A systematic investigation of the rate laws valid in intracellular environments.
about
Classic and contemporary approaches to modeling biochemical reactionsDesign of versatile biochemical switches that respond to amplitude, duration, and spatial cuesNew types of experimental data shape the use of enzyme kinetics for dynamic network modelingConfining domains lead to reaction bursts: reaction kinetics in the plasma membraneThree-dimensional stochastic off-lattice model of binding chemistry in crowded environmentsDetailed simulations of cell biology with Smoldyn 2.1Follow-the-leader cell migration requires biased cell-cell contact and local microenvironmental signals.A stochastic automaton shows how enzyme assemblies may contribute to metabolic efficiency.Probability distributed time delays: integrating spatial effects into temporal models.Agent-based simulation of reactions in the crowded and structured intracellular environment: Influence of mobility and location of the reactantsConnecting the dots: the effects of macromolecular crowding on cell physiology.Unified regression model of binding equilibria in crowded environments.Reflections on the theory of "silver bullet" octreotide tracers: implications for ligand-receptor interactions in the age of peptides, heterodimers, receptor mosaics, truncated receptors, and multifractal analysis.A Lattice-Boltzmann scheme for the simulation of diffusion in intracellular crowded systemsSpatial simulations in systems biology: from molecules to cells.Coarse-grained molecular simulation of diffusion and reaction kinetics in a crowded virtual cytoplasm.Cox process representation and inference for stochastic reaction-diffusion processes.Fractal symmetry of protein interior: what have we learned?Using Raman spectroscopy to assess hemoglobin oxygenation in red blood cell concentrate: an objective proxy for morphological index to gauge the quality of stored blood?Design starch: stochastic modeling of starch granule biogenesis.Macromolecular crowding directs the motion of small molecules inside cells.Validation of fractal-like kinetic models by time-resolved binding kinetics of dansylamide and carbonic anhydrase in crowded media.Analysis of reaction-diffusion systems with anomalous subdiffusion.Non-steady response of BOD biosensor for the determination of biochemical oxygen demand in wastewater.Multiscale Modeling of Diffusion in a Crowded Environment.Molecular finite-size effects in stochastic models of equilibrium chemical systems.New insights into diffusion in 3D crowded media by Monte Carlo simulations: effect of size, mobility and spatial distribution of obstacles.Monte Carlo simulations of single- and multistep enzyme-catalyzed reaction sequences: effects of diffusion, cell size, enzyme fluctuations, colocalization, and segregation.Capturing Brownian dynamics with an on-lattice model of hard-sphere diffusion.Fast simulation of Brownian dynamics in a crowded environment.Hard-sphere interactions in velocity-jump models.Stochastic quasi-steady state approximations for asymptotic solutions of the chemical master equation.Nonequilibrium chemistry in confined environments: a lattice Brusselator model.Characterization of sensitivity and specificity in leaky droplet-based assays.A computational approach to studying ageing at the individual level.Modeling somite scaling in small embryos in the framework of Turing patterns.Anomalous diffusion and transport in heterogeneous systems separated by a membrane.Dynamic simulation of an in vitro multi-enzyme system.Fragment-based screening of the donor substrate specificity of human blood group B galactosyltransferase using saturation transfer difference NMR.
P2860
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P2860
A systematic investigation of the rate laws valid in intracellular environments.
description
2006 nî lūn-bûn
@nan
2006 թուականի Յունիսին հրատարակուած գիտական յօդուած
@hyw
2006 թվականի հունիսին հրատարակված գիտական հոդված
@hy
2006年の論文
@ja
2006年論文
@yue
2006年論文
@zh-hant
2006年論文
@zh-hk
2006年論文
@zh-mo
2006年論文
@zh-tw
2006年论文
@wuu
name
A systematic investigation of the rate laws valid in intracellular environments.
@ast
A systematic investigation of the rate laws valid in intracellular environments.
@en
A systematic investigation of the rate laws valid in intracellular environments.
@nl
type
label
A systematic investigation of the rate laws valid in intracellular environments.
@ast
A systematic investigation of the rate laws valid in intracellular environments.
@en
A systematic investigation of the rate laws valid in intracellular environments.
@nl
prefLabel
A systematic investigation of the rate laws valid in intracellular environments.
@ast
A systematic investigation of the rate laws valid in intracellular environments.
@en
A systematic investigation of the rate laws valid in intracellular environments.
@nl
P1476
A systematic investigation of the rate laws valid in intracellular environments
@en
P356
10.1016/J.BPC.2006.04.019
P577
2006-06-14T00:00:00Z