Dynamic cross-correlations between entangled biofilaments as they diffuse

Tsang, Boyce; Dell, Zachary E.; Jiang, Lingxiang; Schweizer, Kenneth S.; Granick, Steve

doi:10.1073/pnas.1620935114

Cited by 14 publications

(17 citation statements)

References 57 publications

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“…Thus, we observed that the interplay between two subdiffusion mechanisms (geometrical restrictions and memory effects) may lead to the usual Brownian motion. This crossover and its physical explanation also appear consistent with experimental results of anisotropic diffusion of entangled biofilaments [84] and the mobility of water molecules on protein surfaces [85]. On the other hand, when an exponential memory kernel acts on the backbone, we obtained a crossover from subdiffusion to confined diffusion.…”

Section: Discussionsupporting

confidence: 89%

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Quenched and annealed disorder mechanisms in comb models with fractional operators

et al. 2020

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Recent experimental findings on anomalous diffusion have demanded novel models that combine annealed (temporal) and quenched (spatial or static) disorder mechanisms. The comb-model is a simplified description of diffusion on percolation clusters, where the comb-like structure mimics quenched disorder mechanisms and yields a subdiffusive regime. Here we extend the comb-model to simultaneously account for quenched and annealed disorder mechanisms. To do so, we replace usual derivatives in the comb diffusion equation by different fractional time-derivative operators and the conventional comb-like structure by a generalized fractal structure. Our hybrid comb-models thus represent a diffusion where different comb-like structures describe different quenched disorder mechanisms, and the fractional operators account for various annealed disorders mechanisms. We find exact solutions for the diffusion propagator and mean square displacement in terms of different memory kernels used for defining the fractional operators. Among other findings, we show that these models describe crossovers from subdiffusion to Brownian or confined diffusions, situations emerging in empirical results. These results reveal the critical role of interactions between geometrical restrictions and memory effects on modeling anomalous diffusion. * eklenzi@uepg.br 1 arXiv:2002.05433v1 [cond-mat.stat-mech]

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Section: Discussionsupporting

confidence: 89%

“…This interpretation is somehow in agreement with the results on anisotropic diffusion of entangled biofilaments reported in Ref. [84], where the authors have written:…”

Section: Generalized Comb-models With Fractional Operatorssupporting

confidence: 93%

Quenched and annealed disorder mechanisms in comb models with fractional operators

et al. 2020

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“…Next, we consider the cross-correlations between crosslinks. Hydrodynamic arguments for a continuum anticipates C rr r 0 to be constant regardless of separation 13,17 , whereas our data is massively scattered (Fig. 4e) with negative points highlighted by the pink background.…”

Section: Discussionmentioning

confidence: 65%

“…A protocol was designed to polymerize the filaments and to fluorescently label the crosslinks by exploiting the fragmentation/fusion nature of actin filaments (Fig. 1b, see Methods section for details) 16,17 . The resulting network is composed of a “sea” of unlabeled filaments and a few labeled ones (ratio ~1000:1), in which green segments with biotin are most likely to be crosslinked to unlabeled filaments (Fig.…”

Section: Resultsmentioning

confidence: 99%

Single-crosslink microscopy in a biopolymer network dissects local elasticity from molecular fluctuations

et al. 2019

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Polymer networks are fundamental from cellular biology to plastics technology but their intrinsic inhomogeneity is masked by the usual ensemble-averaged measurements. Here, we construct direct maps of crosslinks—symbolic depiction of spatially-distributed elements highlighting their physical features and the relationships between them—in an actin network. We selectively label crosslinks with fluorescent markers, track their thermal fluctuations, and characterize the local elasticity and cross-correlations between crosslinks. Such maps display massive heterogeneity, reveal abundant anticorrelations, and may contribute to address how local responses scale up to produce macroscopic elasticity. Single-crosslink microscopy offers a general, microscopic framework to better understand crosslinked molecular networks in undeformed or strained states.

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“…"With those instrumental capabilities, it became very natural to look not just at interfaces, but also at bulk mobility, the dynamics of how molecules move from point to point in space in crowded environments, and what are the mechanisms," he says. For example, Granick and his colleagues used single-molecule fluorescence imaging to elucidate correlations between neighboring actin biofilaments and colloids rather than take the conventional mean-field approach (7,8).…”

Section: Thinking Like a Moleculementioning

confidence: 99%

Profile of Steve Granick

Ravindran¹

2018

Proc. Natl. Acad. Sci. U.S.A.

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Dynamic cross-correlations between entangled biofilaments as they diffuse

Cited by 14 publications

References 57 publications

Quenched and annealed disorder mechanisms in comb models with fractional operators

Quenched and annealed disorder mechanisms in comb models with fractional operators

Single-crosslink microscopy in a biopolymer network dissects local elasticity from molecular fluctuations

Profile of Steve Granick

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