Bilayer undulation dynamics in unilamellar phospholipid vesicles: effect of temperature, cholesterol and trehalose.

[1]  T. Darwish,et al.  Localization of trehalose in partially hydrated DOPC bilayers: insights into cryoprotective mechanisms , 2014, Journal of The Royal Society Interface.

[2]  B. Farago,et al.  Perfluorooctanoic acid rigidifies a model lipid membrane. , 2014, Physical review. E, Statistical, nonlinear, and soft matter physics.

[3]  H. L. Scott,et al.  Molecular origins of bending rigidity in lipids with isolated and conjugated double bonds: the effect of cholesterol. , 2014, Chemistry and physics of lipids.

[4]  R. Stehle,et al.  Influence of charge density on bilayer bending rigidity in lipid vesicles: A combined dynamic light scattering and neutron spin-echo study , 2013, The European physical journal. E, Soft matter.

[5]  A. Maliniak,et al.  Molecular dynamics simulations of membrane-sugar interactions. , 2013, The journal of physical chemistry. B.

[6]  B. Halle,et al.  Hydration and mobility of trehalose in aqueous solution. , 2012, The journal of physical chemistry. B.

[7]  U. Kaatze,et al.  Cholesterol-induced variations in the domain structure fluctuations and microdynamics of lipid membranes. , 2012, The journal of physical chemistry. B.

[8]  S. Garg,et al.  Noninvasive neutron scattering measurements reveal slower cholesterol transport in model lipid membranes. , 2011, Biophysical journal.

[9]  R. Jahn,et al.  Synaptic vesicles studied by dynamic light scattering , 2011, The European physical journal. E, Soft matter.

[10]  Lise Arleth,et al.  Reconciliation of opposing views on membrane–sugar interactions , 2011, Proceedings of the National Academy of Sciences.

[11]  B. Smit,et al.  Molecular simulation of the DMPC-cholesterol phase diagram. , 2010, The journal of physical chemistry. B.

[12]  T. Salditt,et al.  Influence of cholesterol on the collective dynamics of the phospholipid acyl chains in model membranes , 2010, The European physical journal. E, Soft matter.

[13]  R. Lipowsky,et al.  Effect of cholesterol on the rigidity of saturated and unsaturated membranes: fluctuation and electrodeformation analysis of giant vesicles , 2010 .

[14]  F. Monroy,et al.  Dissipative curvature fluctuations in bilayer vesicles: Coexistence of pure-bending and hybrid curvature-compression modes , 2010, The European physical journal. E, Soft matter.

[15]  B. Farago Recent developments and applications of NSE in soft matter , 2009 .

[16]  T. Uchida,et al.  Trehalose solution viscosity at low temperatures measured by dynamic light scattering method : Trehalose depresses molecular transportation for ice crystal growth , 2009 .

[17]  S. Marrink,et al.  The freezing process of small lipid vesicles at molecular resolution , 2009 .

[18]  M. Nagao Observation of local thickness fluctuations in surfactant membranes using neutron spin echo. , 2009, Physical review. E, Statistical, nonlinear, and soft matter physics.

[19]  F. Monroy,et al.  Fluctuation dynamics of spherical vesicles: frustration of regular bulk dissipation into subdiffusive relaxation. , 2009, Physical review. E, Statistical, nonlinear, and soft matter physics.

[20]  J. Nagle,et al.  Effect of cholesterol on structural and mechanical properties of membranes depends on lipid chain saturation. , 2009, Physical review. E, Statistical, nonlinear, and soft matter physics.

[21]  F. Monroy,et al.  Stiffening effect of cholesterol on disordered lipid phases: a combined neutron spin echo + dynamic light scattering analysis of the bending elasticity of large unilamellar vesicles. , 2009, Biophysical journal.

[22]  I. Kosztin,et al.  Motional coherence in fluid phospholipid membranes. , 2008, Physical review letters.

[23]  P. Westh Glucose, sucrose and trehalose are partially excluded from the interface of hydrated DMPC bilayers. , 2008, Physical chemistry chemical physics : PCCP.

[24]  J. Katsaras,et al.  Cholesterol is found to reside in the center of a polyunsaturated lipid membrane. , 2008, Biochemistry.

[25]  J. Nagle,et al.  Cholesterol Perturbs Lipid Bilayers Non-Universally , 2008 .

[26]  Mark L. Zeidel,et al.  Structural Determinants of Water Permeability through the Lipid Membrane , 2008, The Journal of general physiology.

[27]  Tim Salditt,et al.  Short-range order and collective dynamics of DMPC bilayers: a comparison between molecular dynamics simulations, X-ray, and neutron scattering experiments. , 2007, Biophysical journal.

