par Kunert, Maritta;Søe, Astrid;Bartram, Stefan;Discher, Sabrina;Tolzin-Banasch, Karla;Nie, Lihua;David, Anja;Pasteels, Jacques 
;Boland, Wilhelm
Référence Insect biochemistry and molecular biology, 38, 10, page (895-904)
Publication Publié, 2008-10
;Boland, WilhelmRéférence Insect biochemistry and molecular biology, 38, 10, page (895-904)
Publication Publié, 2008-10
Article révisé par les pairs
| Résumé : | In the larval chrysomelines the de novo synthesis of monoterpenoids (iridoids) is believed to represent the ancestral state in the evolution of chemical defenses. Here we demonstrate that the iridoid producing larvae of Plagiodera versicolora and Phratora laticollis have the potential to sequester precursors from food. In nature, iridoids may even have a dual origin, namely plant-derived and de novo produced. The ability to sequester plant-derived precursors was proved by (i) 13C-labelling of the terpenoids in the food plant, (ii) by larval feeding on leaves impregnated with analogs and labelled putative precursors for iridoid biosynthesis; and (iii) by injection of the precursors into the hemolymph followed by mass spectroscopic analysis of their distribution in the hemolymph, defensive secretion, and faeces. The experimental findings support a network of transport systems which allows a broader range of glucosides to enter and to leave the hemocoel, while only the appropriate precursor, 8-hydroxygeraniol-8-O-β-d-glucoside, is channelled to the reservoir and processed to iridoids. The dual system of de novo biosynthesis and sequestration of phytogenic precursors may have favoured the larvae to shift from one host plant to another without losing their defense. © 2008 Elsevier Ltd. All rights reserved. |
