Ildiko Szabo
TitleCited byYear
The mitochondrial permeability transition
M Zoratti, I Szab˛
Biochimica et Biophysica Acta (BBA)-Reviews on Biomembranes 1241 (2), 139-176, 1995
A forty-kilodalton protein of the inner membrane is the mitochondrial calcium uniporter
D De Stefani, A Raffaello, E Teardo, I Szab˛, R Rizzuto
Nature 476 (7360), 336, 2011
Dimers of mitochondrial ATP synthase form the permeability transition pore
V Giorgio, S Von Stockum, M Antoniel, A Fabbro, F Fogolari, M Forte, ...
Proceedings of the National Academy of Sciences 110 (15), 5887-5892, 2013
Modulation of the mitochondrial permeability transition pore. Effect of protons and divalent cations.
P Bernardi, S Vassanelli, P Veronese, R Colonna, I Szabo, M Zoratti
Journal of Biological Chemistry 267 (5), 2934-2939, 1992
The giant channel of the inner mitochondrial membrane is inhibited by cyclosporin A.
I Szabˇ, M Zoratti
Journal of Biological Chemistry 266 (6), 3376-3379, 1991
Formation of anion‐selective channels in the cell plasma membrane by the toxin VacA of Helicobacter pylori is required for its biological activity
I Szab˛, S Brutsche, F Tombola, M Moschioni, B Satin, JL Telford, ...
The EMBO journal 18 (20), 5517-5527, 1999
Cell volume in the regulation of cell proliferation and apoptotic cell death
F Lang, M Ritter, N Gamper, S Huber, S Fillon, V Tanneur, ...
Cellular Physiology and Biochemistry 10 (5-6), 417-428, 2000
MICU1 and MICU2 finely tune the mitochondrial Ca2+ uniporter by exerting opposite effects on MCU activity
M Patron, V Checchetto, A Raffaello, E Teardo, DV Reane, M Mantoan, ...
Molecular cell 53 (5), 726-737, 2014
The mitochondrial calcium uniporter is a multimer that can include a dominant‐negative pore‐forming subunit
A Raffaello, D De Stefani, D Sabbadin, E Teardo, G Merli, A Picard, ...
The EMBO journal 32 (17), 2362-2376, 2013
The mitochondrial permeability transition pore may comprise VDAC molecules: II. The electrophysiological properties of VDAC are compatible with those of the mitochondrialá…
I Szabˇ, VD Pinto, M Zoratti
FEBS letters 330 (2), 206-210, 1993
Tyrosine kinase-dependent activation of a chloride channel in CD95-induced apoptosis in T lymphocytes
I Szab˛, A Lepple-Wienhues, KN Kaba, M Zoratti, E Gulbins, F Lang
Proceedings of the National Academy of Sciences 95 (11), 6169-6174, 1998
The mitochondrial megachannel is the permeability transition pore
I Szabˇ, M Zoratti
Journal of bioenergetics and biomembranes 24 (1), 111-117, 1992
Mitochondrial permeability transitions: how many doors to the house?
M Zoratti, I Szab˛, U De Marchi
Biochimica et Biophysica Acta (BBA)-Bioenergetics 1706 (1-2), 40-52, 2005
Tyrosine phosphorylation-dependent suppression of a voltage-gated K+ channel in T lymphocytes upon Fas stimulation
I Szab˛, E Gulbins, H Apfel, X Zhang, P Barth, AE Busch, K Schlottmann, ...
Journal of Biological Chemistry 271 (34), 20465-20469, 1996
Light and oxygenic photosynthesis: energy dissipation as a protection mechanism against photo‐oxidation
I Szabˇ, E Bergantino, GM Giacometti
EMBO reports 6 (7), 629-634, 2005
Modulation of the mitochondrial megachannel by divalent cations and protons.
I Szabo, P Bernardi, M Zoratti
Journal of Biological Chemistry 267 (5), 2940-2946, 1992
Potassium channels from NG108‐15 neuroblastoma‐glioma hybrid cells: Primary structure and functional expression from cDNAs
S Yokoyama, K Imoto, T Kawamura, H Higashida, N Iwabe, T Miyata, ...
FEBS letters 259 (1), 37-42, 1989
Gadolinium ion inhibits loss of metabolites induced by osmotic shock and large stretch‐activated channels in bacteria
European journal of biochemistry 206 (2), 559-565, 1992
Ceramide-induced inhibition of T lymphocyte voltage-gated potassium channel is mediated by tyrosine kinases
E Gulbins, I Szabo, K Baltzer, F Lang
Proceedings of the National Academy of Sciences 94 (14), 7661-7666, 1997
The inner mitochondrial membrane contains ion-conducting channels similar to those found in bacteria
V Petronilli, I Szab˛, M Zoratti
FEBS letters 259 (1), 137-143, 1989
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