Background: Protein-DNA docking is a very challenging problem in structural bioinformatics and has important implications in a number of applications, such as structure-based prediction of transcription factor binding sites and rational drug design. Protein-DNA docking is very computational demanding due to the high cost of energy calculation and the statistical nature of conformational sampling algorithms. More importantly, experiments show that the docking quality depends on the coverage of the conformational sampling space. It is therefore desirable to accelerate the computation of the docking algorithm, not only to reduce computing time, but also to improve docking quality. Methods: In an attempt to accelerate the sampling process and t...
Accurate prediction of protein–DNA complexes could provide an important stepping stone towards a tho...
Deciphering the structural and energetic determinants of protein-RNA interactions harbors the potent...
Proteins play a crucial role in virtually every biological process taking place within our cells. Mo...
The intrinsic flexibility of DNA and the difficulty of identifying its interaction surface have long...
The generation of molecular conformations and the evaluation of interaction potentials are common ta...
DNA-interacting proteins fulfil a vital role in the living cell. They allow the cell to quickly resp...
The docking problem is to start with unbound conformations for the components of a complex, and comp...
Protein-docking is a molecular modeling problem which aims to predict, with computer science algorit...
We consider the identification of interacting protein-nucleic acid partners using the rigid body doc...
Here we present pyDockDNA, which is based on the pyDock program, with a new module for reading and p...
Abstract: Modeling the interactions of biological molecules, or docking, is critical to both underst...
We present a protein–DNA docking benchmark con-taining 47 unbound–unbound test cases of which 13 are...
Abstract Background Protein-DNA interactions are important for many cellular processes, however stru...
ABSTRACT: A novel and robust automated docking method that predicts the bound conformations of flexi...
We consider the identification of interacting protein-nucleic acid partners using the rigid body doc...
Accurate prediction of protein–DNA complexes could provide an important stepping stone towards a tho...
Deciphering the structural and energetic determinants of protein-RNA interactions harbors the potent...
Proteins play a crucial role in virtually every biological process taking place within our cells. Mo...
The intrinsic flexibility of DNA and the difficulty of identifying its interaction surface have long...
The generation of molecular conformations and the evaluation of interaction potentials are common ta...
DNA-interacting proteins fulfil a vital role in the living cell. They allow the cell to quickly resp...
The docking problem is to start with unbound conformations for the components of a complex, and comp...
Protein-docking is a molecular modeling problem which aims to predict, with computer science algorit...
We consider the identification of interacting protein-nucleic acid partners using the rigid body doc...
Here we present pyDockDNA, which is based on the pyDock program, with a new module for reading and p...
Abstract: Modeling the interactions of biological molecules, or docking, is critical to both underst...
We present a protein–DNA docking benchmark con-taining 47 unbound–unbound test cases of which 13 are...
Abstract Background Protein-DNA interactions are important for many cellular processes, however stru...
ABSTRACT: A novel and robust automated docking method that predicts the bound conformations of flexi...
We consider the identification of interacting protein-nucleic acid partners using the rigid body doc...
Accurate prediction of protein–DNA complexes could provide an important stepping stone towards a tho...
Deciphering the structural and energetic determinants of protein-RNA interactions harbors the potent...
Proteins play a crucial role in virtually every biological process taking place within our cells. Mo...