Studies on microplasmodia ofPhysarum polycephalum

Abstract

The new technique of fluorescent analog cytochemistry was used to investigate the cell surface morphology (RITC-WGA staining), the organization of the microfilament system (Rh-phalloidin staining) and the spatial distribution of mitochondria (Rh-123 staining) in the various growth stages of axenically cultured living and fixed microplasmodia ofPhysarum polycephalum. The differentiation degree of the cell surface is generally size- and age-dependent: the invagination system develops by degrees from small spherical stages (50–100 μm) without invaginations to large vein-like or dumbbell-shaped specimens (300–1,000 (μm long) with extensive invagination systems. The microfilaments are always organized in a cortical system along the entire cell surface and sometimes in a fibrillar system as well, extending throughout the cytoplasmic matrix. Results on living microplasmodia demonstrate that the cortical microfilament system is mainly involved in motive force generation for changes of cell surface morphology and protoplasmic streaming activity, whereas the fibrillar system rather serves a stabilizing and adhering function. Moreover, the functional differences of the two microfilament systems are indicated by the position of a large population of stationary mitochondria in close vicinity to the cell surface, thus pointing to a reasonable arrangement of the energy-supplying and energy-transforming system.