Engineering of benzylglucosinolate in tobacco provides proof-of-concept for dead-end trap crops genetically modified to attract Plutella xylostella (diamondback moth)

Glucosinolates are biologically active natural products characteristic of crucifers, including oilseed rape, cabbage vegetables and the model plant Arabidopsis thaliana. Crucifer‐specialist insect herbivores, like the economically important pest Plutella xylostella (diamondback moth), frequently use glucosinolates as oviposition stimuli. This suggests that the transfer of a glucosinolate biosynthetic pathway to a non‐crucifer would stimulate oviposition on an otherwise non‐attractive plant. Here, we demonstrate that stable genetic transfer of the six‐step benzylglucosinolate pathway from A. thaliana to Nicotiana tabacum (tobacco) results in the production of benzylglucosinolate without causing morphological alterations. Benzylglucosinolate‐producing tobacco plants were more attractive for oviposition by female P. xylostella moths than wild‐type tobacco plants. As newly hatched P. xylostella larvae were unable to survive on tobacco, these results represent a proof‐of‐concept strategy for rendering non‐host plants attractive for oviposition by specialist herbivores with the long‐term goal of generating efficient dead‐end trap crops for agriculturally important pests.