about
Structural Variations in Hybrid All-Nanoparticle Gibbsite Nanoplatelet/Cellulose Nanocrystal Multilayered Films.Neutron Reflectivity as a Tool for Physics-Based Studies of Model Bacterial Membranes.Mechanism of Action of a Membrane-Active Quinoline-Based Antimicrobial on Natural and Model Bacterial Membranes.Identification of a region that assists membrane insertion and translocation of the catalytic domain of Bordetella pertussis CyaA toxin.Effect of phospholipid composition and phase on nanodisc films at the solid-liquid interface as studied by neutron reflectivity.Using Neutron Reflectometry to Discern the Structure of Fibrinogen Adsorption at the Stainless Steel/Aqueous Interface.Membrane Association Landscape of Myelin Basic Protein Portrays Formation of the Myelin Major Dense Line.Nanodisc Films for Membrane Protein Studies by Neutron Reflection: Effect of the Protein Scaffold Choice.Monitoring shifts in the conformation equilibrium of the membrane protein cytochrome P450 reductase (POR) in nanodiscsNanoscale control of interfacial processes for latent fingerprint enhancement.Effect of functionalized gold nanoparticles on floating lipid bilayers.Analysis of biosurfaces by neutron reflectometry: from simple to complex interfaces.Interaction of Moringa oleifera seed protein with a mineral surface and the influence of surfactants.Nano-in-Nano Approach for Enzyme Immobilization Based on Block Copolymers.Effect of bilayer charge on lipoprotein lipid exchange.Gravimetric and density profiling using the combination of surface acoustic waves and neutron reflectivity.Evidence of Lipid Exchange in Styrene Maleic Acid Lipid Particle (SMALP) Nanodisc Systems.Lipidation Effect on Surface Adsorption and Associated Fibrillation of the Model Protein Insulin.The effect of urea and taurine as hydrophilic penetration enhancers on stratum corneum lipid models.Modulation of Dipalmitoylphosphatidylcholine Monolayers by Dimethyl SulfoxideBiophysical study of resin acid effects on phospholipid membrane structure and propertiesTowards biomimics of cell membranes: Structural effect of phosphatidylinositol triphosphate (PIP) on a lipid bilayerHydration and Ordering of Lamellar Block Copolymer Films under Controlled Water VaporPreferential adsorption to air-water interfaces: a novel cryoprotective mechanism for LEA proteinsInteractions of PAMAM dendrimers with negatively charged model biomembranesGrafted biomembranes containing membrane proteins--the case of the leucine transporterInfluence of the Surfactant Structure on Photoluminescent π-Conjugated Polymer Nanoparticles: Interfacial Properties and Protein BindingReal-time in situ dynamic sub-surface imaging of multi-component electrodeposited films using event mode neutron reflectivityNeuropathy-related mutations alter the membrane binding properties of the human myelin protein P0 cytoplasmic tailThe pH-dependence of lipid-mediated antimicrobial peptide resistance in a model staphylococcal plasma membrane: A two-for-one mechanism of epithelial defence circumvention
P50
Q38675754-CE628CD2-7A0D-448A-96D3-6E1367BC3529Q38837734-5A13FBB8-DCC8-41FA-8D64-38227DD25FD0Q38982184-B0F496C8-555B-4784-8CD5-6ECD7C9EF517Q39412993-75B49577-E7DC-44A2-B7F8-796E82F32D6EQ39474279-B32B2076-8D90-4465-AFE0-1C44B9B0B0EEQ39722754-FEBA632E-B5B9-430C-B8C1-70E5A3DD0531Q40974166-74BC06AB-94BB-46A2-8F46-49D2744D7C54Q42131734-B23B8BDA-1780-4996-8B16-F19D8069E78EQ42519476-36997931-135C-42C8-A6A7-0FDCEFEC0D8AQ45229827-95FB7680-1D57-4B96-8FD9-4BE48B4E85E1Q45246172-CAD70E31-F0AC-468F-9861-9660187A7A86Q45983573-352D67DB-7A33-4E85-A1FE-43E4E3ED35CFQ46820196-5E39DE23-D830-48C5-A497-D614CD3A9720Q48237400-D6946173-0340-4444-95D3-7C39B5DB63A8Q50108232-9142FF9A-F86B-491C-9B9C-ADA2BC798C0EQ51107493-3B316D85-DAFF-4B43-A428-8EA574C7A7D6Q51114673-3E3356C4-E532-4C93-8067-E5D2924E8CD6Q51678942-31453192-959F-4CF9-B1D5-E7059B18344FQ52852144-2E0A1DD8-CE72-48C2-A7DC-4718B837A7ABQ56875882-489C5D23-8EB5-4E87-990E-ED278A494725Q57182403-E23946B0-150B-48F0-807E-F6567500DC15Q57191452-36B64261-48B7-46E1-9F51-466B067B742BQ57761862-58FE8430-96C4-4CB7-A11E-609E1D49F037Q64057870-62ED3F8E-1B26-43F4-A923-8D08176988A4Q85771544-FDBCE543-EF6F-4D2E-98A3-C1AD8759E25CQ86044207-2D189D79-483E-433B-A2BD-FBCCB2490448Q88567838-37A362CE-EA47-46C5-BFDB-3E2BE11D82A7Q90028818-4A548CC9-AB4C-40DE-9C5E-9223B2F7F596Q92584703-C2E1240C-00C5-497B-BEE0-F79830354BEFQ93340194-5B2960A2-F4EB-4230-BEED-6FF2E09D92F3
P50
description
biophysicist
@en
onderzoeker
@nl
name
Robert Barker
@ast
Robert Barker
@en
Robert Barker
@es
Robert Barker
@nl
Robert Barker
@sl
type
label
Robert Barker
@ast
Robert Barker
@en
Robert Barker
@es
Robert Barker
@nl
Robert Barker
@sl
prefLabel
Robert Barker
@ast
Robert Barker
@en
Robert Barker
@es
Robert Barker
@nl
Robert Barker
@sl
P106
P2038
Robert_Barker4
P21
P31
P496
0000-0002-8645-5385