Changes of cell size distribution during the batch culture of Arthrobacter strain PI/1-95.

The size distributions of an arthrobacter, approximately 1 microm in diameter, were analysed using a Coulter Multisizer II instrument thereby making it possible to distinguish between the different stages in the morphological cycle. The results indicated that at the beginning of exponential phase a shift occurred from large to smaller cells, the cell size distributions in both categories were asymmetric, skewed towards higher values than the means. During the course of the batch culture the cells in the larger class decreased in size and the two classes coalesced. The size distribution of the smaller class exhibited an additional shift towards smaller cells. After which neither the number of classes nor the size distribution changed. It was concluded that the Coulter Multisizer II instrument provides a feasible method to extract information not only about mean cell size but also about cell size distributions.

A practicable and accurate method to differentiate between intra- and extracellular water of microbial cells.

A thermographimetric method which allows for a quick and accurate estimation of intra- and extracellular water of microbial cells is reviewed and improved. Knowledge of these fractions is important for physiological as well as for toxicological investigations. Results of the study indicate that besides the species, nutrient availability and growth conditions affect the intracellular water content. Intra- and extracellular water, dry matter, volume and density of a single cell of Arthrobacter sp. are calculated. There are indications that intracellular compartments of eukaryotes could also be investigated with this method.