Abstract
Depending on the dose administred to the experimental mice, the Bacillus thuringiensis exotoxin produces striking changes in the nucleolar morphology of hepatocytes such as the formation of ring-shaped nucleoli, micronucleoli and the segregation of nucleolar components. Such changes are apparently related to the decrease and inhibition of nucleolar biosynthetic activities in the production of the nucleolar RNA. In addition, the Bacillus thuringiensis exotoxin causes the formation of nucleolar peripheral dense plaques and, at higher concentrations, the segregation of two distinctly separated granular areas in the nucleolus. Both these light and dense granular areas showed positive staining with Bernhard's EDTA procedure for the preferential demonstration of RNA-containing structures. In some segregated nucleoli the granular components of light granular areas seemed to leave the nucleolus. The presence of discontinuous filamentous shell around micronucleoli produced by the high dose of exotoxin suggests the nucleolar origin of nuclear granular bodies which are surrounded by similar but continuous filamentous shell characteristic of these structures.
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