Interactions between local anesthetics and lipid dispersions studied with liposome electrokinetic capillary chromatography.Interaction of a commercial lipid dispersion and local anesthetics in human plasma: implications for drug trapping by "lipid-sinks".Visualizing spatial lipid distribution in porcine lens by MALDI imaging high-resolution mass spectrometry.Adsorption of Proteins on Colloidal Lignin Particles for Advanced Biomaterials.Monoliths in capillary electrochromatography and capillary liquid chromatography in conjunction with mass spectrometry.Impact of amphiphilic biomass-dissolving ionic liquids on biological cells and liposomes.Distribution of local anesthetics between aqueous and liposome phases.Characterization of phosphatidylcholine/polyethylene glycol-lipid aggregates and their use as coatings and carriers in capillary electrophoresis.Interaction of fusidic acid with lipid membranes: Implications to the mechanism of antibiotic activity.Molecular organization of the tear fluid lipid layer.Determination of iridoid glycosides in larvae and adults of butterfly Melitaea cinxia by partial filling micellar electrokinetic capillary chromatography-electrospray ionisation mass spectrometry.Impact of Surface-Active Guanidinium-, Tetramethylguanidinium-, and Cholinium-Based Ionic Liquids on Vibrio Fischeri Cells and Dipalmitoylphosphatidylcholine Liposomes.Ceramide-1-phosphate, in contrast to ceramide, is not segregated into lateral lipid domains in phosphatidylcholine bilayers.Thermal aggregation of bovine serum albumin studied by asymmetrical flow field-flow fractionation.In vitro capturing of various lipophilic illicit drugs by lipid dispersions. An electrokinetic capillary chromatography and fluorescence polarization study.Liposomes for entrapping local anesthetics: a liposome electrokinetic chromatographic study.Temperature-induced structural transition in-situ in porcine lens--changes observed in void size distribution.Novel, dynamic on-line analytical separation system for dissolution of drugs from poly(lactic acid) nanoparticles.Professor Marja-Liisa Riekkola's 60th birthday.Simple coating of capillaries with anionic liposomes in capillary electrophoresis.Anionic liposomes in capillary electrophoresis: effect of calcium on 1-palmitoyl-2-oleyl- sn-glycero-3-phosphatidylcholine / phosphatidylserine-coating in silica capillaries.Comparative method evaluation for size and size-distribution analysis of gold nanoparticles.Phospholipid-lysozyme coating for chiral separation in capillary electrophoresis.Influence of cetyltrimethylammonium bromide on phosphatidylcholine-coated capillaries.Stabilization of phosphatidylcholine coatings in capillary electrophoresis by increase in membrane rigidity.Influence of pH on formation and stability of phosphatidylcholine/phosphatidylserine coatings in fused-silica capillaries.Cytochrome c-dimyristoylphosphatidylglycerol interactions studied by asymmetrical flow field-flow fractionation.Melting points--the key to the anti-evaporative effect of the tear film wax esters.Determination of the distribution constants of aromatic compounds and steroids in biphasic micellar phosphonium ionic liquid/aqueous buffer systems by capillary electrokinetic chromatography.Determination of nonylphenol and nonylphenol ethoxylates in wastewater using MEKC.Piperazine-based buffers for liposome coating of capillaries for electrophoresis.Liposome electrokinetic capillary chromatography in the study of analyte-phospholipid membrane interactions. Application to pesticides and related compounds.Antibiotic fusidic acid has strong interactions with negatively charged lipid membranes: an electrokinetic capillary chromatographic study.Human low-density lipoprotein-coated capillaries in electrochromatography.Silica-based monolithic capillary columns modified by liposomes for characterization of analyte-liposome interactions by capillary liquid chromatography.Small diamines as modifiers for phosphatidylcholine/phosphatidylserine coatings in capillary electrochromatography.Quantitative determination of drug encapsulation in poly(lactic acid) nanoparticles by capillary electrophoresis.Interactions of fusidic acid and elongation factor G with lipid membranes.Cationic lipid vesicles as coating precursors in capillary electrochromatography: separation of basic proteins and neutral steroids.Phospholipid-protein coatings for chiral capillary electrochromatography.
