Add to ORKGBinding-induced backbone and large-scale conformational changes represent one of the major challenges in the modeling of biomolecular complexes by docking. To address this challenge, we have developed a flexible multidomain docking protocol that follows a “divide-and-conquer” approach to model both large-scale domain motions and small- to medium-scale interfacial rearrangements: the flexible binding partner is treated as an assembly of subparts/domains that are docked simultaneously making use of HADDOCK's multidomain docking ability. For this, the flexible molecules are cut at hinge regions predicted using an elastic network model. The performance of this approach is demonstrated on a benchmark covering an unprecedented range of conformati...
Here, we present a fully automated, efficient docking methodology that does not require any a priori...
This paper reports on the problem of docking a highly flexible small molecule to the pocket of a hig...
ABSTRACT Here we dock a ligand onto a receptor surface allowing hinge-bending domain/substructural m...
SummaryBinding-induced backbone and large-scale conformational changes represent one of the major ch...
Binding-induced backbone and large-scale conformational changes represent one of the major challenge...
Incorporating the dynamic nature of biomolecules in the modeling of their complexes is a challenge, ...
The representation of protein flexibility is still a challenge for the state-of-the-art flexible lig...
The intrinsic flexibility of DNA and the difficulty of identifying its interaction surface have long...
International audienceModeling conformational changes in protein docking calculations is challenging...
The ability to predict the three-dimensional structure of a protein complex starting from the isolat...
Over the last years, large scale proteomics studies have generated a wealth of information of biomol...
Proteins and their intricate network of interactions are the mainstay of any cellular process. Disse...
Modeling protein-peptide interactions remains a significant challenge for docking programs due to th...
Most of the current docking procedures are focused on fine conformational adjustments of assembled c...
Over the last years, large scale proteomics studies have generated a wealth of information of biomol...
Here, we present a fully automated, efficient docking methodology that does not require any a priori...
This paper reports on the problem of docking a highly flexible small molecule to the pocket of a hig...
ABSTRACT Here we dock a ligand onto a receptor surface allowing hinge-bending domain/substructural m...
SummaryBinding-induced backbone and large-scale conformational changes represent one of the major ch...
Binding-induced backbone and large-scale conformational changes represent one of the major challenge...
Incorporating the dynamic nature of biomolecules in the modeling of their complexes is a challenge, ...
The representation of protein flexibility is still a challenge for the state-of-the-art flexible lig...
The intrinsic flexibility of DNA and the difficulty of identifying its interaction surface have long...
International audienceModeling conformational changes in protein docking calculations is challenging...
The ability to predict the three-dimensional structure of a protein complex starting from the isolat...
Over the last years, large scale proteomics studies have generated a wealth of information of biomol...
Proteins and their intricate network of interactions are the mainstay of any cellular process. Disse...
Modeling protein-peptide interactions remains a significant challenge for docking programs due to th...
Most of the current docking procedures are focused on fine conformational adjustments of assembled c...
Over the last years, large scale proteomics studies have generated a wealth of information of biomol...
Here, we present a fully automated, efficient docking methodology that does not require any a priori...
This paper reports on the problem of docking a highly flexible small molecule to the pocket of a hig...
ABSTRACT Here we dock a ligand onto a receptor surface allowing hinge-bending domain/substructural m...
