Role of helix 3 in pore formation by the Bacillus thuringiensis insecticidal toxin Cry1Aa

DOIResolve DOI: http://doi.org/10.1021/bi011572e
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TypeArticle
Volume41
Issue19
Pages61786184; # of pages: 7
Subjectenv; Amino Acids; Acids; Genes; Potassium; Cysteine; Glutamine; Mutation
AbstractHelix 3 of the Cry1Aa toxin from Bacillus thuringiensis possesses eight charged amino acids. These residues, with the exception of those involved in intramolecular salt bridges (E90, R93, E112, and R115), were mutated individually either to a neutral or to an oppositely charged amino acid. The mutated genes were expressed, and the resultant, trypsin-activated toxins were assessed for their toxicity to Manduca sexta larvae and their ability to permeabilize M. sexta larval midgut brush border membrane vesicles to KCl, sucrose, raffinose, potassium gluconate, and N-methyl-D-glucamine hydrochloride with a light-scattering assay based on osmotic swelling. Most mutants were considerably less toxic than Cry1Aa. Replacing either E101, E116, E118, or D120 by cysteine, glutamine, or lysine residues had only minor effects on the properties of the pores formed by the modified toxins. However, half of these mutants (E101C, E101Q, E101K, E116K, E118C, and D120K) had a significantly slower rate of pore formation than Cry1Aa. Mutations at R99 (R99C, R99E, and R99Y) resulted in an almost complete loss of pore-forming ability. These results are consistent with a model in which alpha-helix 3 plays an important role in the mechanism of pore formation without being directly involved in determining the properties of the pores. (c) Biosciences Information Services.
Publication date
AffiliationNRC Biotechnology Research Institute; National Research Council Canada
Peer reviewedNo
NRC number45911
NPARC number3539246
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Record identifierf6e8f0cb-4735-411e-8351-ba493f150c64
Record created2009-03-01
Record modified2016-05-09
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