Pages that link to "Q34017749"

The following pages link to Interactions of N-stearoyl sphingomyelin with cholesterol and dipalmitoylphosphatidylcholine in bilayer membranes (Q34017749):

Displaying 48 items.

• Characterization of cholesterol-sphingomyelin domains and their dynamics in bilayer membranes (Q28346170) (← links)
• Morphology transition in lipid vesicles due to in-plane order and topological defects (Q30537129) (← links)
• Molecular packing in sphingomyelin bilayers and sphingomyelin/phospholid mixtures (Q30800550) (← links)
• Material Properties of Lipid Microdomains: Force-Volume Imaging Study of the Effect of Cholesterol on Lipid Microdomain Rigidity (Q33648612) (← links)
• Self-consistent mean-field model for palmitoyloleoylphosphatidylcholine–palmitoyl sphingomyelin–cholesterol lipid bilayers (Q33881356) (← links)
• The differential miscibility of lipids as the basis for the formation of functional membrane rafts. (Q34067848) (← links)
• Interactions of Ca(2 ) with sphingomyelin and dihydrosphingomyelin (Q34178092) (← links)
• A lipid-specific toxin reveals heterogeneity of sphingomyelin-containing membranes (Q34184297) (← links)
• How proteins move lipids and lipids move proteins. (Q34297097) (← links)
• The organizing potential of sphingolipids in intracellular membrane transport (Q34388106) (← links)
• Effect of hydrophobic mismatch on phase behavior of lipid membranes (Q34601072) (← links)
• Thermodynamic comparison of the interactions of cholesterol with unsaturated phospholipid and sphingomyelins (Q34646761) (← links)
• Insights into lipid raft structure and formation from experiments in model membranes (Q34774288) (← links)
• Very-long-chain fatty acid sphingomyelin in nuclear lipid microdomains of hepatocytes and hepatoma cells: can the exchange from C24:0 to C16:0 affect signal proteins and vitamin D receptor? (Q36063642) (← links)
• CRAC motif peptide of the HIV-1 gp41 protein thins SOPC membranes and interacts with cholesterol. (Q36570805) (← links)
• Sphingomyelin modulates the transbilayer distribution of galactosylceramide in phospholipid membranes (Q37034681) (← links)
• Stability of lipid domains (Q37663101) (← links)
• Lipid–lipid interactions in bilayer membranes: Married couples and casual liaisons (Q37985333) (← links)
• Cholesterol-sphingomyelin interactions: a molecular dynamics simulation study (Q38978472) (← links)
• Lipid Raft Size and Lipid Mobility in Non-raft Domains Increase during Aging and Are Exacerbated in APP/PS1 Mice Model of Alzheimer's Disease. Predictions from an Agent-Based Mathematical Model. (Q38994779) (← links)
• Thermotropic behavior of galactosylceramides with cis-monoenoic fatty acyl chains. (Q39038416) (← links)
• Sphingolipid organization in biomembranes: what physical studies of model membranes reveal (Q40224237) (← links)
• Real-time analysis of the effects of cholesterol on lipid raft behavior using atomic force microscopy (Q40231707) (← links)
• The Effect of Cholesterol on the Lateral Diffusion of Phospholipids in Oriented Bilayers (Q40235694) (← links)
• A Calorimetric Study of Binary Mixtures of Dihydrosphingomyelin and Sterols, Sphingomyelin, or Phosphatidylcholine (Q40235875) (← links)
• Sterol structure and sphingomyelin acyl chain length modulate lateral packing elasticity and detergent solubility in model membranes (Q40263810) (← links)
• Partitioning of pyrene-labeled phospho- and sphingolipids between ordered and disordered bilayer domains (Q40273187) (← links)
• Apolipophorin III interaction with model membranes composed of phosphatidylcholine and sphingomyelin using differential scanning calorimetry (Q41764867) (← links)
• Yeast lipids can phase-separate into micrometer-scale membrane domains (Q41965289) (← links)
• Probing for preferential interactions among sphingolipids in bilayer vesicles using the glycolipid transfer protein (Q42187555) (← links)
• Genotype-induced changes in biophysical properties of frontal cortex lipid raft from APP/PS1 transgenic mice (Q42355559) (← links)
• Effects of ceramide on liquid-ordered domains investigated by simultaneous AFM and FCS (Q42425338) (← links)
• Ceramide-1-phosphate, in contrast to ceramide, is not segregated into lateral lipid domains in phosphatidylcholine bilayers (Q42597742) (← links)
• Brain membrane phospholipid alterations in Alzheimer's disease (Q43743686) (← links)
• Cholesterol is not crucial for the existence of microdomains in kidney brush-border membrane models (Q43805295) (← links)
• Lipid Domain Depletion at Small Localized Bends Imposed by a Step Geometry (Q45995882) (← links)
• Interaction of the macrolide antibiotic azithromycin with lipid bilayers: effect on membrane organization, fluidity, and permeability (Q46441787) (← links)
• VERY LONG CHAIN FATTY ACID SPHINGOMYELIN IN NUCLEAR LIPID MICRODOMAINS OF HEPATOCYTES AND HEPATOMA CELLS: CAN THE EXCHANGE FROM C24:0 TO C16:0 AFFECT SIGNAL PROTEINS AND VITAMIN D RECEPTOR? (Q46729109) (← links)
• Interaction of cholesterol-like molecules in polyunsaturated phosphatidylcholine lipid bilayers as revealed by a self-consistent field theory. (Q46955237) (← links)
• A weight averaged approach for predicting amide vibrational bands of a sphingomyelin bilayer (Q47354703) (← links)
• Lipids of the Golgi membrane (Q47721661) (← links)
• An index of lipid phase diagrams (Q49112756) (← links)
• The molecular mechanism of Nystatin action is dependent on the membrane biophysical properties and lipid composition. (Q52446250) (← links)
• Chapter 4 Visualization and Characterization of Domains in Supported Model Membranes (Q57364553) (← links)
• Effect of Line Tension on the Lateral Organization of Lipid Membranes (Q57372754) (← links)
• Lipid microdomains, lipid translocation and the organization of intracellular membrane transport (Review) (Q57373130) (← links)
• Sphingomyelinase cleavage of sphingomyelin in pure and mixed lipid membranes. Influence of the physical state of the sphingolipid (Q63244829) (← links)
• N-cholesteryl sphingomyelin—A synthetic sphingolipid with unique membrane properties (Q83074801) (← links)