about
The solution structure of the homeodomain of the rat insulin-gene enhancer protein isl-1. Comparison with other homeodomainsNanoparticle size and surface properties determine the protein corona with possible implications for biological impactsProtein adsorption onto silica nanoparticles: conformational changes depend on the particles' curvature and the protein stability.High-resolution 2D 1H-15N NMR characterization of persistent structural alterations of proteins induced by interactions with silica nanoparticles.Transient interaction with nanoparticles "freezes" a protein in an ensemble of metastable near-native conformations.Proteolytic cleavage reveals interaction patterns between silica nanoparticles and two variants of human carbonic anhydrase.Modeling the time evolution of the nanoparticle-protein corona in a body fluid.Direct deposition of gas phase generated aerosol gold nanoparticles into biological fluids--corona formation and particle size shifts.The nanoparticle protein corona formed in human blood or human blood fractions.Biophysical characterization of the unstructured cytoplasmic domain of the human neuronal adhesion protein neuroligin 3.Secondary structure in de novo designed peptides induced by electrostatic interaction with a lipid bilayer membrane.The ALS-associated mutation G93A in human copper-zinc superoxide dismutase selectively destabilizes the remote metal binding region.Nanoparticles: Tracking protein corona over time.Unfolding a folding disease: folding, misfolding and aggregation of the marble brain syndrome-associated mutant H107Y of human carbonic anhydrase II.Fundamental design principles that guide induction of helix upon formation of stable peptide-nanoparticle complexes.GuHCl and NaCl-dependent hydrogen exchange in MerP reveals a well-defined core with an unusual exchange pattern.Size and surface chemistry of nanoparticles lead to a variant behavior in the unfolding dynamics of human carbonic anhydrase.Structural changes in apolipoproteins bound to nanoparticles.Buffer formulation affects the interaction between lysozyme and polymeric nanoparticles.Mathematical modeling of the protein corona: implications for nanoparticulate delivery systems.The Evolution of the Protein Corona around Nanoparticles: A Test StudyThe nanoparticle–protein complex as a biological entity; a complex fluids and surface science challenge for the 21st centuryDelivery success rate of engineered nanoparticles in the presence of the protein corona: a systems-level screeningKinetic and thermodynamic study of the interactions between human carbonic anhydrase variants and polystyrene nanoparticles of different sizeA Stimulating Chemistry Program for Compulsory School Students: Four Hands-On Experiments Investigating ProteinsInduction of Structure and Function in a Designed Peptide upon Adsorption on a Silica Nanoparticle1H, 13C and 15N assignment of the Isl-1 homeodomainAmyloid-β oligomers are captured by the DNAJB6 chaperone: Direct detection of interactions that can prevent primary nucleation
P50
Q27618203-C81E9C39-9152-447B-8DB6-D75A32E47485Q28651929-F79B257E-8B10-4978-B040-38EA0E660459Q30344256-39BB2FBF-A465-4835-A55F-77564A421B07Q30350868-1967EAE3-311D-4891-B3EC-E86BB69C8077Q30351098-86EFB2E1-5822-4412-890B-1FBD54194539Q30351985-539CFF34-5BA7-48A3-9251-17731F1CC2F5Q33598483-775FDB15-09EA-4006-9317-6E243F090C91Q35005100-4707B3F1-AADD-492B-BEF2-DF343A4DA961Q36348516-32576CAB-9C30-4BC5-A0EF-65BDD95C78E7Q40896817-ECD1F6BB-3CE2-404B-9E19-B733A66D3D67Q43115922-2284012D-5CAE-48F3-BD67-4BC71608CDB0Q43298392-62D380EB-B9DE-421D-8B69-A83C4F2AA8E0Q44584214-E798674F-41BD-4E90-A66E-3FD92BC56F4FQ45029380-7038AB02-80A6-43ED-B6D5-BB6462F631CFQ46550422-DD990C6B-ED07-445B-B94F-8214A484101AQ46953775-6B59A37D-C012-4ACA-9019-BAAC99824BAAQ47355942-6265540C-B099-40F7-9EBE-F0340F97B0B3Q50269835-1506A970-660D-43A2-8490-EB202C1635AFQ50633854-A94580ED-1F1A-43E0-BBFC-58F4641A817BQ51071644-994876CC-5646-4F11-ABFE-491183887C0BQ55167439-BEF0B28D-7312-4046-A9AA-F3117EB02C24Q55167511-9EB04F1B-2DC2-42CB-BCE5-F25E1C824994Q57904134-B613776C-95FC-40E7-A5BA-300E72DFDD13Q58023916-ED65BBFA-36D5-4575-861C-6E52899741DCQ58023920-35882FD2-899E-4606-8FF4-E5BD078F6023Q58023933-1EDFB05C-9B06-40E0-8727-6028EB340439Q58023935-63437E0C-A998-4293-B2F9-202F95629811Q94461373-16B20A62-99A3-40AF-BF7D-AA1E6123EEF2
P50
description
hulumtues
@sq
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Martin Lundqvist
@ast
Martin Lundqvist
@en
Martin Lundqvist
@es
Martin Lundqvist
@nl
Martin Lundqvist
@sl
type
label
Martin Lundqvist
@ast
Martin Lundqvist
@en
Martin Lundqvist
@es
Martin Lundqvist
@nl
Martin Lundqvist
@sl
prefLabel
Martin Lundqvist
@ast
Martin Lundqvist
@en
Martin Lundqvist
@es
Martin Lundqvist
@nl
Martin Lundqvist
@sl
P108
P106
P21
P31
P496
0000-0003-1175-9103