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Systemische weerstand

Systemische resistentie is een soort geïnduceerd verdedigingsmechanisme van planten dat bescherming biedt tegen een breed scala aan ziekteverwekkers en plagen. Het wordt geactiveerd wanneer een plant wordt blootgesteld aan een ziekteverwekker of een andere stressfactor, zoals herbivorie, en resulteert in verhoogde weerstand, niet alleen op de plaats van infectie, maar ook in andere delen van de plant die niet direct zijn aangetast.

Systemic resistance can be either local or systemic acquired resistance. Local acquired resistance occurs when a plant is exposed to a pathogen and develops resistance at the site of infection, while systemic acquired resistance occurs when a plant is exposed to a pathogen and develops resistance throughout the entire plant.


The mechanism of systemic resistance involves the activation of signal transduction pathways that lead to the production of defense-related proteins, such as pathogenesis-related (PR) proteins and enzymes, and the accumulation of phytohormones, such as salicylic acid, jasmonic acid, and ethylene. These defense-related proteins and phytohormones help to limit the spread of the pathogen and reduce the damage caused by the infection.


Systemic resistance is not only triggered by pathogen attack but also by beneficial microbes such as rhizobacteria and mycorrhizae that induce systemic resistance in plants. This mechanism is called induced systemic resistance (ISR), and it involves the activation of similar defense responses to systemic acquired resistance.


Overall, systemic resistance is an important plant defense mechanism that provides long-lasting protection against a broad range of pathogens and pests. It plays a critical role in plant immunity and has potential applications in the development of sustainable agricultural practices.

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