Countercurrent distribution and multiple sedimentation of Chlorella pyrenoidosa during its life cycle

Synchronously and normally grown Chlorella pyrenoidosa cell populations were analysed by countercurrent distribution in aqueous two-polymer phase systems and by a multiple sedimentatation technique. Partition of cells in aqueous phases reflects the surface properties of cells (primarily surface charge) and multiple sedimentation reflects the cells' size-density parameters. It was found that:

1. 1. Synchronized cells that have just divided have the lowest partition of any in the population. Surface charge (as reflected by partition) increases with time after cell division. Cells have the highest partition just prior to division.

2. 2. Synchronized cells that have just divided are the smallest of any in the population. Since size and sedimentation rate increase with time after cell division multiple sedimentation permits the separation of cells of different ages.

3. 3. Both countercurrent distribution and multiple sedimentation studies reveal considerable heterogeneity of synchronized Chlorella populations. The increase in both surface charge and size with cell age does not appear to proceed in a continuous fashion. Rather, it seems to go in a stepwise manner.

4. 4. Non-synchronized cells examined by either countercurrent distribution or multiple sedimentation show two distinct sub-populations. One of these corresponds to the youngest, just divided cells; and the other to cells just prior to cell division. It is suggested that a lag time just prior to cell division and just after cell division explains these results.

5. 5. Countercurrent distribution in two-polymer phases and multiple sedimentation at unit gravity in a suspension medium best suited for the cell under investigation seem to be methods of choice for tracing cell changes during division, maturation and aging and for sub-fractionating such cell populations.