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Julia Gunzenhäuser
Julia Gunzenhäuser
PhD student, EPFL
Verified email at epfl.ch
Title
Cited by
Cited by
Year
Quantitative super-resolution imaging reveals protein stoichiometry and nanoscale morphology of assembling HIV-Gag virions
J Gunzenhäuser, N Olivier, T Pengo, S Manley
Nano letters 12 (9), 4705-4710, 2012
792012
Multicolor Single Molecule Tracking of Stochastically Active Synthetic Dyes
A Benke, N Olivier, J Gunzenhäuser, S Manley
Nano letters 12 (5), 2619-2624, 2012
592012
Subunit composition of an energy-coupling-factor-type biotin transporter analysed in living bacteria
F Finkenwirth, O Neubauer, J Gunzenhauser, J Schoknecht, S Scolari, ...
Biochem. J 431, 373-380, 2010
492010
A starter kit for point-localization super-resolution imaging
S Manley, J Gunzenhäuser, N Olivier
Current opinion in chemical biology 15 (6), 813-821, 2011
222011
A quantitative approach to evaluate the impact of fluorescent labeling on membrane-bound HIV-Gag assembly by titration of unlabeled proteins
J Gunzenhäuser, R Wyss, S Manley
PLoS One 9 (12), e115095, 2014
92014
Single particle maximum likelihood reconstruction from superresolution microscopy images
T Verdier, J Gunzenhauser, S Manley, M Castelnovo
PloS one 12 (3), e0172943, 2017
42017
Revealing the Impact of Fluorescent Labeling on HIV-Gag Virus-Like Particle Formation by Quantitative Super-Resolution Imaging and Fluorescence Correlation Spectroscopy
J Gunzenhäuser, N Olivier, T Pengo, R Wyss, C Benadiba, S Manley
Biophysical Journal 104 (2), 416a, 2013
2013
Quantitative Super-Resolution Imaging of the Assembly of HIV-Gag Proteins into Virions
J Gunzenhäuser
EPFL, 2013
2013
LEB
B Nejma, A Sheda Benke, N Berliner, A Callegari, L Carlini, C Cottiny, ...
Sciper ID 166106 Affiliated labs LEB
J Gunzenhaeuser
QUANTITATIVE ANALYSIS OF HIV-1 GAG CLUSTERS AND THE IMPACT OF FLUORESCENTLY LABELLED GAG
J Gunzenhäuser, S Manley
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Articles 1–11