Botrytis cinerea infection

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

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Scientists created new chemical compounds based on indole structures that can kill harmful fungi that destroy fruit crops. These compounds were made more efficiently using microwave heating and tested against two major crop pathogens that cause billions of dollars in losses annually. The most promising compound (A) proved even more effective than commercial fungicides at stopping fungal growth and spore germination. This research could lead to better, safer alternatives for protecting crops from fungal diseases.

Transcription Factor PFB1 Is Required for the Botrytis cinerea Effector BcSCR1-Mediated Pathogenesis

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Researchers discovered how a fungal disease (grey mould) spreads by identifying a toxic protein it produces that disables a plant’s defense system. The fungal protein BcSCR1 sneaks into plant cells and targets a control switch called PFB1 that normally turns on genes protecting plants from infection. By blocking this control switch, the fungus weakens the plant’s immune defenses and establishes infection more easily.

Disease: Botrytis cinerea infection

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

Transcription Factor PFB1 Is Required for the Botrytis cinerea Effector BcSCR1-Mediated Pathogenesis