Research Keyword: adaptation

Transposons and accessory genes drive adaptation in a clonally evolving fungal pathogen

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Researchers studied how a fungal plant pathogen called Fusarium oxysporum rapidly adapts to new environments by analyzing genetic changes during repeated passages through tomato plants and laboratory media. They discovered that jumping genes (transposons) were responsible for most mutations driving adaptation, and surprisingly found that genes located in specialized ‘accessory’ regions of the fungus’s genome controlled important functions like growth and virulence. This research reveals how fungal pathogens can evolve quickly to become better competitors or invaders.

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Microbes as Teachers: Rethinking Knowledge in the Anthropocene

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This paper argues that microbes should be viewed as teachers offering crucial wisdom about how to solve today’s environmental crises. Rather than seeing microbes as passive subjects to be studied, the author proposes recognizing them as intelligent, collaborative partners that have successfully managed Earth’s systems for billions of years. The paper provides practical suggestions for changing education, policy, and how we design cities and agriculture to work with microbial processes rather than against them.

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Different metabolite profiles across Penicillium roqueforti populations associated with ecological niche specialisation and domestication

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This study examined how different populations of the blue cheese fungus Penicillium roqueforti produce varying amounts of toxic and beneficial compounds depending on their environment. Cheese-making strains were found to produce fewer toxins than strains from spoiled food and lumber, likely due to selective breeding for safer products. The research identified specific genetic mutations that prevent cheese strains from producing certain toxins, helping explain why some cheese strains are safer than others.

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