Abstract
BackgroundOral toxicity of double-stranded RNA (dsRNA) specific to integrin β1 subunit (SeINT) was known in a polyphagous insect pest, Spodoptera exigua. For an application of the dsRNA to control the insect pest, this study prepared a transformed Escherichia coli expressing dsRNA specific to SeINT.Principal FindingsThe dsRNA expression was driven by T7 RNA polymerase overexpressed by an inducer in the transformed E. coli. The produced dsRNA amount was proportional to the number of the cultured bacteria. The transformed bacteria gave a significant oral toxicity to S. exigua larvae with a significant reduction of the SeINT expression. The resulting insect mortality increased with the fed number of the bacteria. Pretreatment with an ultra-sonication to disrupt bacterial cell wall/membrane significantly increased the insecticidal activity of the transformed bacteria. The larvae treated with the transformed bacteria suffered tissue damage in the midgut epithelium, which exhibited a marked loss of cell-cell contacts and underwent a remarkable cell death. Moreover, these treated larvae became significantly susceptible to a Cry toxin derived from Bacillus thuringiensis (Bt).ConclusionsThis study provides a novel and highly efficient application technique to use dsRNA specific to an integrin gene by mixing with a biopesticide, Bt.
Highlights
Application of double-stranded RNA has been focused on controlling specific target insect pests in agriculture [1]
This study provides a novel and highly efficient application technique to use double-stranded RNA (dsRNA) specific to an integrin gene by mixing with a biopesticide, Bacillus thuringiensis (Bt)
Test bacteria used in this study were prepared with a recombinant vector containing a fragment of S. exigua β1 integrin gene (‘SeINT’, Fig 1)
Summary
Application of double-stranded RNA (dsRNA) has been focused on controlling specific target insect pests in agriculture [1]. A V-ATPase gene, which is expressed in the midgut of the corn rootworm, Diabrotica virgifera virgifera, was targeted by its specific dsRNA and gave a significant mortality to the pest [2]. To be specific to insects and other arthropods, a chitin synthase was targeted to develop dsRNA insecticide [3,4]. Targeting ecdysone receptor by dsRNA is another example for the specific control insect pests to avoid any detrimental impact on mammals [5]. Oral toxicity of double-stranded RNA (dsRNA) specific to integrin β1 subunit (SeINT) was known in a polyphagous insect pest, Spodoptera exigua. For an application of the dsRNA to control the insect pest, this study prepared a transformed Escherichia coli expressing dsRNA specific to SeINT
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