Difference between revisions of "Origins of Elasticity in Intermediate Filament Networks"

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Tom Dimiduk
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Original Entry: Tom Dimiduk APPHY 225 Fall 2010
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[http://www.seas.harvard.edu/weitzlab/lin.prl.2010.pdf Origins of Elasticity in Intermediate Filament Networks]
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== Keywords ==
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Rheology, Polymer Network, crosslinking, strain stiffening
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== Summary ==
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[[Image:lin_prl_2010_fig1.png|thumb|left|300px|]]
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[[Image:lin_prl_2010_fig2.png|thumb|right|300px|]]
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[[Image:lin_prl_2010_fig3.png|thumb|left|300px|]]
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[[Image:lin_prl_2010_fig4.png|thumb|right|300px|]]
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[[Image:lin_prl_2010_fig5.png|thumb|left|300px|]]
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The authors investigate the Rheological properties of two intermediate fillaments, vimentin and neurofilaments.  Intermediate filaments are the catch all category for biological structural molecules other than the more commonly known actin and microtubules.  neurofilaments are, unsuprisingly, found in neurons, vimentin is found in all cell types. 
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The authors discover that both of these filaments behave as a weakly elastic solid which exhibits strong strain stiffening beyond a critical strain.  This is consistent with their hypothesis that the filaments form a strongly crosslinked network.  This appears to occur without crosslinking proteins which are employed in actin networks, instead it looks like these proteins are crosslinked by divalent ions.  The filaments have negatively charged side chains which are believed to crosslink in the presence of these ions due to electrostatic attractions. 
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The two filaments are fairly similar in their rheological properties, indeed a simple rescaling essentially collapses them to the same line (Fig 3).  The neurofilaments are stronger than vimentin, the authors believe this is because they have longer side chains and thus form more cross links.

Revision as of 22:47, 29 November 2010

Original Entry: Tom Dimiduk APPHY 225 Fall 2010

Origins of Elasticity in Intermediate Filament Networks

Keywords

Rheology, Polymer Network, crosslinking, strain stiffening

Summary

Lin prl 2010 fig1.png
Lin prl 2010 fig2.png
Lin prl 2010 fig3.png
Lin prl 2010 fig4.png
Lin prl 2010 fig5.png

The authors investigate the Rheological properties of two intermediate fillaments, vimentin and neurofilaments. Intermediate filaments are the catch all category for biological structural molecules other than the more commonly known actin and microtubules. neurofilaments are, unsuprisingly, found in neurons, vimentin is found in all cell types.

The authors discover that both of these filaments behave as a weakly elastic solid which exhibits strong strain stiffening beyond a critical strain. This is consistent with their hypothesis that the filaments form a strongly crosslinked network. This appears to occur without crosslinking proteins which are employed in actin networks, instead it looks like these proteins are crosslinked by divalent ions. The filaments have negatively charged side chains which are believed to crosslink in the presence of these ions due to electrostatic attractions.

The two filaments are fairly similar in their rheological properties, indeed a simple rescaling essentially collapses them to the same line (Fig 3). The neurofilaments are stronger than vimentin, the authors believe this is because they have longer side chains and thus form more cross links.