Glucosinolates (GS) and trichomes contribute to plant resistance against insect herbivores in the model Arabidopsis thaliana. The functional and genetic characteristics of herbivore defense, however, can differ even between closely related species. In
Co-evolutionary interactions between plants and herbivores are suggested to be the driving force beh...
Because many secondary metabolites in plants act as defense against herbivores it has been postulate...
Intraspecific variation in plants plays a major role in the composition and diversity of the associa...
Glucosinolates (GS) and trichomes contribute to plant resistance against insect herbivores in the mo...
Evolutionary interactions among insect herbivores and plant chemical defenses have generated systems...
and other crucifers, the glucosinolate-myrosinase system contributes to resistance against herbivor...
Glucosinolate accumulation and expression of glucosinolate biosynthetic genes were studied in respon...
Direct and indirect plant defences are well studied, particularly in the Brassicaceae. Glucosinolate...
Glucosinolates present classical examples of plant compounds affecting insect-plant interactions. Th...
Glucosinolates are biologically active secondary metabolites of the Brassicaceae and related plant f...
Plants of the Brassicaceae are defended from feeding by generalist insects by constitutively-express...
Leaf trichomes contribute to plant resistance against herbivory. In several plant species, the trich...
The spatial distribution of plant defenses within a leaf may be critical in explaining patterns of h...
Like many other plants, chemical defence compounds are involved in the defense of Barbarea vulgaris ...
The glucosinolate(GS)-myrosinase system of Brassicaceae, including the model plant Arabidopsis thali...
Co-evolutionary interactions between plants and herbivores are suggested to be the driving force beh...
Because many secondary metabolites in plants act as defense against herbivores it has been postulate...
Intraspecific variation in plants plays a major role in the composition and diversity of the associa...
Glucosinolates (GS) and trichomes contribute to plant resistance against insect herbivores in the mo...
Evolutionary interactions among insect herbivores and plant chemical defenses have generated systems...
and other crucifers, the glucosinolate-myrosinase system contributes to resistance against herbivor...
Glucosinolate accumulation and expression of glucosinolate biosynthetic genes were studied in respon...
Direct and indirect plant defences are well studied, particularly in the Brassicaceae. Glucosinolate...
Glucosinolates present classical examples of plant compounds affecting insect-plant interactions. Th...
Glucosinolates are biologically active secondary metabolites of the Brassicaceae and related plant f...
Plants of the Brassicaceae are defended from feeding by generalist insects by constitutively-express...
Leaf trichomes contribute to plant resistance against herbivory. In several plant species, the trich...
The spatial distribution of plant defenses within a leaf may be critical in explaining patterns of h...
Like many other plants, chemical defence compounds are involved in the defense of Barbarea vulgaris ...
The glucosinolate(GS)-myrosinase system of Brassicaceae, including the model plant Arabidopsis thali...
Co-evolutionary interactions between plants and herbivores are suggested to be the driving force beh...
Because many secondary metabolites in plants act as defense against herbivores it has been postulate...
Intraspecific variation in plants plays a major role in the composition and diversity of the associa...
DOI