Article Synopsis
- Diverse molecular processes play crucial roles in how plants interact with insect herbivores, focusing on specific genes and proteins that shape these interactions.
- Plants detect damage and herbivore signals through receptors, activating early signaling pathways involving calcium, reactive oxygen species, and MAP kinases, leading to a complex defense response.
- Herbivores have developed strategies to counteract plant defenses, highlighting the ongoing evolutionary battle and indicating the need for further research into less studied plant-insect interactions.
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Article Abstract
Diverse molecular processes regulate the interactions between plants and insect herbivores. Here, we review genes and proteins that are involved in plant-herbivore interactions and discuss how their discovery has structured the current standard model of plant-herbivore interactions. Plants perceive damage-associated and, possibly, herbivore-associated molecular patterns via receptors that activate early signaling components such as Ca, reactive oxygen species, and MAP kinases. Specific defense reprogramming proceeds via signaling networks that include phytohormones, secondary metabolites, and transcription factors. Local and systemic regulation of toxins, defense proteins, physical barriers, and tolerance traits protect plants against herbivores. Herbivores counteract plant defenses through biochemical defense deactivation, effector-mediated suppression of defense signaling, and chemically controlled behavioral changes. The molecular basis of plant-herbivore interactions is now well established for model systems. Expanding molecular approaches to unexplored dimensions of plant-insect interactions should be a future priority.
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| http://dx.doi.org/10.1146/annurev-arplant-050718-095910 | DOI Listing |
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