scholarly article | Q13442814 |
P2093 | author name string | Jin Ye | |
Theodore L Steck | |||
Yvonne Lange | |||
Mark-Eugene Duban | |||
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From lanosterol to cholesterol: structural evolution and differential effects on lipid bilayers | Q28768937 | ||
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Contrast inversion in the epifluorescence of cholesterol-phospholipid monolayers | Q34184825 | ||
Complexation of phosphatidylcholine lipids with cholesterol. | Q34184932 | ||
The nature of the site of general anesthesia. | Q34194804 | ||
Correlation of general anesthetic potency with solubility in membranes | Q34284260 | ||
Interactions of cholesterol with lipid membranes and cyclodextrin characterized by calorimetry | Q34350721 | ||
Cholesterol and other membrane active sterols: from membrane evolution to "rafts". | Q34428228 | ||
Partitioning of membrane molecules between raft and non-raft domains: insights from model-membrane studies | Q34465411 | ||
Thermodynamic comparison of the interactions of cholesterol with unsaturated phospholipid and sphingomyelins | Q34646761 | ||
Liquid-liquid immiscibility in membranes | Q35062616 | ||
Fast flip-flop of cholesterol and fatty acids in membranes: implications for membrane transport proteins | Q35168821 | ||
Cholesterol surrogates: a comparison of cholesterol and 16:0 ceramide in POPC bilayers | Q35606789 | ||
Partitioning of long-chain alcohols into lipid bilayers: implications for mechanisms of general anesthesia | Q35616651 | ||
Tetracaine-membrane interactions: effects of lipid composition and phase on drug partitioning, location, and ionization | Q35794550 | ||
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Involvement of lipid rafts and caveolae in cardiac ion channel function. | Q36365550 | ||
Interactions of anesthetics with their targets: non-specific, specific or both? | Q36398867 | ||
Protein area occupancy at the center of the red blood cell membrane | Q36498369 | ||
Scrambling of phospholipids activates red cell membrane cholesterol | Q36869507 | ||
Cholesterol effects on nicotinic acetylcholine receptor | Q36994555 | ||
Cholesterol homeostasis and the escape tendency (activity) of plasma membrane cholesterol | Q37137436 | ||
The liquid-ordered phase in membranes | Q37262381 | ||
Effects of ceramide and other simple sphingolipids on membrane lateral structure | Q37291700 | ||
Regulation of fibroblast mitochondrial 27-hydroxycholesterol production by active plasma membrane cholesterol | Q37299894 | ||
Loosening and reorganization of fluid phospholipid bilayers by chloroform | Q37366353 | ||
How cholesterol homeostasis is regulated by plasma membrane cholesterol in excess of phospholipids | Q37415722 | ||
Cholesterol and Kir channels | Q37528283 | ||
The membrane actions of anesthetics and tranquilizers | Q39921138 | ||
Chemical activity of cholesterol in membranes | Q41746187 | ||
Nonideal mixing in multicomponent lipid/detergent systems | Q42731962 | ||
Stoichiometry of cholesterol-sphingomyelin condensed complexes in monolayers | Q43541916 | ||
Coupling of cholesterol and cone-shaped lipids in bilayers augments membrane permeabilization by the cholesterol-specific toxins streptolysin O and Vibrio cholerae cytolysin | Q43560214 | ||
Cholesterol modulates the effects of membrane perturbers in phospholipid vesicles and biomembranes | Q43838045 | ||
Plasma membranes contain half the phospholipid and 90% of the cholesterol and sphingomyelin in cultured human fibroblasts. | Q43851937 | ||
Two fatty acids can replace one phospholipid in condensed complexes with cholesterol | Q44052367 | ||
Fatty acid and alcohol partitioning with intestinal brush border and erythrocyte membranes | Q44489364 | ||
Ceramide selectively displaces cholesterol from ordered lipid domains (rafts): implications for lipid raft structure and function | Q44709173 | ||
Cholesterol oxidase senses subtle changes in lipid bilayer structure | Q44733852 | ||
Molecular-level organization of saturated and polyunsaturated fatty acids in a phosphatidylcholine bilayer containing cholesterol | Q45174823 | ||
