The transformation from the asexual proliferative stage of Tetrahymena to the sexual stage, during which cells of complementary mating types pair and nuclear fertilization occurs, provides an opportunity to study the relationship between the division cycle and differentiation. Conjugation is induced in cells starved for at least 2 hr by mixing complementary mating types. To determine the effect of starvation on the cell cycle, dividing cells were selected from a log growth culture and stepped down to non-nutrient conditions. The G 1 stage is operationally divisible into two sectors, A and B. In the A stage, cells arrest in nutrient-free medium. In the B stage, they proceed through the division cycle. Arrested G 1A cells may conjugate directly when challenged with similar cells of a complementary mating type. It is thereby demonstrated that Tetrahymena cells in G 1A can be directed to divide (nutrient conditions) or can be directed to differentiate (non-nutrient conditions plus complementary mating type) without an intervening division cycle. This rules out a requirement for reprogramming via chromosomal replication or cell division and suggests that G 1A is a stage during which the division/differentiation decision is made in direct response to ambient conditions.