The cell cycle and its relationship to development in Dictyostelium discoideum.

When deprived of exogenous nutrients some amoebas of Dictyostelium discoideum do continue to progress through the cell cycle. There are two distinct periods when mitotic cell division occurs. Labeling studies show that during the first period, which begins at the onset of development and ceases at the first visible signs of aggregation (rippling), only those cells which are beyond a certain point in G2 at the initiation of development divide. The second period of mitotic activity begins at tip formation, reaches maximum activity at the grex stage, and ceases during early culmination. Significantly, examination of the development of amoebas harvested when in the stationary phase of growth (and thus arrested in G2) shows that these cells still undergo mitotic cell division during the second period but do not show any such division during the preaggregation phase. The extent to which increases in cell number can be taken to be indicative of mitotic cell division varies from one culture to another due to the presence of variable numbers of multinucleate cells which become mononucleate during the first 10 hr of development. However, when due allowance has been made for the existence of these cells in axenically growing amoebal populations, our data show that by completion of fruiting body construction there has been a doubling in cell number as a direct result of mitotic cell division. Nuclear DNA synthesis also occurs at two distinct periods during development, these coinciding with the periods of mitotic activity. However, since no more than 35% of the cells have undergone nuclear DNA synthesis by the end of the developmental phase, our results are inconsistent with the conclusion that all cells accumulate at a position in G2 at the time of aggregation. Our results do suggest, however, that mitotic cell division of a fraction of the cells may be an integral part of the developmental phase.