loading page

Plant secondary metabolites impact the susceptibility of caterpillars to an entomovirus
  • +4
  • Jinyan Wang,
  • Nengneng Fan,
  • Yuan Yuan,
  • Evan Siemann,
  • Xiang-Yun Ji,
  • Nian-Feng Wan,
  • Jie-Xian Jiang
Jinyan Wang

Corresponding Author:wangjinyan1912@163.com

Author Profile
Nengneng Fan
Shanghai Academy of Agricultural Sciences
Author Profile
Yuan Yuan
Shanghai Academy of Agricultural Sciences
Author Profile
Evan Siemann
Rice University
Author Profile
Xiang-Yun Ji
Shanghai Academy of Agricultural Sciences
Author Profile
Nian-Feng Wan
East China University of Science and Technology
Author Profile
Jie-Xian Jiang
Shanghai Academy of Agricultural Sciences
Author Profile

Abstract

Plant-mediated effects on the susceptibility of insect herbivores to entomoviruses are well recognized, but the mechanisms by which plant secondary metabolites impact susceptibility are poorly understood. With widely targeted metabolomics analyses of three plants (Glycine max, Brassica oleracea, Ipomoea aquatica) that caused significant differences in caterpillar (Spodoptera exigua) viral susceptibility, we found four plant phenolics (genistein, kaempferol, quercitrin, coumarin) that increased susceptibility. Subsequently, we analyzed transcriptomes of caterpillars treated with nucleopolyhedrovirus (NPV) alone or with one the four plant phenolics to examine differences in metabolic pathways. We found that phenolic treatments caused significant differences in genes up-or-down regulating cytochrome P450, glutathione S-transferase and consistently caused significant down-regulation of the CXE18 gene regulating antennal esterase in caterpillars. This study found four phytochemicals can be potential candidate NPV synergist and sheds light on the mechanisms driving insect susceptibility to entomoviruses.