Add to ORKGNeumann E, Tsuji K. Interaction of electric fields with membrane-bound polyionic proteins. In: Krause S, ed. Molecular electro-optics: electro-optic properties of macromolecules and colloids in solution ; [proceedings of a NATO Advanced Study Inst. on Molecular Electro-optics, held July 14 - 24, 1980, at Rensselaer Polytechn. Inst., Troy, NY]. NATO advanced study institutes series : Ser. B ; 64. New York: Plenum Pr.; 1981: 241-268
The aim of this work is to revisit the phenomenological theory of the interaction between membrane i...
Electrostatic interactions are essential for controlling the protein structure and function. Whereas...
We present a novel approach for determining the strength of the electric field experienced by protei...
Neumann E. Elementary analysis of chemical electric field effects in biological macromolecules. 2: K...
The interactions ofelectrostatic fields with proteins in general, and with biological membranes in p...
AbstractCharges on membrane proteins are argued to produce very large electric fields within the mem...
Polyelectrolytes are water-soluble electrically charged polymers. Their properties are determined by...
Neumann E. Chemical electric field effects in biological macromolecules. Progress in Biophysics and ...
Understanding how protein–protein interactions depend on the choice of buffer, salt, ionic strength,...
Interaction of proteins with charged macromolecules is involved in many processes in cells. Firstly,...
(I)Electric polarizability. During this grant period, the focus was on five topics concerning electr...
Tsuji K, Neumann E. Conformational flexibility of membrane proteins in electric fields I. Ultraviole...
Neumann E. Electric field-induced structural rearrangements in biomembranes. Electrochimica Acta. 19...
Neumann E. Elementary analysis of chemical electric field effects in biological macromolecules. 1: T...
This article was originally published online as an accepted preprint. The ‘‘Published Online’ ’ date...
The aim of this work is to revisit the phenomenological theory of the interaction between membrane i...
Electrostatic interactions are essential for controlling the protein structure and function. Whereas...
We present a novel approach for determining the strength of the electric field experienced by protei...
Neumann E. Elementary analysis of chemical electric field effects in biological macromolecules. 2: K...
The interactions ofelectrostatic fields with proteins in general, and with biological membranes in p...
AbstractCharges on membrane proteins are argued to produce very large electric fields within the mem...
Polyelectrolytes are water-soluble electrically charged polymers. Their properties are determined by...
Neumann E. Chemical electric field effects in biological macromolecules. Progress in Biophysics and ...
Understanding how protein–protein interactions depend on the choice of buffer, salt, ionic strength,...
Interaction of proteins with charged macromolecules is involved in many processes in cells. Firstly,...
(I)Electric polarizability. During this grant period, the focus was on five topics concerning electr...
Tsuji K, Neumann E. Conformational flexibility of membrane proteins in electric fields I. Ultraviole...
Neumann E. Electric field-induced structural rearrangements in biomembranes. Electrochimica Acta. 19...
Neumann E. Elementary analysis of chemical electric field effects in biological macromolecules. 1: T...
This article was originally published online as an accepted preprint. The ‘‘Published Online’ ’ date...
The aim of this work is to revisit the phenomenological theory of the interaction between membrane i...
Electrostatic interactions are essential for controlling the protein structure and function. Whereas...
We present a novel approach for determining the strength of the electric field experienced by protei...