Ingo Gregor
Ingo Gregor
Verified email at
Cited by
Cited by
Two‐focus fluorescence correlation spectroscopy: A new tool for accurate and absolute diffusion measurements
T Dertinger, V Pacheco, I von der Hocht, R Hartmann, I Gregor, ...
ChemPhysChem 8 (3), 433-443, 2007
Performance of fluorescence correlation spectroscopy for measuring diffusion and concentration
J Enderlein, I Gregor, D Patra, T Dertinger, UB Kaupp
ChemPhysChem 6 (11), 2324-2336, 2005
Art and artefacts of fluorescence correlation spectroscopy
J Enderlein, I Gregor, D Patra, J Fitter
Current pharmaceutical biotechnology 5 (2), 155-161, 2004
Multi-target spectrally resolved fluorescence lifetime imaging microscopy
T Niehörster, A Löschberger, I Gregor, B Krämer, HJ Rahn, M Patting, ...
Nature methods 13 (3), 257-262, 2016
Image analysis of defocused single-molecule images for three-dimensional molecule orientation studies
D Patra, I Gregor, J Enderlein
The Journal of Physical Chemistry A 108 (33), 6836-6841, 2004
Fast calculation of fluorescence correlation data with asynchronous time-correlated single-photon counting
M Wahl, I Gregor, M Patting, J Enderlein
Optics express 11 (26), 3583-3591, 2003
Photoluminescence of carbon nanodots: Dipole emission centers and electron–phonon coupling
S Ghosh, AM Chizhik, N Karedla, MO Dekaliuk, I Gregor, H Schuhmann, ...
Nano letters 14 (10), 5656-5661, 2014
Optical saturation in fluorescence correlation spectroscopy under continuous‐wave and pulsed excitation
I Gregor, D Patra, J Enderlein
ChemPhysChem 6 (1), 164-170, 2005
Metal-induced energy transfer for live cell nanoscopy
AI Chizhik, J Rother, I Gregor, A Janshoff, J Enderlein
Nature Photonics 8 (2), 124-127, 2014
Using fluorescence lifetime for discriminating detector afterpulsing in fluorescence-correlation spectroscopy
J Enderlein, I Gregor
Review of Scientific Instruments 76 (3), 033102, 2005
Super-resolution optical fluctuation bio-imaging with dual-color carbon nanodots
AM Chizhik, S Stein, MO Dekaliuk, C Battle, W Li, A Huss, M Platen, ...
Nano letters 16 (1), 237-242, 2016
Quantifying the diffusion of membrane proteins and peptides in black lipid membranes with 2-focus fluorescence correlation spectroscopy
K Weiß, A Neef, Q Van, S Kramer, I Gregor, J Enderlein
Biophysical journal 105 (2), 455-462, 2013
The rate of change in Ca2+ concentration controls sperm chemotaxis
L Alvarez, L Dai, BM Friedrich, ND Kashikar, I Gregor, R Pascal, ...
Journal of Cell Biology 196 (5), 653-663, 2012
Dead-time optimized time-correlated photon counting instrument with synchronized, independent timing channels
M Wahl, HJ Rahn, I Gregor, R Erdmann, J Enderlein
Review of Scientific Instruments 78 (3), 2007
Prp2-mediated protein rearrangements at the catalytic core of the spliceosome as revealed by dcFCCS
T Ohrt, M Prior, J Dannenberg, P Odenwälder, O Dybkov, N Rasche, ...
Rna 18 (6), 1244-1256, 2012
Rapid nonlinear image scanning microscopy
I Gregor, M Spiecker, R Petrovsky, J Großhans, R Ros, J Enderlein
Nature methods 14 (11), 1087-1089, 2017
Measuring rotational diffusion of macromolecules by fluorescence correlation spectroscopy
A Loman, I Gregor, C Stutz, M Mund, J Enderlein
Photochemical & photobiological sciences 9, 627-636, 2010
Time-resolved methods in biophysics. 3. Fluorescence lifetime correlation spectroscopy
I Gregor, J Enderlein
Photochemical & Photobiological Sciences 6, 13-18, 2007
Defocused imaging of quantum-dot angular distribution of radiation
D Patra, I Gregor, J Enderlein, M Sauer
Applied physics letters 87 (10), 2005
Molecular dissection of step 2 catalysis of yeast pre-mRNA splicing investigated in a purified system
T Ohrt, P Odenwälder, J Dannenberg, M Prior, Z Warkocki, J Schmitzová, ...
Rna 19 (7), 902-915, 2013
The system can't perform the operation now. Try again later.
Articles 1–20