Add to ORKGA combination of computational methods has been used to evaluate the interaction between the π face of a benzene molecule and the monovalent cations of lithium, sodium, potassium, and rubidium. In the gas phase, the ions are strongly bound, and the affinity for benzene follows the expected electrostatic trend (lithium, largest; rubidium, smallest). However, in an aqueous environment, a reordering occurs such that the potassium ion is preferred over all the other ions for 2:1 benzene:ion complexes. The selectivity sequence parallels that seen in voltage-gated potassium channels. Given that several conserved aromatic residues are present in the pore region of such channels, these results suggest that the cation-π interaction may be responsibl...
Cation-π interactions are common in biological systems, in particular ligand-gated ion channels (LGI...
AbstractQuantum mechanics/molecular mechanics (QM/MM) Car-Parrinello simulations were performed to e...
The mechanism by which Kþ channels select for Kþ over Naþ ions has been debated for the better part ...
A combination of computational methods has been used to evaluate the interaction between the π face ...
Quantum mechanics/molecular mechanics (QM/MM) Car-Parrinello simulations were performed to estimate ...
Cation-pi interactions are important forces in molecular recognition by biological receptors, enzyme...
AbstractThe macroscopic ion-selective behavior of K+ channels is mediated by a multitude of physiolo...
AbstractK+ ions seemingly permeate K-channels rapidly because channel binding sites mimic coordinati...
Sequential attachment of water molecules to cation−π (Li+−benzene, K+−benzene, and Mg2+−benzene) sys...
AbstractHow K+ channels are able to conduct certain cations yet not others remains an important but ...
AbstractPotassium channels are exquisitely selective, allowing K+ to pass across cell membranes whil...
How K(+) channels are able to conduct certain cations yet not others remains an important but unreso...
ABSTRACT Potassium channels are exquisitely selective, allowing K1 to pass across cell membranes whi...
Cation–π interactions in alkali metal ion (Li+, Na+ and K+)–pillar[5]arene complexes and sandwiches ...
A recent crystallization of several ion channels has provided strong impetus for efforts aimed at un...
Cation-π interactions are common in biological systems, in particular ligand-gated ion channels (LGI...
AbstractQuantum mechanics/molecular mechanics (QM/MM) Car-Parrinello simulations were performed to e...
The mechanism by which Kþ channels select for Kþ over Naþ ions has been debated for the better part ...
A combination of computational methods has been used to evaluate the interaction between the π face ...
Quantum mechanics/molecular mechanics (QM/MM) Car-Parrinello simulations were performed to estimate ...
Cation-pi interactions are important forces in molecular recognition by biological receptors, enzyme...
AbstractThe macroscopic ion-selective behavior of K+ channels is mediated by a multitude of physiolo...
AbstractK+ ions seemingly permeate K-channels rapidly because channel binding sites mimic coordinati...
Sequential attachment of water molecules to cation−π (Li+−benzene, K+−benzene, and Mg2+−benzene) sys...
AbstractHow K+ channels are able to conduct certain cations yet not others remains an important but ...
AbstractPotassium channels are exquisitely selective, allowing K+ to pass across cell membranes whil...
How K(+) channels are able to conduct certain cations yet not others remains an important but unreso...
ABSTRACT Potassium channels are exquisitely selective, allowing K1 to pass across cell membranes whi...
Cation–π interactions in alkali metal ion (Li+, Na+ and K+)–pillar[5]arene complexes and sandwiches ...
A recent crystallization of several ion channels has provided strong impetus for efforts aimed at un...
Cation-π interactions are common in biological systems, in particular ligand-gated ion channels (LGI...
AbstractQuantum mechanics/molecular mechanics (QM/MM) Car-Parrinello simulations were performed to e...
The mechanism by which Kþ channels select for Kþ over Naþ ions has been debated for the better part ...