about
Direct assessment of substrate binding to the Neurotransmitter:Sodium Symporter LeuT by solid state NMRMolecular structure of large-scale extracted β-glucan from barley and oat: Identification of a significantly changed block structure in a high β-glucan barley mutant.Hydration properties and phosphorous speciation in native, gelatinized and enzymatically modified potato starch analyzed by solid-state MAS NMR.Influence of lipid type on water and fat mobility in fermented sausages studied by low-field NMR.Hydration properties of regioselectively etherified celluloses monitored by 2H and 13C solid-state MAS NMR spectroscopy.Zn(II) and Hg(II) binding to a designed peptide that accommodates different coordination geometries.1H NMR spectra dataset and solid-state NMR data of cowpea (Vigna unguiculata)Structure and hydration of the amylopectin trisaccharide building blocks--Synthesis, NMR, and molecular dynamics.Starch phosphorylation--maltosidic restrains upon 3'- and 6'-phosphorylation investigated by chemical synthesis, molecular dynamics and NMR spectroscopy.Exploring abiotic stress on asynchronous protein metabolism in single kernels of wheat studied by NMR spectroscopy and chemometrics.A combined nuclear magnetic resonance and molecular dynamics study of the two structural motifs for mixed-linkage beta-glucans: methyl beta-cellobioside and methyl beta-laminarabioside.Phosphate esters in amylopectin clusters of potato tuber starch.Residue specific hydration of primary cell wall potato pectin identified by solid-state 13C single-pulse MAS and CP/MAS NMR spectroscopy.High throughput prediction of chylomicron triglycerides in human plasma by nuclear magnetic resonance and chemometricsGenotype evaluation of cowpea seeds (Vigna unguiculata) using 1H qNMR combined with exploratory tools and solid-state NMR.Intrinsically disordered cytoplasmic domains of two cytokine receptors mediate conserved interactions with membranes.Influence of variation in molar ratio on co-amorphous drug-amino acid systems.Elucidating the Molecular Interactions Occurring during Drug Precipitation of Weak Bases from Lipid-Based Formulations: A Case Study with Cinnarizine and a Long Chain Self-Nanoemulsifying Drug Delivery System.Effect of enzymatic treatment of different starch sources on the in vitro rate and extent of starch digestion.Formation Mechanism of Coamorphous Drug-Amino Acid Mixtures.Insight into the Functionality of Microbial Exopolysaccharides by NMR Spectroscopy and Molecular Modeling.Structural basis for the transformation pathways of the sodium naproxen anhydrate-hydrate system.Exploring the solid-form landscape of pharmaceutical hydrates: transformation pathways of the sodium naproxen anhydrate-hydrate system.Direct quantification of M/G ratio from (13)C CP-MAS NMR spectra of alginate powders by multivariate curve resolution.Billion-fold enhancement in sensitivity of nuclear magnetic resonance spectroscopy for magnesium ions in solution.Quantitative analysis of NMR spectra with chemometrics.Structure and biochemical function of a prototypical Arabidopsis U-box domain.Competitive displacement of sodium caseinate by low-molecular-weight emulsifiers and the effects on emulsion texture and rheology.Levanase from Bacillus subtilis hydrolyses β-2,6 fructosyl bonds in bacterial levans and in grass fructans.Specificity of the Metalloregulator CueR for Monovalent Metal Ions: Possible Functional Role of a Coordinated Thiol?Butyrylation of Maize and Potato Starches and Characterization