Abstract
CryIIA is an effective insecticidal delta-endotoxin produced by several strains of Bacillus thuringiensis. Unlike CryI and CryIIIA-toxins that demonstrate some degree of saturable binding on the brush border of susceptible insects, neither saturable binding nor a saturable binding component was found for CryIIA on the midgut brush border of Helicoverpa zea. CryIIA did not dilute and block CryIA(c) binding, however, CryIA(c) effectively diluted CryIIA and stopped the initial binding of CryIIA to the brush border. These observations suggest that CryIIA and CryIA(c) toxins share a common component for binding on the midgut brush border. CryIIA formed voltage-dependent and not highly cation-selective channels in planar lipid bilayers unlike CryIA(c) and CryIIIA. Both CryIA(c) and CryIIA were stable in the digestive fluids of H. zea, but CryIIA was significantly less soluble than CryIA(c). Despite this difference in solubility, CryIIA arrested the feeding of third instar H. zea as rapidly as did CryIA(c), however, the onset of acute morbidity was delayed for CryIIA. Differences in solubility, binding, and ion channels formed by CryIIA toxin, resulted in reduced bioactivity against H. zea when compared with CryIA(c) but represent a unique mode of action among the delta endotoxins.
Published Version
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