AbstractBackground: The mechanisms that allow or constrain protein movement have not been understood. Here we study interdomain interactions in proteins to investigate hinge-bending motions.Results: We find a limited number of salt bridges and hydrogen bonds at the interdomain interface, in both the “closed” and the “open” conformations. Consistently, analysis of 222 salt bridges in an independently selected database indicates that most salt bridges form within rather than between independently folding hydrophobic units. Calculations show that these interdomain salt bridges either destabilize or only marginally stabilize the closed conformation in most proteins. In contrast, the nonpolar buried surface area between the moving parts can be e...
ABSTRACT The activity of many proteins induces conformational transitions by hinge-bending, which in...
Understanding and modelling protein folding remains a key scientific and engineering challenge. Two ...
Given the known high-resolution structures of -helical transmembrane domains, we show that there are...
With the use of a recently developed method, twenty-four proteins for which two or more X-ray confor...
In this article we focus on presenting a broad range of examples illustrating low-energy transitions...
The geometry of interactions of planar residues is nonrandom in protein tertiary structures and give...
Charged residues on the surface of proteins are critical for both protein stability and interactions...
Previous studies of the N-terminal PDZ tandem from PSD-95 produced divergent models and failed to id...
We present a structural analysis of the folding transition states of three SH3 domains. Our results ...
Simple models with a single bead representation (Cα models) have been successful in providing a qual...
Hinge motions are important for molecular recognition, and knowledge of their location can guide the...
SummaryWe identify a structural feature of transmembrane helical proteins that restricts their confo...
AbstractUnderstanding and modelling protein folding remains a key scientific and engineering challen...
The three-dimensional structures of proteins often show a modular architecture comprised of discrete...
Experiments point to appreciable variations in folding cooperativity among natural proteins with app...
ABSTRACT The activity of many proteins induces conformational transitions by hinge-bending, which in...
Understanding and modelling protein folding remains a key scientific and engineering challenge. Two ...
Given the known high-resolution structures of -helical transmembrane domains, we show that there are...
With the use of a recently developed method, twenty-four proteins for which two or more X-ray confor...
In this article we focus on presenting a broad range of examples illustrating low-energy transitions...
The geometry of interactions of planar residues is nonrandom in protein tertiary structures and give...
Charged residues on the surface of proteins are critical for both protein stability and interactions...
Previous studies of the N-terminal PDZ tandem from PSD-95 produced divergent models and failed to id...
We present a structural analysis of the folding transition states of three SH3 domains. Our results ...
Simple models with a single bead representation (Cα models) have been successful in providing a qual...
Hinge motions are important for molecular recognition, and knowledge of their location can guide the...
SummaryWe identify a structural feature of transmembrane helical proteins that restricts their confo...
AbstractUnderstanding and modelling protein folding remains a key scientific and engineering challen...
The three-dimensional structures of proteins often show a modular architecture comprised of discrete...
Experiments point to appreciable variations in folding cooperativity among natural proteins with app...
ABSTRACT The activity of many proteins induces conformational transitions by hinge-bending, which in...
Understanding and modelling protein folding remains a key scientific and engineering challenge. Two ...
Given the known high-resolution structures of -helical transmembrane domains, we show that there are...