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Reorganization of the endoplasmic reticulum in epidermal cells of onion bulb scales after cold stress: Involvement of cytoskeletal elements (1989)

Quader, H. ; Hofmann, A. ; Schnepf, E.

Springer

Planta 177 (1989), S. 273-280

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ISSN: 1432-2048

Keywords: Actin filament ; Allium ; Cold stress ; 3,3′-Dihexyloxacarbocyanine iodide ; Endoplasmic reticulum (reorganization) ; Microtubule ; Temperature (cold stress)

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract In the epidermal cells of onion (Allium cepa L.) bulb scales the endoplasmic reticulum (ER) can be subdivided into three domains: a peripheral tubular network, cisternae, and long tubular strands. The latter are the form in which the ER is moved in onion cells. During cold treatment the arrangement of the three domains changes drastically. The cisternae and long tubular strands disintegrate into short ER tubules which show rapid agitational motion. Long-distance movement is inhibited. The peripheral tubular ER network is presumably retained during cold treatment. Rewarming of previously chilled bulb scales initiates the reorganization of the ER into the three domains. The ER is partly relocated during recovery from cold treatment. Redistribution and reorganization of the ER is not affected by the microtubule-destabilizing herbicides oryzalin and trifluralin (5 μM). Cytochalasin D (2μM), however, inhibits not only the relocation of ER material, as is evident by the absence of long tubular ER strands, but also the movement of other cell organelles. The latter cluster on top of the cisternae in a manner which is characteristic of treatment with the actin-filament inhibitor. The array of actin filaments is similar in unstressed, cold-treated cells, and cells which recover from low temperatures in the presence of oryzalin or tap water alone. In the presence of cytochalasin D the actin filaments are severely fragmented. The results indicate that low temperatures most likely influence either the interaction of the force-generating system, probably myosin, with actin filaments, or the force-generating mechanism of the actomyosin-driven intracellular movement, but do not affect actin-filament integrity.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00392816

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XPS investigation of oxide films on InP(100) (1988)

Hofmann, A. ; Streubel, P. ; Meisel, A.

Chichester [u.a.] : Wiley-Blackwell

Surface and Interface Analysis 12 (1988), S. 315-319

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ISSN: 0142-2421

Keywords: Chemistry ; Polymer and Materials Science

Source: Wiley InterScience Backfile Collection 1832-2000

Topics: Physics

Notes: The effect of chemical etching and the oxide growth on the etched surfaces on n- and p-InP(100) have been studied using X-ray photoelectron spectroscopy. The samples were etched in HCI (1 molar in methanol) and then annealed at 650 K in a vacuum for 1 hour. After this procedure both samples were oxidized in air at room temperature for a long time. The stoichiometry of the oxide layer was determined by angle-resolved analysis of core level spectra.The surface treatment leads to an indium-rich surface. After annealing the In/P atomic ratios amount to 2.0 and 1.5 for n-InP and p-InP, respectively. Most of the oxygen on the surface after etching and annealing is presented as In2O3 and In(OH)3.Within the oxide layers of the air-oxidized samples the In/P atomic ratios vary from 2.5 to 3.7 for both n- and p-InP showing a depletion of P during the oxidation. From angle-dependent measurements it is concluded that the oxide layers consist of InPO4 and In(OH)3 whereas the outer layer is InPO4-rich. The presence of In2O3 can be suggested in the oxide layer of n-InP only. The oxidized p-type sample contains more oxygen than the n-type one.

Additional Material: 7 Ill.