Identify immune-related genes of adzuki bean weevil (Callosobruchus chinensis) in response to bacteria challenge by transcriptome analysis.

Abstract

BACKGROUND\nCallosobruchus chinensis is one of the important postharvest pests in legume growing areas. Bacterial pesticide is a potential alternative method to control storage pests. However, the effect of these pathogen bacteria on storage pests, and the molecular mechanisms of insect response remain to be to investigated.\n\n\nRESULTS\nUsing the next generation sequencing technology, we established a transcriptomic library for C. chinensis larvae in response to Escherichia coli. Total of 355 differential expressed genes (DEGs) were identified, which 178 DEGs were upregulated, and 177 DEGs were downregulated compared to control group. To validate the RNA-seq analysis, 20 DEGs and 14 immune-related genes were selected to perform quantitative polymerase chain reaction (RT-qPCR). These immune-related genes were involved in recognition (peptidoglycan recognition proteins), signal transduction (fibrinogen-related proteins, serine proteinases and NF-κB), and execution effectors (phenoloxidase, defensin, attacin, and antimicrobial peptide). In addition, genes that encode digestive and respiratory enzymes were altered in C. chinensis larvae in response to infection. Some genes that involved in juvenile hormone and insulin pathway appeared to express differentially, suggesting that pathogen infection might lead to developmental arrest. Furthermore, iron homeostasis and chitin metabolism appeared significantly altered after infection.\n\n\nCONCLUSION\nIn this study, we characterized the immune response of C. chinensis larvae in response to E. coli using RNA-seq, from pathogen recognition, signal transduction, to execution. Some other identified genes were involved in iron homeostasis, respiration, and digestion. A better understanding of molecular response of beetle to pathogen will facilitate us to develop an available strategy to control storage pests.