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The desmosome: Fine structural studies with freeze-fracture replication and tannic acid staining of sectioned epidermis (1976)

Kelly, Douglas E. ; Shienvold, Frances L.

Springer

Cell & tissue research 172 (1976), S. 309-323

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ISSN: 1432-0878

Keywords: Skin ; Epithelia ; Attachment ; Desmosomes ; Freeze-fracture

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Summary Desmosomes of larval and post-metamorphic newt epidermis have been studied by freeze-fracture replication both with and without prior glutaraldehyde fixation. Characteristic particles of a diameter (70–130 Å) similar to that of typical membrane associated particles are found clustered on the exposed internal faces of adherent desmosomal membranes. They remain attached to the B-face in unfixed material, but occupy the desmosomal A-face after fixation. Membrane associated particles of nondesmosomal surfaces are found predominantly on the A-face in both fixed and unfixed epidermis. Suitably oriented replicas of unfixed desmosomes reveal profiles of apparent fine filaments extending from the region of tonofilament loops through the desmosomal plaque to traverse the cytoplasmic leaflet of the plasmalemma. They can be traced onto the B-face. Their position correlates to fine linear profiles noted in tannic acid/glutaraldehyde-fixed and sectioned desmosomes. The possibility that these represent a mechanism for anchorage of tonofilaments to the plaque and to the membrane is discussed. These and other fine structural features are compared and contrasted to the properties of hemidesmosomes described in the preceding report.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00399514

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The hemidesmosome: New fine structural features revealed by freeze-fracture techniques (1976)

Shienvold, Frances L. ; Kelly, Douglas E.

Springer

Cell & tissue research 172 (1976), S. 289-307

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ISSN: 1432-0878

Keywords: Skin ; Epithelia ; Attachment ; Hemidesmosomes ; Freeze-fracture

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Summary Hemidesmosomes along the dermal-epidermal junction of larval and post-metamorphic newt skin have been examined in freeze-fracture replica images correlated with electron micrographs of sectioned material. Larval hemidesmosomal sites are characterized by large (200–300 Å) intramembranous granules arranged into clusters, each of which is aligned with a cytoplasmic hemidesmosomal plaque. In unfixed epidermis the granules remain attached to the A-face, while after glutaraldehyde fixation they are found on both A- and B-faces. Following metamorphosis the clusters are less distinct and localized. Replicas of unfixed B-faces and nearby cytoplasm display elongate, filamentous profiles which traverse the cytoplasmic leaflet and extend onto the B-face. The possibility that these components constitute a filamentous network serving to link tonofilaments, hemidesmosomal plaque, and basal plasmalemma is considered in view of the evidence to date. Hemidesmosomal fine structure as revealed by these studies is compared to features of desmosomes as detailed in the following report.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00399513

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Analysis of desmosomal intramembrane particle populations and cytoskeletal elements: Detergent extraction and freeze-fracture (1985)

Pirbazari, Mike ; Kelly, Douglas E.

Springer

Cell & tissue research 241 (1985), S. 341-351

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ISSN: 1432-0878

Keywords: Desmosomes ; Freeze-fracture ; Cytoskeleton ; Triton X-100 extraction ; Mouse

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Summary We have examined sections and freeze-fracture replicas of Triton X-100 detergent-extracted desmosomes from murine palatal epithelium. After extraction of lipids as well as soluble proteins, a cytoskeletal framework remained which consisted of intermediate filaments, microfilaments, and intact desmosomal skeletons. Traversing filaments, which link the intermediate filaments to large intramembrane particles of the P-face, appeared undisturbed within the desmosomal skeletons. Compared to unextracted controls, extracted specimens displayed P- and E-face desmosomal intramembrane particles which were more fully exposed. A broad range of sizes and shapes was apparent for the P-face associated particles. E-face particles, some of which were exposed for the first time, were more homogeneous and generally smaller. Statistical data gathered from a large sample of P- and E-face particle diameters disclosed significant differences among the populations of the two faces. Both fracture faces of extracted desmosomal domains displayed a residual surface upon which the exposed particles seemed to remain lodged. The newly revealed structural features are presented in an hypothetical molecular model which provides for both vertical and horizontal stabilization of desmosomal subcomponents. The model may ultimately be relatable to emerging biochemical characterization.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00217179

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