Add to ORKGThe aim of this thesis is to promote the understanding of protein-protein interactions (PPIs) by gaining insights into their 3D structures at atomic level and their binding thermodynamics. It focuses on two main challenges in this field, namely the scoring problem, i.e. the identification of near-native conformations from a large pool of docking models, and the ∆∆G prediction problem, i.e. the prediction of binding affinity changes upon mutations in protein-protein complexes. For this, two machine learning-based computational methods, iScore and iSEE, were developed for scoring and ∆∆G prediction, respectively, and a curated ∆∆G database named DACUM was built, which provides information about the experimental methods used for measuring bind...
Reliable prediction of binding affinity changes (ΔΔG) upon mutations in protein complexes relies not...
Motivation: Most biological processes are mediated by the protein-protein interactions. Determinatio...
MOTIVATION: Molecular docking is a commonly used approach for estimating binding conformations and t...
The aim of this thesis is to promote the understanding of protein-protein interactions (PPIs) by gai...
Predicting the structure and thermodynamics of protein–protein interactions (PPIs) are key to a prop...
Predicting the structure and thermodynamics of protein–protein interactions (PPIs) are key to a prop...
Predicting the structure and thermodynamics of protein–protein interactions (PPIs) are key to a prop...
Predicting the structure and thermodynamics of protein–protein interactions (PPIs) are key to a prop...
Predicting protein-ligand binding affinities constitutes a key computational method in the early sta...
The design of an ideal scoring function for protein-protein docking that would also predict the bind...
The design of an ideal scoring function for protein-protein docking that would also predict the bind...
The design of an ideal scoring function for protein-protein docking that would also predict the bind...
The design of an ideal scoring function for protein-protein docking that would also predict the bind...
Motivation: Accurately predicting the binding affinities of large sets of diverse protein-ligand com...
Reliable prediction of binding affinity changes (ΔΔG) upon mutations in protein complexes relies not...
Reliable prediction of binding affinity changes (ΔΔG) upon mutations in protein complexes relies not...
Motivation: Most biological processes are mediated by the protein-protein interactions. Determinatio...
MOTIVATION: Molecular docking is a commonly used approach for estimating binding conformations and t...
The aim of this thesis is to promote the understanding of protein-protein interactions (PPIs) by gai...
Predicting the structure and thermodynamics of protein–protein interactions (PPIs) are key to a prop...
Predicting the structure and thermodynamics of protein–protein interactions (PPIs) are key to a prop...
Predicting the structure and thermodynamics of protein–protein interactions (PPIs) are key to a prop...
Predicting the structure and thermodynamics of protein–protein interactions (PPIs) are key to a prop...
Predicting protein-ligand binding affinities constitutes a key computational method in the early sta...
The design of an ideal scoring function for protein-protein docking that would also predict the bind...
The design of an ideal scoring function for protein-protein docking that would also predict the bind...
The design of an ideal scoring function for protein-protein docking that would also predict the bind...
The design of an ideal scoring function for protein-protein docking that would also predict the bind...
Motivation: Accurately predicting the binding affinities of large sets of diverse protein-ligand com...
Reliable prediction of binding affinity changes (ΔΔG) upon mutations in protein complexes relies not...
Reliable prediction of binding affinity changes (ΔΔG) upon mutations in protein complexes relies not...
Motivation: Most biological processes are mediated by the protein-protein interactions. Determinatio...
MOTIVATION: Molecular docking is a commonly used approach for estimating binding conformations and t...