Add to ORKGSummary: A protein–protein docking decoy set is built for the Dockground unbound benchmark set. The GRAMM-X docking scan was used to generate 100 non-native and at least one near-native match per complex for 61 complexes. The set is a publicly available resource for the development of scoring functions and knowledge-based potentials for protein docking methodologies. Availability: The decoys are freely available for download a
A key metric to assess molecular docking remains ligand enrichment against challenging decoys. Where...
We present a protein–DNA docking benchmark con-taining 47 unbound–unbound test cases of which 13 are...
We report the first membrane protein-protein docking benchmark consisting of 37 targets of diverse f...
Summary: A protein-protein docking decoy set is built for the DOCKGROUND unbound benchmark set. The ...
This set of decoys was generated for the targets in the Protein-Protein Docking Benchmark 5 (Vreven ...
International audienceComputational methods are needed to help characterize the structure and functi...
Motivation: Public resources for studying protein interfaces are necessary for better understanding ...
International audienceMOTIVATION: Protein-protein complexes are known to play key roles in many cell...
Motivation: The limited success rate of protein–protein docking pro-cedures is generally attributed ...
International audienceBackground: Knowing the binding site of protein–protein complexes helps unders...
We present a protein–DNA docking benchmark containing 47 unbound–unbound test cases of which 13 are ...
Summary: Protein–protein interactions are central to almost all biolo-gical functions, and the atomi...
Protein–protein docking is the computational prediction of protein complex structure given the indiv...
Over the past decades, vast improvements have been made in molecular docking techniques and its util...
Protein-protein interactions play fundamental roles in biological processes including signaling, met...
A key metric to assess molecular docking remains ligand enrichment against challenging decoys. Where...
We present a protein–DNA docking benchmark con-taining 47 unbound–unbound test cases of which 13 are...
We report the first membrane protein-protein docking benchmark consisting of 37 targets of diverse f...
Summary: A protein-protein docking decoy set is built for the DOCKGROUND unbound benchmark set. The ...
This set of decoys was generated for the targets in the Protein-Protein Docking Benchmark 5 (Vreven ...
International audienceComputational methods are needed to help characterize the structure and functi...
Motivation: Public resources for studying protein interfaces are necessary for better understanding ...
International audienceMOTIVATION: Protein-protein complexes are known to play key roles in many cell...
Motivation: The limited success rate of protein–protein docking pro-cedures is generally attributed ...
International audienceBackground: Knowing the binding site of protein–protein complexes helps unders...
We present a protein–DNA docking benchmark containing 47 unbound–unbound test cases of which 13 are ...
Summary: Protein–protein interactions are central to almost all biolo-gical functions, and the atomi...
Protein–protein docking is the computational prediction of protein complex structure given the indiv...
Over the past decades, vast improvements have been made in molecular docking techniques and its util...
Protein-protein interactions play fundamental roles in biological processes including signaling, met...
A key metric to assess molecular docking remains ligand enrichment against challenging decoys. Where...
We present a protein–DNA docking benchmark con-taining 47 unbound–unbound test cases of which 13 are...
We report the first membrane protein-protein docking benchmark consisting of 37 targets of diverse f...