Add to ORKGThis study combines molecular dynamics (MD) simulations with solution X-ray scattering measurements to investigate the range of conformations that can be achieved by a pH/ionic strength (IS) sensitive protein and to quantify its distinct populations. To explore how the conformational multiplicity of proteins might be modified in the environmental niches of biological media, we focus on the periplasmic protein FbpA from H. influenzae which is a part of the mechanism developed by bacteria to capture iron from higher organisms. We examine iron-binding/release mechanisms of FbpA in varying conditions simulating its unique biological environment. The collected SAXS data complemented by SEC analyses and binding assays point to multiple conformati...
The periplasmic iron binding protein plays an essential role in the iron uptake pathway of Gram-nega...
We study the effect of networks of non-covalent interactions on the conformational dynamics of the S...
AbstractProteins containing iron–sulfur (Fe–S) clusters arose early in evolution and are essential t...
Determining protein structure and function became a central field for environmental and medical stud...
Ferric binding protein (FbpA) is part of an elaborate iron piracy mechanism evolved in Gram-negative...
Differences between the conformations of the ligand-bound and unbound forms of proteins provide clue...
Pathogenic bacteria acquire essential iron using specialized iron acquisition systems, such as the F...
The specific binding of ligands by proteins and the coupling of this process to conformational chang...
We have studied the apo (Fe3+ free) form of periplasmic ferric binding protein (FbpA) under differen...
Conformational changes between structurally different forms of proteins are essential for their equi...
With the advances in three-dimensional structure determination techniques, high quality structures o...
Bacterioferritin (Bfr) is a spherical protein composed of 24 subunits and 12 heme molecules. Bfrs co...
Bacterioferritin (Bfr) is a spherical protein composed of 24 subunits and 12 heme molecules. Bfrs co...
Bacterioferritin (Bfr) is a spherical protein composed of 24 subunits and 12 heme molecules. Bfrs co...
The periplasmic iron binding protein of pathogenic Gram-negative bacteria performs an essential role...
The periplasmic iron binding protein plays an essential role in the iron uptake pathway of Gram-nega...
We study the effect of networks of non-covalent interactions on the conformational dynamics of the S...
AbstractProteins containing iron–sulfur (Fe–S) clusters arose early in evolution and are essential t...
Determining protein structure and function became a central field for environmental and medical stud...
Ferric binding protein (FbpA) is part of an elaborate iron piracy mechanism evolved in Gram-negative...
Differences between the conformations of the ligand-bound and unbound forms of proteins provide clue...
Pathogenic bacteria acquire essential iron using specialized iron acquisition systems, such as the F...
The specific binding of ligands by proteins and the coupling of this process to conformational chang...
We have studied the apo (Fe3+ free) form of periplasmic ferric binding protein (FbpA) under differen...
Conformational changes between structurally different forms of proteins are essential for their equi...
With the advances in three-dimensional structure determination techniques, high quality structures o...
Bacterioferritin (Bfr) is a spherical protein composed of 24 subunits and 12 heme molecules. Bfrs co...
Bacterioferritin (Bfr) is a spherical protein composed of 24 subunits and 12 heme molecules. Bfrs co...
Bacterioferritin (Bfr) is a spherical protein composed of 24 subunits and 12 heme molecules. Bfrs co...
The periplasmic iron binding protein of pathogenic Gram-negative bacteria performs an essential role...
The periplasmic iron binding protein plays an essential role in the iron uptake pathway of Gram-nega...
We study the effect of networks of non-covalent interactions on the conformational dynamics of the S...
AbstractProteins containing iron–sulfur (Fe–S) clusters arose early in evolution and are essential t...