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W4225826677 endingPage "163" @default.
W4225826677 startingPage "115" @default.
W4225826677 abstract "The mitigation of plant toxins (detoxification) in the larvae of Lepidoptera (caterpillars) provides a rich milieu in which to understand the mechanisms driving the evolution and maintenance of ecological specialization. The field of coevolution was born through an intensive study of the interactions between secondary compounds of plants and Lepidoptera. Here, we summarize progress on our knowledge of the proximate (e.g., target site insensitivity to toxins) and ultimate (e.g., top-down vs. bottom-up) mechanisms used by caterpillars to cope with and even co-opt plant toxins. As new molecular tools become available, linking these two ends of the mechanistic spectrum (proximate and ultimate) is becoming possible. Our discussion of proximate mechanisms includes behavioral sensors of toxins (olfactory receptors, ionotropic receptors, gustatory receptors, transient receptor potential proteins, non-receptor chemosensory gene families), prevention of defense response induction, diversion strategies for precursor toxins, physical barriers, target site insensitivity, detoxification through xenobiotic metabolism, and microbial interactions. Ultimate mechanisms include those shaped by both bottom-up and top-down agents of natural selection in the context of detoxification, with clear links to other chapters of this volume (e.g., sequestration, parasitoids). Lessons learned about detoxification from arthropods other than Lepidoptera are covered as well, which can in turn be applied to caterpillars once appropriate tools become available." @default.
W4225826677 created "2022-05-05" @default.
W4225826677 creator A5023532647 @default.
W4225826677 creator A5069728842 @default.
W4225826677 date "2022-01-01" @default.
W4225826677 modified "2023-09-25" @default.
W4225826677 title "Ecology and Evolution of Secondary Compound Detoxification Systems in Caterpillars" @default.
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