about
Raman Spectroscopic Signature Markers of Dopamine-Human Dopamine Transporter Interaction in Living Cells.Manipulating motions of targeted single cells in solution by an integrated double-ring magnetic tweezers imaging microscope.Revealing Multiple Pathways in T4 Lysozyme Substep Conformational Motions by Single-Molecule Enzymology and Modeling.Exploration of Multistate Conformational Dynamics upon Ligand Binding of a Monomeric Enzyme Involved in Pyrophosphoryl Transfer.Probing single-molecule electron-hole transfer dynamics at a molecule-NiO semiconductor nanocrystalline interface.Revealing dynamically-organized receptor ion channel clusters in live cells by a correlated electric recording and super-resolution single-molecule imaging approach.Ratiometric Near-Infrared Fluorescent Probes Based On Through-Bond Energy Transfer and π-Conjugation Modulation between Tetraphenylethene and Hemicyanine Moieties for Sensitive Detection of pH Changes in Live Cells.Mode-Selective Raman Imaging of Dopamine-Human Dopamine Transporter Interaction in Live CellsRaman Spectroscopic Analysis of Signaling Molecules–Dopamine Receptors Interactions in Living CellsRevealing Abrupt and Spontaneous Ruptures of Protein Native Structure under picoNewton Compressive Force ManipulationProbing Activated and Non-Activated Single Calmodulin Molecules under a Piconewton Compressive ForceSingle-Molecule Spectroscopy Study of Crowding-Induced Protein Spontaneous Denature and Crowding-Perturbed Unfolding-Folding Conformational Fluctuation DynamicsCompressive-force induced activation of apo-calmodulin in protein signallingSpontaneous Rupture and Entanglement of Human Neuronal Tau Protein Induced by Piconewton Compressive ForceOscillating Piconewton Force Manipulation on Single-Molecule Enzymatic Conformational and Reaction Dynamics
P50
Q38735246-9ED66A3C-54F5-4016-95AE-05447002EE38Q47856152-A13AC2F7-0CF6-4108-88ED-DA55198480DAQ48063308-E99F3764-53B2-4C9A-899C-F65D58BC6B8CQ48132841-698A7879-5C41-4E4F-93CC-1748859C2CC3Q50198302-6753B54D-6B4A-493C-AC11-8E37AD3441F0Q50531872-54F91446-1CEF-4F92-A1A5-3E29A2D859E9Q52680061-0EDDAF12-AC0C-4964-97AF-ABF52CEB1E96Q57135820-7111287A-7F70-4E78-8B9B-25154CA1362AQ59802699-B098777D-5703-42E9-AFE1-39CC4B3CAC51Q87829698-DA3E619A-2857-4F6B-BA5F-02A0BC81F68DQ87999446-6A82665D-9CF9-4486-807E-7D18AB4ED9CEQ88931918-C4431F9C-7E36-4904-9FDD-284C6269B0E7Q92366206-311ED16C-D69C-49A8-8170-1DF4E9A2F74EQ92687835-96C7D3E3-4CEF-44DE-A6BA-FF5F3445C864Q93338360-AFE752CC-51EB-4A93-AAEE-95AD45E99F51
P50
description
researcher ORCID ID = 0000-0003-2027-428X
@en
wetenschapper
@nl
name
H Peter Lu
@ast
H Peter Lu
@en
H Peter Lu
@nl
type
label
H Peter Lu
@ast
H Peter Lu
@en
H Peter Lu
@nl
prefLabel
H Peter Lu
@ast
H Peter Lu
@en
H Peter Lu
@nl
P31
P496
0000-0003-2027-428X