation for developing better cultivation techniques and selecting superior mushroom strains for commercial production.

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