Displacement of sterols from sterol/sphingomyelin domains in fluid bilayer membranes by competing molecules | Q46673089 | ||
Activation of membrane cholesterol by displacement from phospholipids | Q46675888 | ||
Effectors of rapid homeostatic responses of endoplasmic reticulum cholesterol and 3-hydroxy-3-methylglutaryl-CoA reductase | Q46891932 | ||
Interaction of cholesterol-like molecules in polyunsaturated phosphatidylcholine lipid bilayers as revealed by a self-consistent field theory. | Q46955237 | ||
1-Alkanols and membranes: a story of attraction | Q46966488 | ||
The rate of transmembrane movement of cholesterol in the human erythrocyte | Q50179568 | ||
Anesthetic cutoff in cycloalkanemethanols. A test of current theories. | Q51665006 | ||
Interfacial ionization and partitioning of membrane-bound local anaesthetics | Q51697829 | ||
Nonclassical hydrophobic effect in membrane binding equilibria | Q51705965 | ||
Anesthetic potencies of secondary alcohol enantiomers. | Q51797640 | ||
Erythrocyte membrane expansion due to the volatile anesthetics, the 1-alkanols, and benzyl alcohol. | Q51858415 | ||
Membrane partitioning: distinguishing bilayer effects from the hydrophobic effect. | Q52394811 | ||
The membrane concentrations of alcohol anesthetics | Q52739211 | ||
Cholesterol rotation in phospholipid vesicles as observed by 13C-NMR. | Q52742041 | ||
The effect of cholesterol and other intercalated amphipaths on the contour and stability of the isolated red cell membrane. | Q54546896 | ||
Condensed complexes of cholesterol and phospholipids | Q57362663 | ||
A Model System for the Olfactory Membrane | Q59083975 | ||
Thermodynamics of membrane partitioning for a series of n-alcohols determined by titration calorimetry: role of hydrophobic effects. | Q64973140 | ||
The interaction of n-alkanols with lipid bilayer membranes: a 2H-NMR study | Q68284373 | ||
Cholesterol oxidase susceptibility of the red cell membrane | Q70465510 | ||
A NMR study of the ionization of fatty acids, fatty amines and N-acylamino acids incorporated in phosphatidylcholine vesicles | Q71289945 | ||
Merocyanine 540, a fluorescent probe sensitive to lipid packing | Q71787211 | ||
Regulation of endoplasmic reticulum cholesterol by plasma membrane cholesterol | Q73251600 | ||
Quantitation of the pool of cholesterol associated with acyl-CoA:cholesterol acyltransferase in human fibroblasts | Q73335019 | ||
Maximum solubility of cholesterol in phosphatidylcholine and phosphatidylethanolamine bilayers | Q74602984 | ||
P433 | issue | 36 | |
P407 | language of work or name | English | Q1860 |
P304 | page(s) | 8505-8515 | |
P577 | publication date | 2009-09-01 | |
P1433 | published in | Biochemistry | Q764876 |
P1476 | title | Activation of membrane cholesterol by 63 amphipaths | |
P478 | volume | 48 |
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Q28540662 | Essentially all excess fibroblast cholesterol moves from plasma membranes to intracellular compartments |
Q92702783 | Insights into the Relationships Between Herbicide Activities, Molecular Structure and Membrane Interaction of Cinnamon and Citronella Essential Oils Components |
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Q34368767 | Psychosine, the cytotoxic sphingolipid that accumulates in globoid cell leukodystrophy, alters membrane architecture. |
Q37384649 | Stability and stoichiometry of bilayer phospholipid-cholesterol complexes: relationship to cellular sterol distribution and homeostasis |
Q42179711 | Synthesis of the enantiomer of the oxysterol-antagonist LY295427. |
Q50090142 | The Effect of Solutes on the Temperature of Miscibility Transitions in Multicomponent Membranes |
Q38258125 | The amphiphilic nature of saponins and their effects on artificial and biological membranes and potential consequences for red blood and cancer cells. |
Q37232021 | The structural basis of cholesterol accessibility in membranes |
Q47264236 | n-Alcohol Length Governs Shift in Lo-Ld Mixing Temperatures in Synthetic and Cell-Derived Membranes. |
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