Research Keyword: fungicide

Antifungal effects of metabolites from Arthrinium sp. 2–65 and identification of main active ingredients

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Scientists discovered that a fungus called Arthrinium sp. 2–65, found living inside a wild plant called Thymus mongolicus, produces two special compounds that can kill the fungus responsible for grey mould disease. Grey mould is a major problem for farmers worldwide, damaging crops like tomatoes, grapes, and strawberries. These newly identified compounds were tested and showed excellent effectiveness against the disease, offering a promising natural alternative to chemical pesticides that have become less effective due to resistance and environmental concerns.

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The serine palmitoyl transferase of plant pathogenic fungi: a promising new target for the development of novel crop protection solutions

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Scientists have discovered a new type of fungicide called pyridazine carboxamides that effectively kill plant-damaging fungi by blocking a key enzyme involved in their cell membrane formation. These compounds work against many common crop diseases like gray mold and leaf spots, though they are less effective against certain wheat pathogens. The research validates this new approach as a promising tool for protecting crops and managing fungicide resistance while maintaining global food security.

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An Efficient Microwave Synthesis of 3-Acyl-5-bromoindole Derivatives for Controlling Monilinia fructicola and Botrytis cinerea

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Researchers created new chemical compounds based on indoles that can kill harmful fungi affecting fruit crops. These compounds were made using microwave energy, which made the synthesis faster and more efficient. Testing showed that some of these new compounds worked better at stopping fungal growth and spore germination than currently used commercial fungicides, making them promising candidates for protecting fruit crops from rot diseases.

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Fungal inhibitory activity of sesquiterpenoids isolated from Laggera pterodonta

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Researchers isolated six antifungal compounds from a traditional Chinese medicine plant called Laggera pterodonta. One compound called costic acid showed excellent ability to kill common crop-destroying fungi like P. nicotianae and F. oxysporum by damaging their cell membranes. These natural compounds could serve as safer alternatives to synthetic fungicides in agriculture, offering environmental benefits without toxic chemical residues.

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Assessment of Chemical and Biological Fungicides for the Control of Diplodia mutila Causing Wood Necrosis in Hazelnut

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This study tested different fungicides to control a fungus that causes wood damage and necrosis in hazelnut trees in Chile. Researchers evaluated 30 different products in laboratory tests, pot experiments, and field trials over two growing seasons. The results showed that certain chemical fungicides and beneficial bacteria can effectively reduce damage from this disease, with effectiveness varying based on temperature conditions. These findings provide farmers with practical options for protecting hazelnut orchards from this damaging fungal disease.

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One-Pot Synthesis of Chiral Succinate Dehydrogenase Inhibitors and Antifungal Activity Studies

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Scientists developed a new method to create potent antifungal medications that can protect crops from destructive fungal diseases. By carefully controlling the molecular structure (chirality) of the compounds, they created drugs that are significantly more effective and potentially less toxic than existing treatments. Testing showed that the new compound called (S)-5f works 76 times better against gray mold fungus than its mirror-image counterpart, similar to how your left and right hands have the same shape but can’t be superimposed.

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