Add to ORKGThis project aims to develop nobels algorithms to model protein-protein complexes, a very important aspect in biophysics. The algorithm presented based only on geometrical arguments, is intended to be a first and fast approach to get the most probable configurations. The algorithm finds the best positions producing only a small number of solutions (over 250 solutions). The method is based on 2D FFT (fast fourier transform) and orthographic projections of the proteins. The method allows us to find solutions around 15 Ǻ of Cα root mean square deviation for proteins with low electrostatic interactions
Motivation: Prediction of protein-protein complexes from the coor-dinates of their unbound component...
Abstract:- Protein-protein interactions are essential to all cellular processes. Given the recent in...
We have developed and implemented a parallel distributed algorithm for the rigid-body protein dockin...
Protein-docking is a molecular modeling problem which aims to predict, with computer science algorit...
Protein-docking is a molecular modeling problem which aims to predict, with computer science algorit...
We have implemented a parallel distributed geometric docking algorithm that uses a new measure for t...
We have implemented a parallel distributed geometric docking algorithm that uses a new measure for t...
In this dissertation a novel approach to protein-ligand docking is presented. First an existing meth...
In this dissertation a novel approach to protein-ligand docking is presented. First an existing meth...
We have implemented a parallel distributed geometric docking algorithm that uses a new measure for t...
In this dissertation a novel approach to protein-ligand docking is presented. First an existing meth...
Abstract: Designing proteins with novel protein/protein binding properties can be achieved by combin...
For an efficient solution to the docking problem - whether and where two proteins may interact - a c...
Designing proteins with novel protein/protein binding properties can be achieved by combining the to...
International audienceMotivation: Modelling protein-protein interactions (PPIs) is an increasingly i...
Motivation: Prediction of protein-protein complexes from the coor-dinates of their unbound component...
Abstract:- Protein-protein interactions are essential to all cellular processes. Given the recent in...
We have developed and implemented a parallel distributed algorithm for the rigid-body protein dockin...
Protein-docking is a molecular modeling problem which aims to predict, with computer science algorit...
Protein-docking is a molecular modeling problem which aims to predict, with computer science algorit...
We have implemented a parallel distributed geometric docking algorithm that uses a new measure for t...
We have implemented a parallel distributed geometric docking algorithm that uses a new measure for t...
In this dissertation a novel approach to protein-ligand docking is presented. First an existing meth...
In this dissertation a novel approach to protein-ligand docking is presented. First an existing meth...
We have implemented a parallel distributed geometric docking algorithm that uses a new measure for t...
In this dissertation a novel approach to protein-ligand docking is presented. First an existing meth...
Abstract: Designing proteins with novel protein/protein binding properties can be achieved by combin...
For an efficient solution to the docking problem - whether and where two proteins may interact - a c...
Designing proteins with novel protein/protein binding properties can be achieved by combining the to...
International audienceMotivation: Modelling protein-protein interactions (PPIs) is an increasingly i...
Motivation: Prediction of protein-protein complexes from the coor-dinates of their unbound component...
Abstract:- Protein-protein interactions are essential to all cellular processes. Given the recent in...
We have developed and implemented a parallel distributed algorithm for the rigid-body protein dockin...