期刊
CYTOSKELETON
卷 69, 期 2, 页码 71-87出版社
WILEY
DOI: 10.1002/cm.21006
关键词
cellular filament systems; molecular crowding; cation counterion fluctuations; liquid crystals; supramolecular structures
类别
资金
- Agency for Science, Technology and Research (A*STAR), Singapore
- Joint Council Office (JCO) [10/03/FG/06/04]
- ERATO, JST, Japan
All cells, from simple bacteria to complex human tissues, rely on extensive networks of protein fibers to help maintain their proper form and function. These filament systems usually do not operate as single filaments, but form complex suprastructures, which are essential for specific cellular functions. Here, we describe the progress in determining the architectures of molecular filamentous suprastructures, the principles leading to their formation, and the mechanisms by which they may facilitate function. The complex eukaryotic cytoskeleton is tightly regulated by a large number of actin- or microtubule-associated proteins. In contrast, recently discovered bacterial actins and tubulins have few associated regulatory proteins. Hence, the quest to find basic principles that govern the formation of filamentous suprastructures is simplified in bacteria. Three common principles, which have been probed extensively during evolution, can be identified that lead to suprastructures formation: cationic counterion fluctuations; self-association into liquid crystals; and molecular crowding. The underlying physics of these processes will be discussed with respect to physiological circumstance. (c) 2012 Wiley Periodicals, Inc
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