Identification and molecular structural prediction analysis of a toxicity determinant in the <i>Bacillus sphaericus</i> crystal larvicidal toxin

Yuan, Zimming M.; Rang, Cécile; Maroun, Rachid C.; Juárez-Pérez, Víctor; Frutos, Roger; Pasteur, Nicole; Vendrely, Charlotte; Charles, Jean‐François; Nielsen-LeRoux, Christina

doi:10.1046/j.1432-1327.2001.02176.x

Cited by 37 publications

(29 citation statements)

References 47 publications

(77 reference statements)

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“…Since the interaction of the binary toxin with target lipid membrane is one of the key steps in eliciting cytopathological effects on mosquito larvae, molecular insights into the interaction of the binary toxin with lipid membranes is required to gain a better understanding of the mechanism of toxicity. Due to the lack of three dimensional structure of the binary toxin, functional characterization has been based mainly on its amino acid sequence analysis and secondary structure prediction (10)(11)(12)(13)(14)(15). Aromatic residues, especially tyrosine and tryptophan, conceivably play a key role in membrane anchoring of many membrane proteins and are mainly found at the membrane-water interface (16).…”

Section: Introductionmentioning

confidence: 99%

Essential role of tryptophan residues in toxicity of binary toxin from Bacillus sphaericus

Kunthic

Promdonkoy

Srikhirin³

et al. 2011

BMB Reports

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Bacillus sphaericus produces mosquito-larvicidal binary toxin composed of BinA and BinB. While BinB is expected to bind to a specific receptor on the cell membrane, BinA interacts to BinB or BinB receptor complex and translocates into the cytosol to exert its activity via unknown mechanism. To investigate functional roles of aromatic cluster in BinA, amino acids at positions Y213, Y214, Y215, W222 and W226 were substituted by leucine. All mutant proteins were highly produced and their secondary structures were not affected by these substitutions. All mutants are able to insert into lipid monolayers as observed by Langmuir-Blodgett trough and could permeabilize the liposomes in a similar manner as the wild type. However, mosquito-larvicidal activity was abolished for W222L and W226L mutants suggesting that tryptophan residues at both positions play an important role in the toxicity of BinA, possibly involved in the cytopathological process after toxin entry into the cells. [BMB reports 2011; 44(10): 674-679]

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Section: Introductionmentioning

confidence: 99%

Essential role of tryptophan residues in toxicity of binary toxin from Bacillus sphaericus

Kunthic

Promdonkoy

Srikhirin³

et al. 2011

BMB Reports

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“…12,13) Although S-layers have been identified in some B. sphaericus and their structures and re-assembly characteristics have been described, 3,6,14) the occurrence of S-layers is not well documented in insect pathogenic B. sphaericus strains, and there is no report on the relationship between S-layer of pathogenic B. sphaericus and its toxicity against mosquito larvae.…”

mentioning

confidence: 99%

Phylogenetic Analysis and Heterologous Expression of Surface Layer Protein SlpC ofBacillus sphaericusC3-41

Hansen

et al. 2008

Bioscience, Biotechnology, and Biochemistry

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“…It is proposed that in solution binary toxin exists as tetramer composing of 2 molecules of BinA and 2 molecules of BinB, but the oligomer is not held together by disulfide bonds (13). However, dimers of both BinA and BinB withstood SDS-PAGE sample preparation to some degree so that they could be observed as bands of molecular masses of 110 kDa and 125 kDa, respectively, but these dimer bands disappeared after trypsin digestion (13,15). In agreement with those findings, our results indicate that the active form of BinB does not contain disulfide bond.…”

Section: Resultsmentioning

confidence: 99%

“…Interaction between BinA and BinB is crucial for activity of binary toxin and studies of binary toxin with lipid bilayers suggest that BinA and BinB may interact in solution prior to binding to the receptor (24). Significance of this interaction is emphasized in the work showing that amino acid at position 93 of BinA is important for biological activity of the toxin by playing a major role in the formation of BinA-BinB complex (15). Also, amino acids centered around position 100 in BinA which has been proved to be important for host ranges of binary toxin may play a part in BinA-BinB interaction (14).…”

Section: Effect Of Amino Acid Substitutions On Bina-binb Interactionmentioning

confidence: 99%

“…In the same report, it was suggested that both Nand C-terminal regions of BinA are important for BinA-BinB interaction (8). Site-directed mutagenesis of amino acid positions 93, 99, and 104 of BinA revealed that these residues are crucial for toxicity and it was proposed that residues in this region might play a role in the formation of BinA-BinB complex (14,15). Interestingly, mutagenesis of charged residues (R97, E98, R101, and E114) in the same region showed that these charged residues are also essential for biological activity of binary toxin, but not involved in BinA-BinB interaction (16).…”

Section: Introductionmentioning

confidence: 97%

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Role of cysteine at positions 67, 161 and 241 of a Bacillus sphaericus binary toxin BinB

Boonyos¹,

Soonsanga²,

Boonserm³

et al. 2010

BMB Reports

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Binary toxin consisting of BinA and BinB from Bacillus sphaericus is toxic to mosquito larvae. BinB is responsible for specific binding to the larval gut cell membrane while BinA is crucial for toxicity. To investigate functional role of cysteine in BinB, three cysteine residues at positions 67, 161, and 241 were replaced by alanine or serine. Mutations at these positions did not affect protein production and overall structure of BinB. These cysteine residues are not involved in disulfide bond formation between BinB molecules. Mosquito-larvicidal assays revealed that C67 and C161 are essential for toxicity, whereas C241 is not. Mutations at C67 and C161 resulted in weaker BinA-BinB interaction. The loss of toxicity may be due to the reduction of interactions between BinA and BinB or BinB and its receptor. C67 and C161 could also play a part during conformational changes or internalization of the binary toxin into the target cell. [BMB reports 2010; 43(1): 23-28]

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Identification and molecular structural prediction analysis of a toxicity determinant in the Bacillus sphaericus crystal larvicidal toxin

Cited by 37 publications

References 47 publications

Essential role of tryptophan residues in toxicity of binary toxin from Bacillus sphaericus

Essential role of tryptophan residues in toxicity of binary toxin from Bacillus sphaericus

Phylogenetic Analysis and Heterologous Expression of Surface Layer Protein SlpC ofBacillus sphaericusC3-41

Role of cysteine at positions 67, 161 and 241 of a Bacillus sphaericus binary toxin BinB

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