None reported – Page 8

Biocontrol of Root-Knot Nematodes via siRNA-Loaded Extracellular Vesicles From a Nematophagous Fungus Arthrobotrys oligospora

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Scientists developed a new way to control harmful root-knot nematodes that damage crops by using natural containers called extracellular vesicles from a fungus. These vesicles carry small RNA molecules that silence genes essential for nematode survival and reproduction. When tested on tomato plants, this fungal-based treatment reduced nematode damage by about 60% while promoting healthier plant growth, offering an eco-friendly alternative to chemical pesticides.

Bacillus velezensis CNPMS-22 as biocontrol agent of pathogenic fungi and plant growth promoter

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A bacterial strain called Bacillus velezensis CNPMS-22 shows promise as a natural pest control agent for crops. When applied to maize seeds, it reduced fungal diseases and increased plant productivity as effectively as chemical fungicides. The bacteria produces natural compounds that kill harmful fungi while also promoting plant growth, offering a safer, more environmentally friendly alternative to synthetic chemicals.

Mushroom stem-based diets elicit region-specific shifts in rainbow trout gut microbiota

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Researchers fed rainbow trout different diets made partly from mushroom stem waste and found that these ingredients beneficially changed the bacteria living in the fish’s gut. Different parts of the fish’s digestive system showed different changes in bacterial communities, suggesting these mushroom ingredients work in region-specific ways. The mushroom-based diets reduced harmful bacteria and increased beneficial ones, potentially improving fish health. This research shows how mushroom waste can be recycled into nutritious feed for farmed fish while promoting their health.

Mitigation of radiation-induced esophageal fibrosis by macrophage-targeted phosphatidylserine-containing liposomes with partial PEGylation

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Radiation therapy used to treat esophageal cancer often causes scarring and tissue damage that makes swallowing difficult. Researchers developed special fatty particles called PEGylated phosphatidylserine-containing liposomes that can reduce this scarring by calming down immune cells called macrophages. In studies using animal models and laboratory tests, these particles successfully reduced fibrosis, preserved normal tissue structure, and promoted muscle healing, offering hope for better management of radiation therapy side effects.

Immunomodulatory activity of Pleurotus pulmonarius crude extract to human monocyte against Cryptococcus neoformans

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This research shows that an extract from the Phoenix oyster mushroom (Pleurotus pulmonarius) can boost the body’s immune cells to fight dangerous fungal infections caused by Cryptococcus neoformans. When immune cells are pre-exposed to this mushroom extract and then encounter the fungus, they become more effective at killing it through increased production of immune-signaling molecules and reactive oxygen species. This natural supplement approach offers a promising alternative to traditional antifungal drugs, which often have significant side effects and can lead to drug resistance.

Mechanism Analysis of Amphotericin B Controlling Postharvest Gray Mold in Table Grapes

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Researchers discovered that amphotericin B, a natural compound produced by soil bacteria, effectively prevents gray mold disease on table grapes. The compound works by directly damaging the fungus’s cell membranes and also boosts the grape’s own defense mechanisms. This natural solution could replace harmful synthetic fungicides while extending the shelf life of grapes during storage and transport.

Isolation, (bio)synthetic studies and evaluation of antimicrobial properties of drimenol-type sesquiterpenes of Termitomyces fungi

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Termite colonies farm a fungus called Termitomyces for food in an ancient partnership. Scientists discovered that the mushrooms produced by this fungus release distinctive chemical signals, particularly a compound called drimenol. By isolating and synthesizing these compounds, researchers found they have antimicrobial properties and may play a role in communicating between termites and their fungal crop or protecting mushrooms from infection.

Bachu Mushroom Polysaccharide Alleviates Colonic Injury by Modulating the Gut Microbiota

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Researchers studied a polysaccharide extracted from Bachu mushrooms, a traditional medicinal fungus used in China, to treat inflammatory bowel disease in mice. The polysaccharide reduced inflammation by decreasing harmful inflammatory proteins and increasing beneficial bacteria in the gut. Treatment significantly improved disease symptoms and protected the colon from damage caused by chemical-induced colitis, suggesting this mushroom extract could potentially be developed into a natural treatment for inflammatory bowel disease.

Expression and antiviral application of exogenous lectin (griffithsin) in sweetpotatoes

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Scientists successfully created sweetpotato plants that produce griffithsin, a powerful antiviral protein found in marine algae. When these modified plants were grown in fields, they resisted a devastating sweetpotato virus disease that normally destroys crops. Interestingly, the virus-fighting mechanism works differently in plants than in animals—instead of directly blocking the virus, griffithsin triggers the plant’s own natural antiviral defense genes.

Anti-Therapeutic Action: None reported