of the Products by Nuclear Magnetic Resonance and In Vitro Fermentation.Direct observation of Mg complexes in ionic liquid solutions by Mg β-NMR spectroscopyQCPMG-MAS NMR of half-integer quadrupolar nucleiInsight into Nanoscale Network of Spray-Dried Polymeric Particles: Role of Polymer Molecular ConformationMechanical characteristics of alkyd binder reinforced by surface modified colloidal nano silicaDynamic ultra-high pressure homogenisation of whey protein-depleted milk concentrateDynamic ultra-high pressure homogenisation of milk casein concentrates: Influence of casein contentThe Arabidopsis ADP-ribosylation factor (ARF) and ARF-like (ARL) system and its regulation by BIG2, a large ARF–GEFStabilization of semi-solid-state starch by branching enzyme-assisted chain-transfer catalysis at extreme substrate concentrationStarch Granule Hydration—A MAS NMR Investigation
P50
Q28818343-58491C2D-4F78-4134-A50A-59C205FA6CDFQ30570975-854B6E1D-C280-4B75-B5D6-16BF3B585AF7Q30659013-98E2B1F6-2FCF-4BEF-90BA-740965DF172DQ30667493-221B854F-0B6A-47C4-A734-E57AFBD52B04Q30805514-177A0231-C29A-44BA-804A-5411CF30EAD0Q30964852-2D7123B8-5FCC-4F5D-8763-ED8F81F90B50Q31164700-78ED2C90-CC04-4D93-82B3-7E32251E384EQ31172503-72CF7F5D-6525-4356-8896-F3F8AE05D712Q33382804-8C52207D-34A4-485C-B5D1-B0BCDF330CADQ33408686-06A29B29-33DA-4D75-89F4-8B9859518C55Q33524629-71AAD9E3-5BAE-48E3-B91C-FA53A4B09986Q33824707-AFCCD84C-9DB9-44E5-86CA-8786208B9A16Q33861925-742BF7C3-42FE-4296-8CD6-B7A14C7190ECQ33914973-399F15D5-C8E6-41C5-8CE0-A090B64783C5Q38871440-6D4621A2-4281-4195-9352-E6CF8E533BA7Q38890517-589672E0-B2B9-447C-AA4E-4D3A067A2347Q39638481-70CBB618-66FA-4AC4-8F34-56378A64DD91Q40515570-61AC7941-32DC-4934-B846-F8278D531FFBQ40772478-D592413C-873C-48A9-9E59-02BE061B5774Q40854029-77D66BF7-FA16-43A6-BD4B-85C885A58341Q42644157-C2E9D50B-875C-43CF-930B-054AFA317E92Q42914903-09F5ACA7-F7BD-47CD-942E-C6B32EA6EEE1Q43759362-DC5AF5D5-EB51-4F86-9340-77CA58983897Q45924781-7049B607-56AE-4819-AFD6-2D617A2E7107Q46827105-F234BB08-7B1D-413A-AECF-0571CF2D3F8DQ46888994-1557C5AA-F9B6-47D6-A67D-294F319FC921Q47253626-7356524A-CE7E-4D5B-A16D-486B6B0FEF22Q47449114-BC2F7313-EA3A-4CD4-9890-BFD5B43BB3DAQ54252931-BF60DC2B-EECD-4DC9-AC83-98CF2D123F2AQ54256661-1095043E-84E0-4498-BB64-05CC4D177FBDQ54990222-C0CFCE2B-43E5-4113-A3F9-850DFAE4BD23Q57035869-08C268D7-8D0A-4F9F-A975-C0256ACC2A74Q57103158-5DDB75DE-B2E7-4FBF-90AF-556B94FD8D15Q57800384-A02ABC77-CCA0-4A8D-A26A-ACAFA678B163Q59100936-7D88B1F6-66BB-44C9-A8BA-7BECECD3A4EBQ59100945-18AEBF0C-A665-47C3-88D8-E43FC6DB6EECQ59100958-D5F94259-3BB9-4128-BF35-6B74BE809077Q59259731-571DEC37-D1C0-4F4C-8BD2-7D39F9B29739Q59462097-23E05DD8-5EAE-46DA-B314-260D4D5C653DQ59462134-E4975E9B-C1E4-4E95-B2C9-6624CBBFD843
P50
description
hulumtues
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Flemming Hofmann Larsen
@ast
Flemming Hofmann Larsen
@en
Flemming Hofmann Larsen
@es
Flemming Hofmann Larsen
@nl
Flemming Hofmann Larsen
@pt
Flemming Hofmann Larsen
@pt-br
Flemming Hofmann Larsen
@sl
type
label
Flemming Hofmann Larsen
@ast
Flemming Hofmann Larsen
@en
Flemming Hofmann Larsen
@es
Flemming Hofmann Larsen
@nl
Flemming Hofmann Larsen
@pt
Flemming Hofmann Larsen
@pt-br
Flemming Hofmann Larsen
@sl
prefLabel
Flemming Hofmann Larsen
@ast
Flemming Hofmann Larsen
@en
Flemming Hofmann Larsen
@es
Flemming Hofmann Larsen
@nl
Flemming Hofmann Larsen
@pt
Flemming Hofmann Larsen
@pt-br
Flemming Hofmann Larsen
@sl
P108
P1053
A-5255-2015
P106
P108
P1153
8539806600
P21
P31
P3829
P496
0000-0001-5180-6870