P50
Q33413537-B0740DF9-51F0-4E61-8AB8-69AFB56D4522Q33445121-2BD4103D-160E-4EA2-9B6E-CA01204AAD5BQ33554163-2707A725-5B02-44EB-ACA1-342985902397Q38671720-970B6054-2C3E-4A9C-BDB7-E8A8F56A334CQ38708025-E8271168-2056-4DF5-B7BC-26F5CA2C7157Q38920762-91A1FB35-590C-40DB-92AC-63F4F6A1ACAAQ39107987-E028A1AA-162E-4FB5-9AE4-4F21CDA31507Q41623396-A39B8C6D-EE4A-45A0-9622-7693D6621705Q41877876-C9725B06-E13C-4BF3-B8B5-74A557EA8AECQ41899472-06EBA3AA-4C4F-43AB-9D61-211BAA032204Q42047529-A4658016-D848-4F2D-B782-65BB1B40EE19Q42210920-9A6D8E3F-5751-40A0-8658-A6BBCCAD75C3Q42597742-801CC820-DA36-457F-808E-CC12E5B9B75FQ42923696-418CA9B0-4F30-464F-90AC-1066370B738DQ42924882-334FA83F-611B-4E58-BA27-DDBC8A9288A6Q43112408-EBA69C5E-21C3-4DA9-B56B-68718D3BE084Q43178121-5FC42E71-EE99-45C9-8509-E9C310DBC5E7Q43278390-234891E7-1940-44F1-91B5-7EF08090FD81Q43757201-299CC2A8-6845-4E7D-A176-7C29F49FB987Q44557111-6211A348-DDC8-48C1-B9BA-59E532512145Q44743821-9B5D1817-3660-42FA-8527-122337B4AE66Q44839708-0FE3EAA9-C59E-444F-9D56-94F9AF83EA57Q44949579-E07731BE-74F7-4804-A980-D03161D9D3B6Q45025775-5C54DD14-C0B8-4427-98E7-0FAF1C786B8CQ45143500-5372AEA9-9207-47B8-90F1-8193F49FB1FEQ45205584-A310BAD3-F465-48F9-936E-1B3D2F13449FQ45301088-1F1B823D-0092-4405-8F08-46F0D059D8F3Q45327610-14A2FF46-5D3F-410A-84F4-590BBF1B8F90Q45423387-C63BA380-AF1E-4C73-B509-25333E4598EDQ45957492-86604F8E-46DD-4F5C-BEE4-7968FC41CD64Q46433816-E6F411DD-0AF3-4C23-87B8-2FBD2AE26F80Q46435812-92BBF0E4-F253-48EC-A8D2-A33FC8D15B8DQ46445477-BFDD3A32-3366-4A04-B7B3-B2C4FAD622DEQ46487072-56D9ACEA-6294-462C-B87F-4056CFC4B42AQ46497466-1E73BF63-8E5E-4199-900C-8EB7E4AA0E97Q46597772-EE6734EF-A26A-4A59-B324-036AB4757EA0Q46869632-E4F79B5D-2387-4872-9AE0-8E2BD5AD6D67Q46916190-AC387AAF-88E3-460E-AB0C-D3266909526BQ46928370-7E53119A-53F0-47B0-8F39-5A96AF0B0410Q46963940-8B55B4D6-5ED8-4112-AB64-F407960EDC89
P50
description
Finnish researcher
@en
Fins onderzoekster
@nl
finländsk kemist
@sv
hulumtuese
@sq
soome keemik
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suomalainen kemisti
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taighdeoir
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հետազոտող
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name
Susanne K Wiedmer
@sl
Susanne Wiedmer
@de
Susanne Wiedmer
@en
Susanne Wiedmer
@es
Susanne Wiedmer
@et
Susanne Wiedmer
@fi
Susanne Wiedmer
@ga
Susanne Wiedmer
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Susanne Wiedmer
@nl
Susanne Wiedmer
@sq
type
label
Susanne K Wiedmer
@sl
Susanne Wiedmer
@de
Susanne Wiedmer
@en
Susanne Wiedmer
@es
Susanne Wiedmer
@et
Susanne Wiedmer
@fi
Susanne Wiedmer
@ga
Susanne Wiedmer
@nb
Susanne Wiedmer
@nl
Susanne Wiedmer
@sq
altLabel
Susanne Kristina Wiedmer
@en
Susanne Kristina Wiedmer
@fi
prefLabel
Susanne K Wiedmer
@sl
Susanne Wiedmer
@de
Susanne Wiedmer
@en
Susanne Wiedmer
@es
Susanne Wiedmer
@et
Susanne Wiedmer
@fi
Susanne Wiedmer
@ga
Susanne Wiedmer
@nb
Susanne Wiedmer
@nl
Susanne Wiedmer
@sq
P214
P21
P214
P27
P31
P3835
susanne-wiedmer
P496
0000-0002-3097-6165
P569
1969-01-01T00:00:00Z
P734
P735
P7859
lccn-nb2013022692