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Simonet Roda, M. [Author]; Ziegler, A. [Author]; Griesshaber, E. [Author]; Yin, X. [Author]; Rupp, U. [Author]; Greiner, M. [Author]; Henkel, Daniela [Author]; Häussermann, V. [Author]; Eisenhauer, Anton [Author]; Laudien, J. [Author]; Schmahl, W. W. [Author]

Terebratulide brachiopod shell biomineralization by mantle epithelial cells

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  • Media type: E-Article
  • Title: Terebratulide brachiopod shell biomineralization by mantle epithelial cells
  • Contributor: Simonet Roda, M. [Author]; Ziegler, A. [Author]; Griesshaber, E. [Author]; Yin, X. [Author]; Rupp, U. [Author]; Greiner, M. [Author]; Henkel, Daniela [Author]; Häussermann, V. [Author]; Eisenhauer, Anton [Author]; Laudien, J. [Author]; Schmahl, W. W. [Author]
  • imprint: Elsevier, 2019-08
  • Language: English
  • DOI: https://doi.org/10.1016/j.jsb.2019.05.002
  • Origination:
  • Footnote: Diese Datenquelle enthält auch Bestandsnachweise, die nicht zu einem Volltext führen.
  • Description: Highlights • Cell-reorganization; commissure: muti-cell-layered, central shell: single-cell-layered. • Individual fibres are secreted by several cells at the same time. • Tight cooperation of cells for the coordinated secretion of organic membrane and mineral. • Lack of extrapallial space between OME cells and developing fibres. • Mineral transport to sites of mineralization occurs via ion transport through cell membrane. Abstract To understand mineral transport pathways for shell secretion and to assess differences in cellular activity during mineralization, we imaged with TEM and FE-SEM ultrastructural characteristics of outer mantle epithelium (OME) cells. Imaging was carried out on Magellania venosa shells embedded/etched, chemically fixed/decalcified and high-pressure frozen/freeze-substituted samples from the commissure, central shell portions and from puncta. Imaging results are complemented with morphometric evaluations of volume fractions of membrane-bound organelles. At the commissure the OME consists of several layers of cells. These cells form oblique extensions that, in cross-section, are round below the primary layer and flat underneath fibres. At the commissure the OME is multi-cell layered, in central shell regions it is single-cell layered. When actively secreting shell carbonate extrapallial space is lacking, because OME cells are in direct contact with the calcite of the forming fibres. Upon termination of secretion, OME cells attach via apical hemidesmosomes to extracellular matrix membranes that line the proximal surface of fibres. At the commissure volume fractions for vesicles, mitochondria and lysosomes are higher relative to single-cell layered regions, whereas for endoplasmic-reticulum and Golgi apparatus there is no difference. FE-SEM, TEM imaging reveals the lack of extrapallial space between OME cells and developing fibres. In addition, there is no indication for an amorphous precursor within fibres when these are in active secretion mode. Accordingly, our results do not support ...
  • Access State: Open Access