Literature DB >> 21444777

Shear rheology of lipid monolayers and insights on membrane fluidity.

Gabriel Espinosa1, Iván López-Montero, Francisco Monroy, Dominique Langevin.   

Abstract

The concept of membrane fluidity usually refers to a high molecular mobility inside the lipid bilayer which enables lateral diffusion of embedded proteins. Fluids have the ability to flow under an applied shear stress whereas solids resist shear deformations. Biological membranes require both properties for their function: high lateral fluidity and structural rigidity. Consequently, an adequate account must include, in addition to viscosity, the possibility for a nonzero shear modulus. This knowledge is still lacking as measurements of membrane shear properties have remained incomplete so far. In the present contribution we report a surface shear rheology study of different lipid monolayers that model distinct biologically relevant situations. The results evidence a large variety of mechanical behavior under lateral shear flow.

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Year:  2011        PMID: 21444777      PMCID: PMC3076832          DOI: 10.1073/pnas.1018572108

Source DB:  PubMed          Journal:  Proc Natl Acad Sci U S A        ISSN: 0027-8424            Impact factor:   11.205


  34 in total

Review 1.  Phase behavior of lipid mixtures.

Authors:  Gerald W Feigenson
Journal:  Nat Chem Biol       Date:  2006-11       Impact factor: 15.040

2.  Brownian motion and nonequilibrium statistical mechanics.

Authors:  R Kubo
Journal:  Science       Date:  1986-07-18       Impact factor: 47.728

Review 3.  Ceramide: from lateral segregation to mechanical stress.

Authors:  Iván López-Montero; Francisco Monroy; Marisela Vélez; Philippe F Devaux
Journal:  Biochim Biophys Acta       Date:  2009-12-21

4.  Lipid cosorting mediated by shiga toxin induced tubulation.

Authors:  Mahassine Safouane; Ludwig Berland; Andrew Callan-Jones; Benoit Sorre; Winfried Römer; Ludger Johannes; Gilman E S Toombes; Patricia Bassereau
Journal:  Traffic       Date:  2010-09-30       Impact factor: 6.215

5.  Effect of chain length and unsaturation on elasticity of lipid bilayers.

Authors:  W Rawicz; K C Olbrich; T McIntosh; D Needham; E Evans
Journal:  Biophys J       Date:  2000-07       Impact factor: 4.033

6.  Morphology and interaction between lipid domains.

Authors:  Tristan S Ursell; William S Klug; Rob Phillips
Journal:  Proc Natl Acad Sci U S A       Date:  2009-07-20       Impact factor: 11.205

7.  Intermonolayer friction and surface shear viscosity of lipid bilayer membranes.

Authors:  W K den Otter; S A Shkulipa
Journal:  Biophys J       Date:  2007-04-27       Impact factor: 4.033

8.  Lateral mobility of proteins in liquid membranes revisited.

Authors:  Y Gambin; R Lopez-Esparza; M Reffay; E Sierecki; N S Gov; M Genest; R S Hodges; W Urbach
Journal:  Proc Natl Acad Sci U S A       Date:  2006-02-06       Impact factor: 11.205

9.  The fluid mosaic model of the structure of cell membranes.

Authors:  S J Singer; G L Nicolson
Journal:  Science       Date:  1972-02-18       Impact factor: 47.728

10.  Separation of liquid phases in giant vesicles of ternary mixtures of phospholipids and cholesterol.

Authors:  Sarah L Veatch; Sarah L Keller
Journal:  Biophys J       Date:  2003-11       Impact factor: 4.033
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  31 in total

1.  Solid character of membrane ceramides: a surface rheology study of their mixtures with sphingomyelin.

Authors:  Elisa R Catapano; Laura R Arriaga; Gabriel Espinosa; Francisco Monroy; Dominique Langevin; Iván López-Montero
Journal:  Biophys J       Date:  2011-12-07       Impact factor: 4.033

2.  Evidence for two-dimensional solitary sound waves in a lipid controlled interface and its implications for biological signalling.

Authors:  Shamit Shrivastava; Matthias F Schneider
Journal:  J R Soc Interface       Date:  2014-08-06       Impact factor: 4.118

3.  The mechanism of collapse of heterogeneous lipid monolayers.

Authors:  Svetlana Baoukina; Dmitri Rozmanov; Eduardo Mendez-Villuendas; D Peter Tieleman
Journal:  Biophys J       Date:  2014-09-02       Impact factor: 4.033

4.  Sustained Epigenetic Drug Delivery Depletes Cholesterol-Sphingomyelin Rafts from Resistant Breast Cancer Cells, Influencing Biophysical Characteristics of Membrane Lipids.

Authors:  Vijay Raghavan; Sivakumar Vijayaraghavalu; Chiranjeevi Peetla; Masayoshi Yamada; Megan Morisada; Vinod Labhasetwar
Journal:  Langmuir       Date:  2015-10-15       Impact factor: 3.882

5.  Single Microbubble Measurements of Lipid Monolayer Viscoelastic Properties for Small-Amplitude Oscillations.

Authors:  Jordan S Lum; Jacob D Dove; Todd W Murray; Mark A Borden
Journal:  Langmuir       Date:  2016-09-02       Impact factor: 3.882

6.  It sounds like an action potential: unification of electrical, chemical and mechanical aspects of acoustic pulses in lipids.

Authors:  Matan Mussel; Matthias F Schneider
Journal:  J R Soc Interface       Date:  2019-02-28       Impact factor: 4.118

7.  AGR2-induced cholesterol synthesis drives lovastatin resistance that is overcome by combination therapy with allicin.

Authors:  Nan Sheng; Yun-Qiu Wang; Cun-Fu Wang; Meng-Qi Jia; Huan-Min Niu; Qi-Qi Lu; Ya-Nan Wang; Dan Feng; Xiao-Xue Zheng; Hui-Qing Yuan
Journal:  Acta Pharmacol Sin       Date:  2022-04-22       Impact factor: 6.150

8.  Multifrequency AFM reveals lipid membrane mechanical properties and the effect of cholesterol in modulating viscoelasticity.

Authors:  Zeinab Al-Rekabi; Sonia Contera
Journal:  Proc Natl Acad Sci U S A       Date:  2018-02-26       Impact factor: 11.205

9.  Viscoelastic deformation of lipid bilayer vesicles.

Authors:  Shao-Hua Wu; Shalene Sankhagowit; Roshni Biswas; Shuyang Wu; Michelle L Povinelli; Noah Malmstadt
Journal:  Soft Matter       Date:  2015-08-13       Impact factor: 3.679

Review 10.  Mechanical properties of lipid bilayers and regulation of mechanosensitive function: from biological to biomimetic channels.

Authors:  Daniel Balleza
Journal:  Channels (Austin)       Date:  2012-07-01       Impact factor: 2.581
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