Please use this identifier to cite or link to this item: https://biore.bio.bg.ac.rs/handle/123456789/6498
Title: An effective molecular approach for assessing cereal aphid-parasitoid-endosymbiont networks
Authors: Ye, Zhengpei
Vollhardt, Ines M. G.
Girtler, Susanne
Wallinger, Corinna
Tomanović, Željko 
Traugott, Michael
Issue Date: 2017
Rank: M21
Publisher: NATURE PUBLISHING GROUP, LONDON, ENGLAND
Journal: Scientific Reports
Volume: 7
Issue: 1
Start page: 3138
Abstract: 
Molecular approaches are increasingly being used to analyse host-parasitoid food webs as they overcome several hurdles inherent to conventional approaches. However, such studies have focused primarily on the detection and identification of aphids and their aphidiid primary parasitoids, largely ignoring primary parasitoid-hyperparasitoid interactions or limiting these to a few common species within a small geographical area. Furthermore, the detection of bacterial secondary endosymbionts has not been considered in such assays despite the fact that endosymbionts may alter aphid-parasitoid interactions, as they can confer protection against parasitoids. Here we present a novel two-step multiplex PCR (MP-PCR) protocol to assess cereal aphid-primary parasitoid-hyperparasitoid-endosymbiont interactions. The first step of the assay allows detection of parasitoid DNA at a general level (24 primary and 16 hyperparasitoid species) as well as the species-specific detection of endosymbionts (3 species) and cereal aphids (3 species). The second step of the MP-PCR assay targets seven primary and six hyperparasitoid species that commonly occur in Central Europe. Additional parasitoid species not covered by the second-step of the assay can be identified via sequencing 16S rRNA amplicons generated in the first step of the assay. The approach presented here provides an efficient, highly sensitive, and cost-effective (~consumable costs of 1.3 € per sample) tool for assessing cereal aphid-parasitoid-endosymbiont interactions.
URI: https://biore.bio.bg.ac.rs/handle/123456789/6498
DOI: 10.1038/s41598-017-02226-w
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