review article | Q7318358 |
scholarly article | Q13442814 |
P356 | DOI | 10.1007/S12551-011-0057-4 |
P8608 | Fatcat ID | release_tap5lo4nkjaf7m6hqgduvkyd7u |
P932 | PMC publication ID | 5418388 |
P698 | PubMed publication ID | 28510045 |
P2093 | author name string | Bruno Maggio | |
Natalia Wilke | |||
P2860 | cites work | Interfacial catalysis: the mechanism of phospholipase A2 | Q27681640 |
Myristoylated alanine-rich C kinase substrate (MARCKS) sequesters spin-labeled phosphatidylinositol 4,5-bisphosphate in lipid bilayers | Q28217297 | ||
Polylysine-induced 2H NMR-observable domains in phosphatidylserine/phosphatidylcholine lipid bilayers | Q28365163 | ||
Lateral diffusion and percolation in two-phase, two-component lipid bilayers. Topology of the solid-phase domains in-plane and across the lipid bilayer | Q30439304 | ||
Electrostatic sequestration of PIP2 on phospholipid membranes by basic/aromatic regions of proteins | Q30447412 | ||
Interaction of electric dipoles with phospholipid head groups. A deuterium and phosphorus-31 NMR study of phloretin and phloretin analogs in phosphatidylcholine membranes | Q31156547 | ||
Interaction of rabbit C-reactive protein with phospholipid monolayers studied by microfluorescence film balance with an externally applied electric field | Q33907072 | ||
The structure of divalent cation-induced aggregates of PIP2 and their alteration by gelsolin and tau | Q33907418 | ||
Monte Carlo simulation of lipid mixtures: finding phase separation | Q34019939 | ||
Effect of electric field gradients on lipid monolayer membranes | Q34129329 | ||
The dipole potential of phospholipid membranes and methods for its detection | Q34160277 | ||
Electrostatic properties of membranes containing acidic lipids and adsorbed basic peptides: theory and experiment | Q34171993 | ||
Obstructed diffusion in phase-separated supported lipid bilayers: a combined atomic force microscopy and fluorescence recovery after photobleaching approach | Q34179466 | ||
Micropattern formation in supported lipid membranes | Q34568407 | ||
Visualization of Ca2+-induced phospholipid domains | Q34634965 | ||
Role of interactions at the lipid-water interface for domain formation | Q36705918 | ||
Bending mechanics and molecular organization in biological membranes | Q36789379 | ||
Protein modulation of lipids, and vice-versa, in membranes | Q37092582 | ||
Electrostatic Effects on Lipid Phase Transitions: Membrane Structure and Ionic Environment | Q37429000 | ||
The influence of domain crowding on the lateral diffusion of ceramide-enriched domains in a sphingomyelin monolayer | Q84485231 | ||
Surface phase behavior and domain topography of ascorbyl palmitate monolayers | Q84568819 | ||
The interactions between cholesterol and phospholipids located in the inner leaflet of humane erythrocytes membrane (DPPE and DPPS) in binary and ternary films—The effect of sodium and calcium ions | Q85073376 | ||
Polar-group behaviour in mixed monolayers of phospholipids and fusogenic lipids | Q39102039 | ||
Phospholipid head groups as sensors of electric charge in membranes | Q39689232 | ||
Binding of peripheral proteins to mixed lipid membranes: effect of lipid demixing upon binding | Q40142448 | ||
Lipid demixing and protein-protein interactions in the adsorption of charged proteins on mixed membranes | Q40171316 | ||
Effect of sodium chloride on a lipid bilayer | Q40251852 | ||
Shape transitions and lattice structuring of ceramide-enriched domains generated by sphingomyelinase in lipid monolayers. | Q40311786 | ||
Chemically induced lipid phase separation in model membranes containing charged lipids: A spin label study | Q40346420 | ||
Dipole potential of lipid membranes | Q40655667 | ||
Two-dimensional microelectrophoresis in supported lipid bilayers | Q41855233 | ||
Electric field-induced concentration gradients in planar supported bilayers | Q41969574 | ||
Nonideal mixing and phase separation in phosphatidylcholine-phosphatidic acid mixtures as a function of acyl chain length and pH. | Q42092909 | ||
Association free energy of dipalmitoylphosphatidylserines in a mixed dipalmitoylphosphatidylcholine membrane | Q42263859 | ||
Phosphatidic acid domains in membranes: effect of divalent counterions. | Q42908525 | ||
Rheological properties of a two phase lipid monolayer at the air/water interface: effect of the composition of the mixture | Q43104763 | ||
Domain growth, pattern formation, and morphology transitions in Langmuir monolayers. A new growth instability. | Q43117599 | ||
