Supramolecular assembly of biological molecules purified from bovine nerve cells: From microtubule bundles and necklaces to neurofilament networks

With the completion of the human genome project, the biosciences community is beginning the daunting task of understanding the structures and functions of a large number of interacting biological macromolecules. Examples include the interacting molecules involved in the process of DNA condensation during the cell cycle, and in the formation of bundles and networks of filamentous actin proteins in cell attachment, motility and cytokinesis. In this proceedings paper we present examples of supramolecular assembly based on proteins derived from the vertebrate nerve cell cytoskeleton. The axonal cytoskeleton in vertebrate neurons provides a rich example of bundles and networks of neurofilaments, microtubules (MTs) and filamentous actin, where the nature of the interactions, structures, and structure-function correlations remains poorly understood. We describe synchrotron x-ray diffraction, electron microscopy, and optical imaging data, in reconstituted protein systems purified from bovine central nervous system, which reveal unexpected structures not predicted by current electrostatic theories of polyelectrolyte bundling, including three-dimensional MT bundles and two-dimensional MT necklaces. © 2005 IOP Publishing Ltd.

Cells; DNA; Imaging systems; Macromolecules; Molecular biology; Neural networks; X ray diffraction analysis; Biological macromolecules; Biological molecules; Cytoskeleton; Supramolecular assembly; Supramolecular chemistry

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