about
Solid-state NMR spectroscopy structure determination of a lipid-embedded heptahelical membrane proteinSolid-state NMR as a method to reveal structure and membrane-interaction of amyloidogenic proteins and peptides.A Guide to Design Functional Molecular Liquids with Tailorable Properties using Pyrene-Fluorescence as a Probe.Site-specific solid-state NMR detection of hydrogen-deuterium exchange reveals conformational changes in a 7-helical transmembrane protein.Structure and orientation of bovine lactoferrampin in the mimetic bacterial membrane as revealed by solid-state NMR and molecular dynamics simulation.Solid-State Nuclear Magnetic Resonance Structural Study of the Retinal-Binding Pocket in Sodium Ion Pump Rhodopsin.Structure and orientation of antibiotic peptide alamethicin in phospholipid bilayers as revealed by chemical shift oscillation analysis of solid state nuclear magnetic resonance and molecular dynamics simulation.Characterization of photo-intermediates in the photo-reaction pathways of a bacteriorhodopsin Y185F mutant using in situ photo-irradiation solid-state NMR spectroscopy.Enantioselective photochromism of diarylethenes in human serum albumin.Grafting of paired 3-aminopropyltrialkoxy silanes onto mesoporous silica and adsorptions of isomers of benzenedialdehydes.Interaction of extracellular loop II of κ-opioid receptor (196-228) with opioid peptide dynorphin in membrane environments as revealed by solid state nuclear magnetic resonance, quartz crystal microbalance and molecular dynamics simulation.Drastic sensitivity enhancement in 29Si MAS NMR of zeolites and mesoporous silica materials by paramagnetic doping of Cu2+.Dynamics change of phoborhodopsin and transducer by activation: study using D75N mutant of the receptor by site-directed solid-state 13C NMR.Characterization of the spherical intermediates and fibril formation of hCT in HEPES solution using solid-state 13C-NMR and transmission electron microscopy.Dynamic Structure and Orientation of Melittin Bound to Acidic Lipid Bilayers, As Revealed by Solid-State NMR and Molecular Dynamics Simulation.Color-discriminating retinal configurations of sensory rhodopsin I by photo-irradiation solid-state NMR spectroscopy.Dynamic aspects of extracellular loop region as a proton release pathway of bacteriorhodopsin studied by relaxation time measurements by solid state NMR.Solid-state NMR studies of two backbone conformations at Tyr185 as a function of retinal configurations in the dark, light, and pressure adapted bacteriorhodopsins.Pressure-induced isomerization of retinal on bacteriorhodopsin as disclosed by fast magic angle spinning NMR.Participation of the surface structure of Pharaonis phoborhodopsin, ppR and its A149S and A149V mutants, consisting of the C-terminal alpha-helix and E-F loop, in the complex-formation with the cognate transducer pHtrII, as revealed by site-directedMagnetically Alignable Bicelles with Unprecedented Stability Using Tunable Surfactants Derived from Cholic Acid.Presence of N-L-lactyl-D-perosamine residue in the sheath-forming polysaccharide of Thiothrix fructosivorans.Mechanism for microwave heating of 1-(4'-cyanophenyl)-4-propylcyclohexane characterized by in situ microwave irradiation NMR spectroscopy.The microwave heating mechanism of N-(4-methoxybenzyliden)-4-butylaniline in liquid crystalline and isotropic phases as determined using in situ microwave irradiation NMR spectroscopy.Retinal Configuration of ppR Intermediates Revealed by Photoirradiation Solid-State NMR and DFTConformation of a Seven-Helical Transmembrane Photosensor in the