symbiosis – Page 2

Mycelial Beehives of HIVEOPOLIS: Designing and Building Therapeutic Inner Nest Environments for Honeybees

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Scientists created experimental beehives made from living mushroom mycelium (the root structure of mushrooms) combined with 3D-printed scaffolds. These hives are designed to keep bees warmer while providing natural antimicrobial compounds that protect them from diseases. The research combines digital design technology with biology to create homes that mimic the natural tree cavities where wild honeybees live, potentially making them healthier and more resilient to climate change and diseases.

Genetic variation among progeny shapes symbiosis in a basidiomycete with poplar

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This research examines how different genetic variations within a single fungal species affect its ability to form beneficial partnerships with poplar tree roots. Scientists studied 40 genetically distinct fungal strains derived from the same parent and found that they varied greatly in their success at colonizing tree roots, ranging from complete failure to excellent colonization. By analyzing the genes and gene expression of these strains, the team identified specific genetic regions that influence symbiosis formation and discovered that genetic diversity within this fungal species plays an important role in how effectively forest ecosystems function.

Genetic Characterisation of the Bacterial Microbiota Associating With a Strain of Epichloë Fungal Endophyte of Perennial Ryegrass and the Interaction With Its Paenibacillus Members

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Researchers discovered that cultures of a fungal endophyte found in perennial ryegrass contain complex bacterial communities dominated by Paenibacillus bacteria. These bacterial cells live on the surface of fungal filaments and regulate each other’s populations through antagonistic interactions, with one strain (E300) acting as a keystone species that controls the community structure. Despite these dynamic bacterial changes, the fungal host’s growth remained unaffected, suggesting a balanced symbiotic relationship important for the grass’s agricultural performance.

Different Symbiotic Species of Armillaria Affect the Yield and Active Compound Contents of Polyporus umbellatus

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Polyporus umbellatus is a medicinal mushroom used in traditional Chinese medicine for treating water retention and swelling. This study found that the type of symbiotic fungus (Armillaria species) growing with the mushroom significantly affects both how much mushroom is produced and the amounts of beneficial compounds it contains. Among three Armillaria species tested, A. gallica produced mushrooms with the highest yields and the most polysaccharides, making it the best choice for cultivation.

Eight Fungal Species Associated with Ambrosia Beetles in Korea

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Researchers identified eight fungal species in South Korea that live inside ambrosia beetles in a special partnership where the fungi feed the beetles. These fungi had never been documented in Korea before. The study examined beetles from nine forest locations and found these fungi species living with 15 different types of ambrosia beetles, establishing which fungi work with which beetles.

Comparative Analysis of the Mycobiomes of Two Terrestrial Isopods, Armadillidium vulgare and Spherillo obscurus

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This study compared the fungal communities living on two species of pill bugs found on Korean islands. Researchers discovered that one species, Spherillo obscurus, harbors a much more diverse and varied fungal community than the other species, Armadillidium vulgare, which is dominated by a single fungal genus. Interestingly, the type of isopod species was far more important in determining which fungi lived on them than the geographic location where they were found.

Intracellular accommodation of bacteria, fungi, and oomycetes by plants analyzed using transmission electron microscopy

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Scientists used high-powered electron microscopes to examine how plants host different microorganisms inside their cells. They found that whether the microorganism is a helpful nitrogen-fixing bacterium, a nutrient-exchanging fungus, or a disease-causing oomycete, plants always separate it from the rest of the cell with a special membrane. This study reveals fundamental similarities in how plants accommodate different types of microorganisms, despite the very different outcomes for the plant.

Genetic Characterisation of the Bacterial Microbiota Associating With a Strain of Epichloë Fungal Endophyte of Perennial Ryegrass and the Interaction With Its Paenibacillus Members

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Researchers discovered that fungal endophytes living inside perennial ryegrass plants host communities of bacteria, primarily from the Paenibacillus genus. Two specific bacterial strains were isolated and found to interact antagonistically, with one strain acting as a ‘keystone’ species that controls the composition of the entire bacterial community. Despite these complex bacterial interactions, the bacteria did not negatively affect the fungal endophyte’s growth, suggesting a balanced symbiotic relationship beneficial to the grass plant.

From seagrass roots to saline soils: discovery of two new genera in Lulworthiales (Sordariomycetes) from osmotically stressed habitats

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Researchers discovered two previously unknown types of fungi living in extreme saltwater and salty soil environments. One fungus lives symbiotically within seagrass roots in Mauritius, while the other was found in saline soils in the Czech Republic. These findings show that fungi traditionally thought to live only in marine environments actually have a broader range of habitats and ecological roles than previously understood.

Fungal alkaloids mediate defense against bruchid beetles in field populations of an arborescent ipomoea

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Morning glory trees (Ipomoea murucoides) form beneficial relationships with fungal partners that live inside their tissues and produce toxic compounds called alkaloids. These alkaloids accumulate in the tree’s seeds and protect them from beetle damage. Trees hosting the common fungal partner Ceramothyrium produce more of the protective alkaloid swainsonine and suffer less seed damage than those with a different fungal partner, demonstrating how this natural partnership helps the plant defend its offspring.

Research Keyword: symbiosis