[28]  N. Kučerka,et al.  Influence of cholesterol on the bilayer properties of monounsaturated phosphatidylcholine unilamellar vesicles , 2007, The European physical journal. E, Soft matter.

[29]  Fang-Yu Chen,et al.  The condensing effect of cholesterol in lipid bilayers. , 2007, Biophysical journal.

[30]  T. Salditt,et al.  Dispersion relation of lipid membrane shape fluctuations by neutron spin-echo spectrometry. , 2006, Physical review letters.

[31]  J. Katsaras,et al.  Cholesterol hydroxyl group is found to reside in the center of a polyunsaturated lipid membrane. , 2006, Biochemistry.

[32]  J. D. de Pablo,et al.  Modulating membrane properties: the effect of trehalose and cholesterol on a phospholipid bilayer. , 2005, The journal of physical chemistry. B.

[33]  T. Bayerl,et al.  Differences in the modulation of collective membrane motions by ergosterol, lanosterol, and cholesterol: a dynamic light scattering study. , 2005, Biophysical journal.

[34]  R. Neubert,et al.  Influence of trehalose on the structure of unilamellar DMPC vesicles , 2005 .

[35]  J. Nagle,et al.  Anomalous swelling of lipid bilayer stacks is caused by softening of the bending modulus. , 2005, Physical review. E, Statistical, nonlinear, and soft matter physics.

[36]  H. Amenitsch,et al.  Structure and fluctuations of phosphatidylcholines in the vicinity of the main phase transition. , 2004, Physical review. E, Statistical, nonlinear, and soft matter physics.

[37]  Marcos A. Villarreal,et al.  Molecular dynamics simulation study of the interaction of trehalose with lipid membranes. , 2004, Langmuir : the ACS journal of surfaces and colloids.

[38]  A. Rowat,et al.  Vesicle fluctuation analysis of the effects of sterols on membrane bending rigidity , 2004, European Biophysics Journal.

[39]  Roberto D Lins,et al.  Interaction of the disaccharide trehalose with a phospholipid bilayer: a molecular dynamics study. , 2004, Biophysical journal.

[40]  Mario Corti,et al.  Shape fluctuations of large unilamellar lipid vesicles observed by laser light scattering: influence of the small-scale structure. , 2004, Langmuir : the ACS journal of surfaces and colloids.

[41]  Juan J de Pablo,et al.  Molecular simulation study of phospholipid bilayers and insights of the interactions with disaccharides. , 2003, Biophysical journal.

[42]  P. Kinnunen,et al.  Comparison of the effects of surface tension and osmotic pressure on the interfacial hydration of a fluid phospholipid bilayer. , 2003, Biophysical journal.

[43]  A. Alatas,et al.  Studies of short-wavelength collective molecular motions in lipid bilayers using high resolution inelastic X-ray scattering. , 2003, Biophysical chemistry.

[44]  J. Silvius,et al.  Role of cholesterol in lipid raft formation: lessons from lipid model systems. , 2003, Biochimica et biophysica acta.

[45]  K. Mecke,et al.  Fluctuating Lipid Bilayer in an Arbitrary Potential: Theory and Experimental Determination of Bending Rigidity , 2003 .

[46]  Rony Granek,et al.  Membrane dynamics and structure factor , 2002 .

[47]  C. Lee,et al.  All-optical measurements of the bending rigidity of lipid-vesicle membranes across structural phase transitions. , 2001, Physical review. E, Statistical, nonlinear, and soft matter physics.

[48]  L. Finegold,et al.  Miscibility gap in fluid dimyristoylphosphatidylcholine:cholesterol as "seen" by x rays. , 2001, Physical review. E, Statistical, nonlinear, and soft matter physics.

[49]  R. Dimova,et al.  Pretransitional effects in dimyristoylphosphatidylcholine vesicle membranes: optical dynamometry study. , 2000, Biophysical journal.

[50]  A. Gliozzi,et al.  Trehalose Interacts with Phospholipid Polar Heads in Langmuir Monolayers , 2000 .

[51]  E. Disalvo,et al.  Effect of trehalose and sucrose on the hydration and dipole potential of lipid bilayers. , 2000, Biophysical journal.

[52]  Y. P. Lei,et al.  Effects of vitrified and nonvitrified sugars on phosphatidylcholine fluid-to-gel phase transitions. , 2000, Biophysical journal.

[53]  H. Amenitsch,et al.  Structural information from multilamellar liposomes at full hydration: full q-range fitting with high quality x-ray data. , 2000, Physical review. E, Statistical physics, plasmas, fluids, and related interdisciplinary topics.

[54]  E. Sackmann,et al.  Anisotropic motion of cholesterol in oriented DPPC bilayers studied by quasielastic neutron scattering: the liquid-ordered phase. , 1999, Biophysical journal.

