plant-fungal interaction

Morphological and molecular development of Terfezia claveryi ectendomycorrhizae exhibits three well-defined stages

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This study tracked how desert truffles form a beneficial partnership with plant roots over 10 weeks, identifying three distinct stages with different structures and genetic activity patterns. Researchers used microscopy and gene analysis to understand how the fungus gradually colonizes the root system, starting with growth in soil, then spreading between root cells, and finally penetrating inside cells. The findings reveal that specific fungal and plant genes are active at different stages, particularly those involved in breaking down plant cell walls. This research helps explain how desert truffles can be cultivated more effectively for food production.

Integration of fungal transcriptomics and metabolomics provides insights into the early interaction between the ORM fungus Tulasnella sp. and the orchid Serapias vomeracea seeds

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This research explores how orchid fungi recognize and respond to orchid seeds before even touching them. Scientists used advanced molecular techniques to track changes in fungal genes and chemical compounds during the early stages of this symbiotic partnership. The findings show that the fungus actively prepares itself to penetrate the seed’s protective barriers, producing special enzymes and metabolites that facilitate this critical interaction for orchid survival.

Cellular anatomy of arbuscular mycorrhizal fungi

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Arbuscular mycorrhizal fungi are special underground fungi that form partnerships with plant roots to help plants grow. Unlike most cells, these fungi form long, tube-like structures without walls dividing them into sections, allowing nutrients and other materials to flow freely throughout their networks. This review explains how these fungi are built at the cellular level, including their walls, membranes, and internal structures, helping scientists better understand how they exchange nutrients with plants and contribute to healthy ecosystems.

Strain and contact-dependent metabolomic reprogramming reveals distinct interaction strategies between Laccaria bicolor and Trichoderma

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Scientists studied how two types of soil fungi interact with each other when grown together in laboratory conditions. By analyzing the chemicals these fungi produce and release, they discovered that the fungi actively communicate and compete with each other in different ways depending on how close they are to each other. The findings show that both airborne chemicals and chemicals released into the soil play important roles in how fungi recognize friends from foes, which could help improve the use of beneficial fungi in agriculture.

Research Keyword: plant-fungal interaction

Morphological and molecular development of Terfezia claveryi ectendomycorrhizae exhibits three well-defined stages

Integration of fungal transcriptomics and metabolomics provides insights into the early interaction between the ORM fungus Tulasnella sp. and the orchid Serapias vomeracea seeds

Cellular anatomy of arbuscular mycorrhizal fungi

Strain and contact-dependent metabolomic reprogramming reveals distinct interaction strategies between Laccaria bicolor and Trichoderma