Abstract
The kinetic binding characteristics of four Bacillus thuringiensis CryI insecticidal crystal proteins to a Cry-binding protein, purified from Manduca sexta brush-border vesicles, were analyzed by an optical biosensor. This 120-kilodalton binding protein, previously determined to be aminopeptidase N, was converted to a 115-kilodalton water-soluble form by removing the attached glycosylphosphatidylinositol anchor with phospholipase C. The solubilized form recognized the three major subclasses of CryIA toxins but not CryIC even though all four CryI proteins are toxic to larvae of M. sexta. CryIA(a) and CryIA(b) toxins bound to a single site on the solubilized aminopeptidase N molecule whereas CryIA(c) bound to two distinct sites. Apparent kinetic rate constants were determined for each binding reaction. All three CryIA toxins exhibited moderately fast on rates (approximately 10(-5) M-1 s-1) and a slow reversible off rate (approximately 10(-3) s-1). Although the second CryIA(c)-binding site retained a moderately fast association rate, it was characterized by a rate of dissociation from the amino-peptidase an order of magnitude faster than observed for the other CryIA-binding sites. CryIA(c) binding to both sites was strongly inhibited in the presence of N-acetylgalactosamine (IC50 = 5 mM) but not N-acetylglucosamine, mannose, or glucose. CryIA(a) and CryIA(b) binding were unaffected in the presence of the same sugars. Our results serve to illustrate both the complexity and the diverse nature of toxin interactions with Cry-binding proteins.
Highlights
From the Wational Research Council of Canada, Biotechnology Research Institute, 6100 Royalmount Ave., Montreal H4P 2R2, Quebec, Canada and the Wepartment of Entomology, University of Georgia, Athens, Georgia 30602-2603
Most of the in vitro studies characterizing these proteins to date have utilized brush border membrane vesicles (BBMVs)1 purified from the gut epithelium of susceptible insects [8] or immunochemical staining of midgut sections [9]
In this study, using surface plasmon resonance (SPR), we provide the first detailed kinetic analysis of the interaction between three B. thuringiensis CryIA toxin subclasses and a solubilized form of the 120-kDa CryIA(c)-binding protein purified from M. sexta
Summary
From the Wational Research Council of Canada, Biotechnology Research Institute, 6100 Royalmount Ave., Montreal H4P 2R2, Quebec, Canada and the Wepartment of Entomology, University of Georgia, Athens, Georgia 30602-2603. The kinetic binding characteristics of four Bacillus thuringiensis Cryl insecticidal crystal proteins to a Crybinding protein, purified from Manduca sexta brushborder vesicles, were analyzed by an optical biosensor. This 120-kilodalton binding protein, previously determined to be aminopeptidase N, was converted to a 115kilodalton water-soluble form by removing the attached glycosylphosphatidylinositol anchor with phospholipase C. In this study, using surface plasmon resonance (SPR), we provide the first detailed kinetic analysis of the interaction between three B. thuringiensis CryIA toxin subclasses and a solubilized form of the 120-kDa CryIA(c)-binding protein purified from M. sexta. We present a detailed kinetic analysis of CryIA toxin
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