Solid friction between soft filaments
Andrew Ward,Feodor Hilitski,Walter Schwenger,David O. Welch,Andy W.C. Lau,Vincenzo Vitelli,Lakshminarayanan Mahadevan,Zvonimir Dogic +7 more
TL;DR: This work directly measuring the sliding forces between two bundled F-actin filaments shows that these frictional forces are unexpectedly large, scale logarithmically with sliding velocity as in solid-like friction, and exhibit complex dependence on the filaments' overlap length.
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Abstract: Any macroscopic deformation of a filamentous bundle is necessarily accompanied by local sliding and/or stretching of the constituent filaments. Yet the nature of the sliding friction between two aligned filaments interacting through multiple contacts remains largely unexplored. Here, by directly measuring the sliding forces between two bundled F-actin filaments, we show that these frictional forces are unexpectedly large, scale logarithmically with sliding velocity as in solid-like friction, and exhibit complex dependence on the filaments' overlap length. We also show that a reduction of the frictional force by orders of magnitude, associated with a transition from solid-like friction to Stokes' drag, can be induced by coating F-actin with polymeric brushes. Furthermore, we observe similar transitions in filamentous microtubules and bacterial flagella. Our findings demonstrate how altering a filament's elasticity, structure and interactions can be used to engineer interfilament friction and thus tune the properties of fibrous composite materials.
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References
Structure of the alpha beta tubulin dimer by electron crystallography.
TL;DR: An atomic model of the αβ tubulin dimer fitted to a 3.7-Å density map obtained by electron crystallography of zinc-induced tubulin sheets is presented.
2K
Macroscopic Fibers and Ribbons of Oriented Carbon Nanotubes
Brigitte Vigolo,Alain Pénicaud,Claude Coulon,Cédric Sauder,René Pailler,Catherine Journet,P. Bernier,Philippe Poulin +7 more
TL;DR: A simple method was used to assemble single-walled carbon nanotubes into indefinitely long ribbons and fibers, and the obtained elastic modulus is 10 times higher than the modulus of high-quality bucky paper.
1.9K
Atomic model of the actin filament
TL;DR: A unique orientation of the monomer with respect to the actin helix has been found and the main interactions are along the two-start helix with a contribution from a loop extending across the filament axis provided by the molecule in the adjacent strand.
1.7K
Atomic-scale friction of a tungsten tip on a graphite surface.
TL;DR: Using an atomic force microscope, atomic-scale features on the frictional force acting on a tungsten wire tip sliding on the basal plane of a graphite surface at low loads are observed.
1.7K
Macromolecular Crowding: Biochemical, Biophysical, and Physiological Consequences
S B Zimmerman,Allen P. Minton +1 more
TL;DR: This paper presents a meta-analyses of the macromolecular determinants of reaction rates and volume in a solution and describes the mechanisms leading to these rates and volumes.
1.5K