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Membranes of Tetrahymena: III. The effect of temperature on membrane core structures and fatty acid composition of Tetrahymena cells
Authors:F. Wunderlich  V. Speth  W. Batz  H. Kleinig
Affiliation:1. Division of Cell Biology, Institute of Biology II, University Freiburg i. Br. Freiburg i. Br. Germany;2. Max-Planck-Institute for Immunbiology, Freiburg i. Br. Germany
Abstract:Membrane core structures as revealed by the freeze-etch electron microscopy and the fatty acid composition measured by gas-liquid chromatography have been analyzed in Tetrahymena cells exposed to low temperature for varying periods.When cells were grown to mid-log phase at the optimal growth temperature of 28 °C and then chilled to 10 °C, cell division was inhibited. However, within 16 h the cells adapted to the low temperature.Chilling effected drastic structural alterations in the cores of different membrane types (membranes of the pellicula, the alveolar sacs, the endoplasmic reticulum and the nuclei). In all cases, there was a segregation of smooth faces from particle-rich faces in the fracture planes. However, the native membrane state, i.e. like that of cells grown at 28 °C, reappeared when the cells adapted to the low temperature.The total lipids of Tetrahymena cells contained primarily even-numbered fatty acids ranging from C12 to C18, but we also detected appreciable amounts of C20 acids; this has not been reported before. During the initial phase of chilling, when cell division is inhibited, about 50% of the saturated fatty acids were replaced by unsaturated fatty acids, primarily monoenoic, dienoic and trienoic acids.We conclude that the structural recovery of the membranes in chilled Tetrahymena cells is accomplished by a desaturation of membrane fatty acids. This is discussed with respect to membrane “fluidity”.
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