Automated methodologies to design synthetic proteins from first principles use energy computations to estimate the ability of the sequences to adopt a targeted structure. This approach is still far from systematically producing native-like sequences, due, most likely, to inaccuracies when modeling the interactions between the protein and its aqueous environment. This is particularly challenging when engineering small protein domains (with less polar pair interactions than with the solvent). We have re-designed a three-helix bundle, domain B, using a fixed backbone and a four amino acid alphabet. We have enlarged the rotamer library with conformers that increase the weight of electrostatic interactions within the design process without alter...
The plasticity of naturally occurring protein structures, which can change shape considerably in res...
Proteins are composed of a unique sequence of amino acids, whose order guides a protein to adopt its...
Artificial proteins potentially barrier free in the folding kinetics are approached computationally ...
Automated methodologies to design synthetic proteins from first principles use energy computations t...
International audienceProtein design has many applications not only in biotechnology but also in bas...
International audienceComputational protein design will continue to improve as new implementations a...
Several groups have applied and experimentally tested systematic, quan-titative methods to protein d...
International audienceProtein design aims at conceiving new proteins or modifying existing ones to o...
Computational protein design method has been developed to understand the underling physicochemical p...
Protein design critically tests our understanding of principles that specify the protein folded stat...
Computational protein design aims to predict protein sequences that will fold into a given three-dim...
The current methodology in computational de novo protein design involves two general steps: (1) The...
Motivation: Despite many successes, de novo protein design is not yet a solved problem as its succes...
Protein design is motivated by the desire to study, understand, and exploit the versatile structures...
Over the past two decades the field of computational protein design has produced striking successes,...
The plasticity of naturally occurring protein structures, which can change shape considerably in res...
Proteins are composed of a unique sequence of amino acids, whose order guides a protein to adopt its...
Artificial proteins potentially barrier free in the folding kinetics are approached computationally ...
Automated methodologies to design synthetic proteins from first principles use energy computations t...
International audienceProtein design has many applications not only in biotechnology but also in bas...
International audienceComputational protein design will continue to improve as new implementations a...
Several groups have applied and experimentally tested systematic, quan-titative methods to protein d...
International audienceProtein design aims at conceiving new proteins or modifying existing ones to o...
Computational protein design method has been developed to understand the underling physicochemical p...
Protein design critically tests our understanding of principles that specify the protein folded stat...
Computational protein design aims to predict protein sequences that will fold into a given three-dim...
The current methodology in computational de novo protein design involves two general steps: (1) The...
Motivation: Despite many successes, de novo protein design is not yet a solved problem as its succes...
Protein design is motivated by the desire to study, understand, and exploit the versatile structures...
Over the past two decades the field of computational protein design has produced striking successes,...
The plasticity of naturally occurring protein structures, which can change shape considerably in res...
Proteins are composed of a unique sequence of amino acids, whose order guides a protein to adopt its...
Artificial proteins potentially barrier free in the folding kinetics are approached computationally ...