Nucleoid structure in freeze fractures of Streptococcus faecalis: effects of filtration and chilling.

With the techniques used in this study, the nucleoid of Streptococcus faecalis could not be seen in freeze-etch preparations unless glutaraldehyde had been added to cultures of cells before they were frozen. With time, the nucleoid became visible as a network of fibers, apparently as a result of the aggregation of individual chromosomal elements in the presence of glutaraldehyde. When glutaraldehyde was added to undisturbed cultures, the fibers that became visible were observed in small patches that were seemingly scattered throughout the cytoplasm. However, if cells were chilled or placed on filters before glutaraldehyde was added, the fibers which then developed were seen in large central areas. The appearance of centralized nucleoids in freeze fractures of cells that had been chilled or filtered could be correlated with a decrease in the central density of the cytoplasm, as seen by light microscopy, in cells embedded in gelatin or bovine serum albumin. These observations are discussed in relation to a model for the normal structure of the nucleoid which suggests that the treatments routinely used to study the morphology-physiology of cells (chilling, filtration, and fixation) result in a reorganization of the cytoplasm, leading to an increase in the centralization of nuclear material.