The segregation of cellular surfaces in heterogeneous patches is considered to be a common motif in bacteria and eukaryotes that is underpinned by the observation of clustering and cooperative gating of signaling membrane proteins such as receptors or channels. Such processes could represent an important cellular strategy to shape signaling activity. Hence, structural knowledge of the arrangement of channels or receptors in supramolecular assemblies represents a crucial step towards a better understanding of signaling across membranes. We herein report on the supramolecular organization of clusters of the K+ channel KcsA in bacterial membranes, which was analyzed by a combination of DNP-enhanced solid-state NMR experiments and MD simulation...
We have investigated specific lipid binding to the pore domain of potassium channels KcsA and chimer...
Artículo de publicación ISIThere is increasing evidence to support the notion that membrane protein...
Mechanosensitive channels allow bacteria to respond to osmotic stress by opening a nanometer-sized p...
The segregation of cellular surfaces in heterogeneous patches is considered to be a common motif in ...
© 2017 The Authors. Published by Wiley-VCH Verlag GmbH & Co. KGaA. The segregation of cellular surfa...
Voltage-gated ion channels are large tetrameric multidomain membrane proteins that play crucial role...
Different patterns of channel activity have been detected by patch clamping excised membrane patches...
Ion conduction across the cellular membrane requires the simultaneous opening of activation and inac...
The KcsA potassium channel is a prototypical channel of bacterial origin, and the mechanism underlyi...
Potassium (i.e., K+) channels allow for the controlled and selective passage of potassium ions acros...
Solid-state Nuclear Magnetic Resonance (ssNMR) has made remarkable progress in the structural charac...
KcsA, a prokaryote tetrameric potassium channel, was the first ion channel ever to be structurally s...
AbstractKcsA is a homotetrameric 68-kDa membrane-associated potassium channel which selectively gate...
Membranes border cells from their environment. Thus, they belong to the basic prerequisites for life...
Potassium (i.e., K+) channels allow for the controlled and selective passage of potassium ions acros...
We have investigated specific lipid binding to the pore domain of potassium channels KcsA and chimer...
Artículo de publicación ISIThere is increasing evidence to support the notion that membrane protein...
Mechanosensitive channels allow bacteria to respond to osmotic stress by opening a nanometer-sized p...
The segregation of cellular surfaces in heterogeneous patches is considered to be a common motif in ...
© 2017 The Authors. Published by Wiley-VCH Verlag GmbH & Co. KGaA. The segregation of cellular surfa...
Voltage-gated ion channels are large tetrameric multidomain membrane proteins that play crucial role...
Different patterns of channel activity have been detected by patch clamping excised membrane patches...
Ion conduction across the cellular membrane requires the simultaneous opening of activation and inac...
The KcsA potassium channel is a prototypical channel of bacterial origin, and the mechanism underlyi...
Potassium (i.e., K+) channels allow for the controlled and selective passage of potassium ions acros...
Solid-state Nuclear Magnetic Resonance (ssNMR) has made remarkable progress in the structural charac...
KcsA, a prokaryote tetrameric potassium channel, was the first ion channel ever to be structurally s...
AbstractKcsA is a homotetrameric 68-kDa membrane-associated potassium channel which selectively gate...
Membranes border cells from their environment. Thus, they belong to the basic prerequisites for life...
Potassium (i.e., K+) channels allow for the controlled and selective passage of potassium ions acros...
We have investigated specific lipid binding to the pore domain of potassium channels KcsA and chimer...
Artículo de publicación ISIThere is increasing evidence to support the notion that membrane protein...
Mechanosensitive channels allow bacteria to respond to osmotic stress by opening a nanometer-sized p...
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