| Abstract: | SYNOPSIS. Differentiation of small-mouthed cells (microstomes) into large-mouthed, potentially carnivorous cells (macrostomes) in Tetrahymena vorax is prevented by 2-mercapto-1-(β-4-pyridethyl) benzimidazole (MPB). This differentiation, induced by the transforming principle, stomatin, isolated from the potential prey, Tetrahymena pyriformis, is a synchronous process in which 70–95% of the population of T. vorax microstomes transform into macrostomes within 450 min. MPB also inhibits RNA synthesis in transforming microstomes while having little effect on protein synthesis. Finally, the effect of MPB on both transformation and RNA synthesis is reversible. |
