Structural characterization of protein-protein interactions is important for understanding life processes. Because of the inherent limitations of experimental techniques, such characterization requires computational approaches. Along with the traditional protein-protein docking (free search for a match between two proteins), comparative (template-based) modeling of protein-protein complexes has been gaining popularity. Its development puts an emphasis on full and partial structural similarity between the target protein monomers and the protein-protein complexes previously determined by experimental techniques (templates). The template-based docking relies on the quality and diversity of the template set. We present a carefully curated, non-...
Protein-RNA complexes formed by specific recognition between RNA and RNA-binding proteins play an im...
Improvements in experimental techniques increasingly provide structural data relating to protein-pro...
The similarity between folding and binding led us to posit the concept that the number of proteinpro...
Structural characterization of protein-protein interactions is important for understanding life proc...
Rapid accumulation of experimental data on protein-protein complexes drives the paradigm shift in pr...
The increasing amount of structural information on protein–protein interactions makes it possible to...
Rapid accumulation of the experimental data on protein-protein complexes drives the paradigm shift i...
The increasing availability of co-crystallized protein-protein complexes provides an opportunity to ...
Protein docking is essential for structural characterization of protein interactions. Besides provid...
Structural characterization of protein-protein interactions is essential for our ability to understa...
The accuracy of protein structures, particularly their binding sites, is essential for the success o...
Structural characterization of proteins is essential for understanding life processes at the molecul...
The increasing availability of co-crystallized protein-protein complexes provides an opportunity to ...
Characterization of life processes at the molecular level requires structural details of protein–pro...
SummaryThe structural modeling of protein interactions in the absence of close homologous templates ...
Protein-RNA complexes formed by specific recognition between RNA and RNA-binding proteins play an im...
Improvements in experimental techniques increasingly provide structural data relating to protein-pro...
The similarity between folding and binding led us to posit the concept that the number of proteinpro...
Structural characterization of protein-protein interactions is important for understanding life proc...
Rapid accumulation of experimental data on protein-protein complexes drives the paradigm shift in pr...
The increasing amount of structural information on protein–protein interactions makes it possible to...
Rapid accumulation of the experimental data on protein-protein complexes drives the paradigm shift i...
The increasing availability of co-crystallized protein-protein complexes provides an opportunity to ...
Protein docking is essential for structural characterization of protein interactions. Besides provid...
Structural characterization of protein-protein interactions is essential for our ability to understa...
The accuracy of protein structures, particularly their binding sites, is essential for the success o...
Structural characterization of proteins is essential for understanding life processes at the molecul...
The increasing availability of co-crystallized protein-protein complexes provides an opportunity to ...
Characterization of life processes at the molecular level requires structural details of protein–pro...
SummaryThe structural modeling of protein interactions in the absence of close homologous templates ...
Protein-RNA complexes formed by specific recognition between RNA and RNA-binding proteins play an im...
Improvements in experimental techniques increasingly provide structural data relating to protein-pro...
The similarity between folding and binding led us to posit the concept that the number of proteinpro...