Pinocytosis and locomotion of amoebae: XII. Dynamics and motive force generation during induced pinocytosis in A. proteus |
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| Authors: | H. P. Klein Prof. Dr. W. Stockem |
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| Affiliation: | (1) Institute of Cytology, University of Bonn, Bonn, Federal Republic of Germany;(2) Institut für Cytologie der Universität Bonn, Ulrich-Haberland-Straße 61 a, D-5300 Bonn, Federal Republic of Germany |
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| Abstract: | Summary The mechanism of induced pinocytosis was investigated in Amoeba proteus by light and electron microscopy. The application of nine different inducing substances revealed that pinocytotic channel formation, elongation, vesiculation, shortening and disappearance are the result of the successive or simultaneous action of both traction and pressure forces, which are produced by the contractile activity of a plasma membrane-associated layer of filaments ranging from a few hundred nm to several  in thickness. The initial phase of channel formation is caused by traction forces according to the membrane flow concept, whereas channel elongation and vesiculation mainly result from pressure forces in conjunction with the extrusion of small hyaline pseudopodia. Shortening and disappearance of the pinocytotic channels are brought about by local contractions of the cortical filament layer in the basal region of the hyaline pseudopodia. Experiments using latex beads as marker particles together with inducing substances show that a rapid membrane turnover during pinocytosis can be excluded, and that the plasma membrane slides as an entire structure over the underlying cytoplasm.The authors are most grateful to Mrs. J. Ruch for technical assistance |
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| Keywords: | Induced pinocytosis Dynamics Motive force generation Light and electron microscopy Amoeba proteus |
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