2020
DOI: 10.1039/d0sm00290a
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Kinetics of actin networks formation measured by time resolved particle-tracking microrheology

Abstract: Actin is one of the most studied cytoskeleton proteins showing a very rich span of structures and functions. For example, Adenosine triphosphate (ATP)-assisted polymerization of actin is used to push...

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Cited by 12 publications
(15 citation statements)
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References 57 publications
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“…Based on this definition, the polymerizing nucleus in our model is composed of three monomers (the bond of the last G-actin is destabilized), and therefore, F-actin is defined when formed by three or more G-actin monomers. This is in agreement with recent experimental observations [ 91 ].…”
Section: Methodssupporting
confidence: 94%
“…Based on this definition, the polymerizing nucleus in our model is composed of three monomers (the bond of the last G-actin is destabilized), and therefore, F-actin is defined when formed by three or more G-actin monomers. This is in agreement with recent experimental observations [ 91 ].…”
Section: Methodssupporting
confidence: 94%
“…Based in this definition, the polymerizing nucleus in our model is composed of three monomers (the bond of the last G-Actin is destabilized), and therefore, F-Actin is defined when formed by three or more G-Actin monomers. This is in agreement with recent experimental observations Levin et al (2020).…”
Section: Time Calibrationsupporting
confidence: 94%
“…Later the nonlinear growth of a water-rich droplet around the cap dominates, leading to a complex non-monotonic time dependence of ∆φ(t) 2 , with a maximum followed by a subsequent decay until it saturates to a mean constant value corresponding to the final nonequilibrium steady concentration field. It is worth noting that this behavior of the spatial variance of φ is similar to the initial overshoot in response to an external field found in diverse soft materials, such as actin networks [42], colloidal suspensions [43,44], polymer melts [45], or a yield-stress fluids [46]. In our system, the maximum in ∆φ(t) 2 results from local phase separation around the warmer part of the colloid after switching on illumination, which proceeds via a two-step process under a step-like temperature variation across the critical temperature-This mechanism shares some similarities with the origin of the overshoot in the nonlinear response of entangled polymer solutions [47], where the stress overshoot is also a consequence of a two-step process under a step-like shear rate.…”
Section: Resultssupporting
confidence: 66%