Rotational Brownian Dynamics simulations of clathrin cage formation

Ilie, Ioana Mariuca; Otter, Wouter K. den; Briels, Willem J.

doi:10.1063/1.4891306

Cited by 18 publications

(36 citation statements)

References 76 publications

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“…Although the principles behind Eqs. (13) and (14) are well known in the literature 31 and many authors have numerically tested the drift terms, 27,30,32,39 to the best of our knowledge, this is the first time that a Langevin equation for a confined uniaxial particle is explicitly in this discretized complete form, fully embodying roto-translational coupling.…”

Section: A Langevin Equationmentioning

confidence: 99%

“…22 Many examples of numerical simulations on Brownian non-spherical particles are reported in the recent literature. Brownian dynamics simulations of unbounded suspensions of rod-like particles [23][24][25][26][27] and arbitrarily shaped particles [28][29][30] have been carried out for different volume fractions, ranging from dilute to concentrated regimes, although interparticle hydrodynamic interactions are often neglected. The inclusion of hydrodynamic interactions gives rise to "corrective terms" in the Brownian dynamics.…”

Section: Introductionmentioning

confidence: 99%

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Hydrodynamics and Brownian motions of a spheroid near a rigid wall

Corato

Greco

D’Avino

et al. 2015

The Journal of Chemical Physics

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Articles you may be interested in PHYSICS 142, 194901 (2015) Hydrodynamics and Brownian motions of a spheroid near a rigid wall In this work, we study in detail the hydrodynamics and the Brownian motions of a spheroidal particle suspended in a Newtonian fluid near a flat rigid wall. We employ 3D Finite Element Method (FEM) simulations to compute how the mobility tensor of the spheroid varies with both the particle-wall separation distance and the particle orientation. We then study the Brownian motion of the spheroid by means of a discretized Langevin equation. We specifically focus on the additional drift terms arising from the position and orientational dependence of the mobility matrix. In this respect, we also propose a numerically convenient approximation of the orientational divergence of the mobility matrix that is required in the solution of the Langevin equation. Our results illustrate that both hydrodynamics and Brownian motions of a spheroidal particle near a confining wall display novel features from those of a sphere in the same type of confinement. C 2015 AIP Publishing LLC. [http://dx

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Section: A Langevin Equationmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Hydrodynamics and Brownian motions of a spheroid near a rigid wall

Corato

Greco

D’Avino

et al. 2015

The Journal of Chemical Physics

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“…3.3(b). For completeness a 'random' body-fixed unit vector parallel that act as rigid units, thereby opening routes to study the dynamics of their self-assembly into ordered aggregates [86]. Bonds between the particles are readily included in the interaction potential, thereby creating patchy-particle 'molecules'.…”

Section: Dynamic Propertiesmentioning

confidence: 99%

“…These authors did include metric and drift corrections and found that the propagator differs from the intuitively expected ∆a = (∂a/∂φ b )∆φ b [55,56,57,58,131]. This technique was recently successfully used to simulate the self-assembly of anisotropic particles into well-ordered structures [86], but it is fairly involved and requires multiple Taylor expansions to solve weak singularities.…”

Section: Brownian Dynamics Algorithm 45mentioning

confidence: 99%

“…They make excellent model systems to study and analyse the aggregation processes of various systems, such as fibrils [38], virus capsids [203] and crystals [214]. Besides experiments [20,51,103,119,128,220], patchy particles are also being studied by computer simulations [18,86,124,125,145,147,209,217,226]. Most simulations of patchy particles use Monte Carlo (MC) techniques, which rely on random trial moves in combination with acceptance-rejection rules to sample the Boltzmann probability distribution.…”

Section: Introductionmentioning

confidence: 99%

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Chameleon behaviour of a-synuclein : brownian dynamics simulations of protein aggregation

Ilie

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Clathrin Assembly Regulated by Adaptor Proteins in Coarse-Grained Models

Giani

Otter

Briels

2016

Biophysical Journal

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The assembly of clathrin triskelia into polyhedral cages during endocytosis is regulated by adaptor proteins (APs). We explore how APs achieve this by developing coarse-grained models for clathrin and AP2, employing a Monte Carlo click interaction, to simulate their collective aggregation behavior. The phase diagrams indicate that a crucial role is played by the mechanical properties of the disordered linker segment of AP. We also present a statistical-mechanical theory for the assembly behavior of clathrin, yielding good agreement with our simulations and experimental data from the literature. Adaptor proteins are found to regulate the formation of clathrin coats under certain conditions, but can also suppress the formation of cages.

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Rotational Brownian Dynamics simulations of clathrin cage formation

Cited by 18 publications

References 76 publications

Hydrodynamics and Brownian motions of a spheroid near a rigid wall

Hydrodynamics and Brownian motions of a spheroid near a rigid wall

Chameleon behaviour of a-synuclein : brownian dynamics simulations of protein aggregation

Clathrin Assembly Regulated by Adaptor Proteins in Coarse-Grained Models

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