A cytoplasmic gel network capable of mediating the conversion of chemical energy to mechanical work in diverse cell processes: A speculation

Gallyas, F. (2010) A cytoplasmic gel network capable of mediating the conversion of chemical energy to mechanical work in diverse cell processes: A speculation. Acta Biologica Hungarica, 61 (4). pp. 367-379. ISSN 0236-5383

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Abstract

Enigmatic morphological features of the formation and fate of “dark” (hyper-basophilic, hyper-argyrophilic and hyper-electrondense) neurons suggest that the mechanical work causing their dramatic shrinkage (whole-cell ultrastructural compaction) is done by a previously “unknown” ultrastructural component residing in the spaces between their “known” (i.e. visible in the conventional transmission electron microscopy) ultrastructural constituents. Embedment-free section electron microscopy revealed in these spaces the existence of a continuous network of gel microdomains, which is embedded in a continuous network of fluid-filled lacunae. We gathered experimental facts suggesting that this gel network is capable of a volume-reducing phase-transition (an established physico-chemical phenomenon), which could be the motor of the whole-cell ultrastructural compaction. The present paper revisits our relevant observations and speculates how such a continuous whole-cell gel network can do both whole-cell and compartmentalized mechanical work.

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