Add to ORKGThe community of plant-feeding insects (herbivores) that specialize on milkweeds (Apocynaceae) form a remarkable example of convergent evolution across levels of biological organization1. In response to toxic cardiac glycosides produced by these plants, the monarch butterfly (Danaus plexippus) and other specialist herbivores have evolved parallel substitutions in the alpha subunit (ATPA) of the Na+/K+-ATPase. These substitutions render the pump insensitive to cardiac glycosides2,3, allowing the monarch and other specialists, from aphids to beetles, to sequester cardiac glycosides, which in turn provide defense against attacks by enemies from the third trophic level4. The evolution of 'target-site-insensitivity' substitutions in these herbiv...
A major prediction of coevolutionary theory is that plants may target particular herbivores with sec...
International audienceIdentifying the genetic mechanisms of adaptation requires the elucidation of l...
Despite sequestration of toxins being a common coevolutionary response to plant defence in phytophag...
The community of plant-feeding insects (herbivores) that specialize on milkweeds (Apocynaceae) form ...
Natural selection imposed by natural toxins has led to striking levels of convergent evolution at th...
A major prediction of coevolutionary theory is that plants may target particular herbivores with sec...
Identifying the genetic mechanisms of adaptation requires the elucidation of links between the evolu...
This work is licensed under a Creative Commons Attribution 4.0 International License.A major predict...
A major prediction of coevolutionary theory is that plants may target particular herbivores with se...
Insect resistance to plant toxins is widely assumed to have evolved in response to using defended pl...
Coevolution between plants and herbivores often involves escalation of defence-offence strategies, b...
Despite the monarch butterfly (Danaus plexippus) being famous for its adaptations to the defensive t...
A major prediction of coevolutionary theory is that plants may target particular herbivores with sec...
International audienceIdentifying the genetic mechanisms of adaptation requires the elucidation of l...
Despite sequestration of toxins being a common coevolutionary response to plant defence in phytophag...
The community of plant-feeding insects (herbivores) that specialize on milkweeds (Apocynaceae) form ...
Natural selection imposed by natural toxins has led to striking levels of convergent evolution at th...
A major prediction of coevolutionary theory is that plants may target particular herbivores with sec...
Identifying the genetic mechanisms of adaptation requires the elucidation of links between the evolu...
This work is licensed under a Creative Commons Attribution 4.0 International License.A major predict...
A major prediction of coevolutionary theory is that plants may target particular herbivores with se...
Insect resistance to plant toxins is widely assumed to have evolved in response to using defended pl...
Coevolution between plants and herbivores often involves escalation of defence-offence strategies, b...
Despite the monarch butterfly (Danaus plexippus) being famous for its adaptations to the defensive t...
A major prediction of coevolutionary theory is that plants may target particular herbivores with sec...
International audienceIdentifying the genetic mechanisms of adaptation requires the elucidation of l...
Despite sequestration of toxins being a common coevolutionary response to plant defence in phytophag...