about
Liposome-incorporated corticosteroids: I. The interaction of liposomal cortisol palmitate with inflammatory synovial membraneEffect of surfactant monomers on chloramphenicol association to an albumin-lecithin complex: a model for modified drug absorption.Cholesterol esterase action on human high density lipoproteins and inhibition studies: detection by MALDI-TOF MS.Changes in phosphatidylcholine headgroup tilt and water order induced by monovalent salts: molecular dynamics simulations.Liposomes: applications in medicine.Diphtheria toxin forms transmembrane channels in planar lipid bilayers.Sensing-applications of surface-based single vesicle arraysGUVs melt like LUVs: the large heat capacity of MLVs is not due to large size or small curvature.Magnetic resonance nanoparticles for cardiovascular molecular imaging and therapy.Interaction of colistin and colistin methanesulfonate with liposomes: colloidal aspects and implications for formulation.Drug release from nanomedicines: Selection of appropriate encapsulation and release methodology.On the use of Percoll as a marker for liposomes in electron microscopy of mouse spleen tissue.Ionic peremability of thin lipid membranes. Effects of n-alkyl alcohols, polyvalent cations, and a secondary amine.Liposomal nanomedicines.Interaction of heparins and dextran sulfates with a mesoscopic protein nanopore.Fusion of influenza virus membranes with liposomes at pH 7.5.Therapy of leishmaniasis: superior efficacies of liposome-encapsulated drugs.Single vesicle biochips for ultra-miniaturized nanoscale fluidics and single molecule bioscience.Encapsulated hemoglobin: current issues and future goals.Photodynamic Activity of Fullerenes and Other Molecules Incorporated into Lipid Membranes by Exchange.Liposomal adjuvants for human vaccines.Lipid nanoparticle delivery systems for siRNA-based therapeutics.Micellar solubilization of fatty acids in aqueous media containing bile salts and phospholipids.Oral administration of insulin by encapsulation within liposomes.Design and development of folate appended liposomes for enhanced delivery of 5-FU to tumor cells.Physical and physiological properties of dry lung surfactant.Uptake of enzyme-laden liposomes by animal cells in vitro and in vivo.Photosensitive bilayer membranes as model systems for photobiological processes.Liposomes in allergy and immunology.A Vesicle-to-Worm Transition Provides a New High-Temperature Oil Thickening Mechanism.Refractive-index-based screening of membrane-protein-mediated transfer across biological membranes.The phospholipid-dependence of uridine diphosphate glucuronyltransferase. Reactivation of phospholipase A-inactivated enzyme by phospholipids and detergents.Hot-cold hemolysis: the role of positively charged membrane phospholipids.NaCl interactions with phosphatidylcholine bilayers do not alter membrane structure but induce long-range ordering of ions and water.Effect of phospholipid emulsifiers on physicochemical properties of intravenous fat emulsions and/or drug carrier emulsions.Transferrin coupled liposomes as drug delivery carriers for brain targeting of 5-florouracil.Photochemical reduction of CO2 with ascorbate in aqueous solution using vesicles acting as photocatalysts.Degradation of phospholipids under different types of irradiation and varying oxygen saturation.Incorporation of large guest molecules into liposomes via chemical reactions in lipid membranes.Topical liposome system bearing local anaesthetic lignocaine: preparation and evaluation.
P2860
Q28326800-2F05E065-5331-4A1D-A712-7CEE62C33E46Q30336900-BB62B0E8-0AB5-4B3C-A834-F3CDC9CA36C8Q31141789-656C0337-10D6-4977-9A54-9B407CFE588BQ34186062-1CE15B03-76BF-4CF6-BB24-9977326E92A6Q34320703-85972F9A-A6DD-4180-937B-AB6280FE836AQ35302407-994DB34C-6526-4A4B-9611-118960E23901Q35593723-369B87D1-408F-4EC2-917C-0805A10BE946Q35688416-1FAA7DB6-EF9E-4400-9497-723C6AA1EBDAQ36216849-F587A3DA-2B48-4AC4-A937-927714910FE4Q36222127-C45AEA0D-4A9F-427C-8531-5F150E31932EQ36350400-97469320-0800-4127-A39B-846EE3BC4374Q36379887-EA87F38C-67AB-43AB-ADC7-9771DD904E65Q36387426-0DF2E978-B862-45BB-A8C7-EAC91C177420Q37039021-220BA9D9-C7B7-4331-97B8-7BD793C13D63Q37443804-7539BEBF-9458-46EE-B3BB-2E82B6F26631Q37523192-F39DEA98-1C7D-4B09-B002-7F35D76B7A2AQ37589185-656257AF-181A-4E77-9AA7-4521C6C0FD21Q38121763-B39F24A3-1051-4346-ABED-B723B5440611Q38569496-88D2C6E1-D8A6-4165-B240-D728631C3FB6Q38668465-3679B0B2-A839-4A9F-97F4-C0AF90E7B64AQ38729260-38B67086-F496-439A-83C8-97706D057AC5Q39027758-5B114BC6-37A9-45B1-B9F7-769AFB8BF10EQ39066999-B6220761-E17A-4C1E-AA87-A4699C8CB2BAQ39758120-AFC69102-DD1D-4154-B5E9-7F7FA8F42511Q40141971-1A56450B-D13F-4EBC-86F0-CCA8248B4331Q40363763-47409EF4-BD08-43C1-8472-E7B99D506985Q40555455-C2D6FCDE-66AE-44CE-A742-4500DD8B9479Q40634026-371C6856-E6D5-4CDA-8A7E-B4A4E5792079Q40772013-7C13E359-11E4-4B0C-83E8-CB5D7357761EQ42152725-5D83B6FE-07CD-45A1-8C03-A16424FBF519Q42739624-31AA3ADF-00C9-481C-90CD-A81510B61E82Q42922673-7BB628DB-FDC9-408D-915F-42DC73E60088Q44394376-ED58B1FD-1A12-44D1-A489-31B5FAC04108Q44419154-2128A925-27A2-4B71-8909-7891E2BFCFCDQ44960516-CF24D23B-7B05-4469-B678-334D8E0C8D37Q46624404-E1464FB6-4C71-478E-87B3-60BB242D054FQ46930404-62617ED3-A109-43AE-A0A2-71067EAE0BF1Q48149699-B51EF134-1668-419D-9753-DB782CFA52E9Q48180538-23E55EE0-7620-4883-A208-E095D15C0CC5Q51635002-F2C93586-0D5A-4773-89C1-70F1BE91D443
P2860
description
1968 nî lūn-bûn
@nan
1968年の論文
@ja
1968年論文
@yue
1968年論文
@zh-hant
1968年論文
@zh-hk
1968年論文
@zh-mo
1968年論文
@zh-tw
1968年论文
@wuu
1968年论文
@zh
1968年论文
@zh-cn
name
Membrane models with phospholipids.
@ast
Membrane models with phospholipids.
@en
type
label
Membrane models with phospholipids.
@ast
Membrane models with phospholipids.
@en
prefLabel
Membrane models with phospholipids.
@ast
Membrane models with phospholipids.
@en
P1476
Membrane models with phospholipids.
@en
P2093
A D Bangham
P356
10.1016/0079-6107(68)90019-9
P577
1968-01-01T00:00:00Z