Regulation of Macronuclear DNA Content in Paramecium tetraurelia *†

Synopsis. The amitotic division of the macronucleus of Paramecium tetraurelia produces daughter macronuclei which frequently differ in DNA content. In wild‐type cells these differences are small, but can be increased substantially by the action of mutant genes. The variance in macronuclear DNA content would increase continuously if there were no mechanism to regulate it. Paramecium has a very effective regulatory mechanism—all cells synthesize similar amounts of macronuclear DNA, regardless of the number of macronuclei or their prereplication DNA content. DNA synthesis is controlled at the level of macronuclear subunits, and the postreplication macronucleus consists of a mosaic of subunits that have undergone different numbers of replication events during the previous cell cycle. It is evident from experimental results that the amount of DNA synthesized can be influenced by the total size or mass of the cell. Experimental modification of the initial DNA content leads to no change in the amount of DNA synthesized, or in the subsequent protein content of the cells, but modification of cell size causes corresponding changes in the amount of DNA synthesized and in the size of the macronucleus. The implications of these observations for cell growth and the cell cycle are discussed.