1996 Volume 65 Issue 8 Pages 2404-2407
A theoretical model is presented for sorting of the polarity of actin filamentsin the presence of actin-activated ATP-hydrolysis of two-headed myosin (heavy meromyosin, HMM). In methyl-cellulose aqueous solution, actin filaments form a nonpolar bundlelike aggregate. Upon addition of HMM and ATP to this, the HMM-driven mutual sliding of the actin filaments is known to lead togradual segregation of the filaments according to their polarity directions, as well as to contraction of the length of the bundle.We found crucial role of frictional drag between the actin filaments, which is not mediated by active sliding forceof the two-headed myosins.We show why regions of actins withsorted polarity emerge and how they undergo coarsening in the presence of frictional drag between filaments.
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