Axenically-grown microplasmodia of the acellular slime mold Physarum polycephalum were used to study adhesion-dependent changes in the spatial organization of the cytoplasmic microfilament system. Results obtained by light- and electron microscopical techniques demonstrate the presence of a membrane-bound filament cortex in all microplasmodia, and the expression of additional cytoplasmic fibrils in specimens with tight contact to a substratum. The fibrils partly terminate in focal adhesion-sites and rather seem to serve a cytoskeletal than a contractile function.