Brownian dynamics simulations of fluorescence fluctuation spectroscopy

Using a recently developed Brownian Dynamics model for core-shell particles, we present particle-based simulations of shear banding. In a well-defined range of imposed shear rates, the system settles in a banded state with two bands stacked along the gradient direction. Both bands have the same symm

## Abstract Helix ‐capping motifs are believed to play an important role in stabilizing α‐helices and defining helix start and stop signals. We performed microsecond scale Brownian dynamics simulations to study ten XAAD sequences, with X = (A,E,I,L,N,Q,S,T,V,Y), to examine their propensity to form

## Abstract We present results of computer simulations by the method of Brownian dynamics of polymeric brushes attached to impenetrable planes. For testing both model and method we have used one polymer brush attached to a repulsive plane and compare some results with Monte Carlo results of Lai and

## Abstract Previous Brownian dynamics (BD) simulations identified specific basic residues on fructose‐1,6‐bisphophate aldolase (aldolase) (I. V. Ouporov et al., __Biophysical Journal__, 1999, Vol. 76, pp. 17–27) and glyceraldehyde‐3‐phosphate dehydrogenase (GAPDH) (I. V. Ouporov et al., __Journal

Simulation results for the two-needle chain. (}): F F Ãðm;gÞ m 0 and A = 1. (): F F Ãðm;gÞ m 0 and A = 1.5. (F): F F Ãðm;gÞ ¼ 0. The solid lines are the analytical result given by Equation ( ).