Biological processes are commonly controlled by precise protein-protein interactions. These connections rely on specific amino acids at the binding interfaces. Here we predict the binding residues of such interprotein complexes. We have developed a suite of methods, i-Patch, which predict the interprotein contact sites by considering the two proteins as a network, with residues as nodes and contacts as edges. i-Patch starts with two proteins, A and B, which are assumed to interact, but for which the structure of the complex is not available. However, we assume that for each protein, we have a reference structure and a multiple sequence alignment of homologues. i-Patch then uses the propensities of patches of residues to interact, to predict...
Motivation Over the last few years, the field of protein structure prediction has been transformed b...
ABSTRACT The number of structures of pro-tein–protein complexes deposited to the Protein Data Bank i...
*These authors contributed equally to this work. The majority of biological processes are mediated v...
Biological processes are commonly controlled by precise protein-protein interactions. These connecti...
Mutual Information (MI) based methods are used to predict contact residues within proteins and betwe...
Motivation: Predicting residue–residue contacts between interacting proteins is an important problem...
This article presents recent progress in predicting inter-residue contacts of proteins with a neural...
AbstractProtein–protein interactions are facilitated by a myriad of residue–residue contacts on the ...
BACKGROUND: Predicting protein contacts solely based on sequence information remains a challenging p...
ABSTRACT We describe a new method for us-ing neural networks to predict residue contact pairs in a p...
<div><p>Protein-protein interfaces hold the key to understanding protein-protein interactions. In th...
Abstract Contact sites between amino acids characterize im-portant structural features of a protein....
Most of the cellular functions are the result of the concerted action of protein complexes forming p...
The rise of metagenomics and the technological improvements in the fields of bioinformatics and comp...
Most of the cellular functions are the result of the concerted action of complexes of proteins formi...
Motivation Over the last few years, the field of protein structure prediction has been transformed b...
ABSTRACT The number of structures of pro-tein–protein complexes deposited to the Protein Data Bank i...
*These authors contributed equally to this work. The majority of biological processes are mediated v...
Biological processes are commonly controlled by precise protein-protein interactions. These connecti...
Mutual Information (MI) based methods are used to predict contact residues within proteins and betwe...
Motivation: Predicting residue–residue contacts between interacting proteins is an important problem...
This article presents recent progress in predicting inter-residue contacts of proteins with a neural...
AbstractProtein–protein interactions are facilitated by a myriad of residue–residue contacts on the ...
BACKGROUND: Predicting protein contacts solely based on sequence information remains a challenging p...
ABSTRACT We describe a new method for us-ing neural networks to predict residue contact pairs in a p...
<div><p>Protein-protein interfaces hold the key to understanding protein-protein interactions. In th...
Abstract Contact sites between amino acids characterize im-portant structural features of a protein....
Most of the cellular functions are the result of the concerted action of protein complexes forming p...
The rise of metagenomics and the technological improvements in the fields of bioinformatics and comp...
Most of the cellular functions are the result of the concerted action of complexes of proteins formi...
Motivation Over the last few years, the field of protein structure prediction has been transformed b...
ABSTRACT The number of structures of pro-tein–protein complexes deposited to the Protein Data Bank i...
*These authors contributed equally to this work. The majority of biological processes are mediated v...