Membrane Specializations in the Form of Regular Membrane-to-Membrane Attachment Sites in Paramecium. A Correlated Freeze-Etching and Ultrathin-Sectioning Analysis

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Submitted on April 3, 1973

Membrane Specializations in the Form of Regular Membrane-to-Membrane Attachment Sites in Paramecium. A Correlated Freeze-Etching and Ultrathin-Sectioning Analysis

H. PLATTNER ¹, F. MILLER ¹, and L. BACHMANN ²

¹ Department of Cell Biology, University of Munich, D-8 Munich 2, Goethestrasse 33, Germany
² Institute of Technical Chemistry, Technical University of Munich, D-8 Munich 2, Arcisstrasse 21, Germany

The outer membrane complex of Paramecium was investigated byultrathin-sectioning techniques and by freeze-etching of unfixedcells without cryoprotectants. Granules were found in the freeze-etchedcortical membrane complex in a highly ordered arrangement; morphometricanalyses and partial disruption of this membrane complex showedthat some of these granular membrane specializations (whichwe call types a, b, e, f, g) represent membrane-to-membraneattachment sites. Type a: granules arranged in rings (singleor double), 300 nm in diameter, connect plasmalemma and alveolarmembranes around trichocysts. Type b: within these a-type rings,a concentric zone (180 nm diameter) of granules connects plasmamembrane and trichocyst membrane. Type c: the trichocyst membranefurther contains a central ring or patch, 80 nm in diameter,of rather large granules where it is in contact with the crystallinetrichocyst matrix. Type d: ‘ciliary necklaces’ areformed by groups of triple rows of 3-6, most frequently 5 granules,with 21-nm periodicity. Rows of granules also connect the alveolarmembranes to the apical portion of the trichocyst membrane (typee) and the alveolar membrane to the plasmalemma around cilia(type f). Type g: the inner alveolar membrane displays an intensegranularity and contains double rows of granules along alveolarsepta at attachment sites between 2 alveolar membranes. Uponexperimental discharge of the majority of trichocysts only theinnermost concentric circles of membrane-bound granules of thisregion (b- and c-type) disappeared from the plasmalemma, whilethe outermost a-type rings of granules persisted for a longertime. Among other possible functions, these regular membrane-to-membraneattachments are likely to maintain the specific cellular shape.

Submitted on April 3, 1973

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