Add to ORKGA newmethodology termed Single Amino Acid Mutation based change in Binding free Energy (SAAMBE) was developed to predict the changes of the binding free energy caused by mutations. The method utilizes 3D structures of the corresponding protein-protein com-plexes and takes advantage of both approaches: sequence- and structure-based methods. The method has two components: a MM/PBSA-based component, and an additional set of statistical terms delivered from statistical investigation of physico-chemical properties of protein complexes. While the approach is rigid body approach and does not explicitly con-sider plausible conformational changes caused by the binding, the effect of conformational changes, including changes away from binding interfa...
Understanding the structural, dynamical and energetic basis of protein-protein interactions (PPIs) i...
Motivation: Bioinformatics tools that predict protein stability changes upon point mutations have ma...
Predicting the structure and thermodynamics of protein–protein interactions (PPIs) are key to a prop...
<div><p>A new methodology termed Single Amino Acid Mutation based change in Binding free Energy (SAA...
Predicting changes in protein binding affinity due to single amino acid mutations helps us better un...
Folding free energy is an important biophysical characteristic of proteins that reflects the overall...
Predicting the effect of amino acid substitutions on protein–protein affinity (typically evaluated v...
A Protein is a large molecule that consists of a vast number of atoms; one can only imagine the comp...
The prediction of mutation-induced free-energy changes in protein thermostability or protein–protein...
Integrating water exclusion theory into β contacts to predict binding free energy changes and bindin...
Mutations that lead to drug resistance limit the efficacy of antibiotics, antiviral drugs, targeted ...
The free-energy difference of two physicochemical states is an essential value describing the stabil...
Relative alchemical binding free energy calculations are routinely used in drug discovery projects t...
Proteins are important macro-molecules of living creatures as they carry out important functions of ...
This paper deals with prediction of influence of amino acids mutations on protein stability. The pre...
Understanding the structural, dynamical and energetic basis of protein-protein interactions (PPIs) i...
Motivation: Bioinformatics tools that predict protein stability changes upon point mutations have ma...
Predicting the structure and thermodynamics of protein–protein interactions (PPIs) are key to a prop...
<div><p>A new methodology termed Single Amino Acid Mutation based change in Binding free Energy (SAA...
Predicting changes in protein binding affinity due to single amino acid mutations helps us better un...
Folding free energy is an important biophysical characteristic of proteins that reflects the overall...
Predicting the effect of amino acid substitutions on protein–protein affinity (typically evaluated v...
A Protein is a large molecule that consists of a vast number of atoms; one can only imagine the comp...
The prediction of mutation-induced free-energy changes in protein thermostability or protein–protein...
Integrating water exclusion theory into β contacts to predict binding free energy changes and bindin...
Mutations that lead to drug resistance limit the efficacy of antibiotics, antiviral drugs, targeted ...
The free-energy difference of two physicochemical states is an essential value describing the stabil...
Relative alchemical binding free energy calculations are routinely used in drug discovery projects t...
Proteins are important macro-molecules of living creatures as they carry out important functions of ...
This paper deals with prediction of influence of amino acids mutations on protein stability. The pre...
Understanding the structural, dynamical and energetic basis of protein-protein interactions (PPIs) i...
Motivation: Bioinformatics tools that predict protein stability changes upon point mutations have ma...
Predicting the structure and thermodynamics of protein–protein interactions (PPIs) are key to a prop...