Research Keyword: disease management

Molecular docking as a tool for the discovery of molecular targets of nutraceuticals in diseases management

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This review explains how scientists use computer simulations to understand how natural food compounds (called nutraceuticals) interact with disease-causing molecules in the body. By using molecular docking software, researchers can predict which compounds might fight diseases like cancer and heart disease before conducting expensive laboratory tests. The review shows that many common foods like turmeric, grapes, and green tea contain compounds that could potentially treat various diseases by targeting specific proteins and pathways involved in disease development.

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Roles of arbuscular mycorrhizal fungi in plant growth and disease management for sustainable agriculture

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Arbuscular mycorrhizal fungi are beneficial fungi that live in plant roots and form a mutually beneficial relationship with plants. These fungi help plants absorb more nutrients and water from the soil, strengthen their natural defenses against diseases and pests, and work together with other helpful soil bacteria to create disease-suppressive soil. This makes AMF a promising natural alternative to chemical pesticides and fertilizers for sustainable agriculture.

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Intraspecies sequence-graph analysis of the Phytophthora theobromicola genome reveals a dynamic structure and variable effector repertoires

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Researchers sequenced the genome of Phytophthora theobromicola, a newly discovered fungal pathogen that causes serious cacao plant disease. They found the pathogen’s genome is highly variable among different isolates and contains many genes that help it attack cacao plants. By studying which of these harmful genes are active during infection, they identified specific virulence factors unique to this cacao pathogen that could be important targets for future disease control strategies.

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Rhizoctonia solani causes okra (Abelmoschus esculentus) seedling damping-off in South China with biological characterization and fungicide sensitivity profiling

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Researchers identified Rhizoctonia solani as the fungus causing a serious disease in okra seedlings in southern China that was destroying about 35% of crops. The fungus dies when exposed to high temperatures (45-48°C) and grows best at about 28°C. Among seven tested antifungal treatments, a combination of trifloxystrobin and tebuconazole was most effective at controlling the pathogen, providing farmers with practical strategies for managing this crop disease.

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Identification of Avocado Fruit Disease Caused by Diaporthe phaseolorum and Colletotrichum fructicola in China

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Researchers in China identified two fungal pathogens responsible for major avocado fruit diseases: Diaporthe phaseolorum causes fruit rot while Colletotrichum fructicola causes anthracnose. These diseases affect approximately 22% and 15% of avocado fruits respectively in Yunnan Province. This first-time identification of these pathogens on avocado provides growers with crucial information to implement targeted disease prevention strategies and protect their crops.

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Benzothiazole—An Antifungal Compound Derived from Medicinal Mushroom Ganoderma lucidum against Mango Anthracnose Pathogen Colletotrichum gloeosporioides

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Scientists discovered that a chemical called benzothiazole found in the medicinal mushroom Ganoderma lucidum can effectively kill the fungus that causes mango anthracnose, a major disease affecting mango crops. The research showed that this natural compound completely stops fungal growth at very low concentrations (50 ppm) and prevents spore germination. This discovery offers a promising eco-friendly alternative to synthetic fungicides that can cause environmental pollution and drug resistance.

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Identification, Characterization, Pathogenicity, and Fungicide Sensitivity of Postharvest Fungal Diseases in Culinary Melon from Northern Thailand

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Researchers in Thailand identified four different fungi causing diseases in culinary melons after harvest. They found that three fungus species cause damage to stored melon fruits, significantly reducing their quality and value. By testing various fungicides, they determined which chemical treatments effectively stop each fungus type, helping farmers protect their crops and reduce losses.

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Endophytic Beauveria spp. Enhance Tomato Growth and Resistance to Botrytis cinerea via Transcriptomic Regulation

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Researchers tested five types of beneficial fungi from the Beauveria genus to see if they could help tomato plants grow better and resist gray mold disease. They found that all five species could live inside tomato plants and help them grow taller. Most importantly, the fungus Beauveria brongniartii completely protected plants from gray mold infection. By examining which genes were activated in the plants, scientists discovered that these fungi boost the plant’s natural defense systems while also improving photosynthesis.

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Management of Green Mold Disease in White Button Mushroom (Agaricus bisporus) and Its Yield Improvement

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Green mold is a serious problem for farmers growing white button mushrooms, often destroying entire crops. This research tested various fungicide treatments to find the most effective ways to control the mold while keeping the mushrooms healthy and productive. The study found that certain chemicals like captan and carbendazim work best at specific concentrations, allowing farmers to get better harvests while protecting their crops.

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