View article

Hemipteran pests including aphids are not particularly susceptible to the effects of insecticidal Cry toxins derived from the bacterium Bacillus thuringiensis. We examined the physiological basis for the relatively low toxicity of Cry1Ac and Cry3Aa against the pea aphid, Acyrthosiphon pisum (Harris). Cry1Ac was efficiently hydrolyzed by aphid stomach membrane associated cysteine proteases (CP) producing a 60kDa mature toxin, whereas Cry3Aa was incompletely processed and partially degraded. Cry1Ac bound to the aphid gut epithelium but showed low aphid toxicity in bioassays. Feeding of aphids on Cry1Ac in the presence or absence of GalNAc, suggested that Cry1Ac gut binding was glycan mediated. In vitro binding of biotinylated-Cry1Ac to gut BBMVs and competition assays using unlabeled Cry1Ac and GalNAc confirmed binding specificity as well as glycan mediation of Cry1Ac binding. Although Cry3Aa …