DIFFERENTIAL CHANGES IN METABOLIC PATHWAYS OF HOST PLANTS IN COMPATIBLE AND INCOMPATIBLE INTERACTIONS AFTER HESSIAN FLY (MAYETIOLA DESTRUCTOR) INFESTATION [ABSTRACT]

Authors: ZHU, LIECENG - KANSAS STATE UNIVERSITY; LIU, XUMING - KANSAS STATE UNIVERSITY; LIU, XIANG - KANSAS STATE UNIVERSITY; REESE, JOHN - KANSAS STATE UNIVERSITY; Chen, Ming-Shun

Submitted to: Meeting Abstract
Publication Type: Abstract Only
Publication Acceptance Date: 4/9/2006
Publication Date: 4/9/2006
Citation: Zhu, L., Liu, X., Liu, X., Reese, J.C. 2006. Differential changes in metabolic pathways of host plants in compatible and incompatible interactions after hessian fly (mayetiola destructor) infestation [abstract]. Meeting Abstract.

Interpretive Summary:

Technical Abstract: Genome wide analysis of gene expression in wheat after Hessian fly (Mayetiola destructor) infestation revealed that different metabolic pathways were affected differentially between compatible and incompatible interactions. In compatible interactions, genes in the pathways to produce nutrients for the Hessian fly were significantly up-regulated, including key enzymes in the amino acid synthesis, glycolysis, and citric acid cycle, while pathways to synthesize defense molecules were generally suppressed. In incompatible interactions, pathways leading to cell wall strengthening and toxic molecule synthesis were strongly induced, while general metabolic pathways for energy and nutrients were either unchanged or suppressed. In association with these differential responses, different sets of transcription factors were also regulated differently between compatible and incompatible interactions. We are currently investigating key molecules leading to these differential responses through specific gene silencing.