Cloning and characterization of hexamerin in Spodoptera exigua and the expression response to insecticide exposure

Abstract

Abstract Hexamerins are hemolymph-proteins, which are mainly considered as storage proteins for non-feeding stages, and also undertake other roles during insect development and growth, however the characterization of hexamerin proteins in Spodoptera exigua is less understood. In this study five new hexamerin genes were identified and a total seven hexamerin genes were reported in S. exigua. These hexamerins contain the typical domains of hemocyanin at the N-terminal, C-terminal and in the middle of their protein sequences. These genes are mainly expressed in fat body, and the signal peptide sequences at their N-terminal of protein sequences can drive the expressed protein to excrete into hemolymph after synthesis. The phylogenetic analysis and amine acid composition revealed S. exigua express five different types of hexamerins: 1) Storage protein rich in methionine residue (MRSP), 2) Storage protein moderately rich in methionine (MMRSP), 3) Hexamerin with high composition of aromatic amino acids (Arylphorin), 4) Arylphorin-like hexamerin, and 5) Riboflavin-binding hexamerin (RbH). The phylogenetic pattern combined with the comparison of conserved histidine residues in copper binding sites of hexamerins revealed basal position of RbH and the evolutionary pathway in lepidopteran hexamerins. Finally, the induction expression of hexamerins by insecticide, lambda-cyhalothrin, were analyzed, results showed that lambda-cyhalothrin exposure may down-regulate their expression. This study increased the gene number of hexamerin to seven, and reported their expression and structural characterizations, the finding will facilitate the understand of hexamerin in other insects.