[55]  G. Feigenson,et al.  A microscopic interaction model of maximum solubility of cholesterol in lipid bilayers. , 1999, Biophysical journal.

[56]  R. Suter,et al.  Multiple mechanisms for critical behavior in the biologically relevant phase of lecithin bilayers , 1998 .

[57]  D. Mitov,et al.  Bending elasticities of model membranes: influences of temperature and sterol content. , 1997, Biophysical journal.

[58]  A. Zilman,et al.  Undulations and Dynamic Structure Factor of Membranes. , 1996, Physical review letters.

[59]  D S Reid,et al.  Is trehalose special for preserving dry biomaterials? , 1996, Biophysical journal.

[60]  Sun,et al.  Critical Fluctuations in Membranes. , 1995, Physical review letters.

[61]  K. Jørgensen,et al.  Dynamical order and disorder in lipid bilayers. , 1994, Chemistry and physics of lipids.

[62]  L. Finegold Cholesterol in Membrane Models , 1992 .

[63]  T. E. Thompson,et al.  Lateral diffusion in the liquid phases of dimyristoylphosphatidylcholine/cholesterol lipid bilayers: a free volume analysis. , 1992, Biochemistry.

[64]  J. Käs,et al.  Shape transitions and shape stability of giant phospholipid vesicles in pure water induced by area-to-volume changes. , 1991, Biophysical journal.

[65]  T. E. Thompson,et al.  Transbilayer and interbilayer phospholipid exchange in dimyristoylphosphatidylcholine/dimyristoylphosphatidylethanolamine large unilamellar vesicles. , 1991, Biochemistry.

[66]  Erich Sackmann,et al.  Bending elastic moduli of lipid bilayers : modulation by solutes , 1990 .

[67]  Evans,et al.  Entropy-driven tension and bending elasticity in condensed-fluid membranes. , 1990, Physical review letters.

[68]  T. E. Thompson,et al.  Mechanism of spontaneous, concentration-dependent phospholipid transfer between bilayers. , 1990, Biochemistry.

[69]  T. E. Thompson,et al.  Spontaneous phosphatidylcholine transfer by collision between vesicles at high lipid concentration. , 1989, Biochemistry.

[70]  Milner,et al.  Dynamical fluctuations of droplet microemulsions and vesicles. , 1987, Physical review. A, General physics.

[71]  Smith,et al.  Steric interactions in a model multimembrane system: A synchrotron x-ray study. , 1986, Physical review letters.

[72]  L. Mayer,et al.  Vesicles of variable sizes produced by a rapid extrusion procedure. , 1986, Biochimica et biophysica acta.

[73]  S. Provencher A constrained regularization method for inverting data represented by linear algebraic or integral equations , 1982 .

[74]  W. Helfrich Elastic Properties of Lipid Bilayers: Theory and Possible Experiments , 1973, Zeitschrift fur Naturforschung. Teil C: Biochemie, Biophysik, Biologie, Virologie.

[75]  Dennis E. Koppel,et al.  Analysis of Macromolecular Polydispersity in Intensity Correlation Spectroscopy: The Method of Cumulants , 1972 .

[76]  K. E. Starling,et al.  Equation of State for Nonattracting Rigid Spheres , 1969 .

[77]  T. Pott,et al.  Overview of a Quest for Bending Elasticity Measurement , 2013 .

[78]  Peter Lindner,et al.  Structure and dynamics of balanced supercritical CO2-microemulsions , 2012 .

[79]  T. Unruh,et al.  The influence of additives on the nanoscopic dynamics of the phospholipid dimyristoylphosphatidylcholine. , 2011, Biochimica et biophysica acta.

[80]  P. Chong,et al.  On the lateral structure of model membranes containing cholesterol. , 2009, Biochimica et biophysica acta.

[81]  M. D. Mitov,et al.  Monosaccharides (fructose, glucose) and disaccharides (sucrose, trehalose) influence the elasticity of SOPC membranes , 2007 .

[82]  J. D. de Pablo,et al.  Effects of trehalose on the phase behavior of DPPC-cholesterol unilamellar vesicles. , 2006, Biochimica et biophysica acta.

[83]  Ferenc Mezei,et al.  Neutron Spin Echo Spectroscopy: Basics, Trends and Applications , 2002 .

[84]  J. Carpenter,et al.  The role of vitrification in anhydrobiosis. , 1998, Annual review of physiology.

[85]  Thomas Hellweg Makromolekulare Strukturen in einem anderen Licht. Anwendungen der quasielastischen Lichtstreuung , 1996 .

[86]  T. Gutberlet,et al.  Neutron Spin Echo Spectroscopy , 1985 .