Dynamics in the plasma membrane: how to combine fluidity and order
Didier Marguet,Didier Marguet,Pierre-François Lenne,Pierre-François Lenne,Hervé Rigneault,Hervé Rigneault,Hai-Tao He,Hai-Tao He +7 more
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TLDR
The basic concepts of Brownian diffusion and lipid domain formation in model membranes are summarized and the development of ideas and tools in this field are tracked, outlining key results obtained on the dynamic processes at work in membrane structure and assembly.Abstract:
Cell membranes are fascinating supramolecular aggregates that not only form a barrier between compartments but also harbor many chemical reactions essential to the existence and functioning of a cell. Here, it is proposed to review the molecular dynamics and mosaic organization of the plasma membrane, which are thought to have important functional implications. We will first summarize the basic concepts of Brownian diffusion and lipid domain formation in model membranes and then track the development of ideas and tools in this field, outlining key results obtained on the dynamic processes at work in membrane structure and assembly. We will focus in particular on findings made using fluorescent labeling and imaging procedures to record these dynamic processes. We will also discuss a few examples showing the impact of lateral diffusion on cell signal transduction, and outline some future methodological challenges which must be met before we can answer some of the questions arising in this field of research.read more
Citations
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Engineering Saccharomyces cerevisiae fatty acid composition for increased tolerance to octanoic acid
TL;DR: E engineered Saccharomyces cerevisiae enzyme acetyl‐CoA carboxylase by replacing serine residue 1157 with alanine to prevent deactivation by phosphorylation resulted in an increase in total fatty acid production, with the largest increase for oleic acid.
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Statistical Analysis of Lateral Diffusion and Multistate Kinetics in Single-Molecule Imaging
TL;DR: This work proposes a method to analyze and characterize the multiple states in lateral mobility and their transition kinetics from single-molecule trajectories based on a displacement probability density function and an autocorrelation function of squared displacements.
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Imaging and quantification of trans-membrane protein diffusion in living bacteria.
TL;DR: A novel approach, IPODD (inverse projection of displacement distributions), is introduced to obtain diffusion coefficients from the usually obtained 2-D projected diffusion trajectories of the highly 3-D curved bacterial membrane to provide correct diffusion coefficients and allow unravelling of heterogeneously diffusing populations.
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Lateral diffusion on tubular membranes: quantification of measurements bias.
Marianne Renner,Yegor A. Domanov,Fanny Sandrin,Fanny Sandrin,Ignacio Izeddin,Ignacio Izeddin,Patricia Bassereau,Antoine Triller +7 more
TL;DR: This work shows the application of the Monte Carlo approach to analyze the diffusion of a lipid on model tubular membranes and of a membrane-bound GFP on neurites from cultured rat hippocampal neurons.
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Glasslike Membrane Protein Diffusion in a Crowded Membrane.
Ignacio L.B. Munguira,Ignacio Casuso,Hirohide Takahashi,Felix Rico,Atsushi Miyagi,Mohamed Chami,Simon Scheuring +6 more
TL;DR: High-speed atomic force microscopy is used and a novel analysis methodology is used to analyze the pore forming protein lysenin in a highly crowded environment and document coexistence of several diffusion regimes within one membrane.
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