4a–d). However, some cells of MD20 could form asymmetric septum at one pole (Fig. 4b), indicating initiation of sporulation. In contrast,
mutants MC78, MQ43 and MP64 were blocked at the later stages of sporulation. They could form spore-like structures and produced crystal inclusion. Electron microscopy showed that the cortices and coats of the wild-type spores were well arranged, and the dark-staining spore core could be observed (Fig. 4e). Whereas the MQ43 and MC78 spores exhibited fuzzy cortexes, no spore coat could be formed and the spore core could not Stem Cell Compound Library research buy be well compacted (Fig. 4f and g). Mutant MP64 completed the engulfment and formed normal forespores but exhibited a deformed ovoidal sporangium with a narrow cortical layer external to the inner forespore membrane (Fig. 4h). SDS-PAGE analysis showed that the mutants that were blocked at later stages of sporulation synthesized two crystalline mosquito-larvicidal proteins of 51 kDa
(BinB) and 42 kDa (BinA) during sporulation, similar to the wild-type strain, whereas no binary toxin could be detected in asporogenous mutants blocked at early stages (Fig. 5a). Although no binary toxin could be detected in the mutants MD20, MB41 or MN49 by SDS-PAGE, immunoblotting showed that Bin proteins might be expressed in very low quantities (Fig. 5b). Bioassay results against fourth instar larvae showed that mutants blocked at early stages of sporulation (MC06, MD20, MB41 and MN49), in which no visible crystal could be detected, retained limited toxicity at a much lower level than the wild type (Table 2). This toxicity presumably results from the mosquitocidal toxins (Mtxs) BIBW2992 molecular weight produced during the vegetative growth stage (El-Bendary et al., 2005). However, mutant MD20, which could form septum, had much higher toxicity than MC06, MB41 and MN49, and was only 50-fold less toxic than wild type. Therefore, it is likely that MD20 produces a small quantity of Bin crystal protein (Table 2). Mutants blocked at the later stages of sporulation (MQ43, MP64 and MC78) were able to form crystals and had a high toxicity comparable to that of the wild type (Table 2). Bacillus sphaericus can
produce the main mosquitocidal protein binary toxin Niclosamide during sporulation. Although various sporulation-defective mutants of B. sphaericus have been isolated by chemical mutagenesis approaches (Charles et al., 1988), the exact genes involved in sporulation have not been identified experimentally. Thus, a random mutant library was constructed using the mariner-based transposon mutagenesis method and mutants were screened for sporulation-defective phenotypes. The data presented in this paper demonstrate that the mariner-based transposon system works effectively in B. sphaericus. The aim of this study was to identify genes associated with sporulation and Bin protein synthesis. We identified seven sporulation-defective mutants using a genome-wide mutagenesis approach.