|
ID
|
Author
|
Year
|
Title
|
Publisher
|
| 3975614 |
Heer, Florian T.; Posson, David J.; Wojtas-Niziurski, Wojciech; Nimigean, Crina M.; Bernèche, Simon |
2017 |
Mechanism of activation at the selectivity filter of the KcsA K(+) channel |
eLife |
| 4605291 |
Leisle, Lilia; Xu, Yanyan; Fortea, Eva; Lee, Sangyun; Galpin, Jason D.; Vien, Malvin; Ahern, Christopher A.; Accardi, Alessio; Bernèche, Simon |
2020 |
Divergent Cl; -; and H; +; pathways underlie transport coupling and gating in CLC exchangers and channels |
eLife |
| 551424 |
Lamoureux, G; Javelle, A; Baday, S; Wang, S; Bernèche, S |
2010 |
Transport mechanisms in the ammonium transporter family |
Transfusion clinique et biologique |
| 2229990 |
Roy, Sophie; Boiteux, Celine; Alijevic, Omar; Liang, Chungwen; Berneche, Simon; Kellenberger, Stephan |
2013 |
Molecular determinants of desensitization in an ENaC/degenerin channel |
The FASEB journal |
| 3208098 |
Baday, Sefer; Orabi, Esam A; Wang, Shihao; Lamoureux, Guillaume; Bernèche, Simon |
2015 |
Mechanism of NH4(+) Recruitment and NH3 Transport in Rh Proteins |
Structure: with folding and design |
| 57887 |
Bernèche, Simon; Roux, Benoît |
2005 |
A gate in the selectivity filter of potassium channels |
Structure: with folding and design |
| 749235 |
Boiteux, Céline; Bernèche, Simon |
2011 |
Absence of ion-binding affinity in the putatively inactivated low-[K+] structure of the KcsA potassium channel |
Structure |
| 57884 |
Roux, Benoît; Allen, Toby; Bernèche, Simon; Im, Wonpil |
2004 |
Theoretical and computational models of biological ion channels |
Quarterly Reviews of Biophysics |
| 3775477 |
Vullo, Sabrina; Bonifacio, Gaetano; Roy, Sophie; Johner, Niklaus; Bernèche, Simon; Kellenberger, Stephan |
2017 |
Conformational dynamics and role of the acidic pocket in ASIC pH-dependent gating |
Proceedings of the National Academy of Sciences of the United States of America |
| 57888 |
Zheng, Lei; Kostrewa, Dirk; Bernèche, Simon; Winkler, Fritz K; Li, Xiao-Dan |
2004 |
The mechanism of ammonia transport based on the crystal structure of AmtB of Escherichia coli |
Proceedings of the National Academy of Sciences of the United States of America |
| 2476771 |
Thomson, Andrew S; Heer, Florian T; Smith, Frank J; Hendron, Eunan; Bernèche, Simon; Rothberg, Brad S |
2014 |
Initial steps of inactivation at the K+ channel selectivity filter |
Proceedings of the National Academy of Sciences of the United States of America |
| 57890 |
Bernèche, Simon; Roux, Benoît |
2003 |
A microscopic view of ion conduction through the K+ channel |
Proceedings of the National Academy of Sciences of the United States of America |
| 2250594 |
Demirci, Erhan; Junne, Tina; Baday, Sefer; Bernèche, Simon; Spiess, Martin |
2013 |
Functional asymmetry within the Sec61p translocon |
Proceedings of the National Academy of Sciences of the United States of America |
| 4663253 |
Roy, Sophie; Johner, Niklaus; Trendafilov, Viktor; Gautschi, Ivan; Bignucolo, Olivier; Molton, Ophélie; Bernèche, Simon; Kellenberger, Stephan |
2022 |
Calcium regulates acid-sensing ion channel 3 activation by competing with protons in the channel pore and at an allosteric binding site |
Open biology |
| 3472552 |
Swiss Institute of Bioinformatics Members, SIB |
2016 |
The SIB Swiss Institute of Bioinformatics' resources: focus on curated databases |
Nucleic acids research |
| 1166194 |
Picollo, Alessandra; Xu, Yanyan; Johner, Niklaus; Bernèche, Simon; Accardi, Alessio |
2012 |
Synergistic substrate binding determines the stoichiometry of transport of a prokaryotic H(+)/Cl(-) exchanger |
Nature structural & molecular biology |
| 3449973 |
Sauer, Maximilian M; Jakob, Roman P; Eras, Jonathan; Baday, Sefer; Eriş, Deniz; Navarra, Giulio; Bernèche, Simon; Ernst, Beat; Maier, Timm; Glockshuber, Rudi |
2016 |
Catch-bond mechanism of the bacterial adhesin FimH |
Nature communications |
| 57893 |
Bernèche, S; Roux, B |
2001 |
Energetics of ion conduction through the K+ channel |
Nature |
| 57889 |
Noskov, Sergei Yu; Bernèche, Simon; Roux, Benoît |
2004 |
Control of ion selectivity in potassium channels by electrostatic and dynamic properties of carbonyl ligands |
Nature |
