Baculovirus and dsRNA induce Hemolin, but no antibacterial activity, in Antheraea pernyi.

Abstract	Hemolin is one of the haemolymph proteins most strongly induced upon bacterial infection in Lepidoptera. When we applied RNA interference (RNAi) to suppress Hemolin expression in the Chinese oak silk moth Antheraea pernyi, we discovered that Hemolin is induced by double-stranded RNA (dsRNA) per se. As dsRNA is recognized as a virus pattern molecule, we then investigated the effect of a baculovirus (ApNPV) infection. We found that Hemolin is induced and expressed with similar kinetics as upon dsRNA injection. Notably, no Attacin gene expression or antibacterial activity was recorded. When baculovirus and high amounts of dsRNA were coinjected, the viral symptoms appeared earlier with Hemolin dsRNA than with GFP dsRNA. This indicates that silencing of hemolin affected the progress of the viral infection.
Authors	M Hirai, O Terenius, W Li, I Faye
Journal	Insect molecular biology (Insect Mol Biol) Vol. 13 Issue 4 Pg. 399-405 (Aug 2004) ISSN: 0962-1075 [Print] England
PMID	15271212 (Publication Type: Comparative Study, Journal Article, Research Support, Non-U.S. Gov't)
Chemical References	DNA Primers DNA, Complementary Immunoglobulins Insect Proteins Luminescent Proteins Proteins RNA, Double-Stranded attacin antibacterial protein, insect hemolin Green Fluorescent Proteins
Topics	Animals Baculoviridae Base Sequence Blotting, Northern China DNA Primers DNA, Complementary (genetics) Escherichia coli Female Gene Expression Regulation Green Fluorescent Proteins Hemolymph (microbiology) Immunoglobulins Insect Proteins (genetics, metabolism) Kinetics Larva (metabolism, virology) Luminescent Proteins (metabolism) Molecular Sequence Data Moths (metabolism, microbiology, virology) Proteins (metabolism) RNA, Double-Stranded (metabolism) Reverse Transcriptase Polymerase Chain Reaction

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