Some wild-type strains of Dictyostelium mucoroides exhibit dimorphism in development depending on culture conditions: on agar, fruiting bodies containing stalk and spore cells are formed, whereas under water, a thick-walled structure lacking spore and stalk cells (the macro-cyst) is formed. The mutant, MF-1, was derived from one of these wild-type strains. It forms macrocysts on an agar surfxe as well as under water. It was found that MF-1 could be induced to form fruiting bodies in two ways. First, when an aggregation center from the wild-type strain was grafted to an MF-1 aggregation center. MF-1 cells migrated to the center and formed a large aggregate that gave rise to many slugs that became fruiting bodies. This result, along with the observation that MF-1 aggregates have no tip, suggests that MF-1 normally produces an aggregation center that is unable to organize the aggregate to form a slug. Second, when MF-1 cells were allowed to develop on 1.2 m M ethionine (an analog of methionine), they formed aggregates with tips and developed into fruiting bodies with thick stalks instead of macrocysts. The effect of ethionine was blocked by the presence of 2.4 m M methio-nine. Two other methionine analogs were also tested, i.e., α-methylmethionine and norleucine. When cultured on the former at concentrations ranging from 1.2 to 9.6 m M, MF-1 cells still produced macrocysts; when cultured on norleucine at concentrations ranging from 2.4 to 9.6 m M, MF-1 cells aggregated into large clumps that formed numerous slugs, but these failed to continue development to fruiting bodies. In vertebrates, it is known that a major biochemical effect of ethionine is the inhibition of the methylation of nucleic acids, proteins, and phospholipids. Norleucine and a-methylmethionine inhibit methylation to a lesser extent. Thus, it can be speculated that the biological effects of ethionine on MF-1 cells may result from its interference with methylation reactions, suggesting that macrocyst formation may involve excess methylation as compared with the situation during fruiting-body development.