Abstract
A series of deletion mutants have been constructed from the dual toxicity Bacillus thuringiensis aizawai IC1 (Bta IC1) crystal protein gene. The mutant toxin genes were expressed in Escherichia coli, their protein products purified and the authenticity of these mutant proteins confirmed immunologically. Analysis of the toxicity spectra of these mutants revealed that lepidopteran toxicity is located on the N-terminal region of the toxin between residues Ile30-Glu595. 3' deletion of a further 37 residues from Glu595 of the lepidopteran-specific toxin abolished lepidopteran toxicity but the resulting protein consisting of residues Ile30-Gly558 was still fully toxic to dipteran larvae and cells. Another mutant crystal protein gene truncated to encode residues between Ile30-Gly563 was toxic only to diptera. These data indicate that the determinants of lepidopteran specificity in the Bta IC1 toxin are located between residues Gly558-Glu595 and that the N-terminal portion of the toxin between Ile30-Gly558 is sufficient to express dipteran toxicity.
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