Evolutionary interactions among insect herbivores and plant chemical defenses have generated systems where plant compounds have opposing fitness consequences for host plants, depending on attack by various insect herbivores. This interplay complicates
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...
Natural populations persist in complex environments, where biotic stressors, such as pathogen and in...
Evolutionary interactions among insect herbivores and plant chemical defenses have generated systems...
and other crucifers, the glucosinolate-myrosinase system contributes to resistance against herbivor...
Glucosinolates (GS) and trichomes contribute to plant resistance against insect herbivores in the mo...
Glucosinolate profiles differ among Arabidopsis thaliana ecotypes, caused by the composition of alle...
Glucosinolates are biologically active secondary metabolites of the Brassicaceae and related plant f...
Glucosinolates present classical examples of plant compounds affecting insect-plant interactions. Th...
Natural populations persist in complex environments, where biotic stressors, such as pathogen and in...
Natural populations persist in complex environments, where biotic stressors, such as pathogen and in...
In the Brassicaceae, glucosinolates influence the feeding, reproduction and development of many inse...
Glucosinolate accumulation and expression of glucosinolate biosynthetic genes were studied in respon...
Plants collectively produce hundreds of thousands of specialized metabolites that are not required f...
Insect herbivory is often restricted by glucosylated plant chemical defence compounds that are activ...
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...
Natural populations persist in complex environments, where biotic stressors, such as pathogen and in...
Evolutionary interactions among insect herbivores and plant chemical defenses have generated systems...
and other crucifers, the glucosinolate-myrosinase system contributes to resistance against herbivor...
Glucosinolates (GS) and trichomes contribute to plant resistance against insect herbivores in the mo...
Glucosinolate profiles differ among Arabidopsis thaliana ecotypes, caused by the composition of alle...
Glucosinolates are biologically active secondary metabolites of the Brassicaceae and related plant f...
Glucosinolates present classical examples of plant compounds affecting insect-plant interactions. Th...
Natural populations persist in complex environments, where biotic stressors, such as pathogen and in...
Natural populations persist in complex environments, where biotic stressors, such as pathogen and in...
In the Brassicaceae, glucosinolates influence the feeding, reproduction and development of many inse...
Glucosinolate accumulation and expression of glucosinolate biosynthetic genes were studied in respon...
Plants collectively produce hundreds of thousands of specialized metabolites that are not required f...
Insect herbivory is often restricted by glucosylated plant chemical defence compounds that are activ...
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...
Natural populations persist in complex environments, where biotic stressors, such as pathogen and in...
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