antifungal activity – Page 4

Edible Coating Based on Konjac glucomannan Loading Ocimum gratissimum Essential Oil for Postharvest Preservation of Orange

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Researchers developed a special edible coating made from konjac glucomannan and basil essential oil that can be applied to oranges to keep them fresh longer. The coating acts as a protective barrier that slows down moisture loss and microbial growth while allowing the fruit to breathe. When applied to Mandarin oranges, this coating extended their shelf life by 8 days, kept them firmer, and reduced spoilage compared to uncoated oranges.

Biocontrol of Cheese Spoilage Moulds Using Native Yeasts

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This research explores using naturally occurring yeasts found in cheese to prevent mould spoilage, offering a chemical-free alternative to current preservatives. Scientists tested 84 yeast strains and identified the most promising ones that can inhibit growth of three common spoilage moulds through different mechanisms like enzyme production and nutrient competition. Two yeast strains, Geotrichum candidum GC663 and Pichia jadinii PJ433, showed particularly strong potential for protecting cheese quality and extending shelf life when tested in actual cheese.

Fungal Drug Discovery for Chronic Disease: History, New Discoveries and New Approaches

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This article examines how fungi have provided humanity with some of the most important medicines ever created, including penicillin, drugs that prevent organ rejection, and cholesterol-lowering statins. Many of these fungal compounds work as medicines because they target processes that are similar in both fungi and humans, helping them survive competition with other fungi while coincidentally treating human diseases. New researchers are now using modern genetic tools to discover additional fungal medicines, with several promising candidates currently being tested in clinical trials for cancer, depression, and other chronic diseases.

Green synthesis of silver nanoparticles using fermentation extracts from a mangrove soil bacterium: morphological characterization, and antifungal activities against rice blast fungus

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Researchers developed tiny silver particles made from bacteria found in mangrove soil that effectively kill the fungus causing rice blast disease. These nanoparticles work better than current chemical fungicides and are much safer for the environment and aquatic life. The particles stop the fungus from growing and spreading in rice plants, offering farmers a sustainable alternative to traditional chemical pesticides.

Insights into the evolution and mechanisms of response to heat stress by whole genome sequencing and comparative proteomics analysis of the domesticated edible mushroom Lepista sordida

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Researchers sequenced the complete genome of Lepista sordida, a delicious edible mushroom valued for its health benefits, and studied how this mushroom responds to heat stress at the molecular level. Using advanced analysis techniques, they identified key proteins and signaling pathways that help the mushroom survive high temperatures. These findings can help farmers develop better-performing strains that are more resistant to heat, improving mushroom production.

Antifungal activities of Rosmarinus extracts against Fusarium oxysporum, the pathogenic fungus of Anoectochilus stem rot

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Researchers found that extracts from rosemary plants can effectively fight a fungus that causes stem rot disease in Anoectochilus, a valuable medicinal herb. The rosemary extracts worked both in laboratory tests and when applied to infected plants, reducing disease symptoms and boosting the plant’s natural defense mechanisms. These findings suggest rosemary extracts could be developed as a natural, safer alternative to synthetic chemical fungicides that harm the environment.

Isolation of Actinobacteria from Date Palm Rhizosphere with Enzymatic, Antimicrobial, Antioxidant, and Protein Denaturation Inhibitory Activities

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Researchers isolated bacteria called actinobacteria from soil around date palm roots in Algeria’s Sahara Desert. One promising strain, Streptomyces sp. SGI16, was found to produce multiple enzymes and compounds with strong antimicrobial and antioxidant properties. These findings suggest desert microorganisms could be valuable sources for developing new medicines and agricultural products.

Cultivation and mycelium production from spore suspensions of desert truffles: prospective use as inoculum for host plants in arid zones

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Desert truffles are valuable edible fungi that grow in arid regions and have health benefits. This research successfully grew two desert truffle species (Terfezia boudieri and Tirmania nivea) in laboratory conditions using standard culture media. The study found that potato dextrose agar was the best medium for rapid growth, while both media supported good mycelial development. This breakthrough could enable large-scale production of truffle inoculum for reforestation programs in Morocco’s degraded desert areas.

Lactic acid bacteria: beyond fermentation to bio-protection against fungal spoilage and mycotoxins in food systems

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Mold and fungal toxins spoil food and threaten human health, costing billions globally. While chemical preservatives work, many consumers want natural alternatives. Lactic acid bacteria (the same organisms used in yogurt production) produce natural antimicrobial compounds that can prevent mold growth and neutralize harmful toxins, offering a safer, more natural way to keep food fresh longer.

Synthesis of silver nanoparticles employing Polyalthia longifolia leaf extract and their in vitro antifungal activity against phytopathogen

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Scientists successfully created tiny silver particles using leaves from the Polyalthia longifolia plant, an evergreen tree native to India. These silver nanoparticles proved highly effective at stopping the growth of Alternaria alternata, a fungus that damages crops and causes leaf spot disease. The method is inexpensive, environmentally friendly, and the particles remain stable for months, making them a promising natural alternative to chemical fungicides for protecting plants.

therapeutic action: antifungal activity