about
Probing the mechanisms of ambient ionization by laser-induced fluorescence spectroscopy.Direct access to isolated biomolecules under ambient conditions.Rhodamines in the gas phase: cations, neutrals, anions, and adducts with metal cations.Compelling advantages of negative ion mode detection in high-mass MALDI-MS for homomeric protein complexes.Ion mobility spectrometry coupled to laser-induced fluorescence.Mass spectrometry research at the Laboratory for Organic Chemistry, ETH Zurich.Determination of thermodynamic and kinetic properties of biomolecules by mass spectrometry.DNA oligonucleotides: a model system with tunable binding strength to study monomer-dimer equilibria with electrospray ionization-mass spectrometry.Spontaneous non-canonical assembly of CcmK hexameric components from β-carboxysome shells of cyanobacteriaOn the preservation of non-covalent protein complexes during electrospray ionizationOptical properties of protonated Rhodamine 19 isomers in solution and in the gas phase.Fragmentation of benzylpyridinium "thermometer" ions and its effect on the accuracy of internal energy calibration.Charge-State-Dependent Variation of Signal Intensity Ratio between Unbound Protein and Protein-Ligand Complex in Electrospray Ionization Mass Spectrometry: The Role of Solvent-Accessible Surface Area.The production of recombinant (15)N, (13)C-labelled somatostatin 14 for NMR spectroscopy.Aryl Bis-Sulfonamide Inhibitors of IspF fromArabidopsis thalianaandPlasmodium falciparumWhat Happens to Hydrophobic Interactions during Transfer from the Solution to the Gas Phase? The Case of Electrospray-Based Soft Ionization MethodsAbsorption of the green fluorescent protein chromophore anion in the gas phase studied by a combination of FTICR mass spectrometry with laser-induced photodissociation spectroscopyDirect monitoring of protein–protein inhibition using nano electrospray ionization mass spectrometryGas-phase basicity of several common MALDI matrices measured by a simple experimental approachQuantifying protein-protein interactions within noncovalent complexes using electrospray ionization mass spectrometryDynamic Assembly and Disassembly of Functional β-Endorphin Amyloid FibrilsFluorescence resonance energy transfer of gas-phase ions under ultra high vacuum and ambient conditionsNative Electrospray Ionization Mass Spectrometry Reveals Multiple Facets of Aptamer-Ligand Interactions: From Mechanism to Binding ConstantsAryl bis-sulfonamides bind to the active site of a homotrimeric isoprenoid biosynthesis enzyme IspF and extract the essential divalent metal cation cofactor
P50
Q33454646-A5DAA59A-66A7-49B7-860A-348602D15A27Q33526787-CFCDFD2B-B639-40EA-9B9A-6300CED7B532Q33653279-46DA0C81-2C32-4FDC-850D-DDAC0A328C8DQ34087382-CC8FB117-3075-485C-B517-19F13C1F6400Q34496688-82C0C168-0DF5-44DB-9317-2C8872726FE2Q35163900-C3D76002-E1DC-440E-BCB7-48E197B3E1C9Q38244856-46365334-52AB-4323-80F8-0BBE7D6035D1Q38310924-2ABF2505-1E69-491F-BF0C-17FCC420B7DFQ42241990-6E909023-5B43-4A3F-A94C-6921CB7BC688Q42533972-90EA0D0C-8728-4207-9BED-6E4CB8798A20Q42872112-AD95E4AD-3A63-4116-99EB-7F97F0BB5424Q43251283-07668D9E-6E55-4FBF-AF81-F84179345E7AQ52322270-5384D071-D88C-427D-8CD3-91FF61706242Q53059412-434BE449-5607-437B-8B54-85B970A518DDQ57010544-A0275181-C9BD-4C70-ABA5-804721203C9BQ57255941-F35C7376-9696-47F8-ACF1-0A95F75CDA4BQ57255946-8E19F0F9-FF5D-45E6-8FF0-4786DFA8AD37Q57825638-DFA83E68-5A61-4D31-BD42-9C005B12F0A1Q62122692-42E512F3-3E2A-4183-A56E-FDEB24A12745Q82309378-22CD936A-5A59-4826-AED6-095A73E1DA63Q86964140-163C969A-62B5-48FF-887C-D0DA916E8652Q87583117-9E475E0E-D75E-4AA2-BCDB-09CA09FD0A3BQ88589463-88B8EA72-CC87-4CCC-A5C8-ECD787CF7595Q90764582-5FD5B314-E3A7-4DDE-A87C-710A960463C0
P50
description
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Konstantin Barylyuk
@ast
Konstantin Barylyuk
@en
Konstantin Barylyuk
@es
Konstantin Barylyuk
@nl
type
label
Konstantin Barylyuk
@ast
Konstantin Barylyuk
@en
Konstantin Barylyuk
@es
Konstantin Barylyuk
@nl
prefLabel
Konstantin Barylyuk
@ast
Konstantin Barylyuk
@en
Konstantin Barylyuk
@es
Konstantin Barylyuk
@nl
P108
P106
P1153
35721579900
57201895910
P31
P496
0000-0002-3580-0345