In this paper we show that a membrane skeleton associated with the plasma membrane of the unicellular organism Euglena consists of approximately 40 individual S-shaped strips that overlap along their lateral margins. The region of strip overlap is occupied by a set of microtubule-associated bridges and microtubule-independent bridges. Both cell form and plasma membrane organization are dependent on the integrity of this membrane skeleton. Removal of the membrane skeleton with a low-molar base results in loss of membrane form and randomization of the paracrystalline membrane interior characteristic of untreated cells. Conversely, removal of the plasma membrane and residual cytoplasm with lithium 3,5-diiodosalicylate/Nonidet P-40 yields cell ghosts that retain the form of the original cell but consist only of the membrane skeleton. Two major polypeptides of 86 and 80 KD persist in the skeleton and two other major proteins of 68 and 39 kD are associated with the plasma membrane fraction. None of these components appears to be the same as the major polypeptides (spectrins, band 3) of the erythrocyte ghost, the other cell system in which a well-defined peripheral membrane skeleton has been identified. We suggest that the articulating strips of euglenoids are not only the basic unit of cell and surface form, but that they are also positioned to mediate or accommodate surface movements by sliding, and to permit surface replication by intussusception.
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1 November 1985
Article|
November 01 1985
The membrane skeleton of a unicellular organism consists of bridged, articulating strips.
R R Dubreuil
G B Bouck
Online ISSN: 1540-8140
Print ISSN: 0021-9525
J Cell Biol (1985) 101 (5): 1884–1896.
Citation
R R Dubreuil, G B Bouck; The membrane skeleton of a unicellular organism consists of bridged, articulating strips.. J Cell Biol 1 November 1985; 101 (5): 1884–1896. doi: https://doi.org/10.1083/jcb.101.5.1884
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