Vesicles with charged domains | Q43203607 | ||
Micron-scale phase segregation in lipid monolayers induced by myelin basic protein in the presence of a cholesterol analog | Q43242155 | ||
Directed formation of lipid membrane microdomains as high affinity sites for His-tagged proteins | Q43590489 | ||
The distribution of polyphosphoinositides in lipid films. | Q43733541 | ||
Interactions of metal ions with phosphatidylserine bilayer membranes: effect of hydrocarbon chain unsaturation | Q44116809 | ||
Formation and spatio-temporal evolution of periodic structures in lipid bilayers | Q45210923 | ||
Growth of solid domains in model membranes: quantitative image analysis reveals a strong correlation between domain shape and spatial position. | Q46083657 | ||
Phase segregation on different length scales in a model cell membrane system | Q46119976 | ||
Structural and topographical characteristics of dipalmitoyl phosphatidic acid in Langmuir monolayers | Q46806661 | ||
Attractive membrane domains control lateral diffusion. | Q48876404 | ||
Enzymatic synthesis of pyrene-labeled polyphosphoinositides and their behavior in organic solvents and phosphatidylcholine bilayers | Q49023260 | ||
Asymmetric charge patterning on surfaces and interfaces: formation of hexagonal domains. | Q50871801 | ||
Effect of externally applied electrostatic fields on the surface topography of ceramide-enriched domains in mixed monolayers with sphingomyelin. | Q51249744 | ||
Properties of galactocerebroside layers transferred to glassy carbon electrodes: effect of an applied electric field. | Q51532750 | ||
Imaging coexisting fluid domains in biomembrane models coupling curvature and line tension | Q51808476 | ||
Calcium modulates the mechanical properties of anionic phospholipid membranes | Q51816290 | ||
Effective attraction interactions between like-charge macroions bound to binary fluid lipid membranes. | Q51918141 | ||
Electric field-induced concentration gradients in lipid monolayers. | Q52381222 | ||
Cardiotoxin II segregates phosphatidylglycerol from mixtures with phosphatidylcholine: (31)P and (2)H NMR spectroscopic evidence | Q57103701 | ||
Controlling the Charge and Organization of Anionic Lipid Bilayers: Effect of Monovalent and Divalent Ions | Q57366274 | ||
Externally Applied Electric Fields on Immiscible Lipid Monolayers: Repulsion between Condensed Domains Precludes Domain Migration | Q57366543 | ||
Direct evidence of charge-induced lipid domain structure in model membranes | Q67599696 | ||
2H and 31P NMR study of pentalysine interaction with headgroup deuterated phosphatidylcholine and phosphatidylserine | Q68057815 | ||
Effect of myelin basic protein on the thermotropic behavior of aqueous dispersions of neutral and anionic glycosphingolipids and their mixtures with dipalmitoylphosphatidylcholine | Q68985648 | ||
Effect of calcium ions on the thermotropic behaviour of neutral and anionic glycosphingolipids | Q69116594 | ||
Triggering of the activity of phospholipase A2 by an electric field | Q69417439 | ||
Interaction of myelin basic protein, melittin and bovine serum albumin with gangliosides, sulphatide and neutral glycosphingolipids in mixed monolayers | Q72747519 | ||
Miscibility of phospholipids with identical headgroups and acyl chain lengths differing by two methylene units: effects of headgroup structure and headgroup charge | Q74495233 | ||
Hydrodynamic mapping of two-dimensional electric fields in monolayers | Q74568769 | ||
Modulation of phospholipase A2 by electrostatic fields and dipole potential of glycosphingolipids in monolayers | Q77388367 | ||
Viscosity of two-dimensional suspensions | Q77946229 | ||
BINDING OF METAL IONS TO MONOLAYERS OF LECITHINS, PLASMALOGEN, CARDIOLIPIN, AND DICETYL PHOSPHATE | Q78521258 | ||
Calcium-induced phospholipid ordering depends on surface pressure | Q80791924 | ||
Orienting lipid domains in giant vesicles using an electric field | Q83966477 | ||
Phase diagram of mixed monolayers of stearic acid and dimyristoylphosphatidylcholine. Effect of the acid ionization | Q84257014 | ||
P433 | issue | 4 | |
P304 | page(s) | 185-192 | |
P577 | publication date | 2011-09-06 | |
P1433 | published in | Biophysical Reviews | Q26842484 |
P1476 | title | Electrostatic field effects on membrane domain segregation and on lateral diffusion | |
P478 | volume | 3 |
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