<div><p>Correlation patterns in multiple sequence alignments of homologous proteins can be exploited to infer information on the three-dimensional structure of their members. The typical pipeline to address this task, which we in this paper refer to as the <i>three dimensions of contact prediction</i>, is to (i) filter and align the raw sequence data representing the evolutionarily related proteins; (ii) choose a predictive model to describe a sequence alignment; (iii) infer the model parameters and interpret them in terms of structural properties, such as an accurate contact map. We show here that all three dimensions are important for overall prediction success. In particular, we show that it is possible to improve significantly along the...
Motivation Over the last few years, the field of protein structure prediction has been transformed b...
Studying evolutionary correlations in alignments of homologous sequences by means of an inverse Pott...
Motivation: The de novo prediction of 3D protein structure is enjoying a period of dramatic improvem...
Correlation patterns in multiple sequence alignments of homologous proteins can be exploited to infe...
† These authors contributed equally to this work Correlation patterns in multiple sequence alignment...
A fundamental problem in molecular biology is the prediction of the three-dimensional structure of a...
Co-evolution between pairs of residues in a multiple sequence alignment (MSA) of homologous proteins...
<div><p>Co-evolution between pairs of residues in a multiple sequence alignment (MSA) of homologous ...
We have previously developed a method for predicting interresidue contacts using information about c...
Recently, several new contact prediction methods have been published. They use (i) large sets of mul...
Given sufficient large protein families, and using a global statistical inference approach, it is po...
Protein structure prediction has been one of the greatest challenges in the field of computational b...
International audienceSpatially proximate amino acids in a protein tend to coevolve. A protein's thr...
Residue contact predictions were calculated based on the mutual information observed between pairs o...
Despite the fundamental role of experimental protein structure determination, computational methods ...
Motivation Over the last few years, the field of protein structure prediction has been transformed b...
Studying evolutionary correlations in alignments of homologous sequences by means of an inverse Pott...
Motivation: The de novo prediction of 3D protein structure is enjoying a period of dramatic improvem...
Correlation patterns in multiple sequence alignments of homologous proteins can be exploited to infe...
† These authors contributed equally to this work Correlation patterns in multiple sequence alignment...
A fundamental problem in molecular biology is the prediction of the three-dimensional structure of a...
Co-evolution between pairs of residues in a multiple sequence alignment (MSA) of homologous proteins...
<div><p>Co-evolution between pairs of residues in a multiple sequence alignment (MSA) of homologous ...
We have previously developed a method for predicting interresidue contacts using information about c...
Recently, several new contact prediction methods have been published. They use (i) large sets of mul...
Given sufficient large protein families, and using a global statistical inference approach, it is po...
Protein structure prediction has been one of the greatest challenges in the field of computational b...
International audienceSpatially proximate amino acids in a protein tend to coevolve. A protein's thr...
Residue contact predictions were calculated based on the mutual information observed between pairs o...
Despite the fundamental role of experimental protein structure determination, computational methods ...
Motivation Over the last few years, the field of protein structure prediction has been transformed b...
Studying evolutionary correlations in alignments of homologous sequences by means of an inverse Pott...
Motivation: The de novo prediction of 3D protein structure is enjoying a period of dramatic improvem...