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Abstract
Lysinibacillus sphaericus strains belonging the antigenic group H5a5b produce spores with larvicidal activity against larvae of Culex mosquitoes. C7, a new isolated strain, which presents similar biochemical characteristics and Bin toxins in their spores as the reference strain 2362, was, however, more active against larvae of Culex mosquitoes. The contribution of the surface layer protein (S-layer) to this behaviour was envisaged since this envelope protein has been implicated in the pathogenicity of several bacilli, and we had previously reported its association to spores. Microscopic observation by immunofluorescence detection with anti S-layer antibody in the spores confirms their attachment. S-layers and BinA and BinB toxins formed high molecular weight multimers in spores as shown by SDS-PAGE and western blot detection. Purified S-layer from both L. sphaericus C7 and 2362 strain cultures was by itself toxic against Culex sp larvae, however, that from C7 strain was also toxic against Aedes aegypti. Synergistic effect between purified S-layer and spore-crystal preparations was observed against Culex sp. and Aedes aegypti larvae. This effect was more evident with the C7 strain. In silico analyses of the S-layer sequence suggest the presence of chitin-binding and hemolytic domains. Both biochemical characteristics were detected for both S-layers strains that must justify their contribution to pathogenicity.
Highlights
Lysinibacillus sphaericus, together with Bacillus thuringiensis var. israelensis, represents the best ecological insecticide against mosquitoes and an environmental friendly alternative to chemical insecticides
Spore-crystals preparations contain surface layer protein (S-layer) In a search for Lysinibacillus sphaericus strains with enhanced insecticidal activity, one particular isolate C7 was obtained
When we analyzed the SMART database to predict functionality and physical distribution, we found a similar arrangement of surface layer homology domains (SLH) and Internal Repeats as that observed for the chitinase ChiW (BAM67143.1) of Paenibacillus sp
Summary
Lysinibacillus sphaericus, together with Bacillus thuringiensis var. israelensis, represents the best ecological insecticide against mosquitoes and an environmental friendly alternative to chemical insecticides. Israelensis, represents the best ecological insecticide against mosquitoes and an environmental friendly alternative to chemical insecticides These Gram-positive bacteria synthesize spores together with crystal-proteins, Cry and/or Cyt toxins, both being a very stable bioinsecticide [1]. Lysinibacillus sphaericus, formerly Bacillus sphaericus, was renamed due to the presence of lysine and aspartic acid in the composition of their peptidoglycan [5] These are a heterogeneous group of gram positive sporulating Bacillus some of which are entomopathogenic against mosquito larvae [4]. Hybridization studies of their DNA lead to classify them in 5 groups (I to V), but the most toxic strains belong to the homology group IIA [6] [7] and flagellar serotype H5a5b being 2362 the reference strain. In contrast to B. thuringiensis strains [11], no chitinase activity has been detected in these bacteria
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