The advent of high-throughput technologies and the concurrent advances in information sciences have led to a data revolution in biology. This revolution is most significant in molecular biology, with an increase in the number and scale of the “omics” projects over the last decade. Genomics projects, for example, have produced impressive advances in our knowledge of the information concealed into genomes, from the many genes that encode for the proteins that are responsible for most if not all cellular functions, to the noncoding regions that are now known to provide regulatory functions. Proteomics initiatives help to decipher the role of post-translation modifications on the protein structures and provide maps of protein-protein interactio...
Proteins play crucial roles in a variety of biological processes. While we know that their amino aci...
International audienceVisualization of molecular structures is one of the most common tasks carried ...
Proteins perform most of biological functions. The ultimate approach to understand protein functions...
The advent of high-throughput technologies and the concurrent advances in information sciences have ...
Biology provides some of the most important and complex scientific challenges of our time. With the ...
We present a scheme for the classification of 3487 non-redundant protein structures into 1207 non-hi...
Computational protein design is a transformative field with exciting prospects for advancing both ba...
Fifty years ago, the structures of the alpha-helix, the beta-sheet, the alpha-helical coiled coil an...
By mid-2007, the three-dimensional (3D) structures of some 45,000 proteins have been solved, over a ...
Computational biology has made powerful advances. Among these, trends in human health have been unco...
BACKGROUND:Identification of the structural domains of proteins is important for our understanding o...
Detailed knowledge of the three-dimensional structures of biological molecules has had an enormous i...
The space of possible protein structures appears vast and continuous, and the relationship between p...
Proteins are macromolecules that serve a cell's myriad processes and functions in all living organis...
The book presents a class of new results in molecular biology for which topological methods and idea...
Proteins play crucial roles in a variety of biological processes. While we know that their amino aci...
International audienceVisualization of molecular structures is one of the most common tasks carried ...
Proteins perform most of biological functions. The ultimate approach to understand protein functions...
The advent of high-throughput technologies and the concurrent advances in information sciences have ...
Biology provides some of the most important and complex scientific challenges of our time. With the ...
We present a scheme for the classification of 3487 non-redundant protein structures into 1207 non-hi...
Computational protein design is a transformative field with exciting prospects for advancing both ba...
Fifty years ago, the structures of the alpha-helix, the beta-sheet, the alpha-helical coiled coil an...
By mid-2007, the three-dimensional (3D) structures of some 45,000 proteins have been solved, over a ...
Computational biology has made powerful advances. Among these, trends in human health have been unco...
BACKGROUND:Identification of the structural domains of proteins is important for our understanding o...
Detailed knowledge of the three-dimensional structures of biological molecules has had an enormous i...
The space of possible protein structures appears vast and continuous, and the relationship between p...
Proteins are macromolecules that serve a cell's myriad processes and functions in all living organis...
The book presents a class of new results in molecular biology for which topological methods and idea...
Proteins play crucial roles in a variety of biological processes. While we know that their amino aci...
International audienceVisualization of molecular structures is one of the most common tasks carried ...
Proteins perform most of biological functions. The ultimate approach to understand protein functions...