Difference between revisions of "Supramolecular Assembly of Biological Molecules Purified from Bovine Nerve Cells: from Microtubule Bundles and Necklaces to Neurofilament Networks"
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| − | I found it rather remarkable that NFs exhibit such different bundling behaviors in the presence of different cations. In this paper, the authors avoid any substantial discussion of why the cations induce different self-assemblies, but | + | I found it rather remarkable that NFs exhibit such different bundling behaviors in the presence of different cations. In this paper, the authors avoid any substantial discussion of why the cations induce different self-assemblies, but this is primarily because the work presented in this paper was originally published a year earlier in PNAS [http://www.pnas.org/content/101/46/16099.abstract]. However, the authors discuss their results strictly empirically in <i>that</i> paper as well: in their conclusion, they state that the main purpose of the work was to demonstrate how their diffraction methodology can quantifying supramolecular structures. |
Revision as of 04:53, 18 March 2009
Zach Wissner-Gross (March 16, 2009)
Information
Supramolecular assembly of biological molecules purified from bovine nerve cells: from microtubule bundles and necklaces to neurofilament networks
Daniel J. Needleman, Janya B. Jones, Uri Raviv, Miguel A. Ojeda-Lopez, H. P. Miller, Y. Li, L. Wilson, and C. R. Safinya
Journal of Physics: Condensed Matter, 2005, 17, S3225-S3230
Soft matter keywords
Self-assembly, packing structure
Summary
Needleman et al. examine the behavior of neurofilaments (NFs) in vitro in solutions containing different polyelectrolytes (i.e., in different salt solutions). In short, they found that the NFs formed hexagonal bundles in solutions with containing cations with a greater charge and larger size, while the NFs formed what the authors term "living necklace bundles" in solutions containing bivalent cations (Figure 1). The authors go on to quantify this bundling via scattering experiments, although optical and electron micrographs seem to sufficiently reveal the bundling behaviors.
Soft matter discussion
I found it rather remarkable that NFs exhibit such different bundling behaviors in the presence of different cations. In this paper, the authors avoid any substantial discussion of why the cations induce different self-assemblies, but this is primarily because the work presented in this paper was originally published a year earlier in PNAS [1]. However, the authors discuss their results strictly empirically in that paper as well: in their conclusion, they state that the main purpose of the work was to demonstrate how their diffraction methodology can quantifying supramolecular structures.
