Freeze-fracture studies in the brown algaAsteronema rhodochortonoides

Abstract

The gross structure of the cell wall and the organization of the plasmalemma of the filamentous brown algaAsteronema rhodochortonoides were examined in replicas of freeze-fractured cells. The protoplasmic fracture face (PF) of the plasmalemma, apart from the single particles, exhibits two particular particle complexes, i.e., single linear arrays of closely packed particles, and well defined particle pentads. The former display a consistent relationship with the ends of microfibril imprints and therefore are considered as terminal complexes (TCs). They seem to be composed of subunits, each one consisting of two particles. The average diameter of the particles is 7 nm. The number of the subunits forming the TCs varies between 2 and 40. Short TCs, consisting of 3–5 subunits were also found on the PF of dictyosome vesicles, a fact suggesting the involvement of the Golgi apparatus in exocytosis of preformed TC portions. The occurrence, distribution and size of the TCs appear to be related to the developmental stage of the cell. A large number of TCs occur in actively growing cells, while a few or no TCs are found in differentiated cells. The pentads are rectangular structures consisting of five particles, four in the corners and one in the centre. Their dimensions are very constant, but their occurrence and distribution varies. They occur in young developing cells where TCs are few or absent, but were also observed in areas showing many TCs. In differentiated cells no pentads were found. Pentad-like structures were rarely observed on the PF of dictyosome vesicles or cisternae. The observations support the hypothesis that pentads are involved in the synthesis of matrix polysaccharides, which are the major components of brown algal cell wall and their synthesis begins before that of cellulose.