Add to ORKGBackground: Protein rigidity analysis is an efficient computational method for extracting flexibility information from static, X-ray crystallography protein data. Atoms and bonds are modeled as a mechanical structure and analyzed with a fast graph-based algorithm, producing a decomposition of the flexible molecule into interconnected rigid clusters. The result depends critically on noncovalent atomic interactions, primarily on how hydrogen bonds and hydrophobic interactions are computed and modeled. Ongoing research points to the stringent need for benchmarking rigidity analysis software systems, towards the goal of increasing their accuracy and validating their results, either against each other and against biologically relevant (functiona...
Background: We initiate in silico rigidity-theoretical studies of biological assemblies and small cr...
Describing biological molecules through computational models enjoys ever-growing popularity. Never b...
This technical report summarizes the work done by Helen Abadiotakis during her research stay at IRI ...
Background: Protein rigidity analysis is an efficient computational method for extracting flexibilit...
Through their motion, proteins perform essential functions in the living cell. Although we cannot ob...
Proteins are dynamic molecules involved in virtually every chemical process in our bodies. Understan...
Through their motion, proteins perform essential functions in the living cell. Although we cannot ob...
Proteins are dynamic molecules, and understanding how they flex and bend provides fundamental insigh...
Proteins are molecules that flex and bend and perform a multitude of functions in our bodies. Scient...
Protein rigidity and flexibility can be analyzed accurately and efficiently using the program FIRST....
Proteins form complexes when they bind to other molecules, which is often accompanied by a conformat...
We present a comparative study in which 'pebble game' rigidity analysis is applied to multiple prote...
Proteins are dynamic molecules involved in virtually every chemical process in our bodies. Understan...
The exibility and rigidity of a protein structure is important for its function. Computational meth...
Pebble game rigidity analysis is an efficient method for extracting rigidity and flexibility informa...
Background: We initiate in silico rigidity-theoretical studies of biological assemblies and small cr...
Describing biological molecules through computational models enjoys ever-growing popularity. Never b...
This technical report summarizes the work done by Helen Abadiotakis during her research stay at IRI ...
Background: Protein rigidity analysis is an efficient computational method for extracting flexibilit...
Through their motion, proteins perform essential functions in the living cell. Although we cannot ob...
Proteins are dynamic molecules involved in virtually every chemical process in our bodies. Understan...
Through their motion, proteins perform essential functions in the living cell. Although we cannot ob...
Proteins are dynamic molecules, and understanding how they flex and bend provides fundamental insigh...
Proteins are molecules that flex and bend and perform a multitude of functions in our bodies. Scient...
Protein rigidity and flexibility can be analyzed accurately and efficiently using the program FIRST....
Proteins form complexes when they bind to other molecules, which is often accompanied by a conformat...
We present a comparative study in which 'pebble game' rigidity analysis is applied to multiple prote...
Proteins are dynamic molecules involved in virtually every chemical process in our bodies. Understan...
The exibility and rigidity of a protein structure is important for its function. Computational meth...
Pebble game rigidity analysis is an efficient method for extracting rigidity and flexibility informa...
Background: We initiate in silico rigidity-theoretical studies of biological assemblies and small cr...
Describing biological molecules through computational models enjoys ever-growing popularity. Never b...
This technical report summarizes the work done by Helen Abadiotakis during her research stay at IRI ...