Research Keyword: pattern-triggered immunity

Decursin, Identified via High-Throughput Chemical Screening, Enhances Plant Disease Resistance via Two Independent Mechanisms

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Researchers identified a natural compound called decursin from angelica plants that helps plants fight off dangerous fungal infections in two ways: it strengthens the plant’s own immune system and directly kills the fungal pathogens. This dual-action approach makes decursin a promising natural alternative to synthetic fungicides for protecting crops like wheat and tomatoes from diseases. The compound shows particular promise because it comes from plants, breaks down easily in the environment, and is more effective than other natural antimicrobial compounds currently used in agriculture.

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Advances of Peptides for Plant Immunity

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Plant peptides are small signaling molecules that help plants defend themselves against diseases and pests. These peptides can work by directly killing pathogens or by activating the plant’s immune system. Researchers have identified over 1000 different plant peptides, and this review explains how they work and how they could be used to create disease-resistant crops and natural biopesticides.

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Microbial-mediated induced resistance: interactive effects for improving crop health

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This research explores how beneficial microbes like Trichoderma fungi and Bacillus bacteria can help plants naturally defend themselves against diseases. These microbes trigger the plant’s built-in immune system through chemical signals and molecular processes similar to how our immune system responds to threats. The approach offers an eco-friendly alternative to chemical pesticides for protecting crops, though effectiveness varies depending on environmental conditions.

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