Specific interactions that depend on the nature of electrolytes are observed when proteins and other molecules are studied by potentiometric, spectroscopic and theoretical methods at high salt concentrations. More recently, it became clear that such interactions may also be observed in solutions that can be described by the Debye-Hückel theory, i.e., at physiological (0.1moldm-3) and lower concentrations. We carried out molecular dynamics simulations of bovine serum albumin in physiological solutions at T=300 and 350K. Analysis of the simulations revealed some differences between LiCl solutions and those of NaCl and KCl. The binding of Li+ ions to the protein was associated with a negative free energy of interaction whereas much fewer Na+ a...
Many bioprocess separations involve manipulating the solution conditions to selectively remove or co...
Abstract. We investigate specific anion binding to a range of patchy protein models and use our resu...
We investigated specific anion binding to basic amino acid residues as well as to a range of patchy ...
Specific interactions that depend on the nature of electrolytes are observed when proteins and other...
Proteins interact with ions in various ways. The surface of proteins has an innate capability to bin...
The monovalent ions Na+ and K+ and Cl− are present in any living organism. The fundamental thermodyn...
By means of molecular dynamics simulations we have systematically investigated the behavior of posit...
When proteins are solvated in electrolyte solutions that contain alkali ions, the ions interact most...
The distribution of sodium, choline, sulfate, and chloride ions around two proteins, horseradish per...
The distribution of sodium, choline, sulfate, and chloride ions around two proteins, horseradish per...
We have studied a series of samples of bovine serum albumin (BSA) solutions with protein concentrati...
The stability of aqueous protein solutions is strongly affected by multivalent ions, which induce io...
Ion specific behavior of halides at surfaces of aqueous basic amino acids is unravelled by means of ...
Title: Ion-Protein Interactions Author: Mgr. et Mgr. Jan Heyda Department: Physical and Macromolecul...
Title: Ion-Protein Interactions Author: Mgr. et Mgr. Jan Heyda Department: Physical and Macromolecul...
Many bioprocess separations involve manipulating the solution conditions to selectively remove or co...
Abstract. We investigate specific anion binding to a range of patchy protein models and use our resu...
We investigated specific anion binding to basic amino acid residues as well as to a range of patchy ...
Specific interactions that depend on the nature of electrolytes are observed when proteins and other...
Proteins interact with ions in various ways. The surface of proteins has an innate capability to bin...
The monovalent ions Na+ and K+ and Cl− are present in any living organism. The fundamental thermodyn...
By means of molecular dynamics simulations we have systematically investigated the behavior of posit...
When proteins are solvated in electrolyte solutions that contain alkali ions, the ions interact most...
The distribution of sodium, choline, sulfate, and chloride ions around two proteins, horseradish per...
The distribution of sodium, choline, sulfate, and chloride ions around two proteins, horseradish per...
We have studied a series of samples of bovine serum albumin (BSA) solutions with protein concentrati...
The stability of aqueous protein solutions is strongly affected by multivalent ions, which induce io...
Ion specific behavior of halides at surfaces of aqueous basic amino acids is unravelled by means of ...
Title: Ion-Protein Interactions Author: Mgr. et Mgr. Jan Heyda Department: Physical and Macromolecul...
Title: Ion-Protein Interactions Author: Mgr. et Mgr. Jan Heyda Department: Physical and Macromolecul...
Many bioprocess separations involve manipulating the solution conditions to selectively remove or co...
Abstract. We investigate specific anion binding to a range of patchy protein models and use our resu...
We investigated specific anion binding to basic amino acid residues as well as to a range of patchy ...