In biology, the subject of protein structure prediction is of continued interest, not only to keep charting the molecular map of the living cell, but also to design proteins with new functions. Given a reference protein and its corresponding tertiary (3D) structure, this work is concerned with finding 1) the most diverse nucleotide sequences which 2) produce very similar 3D structures
The evolutionary trajectory of a protein through sequence space is constrained by its function. Coll...
Evolutionary algorithms have been successfully applied to a variety of molecular structure predictio...
Proteins are the fundamental machinery that enables the functions of life. It is critical to underst...
In biology, the subject of protein structure prediction is of continued interest, not only to keep c...
In biology, the subject of protein structure prediction is of continued interest, not only to chart ...
International audienceIn biology, the subject of protein structure prediction is of continued intere...
Protein Structure Prediction (PSP) problem is to determine the three-dimensional structure of a prot...
Optimisation problems pervade structural bioinformatics. In this review, we describe recent work add...
Protein structure prediction (PSP) problem is a multimodal problem that can be tackled efficiently b...
A memetic version between an evolutionary algorithm (differential evolution) and the local search pr...
Proteins are involved in many cell activities (e.g., molecular transport, mechanical functions, mess...
Analysis of completed genomes from a number of organisms reveal that about half of all gene products...
The structures of nearly a thousand sequence-unique proteins represent only 300 different 3D shapes,...
Abstract. Predicting the 3D native conformation of a protein given the amino acid sequence is known ...
Proteins evolve through a process of divergence from common ancestors and subsequent selection, and ...
The evolutionary trajectory of a protein through sequence space is constrained by its function. Coll...
Evolutionary algorithms have been successfully applied to a variety of molecular structure predictio...
Proteins are the fundamental machinery that enables the functions of life. It is critical to underst...
In biology, the subject of protein structure prediction is of continued interest, not only to keep c...
In biology, the subject of protein structure prediction is of continued interest, not only to chart ...
International audienceIn biology, the subject of protein structure prediction is of continued intere...
Protein Structure Prediction (PSP) problem is to determine the three-dimensional structure of a prot...
Optimisation problems pervade structural bioinformatics. In this review, we describe recent work add...
Protein structure prediction (PSP) problem is a multimodal problem that can be tackled efficiently b...
A memetic version between an evolutionary algorithm (differential evolution) and the local search pr...
Proteins are involved in many cell activities (e.g., molecular transport, mechanical functions, mess...
Analysis of completed genomes from a number of organisms reveal that about half of all gene products...
The structures of nearly a thousand sequence-unique proteins represent only 300 different 3D shapes,...
Abstract. Predicting the 3D native conformation of a protein given the amino acid sequence is known ...
Proteins evolve through a process of divergence from common ancestors and subsequent selection, and ...
The evolutionary trajectory of a protein through sequence space is constrained by its function. Coll...
Evolutionary algorithms have been successfully applied to a variety of molecular structure predictio...
Proteins are the fundamental machinery that enables the functions of life. It is critical to underst...