Simple cost-effective larval injection method for dsRNA delivery to induce RNAi response in Helicoverpa armigera (Hubner)

Microinjection is considered as an effective method for dsRNA delivery in insects. It also facilitates the delivery of a precise quantity of dsRNA in the host insect, inducing an efficient RNAi response. However, the microinjection method needs prior optimization of several parameters like concentration of dsRNA, site of injection, developmental stage of insect etc. for inducing effective RNAi response. Moreover, sophisticated microinjection devices are largely expensive with high maintenance cost. The Old-World bollworm, Helicoverpa armigera (Hubner) is known to be a detrimental polyphagous pest with widespread infestations across the globe. In the present study, we demonstrate a low-cost and effective dsRNA delivery method for inducing RNAi response in H. armigera with the aid of basic insulin injection syringe and fabricated micropipette tip. In order to validate the RNAi response following dsRNA injection, we have selected three key genes from the chitin biosynthesis pathway of the insect. Besides these, argonaute 1 (ago1) was also used as an indicator gene for dsRNA-mediated RNAi induction. Delivery of dsRNA using injection with insulin syringe caused significant upregulation of the ago1 gene in the insect irrespective of any of the three target genes concerned viz. HaNAGK (3.9 fold; p < 0.001), HaAGM (6.3 fold; p < 0.001) and HaUAP (5.9 fold; p < 0.01) respectively, as compared to control injected with nuclease-free water. The dsRNA-injected insects showed aberrant developmental symptoms typical of impeded chitin synthesis, eventually leading to anomalous ecdysis with substantial mortality (up to 69.04%), as compared to controls. The described protocol reduces insect injury, enabling easy restraining of larva and quick execution of dsRNA injection with efficient RNAi response.