Lipid EnvironmentCorrection to “High Thermal Stability of Oligomeric Assemblies of Thermophilic Rhodopsin in a Lipid Environment”Long-distance perturbation on Schiff base–counterion interactions by His30 and the extracellular Na+-binding site in Krokinobacter rhodopsin 2Structure Determination of Membrane Peptides and Proteins by Solid-State NMRPolysilsesquioxanes with mixed self-assembled organic tethers: Alkyl chains and alkanoate–aminopropyl pairsRecent Solid-State NMR Studies of Membrane-Bound Peptides and ProteinsPhotoreaction pathways and photointermediates of retinal-binding photoreceptor proteins as revealed by in situ photoirradiation solid-state NMR spectroscopySoft chromophore featured liquid porphyrins and their utilization toward liquid electret applicationsFibrillation mechanism of glucagon in the presence of phospholipid bilayers as revealed by 13C solid-state NMR spectroscopySolid-state NMR characterization of triacylglycerol and polysaccharides in coffee beansRheological and Ionic Transport Properties of Nanocomposite Electrolytes Based on Protic Ionic Liquids and Silica NanoparticlesSolid-state vibrational circular dichroism studies of L- and D-serineSelf-assembly of tripeptides into γ-turn nanostructuresSolid-state vibrational circular dichroism studies on the conformation of an amino acid molecule in crystalline state
P50
Q27685471-E18AA9A9-33D6-41AC-9308-3A34F410E7F0Q33285719-EBBA509A-C9E9-4CA4-81D9-8EFBEE193636Q33794400-505A7856-CBC9-4C8C-9195-BA41315D542EQ33977779-CEBF4F13-9A5D-4730-85A1-65C164398596Q36330250-0E0A246D-9970-43E7-9CD1-027F597BCFABQ39045319-8948BB75-B8A4-48A0-BC41-EDBA0DC72194Q40654060-A8535216-ABED-43CE-9E97-732D555561A6Q40743194-95750DFB-62FC-478C-8BCC-702096727E3EQ43818619-63F3C71E-96E4-4DE2-BA4B-C045D28ED856Q43852158-BD8C951F-3364-41E1-8FF7-888870CCAF6AQ44346109-74885176-3042-400B-B41B-2B2EBC1DC598Q45783009-46D4DAE1-DB49-47F1-8A88-A874D6EA5733Q46684756-AE83ED9B-390E-4A3F-B337-1843853AD9A5Q47833634-6B5083DF-4343-469C-820D-E96FA60B2F21Q48273213-158F6B78-14E8-44D8-A783-4D52719F95F1Q50426905-3EA2EB3C-6C47-4B42-A9A9-D17813396EB9Q50857079-CDEE8DF5-DA78-49C2-8805-5EA8F0CC45FDQ51077070-2C87D4C6-A60F-4741-8B41-481F47003711Q51110589-72AC52D3-A769-4063-93DD-FAD3B2603B74Q51116300-7C81EA4D-75F8-4AC1-9006-B3D0FCE894C0Q51187915-A39E91B3-FA5B-4BB1-89D1-58BD9AE0A7C0Q51687380-4DF8D57B-4F4B-48D7-9FD5-BEBF1236EFCCQ53291663-C82B8633-40A3-45CD-97D6-2D525AD9F5F4Q53296609-E3F679C5-F1C4-42DD-8C13-F408B84BCF1DQ57094899-61142BEA-19EA-481B-8C9D-A69949D48C90Q57665894-FE557942-EA81-48BA-8614-C03604DF2047Q58005935-5AA323D0-DC20-4605-B823-9CA75BBEAFD2Q58005949-35408133-EE48-4378-A562-90FA30E7F879Q58005956-7C9A8738-7E83-47E8-93EE-A316AF6B4F75Q58005974-50966062-7A19-4425-AFA1-55B5C402816CQ58005986-6759A2D9-856D-4CC2-AFC9-88F6954B9C3FQ64093738-DB13F6CE-6B18-46DC-9996-8A0A1E8D92A0Q90389960-5DA0FA26-88DC-4668-81FB-FD87E71C859FQ91251087-2BEE8EBD-1E58-43BB-B0AA-A6298A8820E7Q91270679-082C64C2-E452-480B-88D9-E6FBCE831E71Q91750922-D91DBB85-EC33-4887-BC18-A5E1EF6CDA15Q92463090-D5BF94D0-30EB-4032-B86B-8959E09434FFQ92989645-7576B852-E789-4B11-A19E-32A6F62BDE92Q94549576-0EDCEA9A-E53B-4E81-9079-3E5C5F61456A
P50
description
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Izuru Kawamura
@ast
Izuru Kawamura
@en
Izuru Kawamura
@es
Izuru Kawamura
@nl
Izuru Kawamura
@sl
type
label
Izuru Kawamura
@ast
Izuru Kawamura
@en
Izuru Kawamura
@es
Izuru Kawamura
@nl
Izuru Kawamura
@sl
prefLabel
Izuru Kawamura
@ast
Izuru Kawamura
@en
Izuru Kawamura
@es
Izuru Kawamura
@nl
Izuru Kawamura
@sl
P1053
M-4585-2014
P106
P1153
13205332800
P31
P3829
P496
0000-0002-8163-9695