Motivation: Despite many successes, de novo protein design is not yet a solved problem as its success rate remains low. The low success rate is largely because we do not yet have an accurate energy function for describing the solvent-mediated interaction between amino acid residues in a protein chain. Previous studies showed that an energy function based on series expansions with its parameters optimized for side-chain and loop conformations can lead to one of the most accurate methods for side chain (OSCAR) and loop prediction (LEAP). Following the same strategy, we developed an energy function based on series expansions with the parameters optimized in four separate stages (recovering single-residue types without and with orientation depe...
Automated methodologies to design synthetic proteins from first principles use energy computations t...
The current methodology in computational de novo protein design involves two general steps: (1) The...
The two major challenges in protein structure prediction problems are (1) the lack of an accurate en...
In the past decade, a concerted effort to successfully capture specific tertiary packing interaction...
International audienceProtein design aims at conceiving new proteins or modifying existing ones to o...
International audienceProtein design has many applications not only in biotechnology but also in bas...
Despite having irregular structure, protein loops often adopt specific conformations that are critic...
Computational protein design aims to predict protein sequences that will fold into a given three-dim...
We present a detailed study of the performance and reliability of design procedures based on ene...
International audienceComputational protein design will continue to improve as new implementations a...
Recent successes in protein design have illustrated the promise of computational approaches. These m...
Several groups have applied and experimentally tested systematic, quan-titative methods to protein d...
Automated methodologies to design synthetic proteins from first principles use energy computations t...
We demonstrate the performance of a new implicit solvent model on native protein loop prediction fro...
We present a detailed study of the performance and reliability of design procedures based on energy ...
Automated methodologies to design synthetic proteins from first principles use energy computations t...
The current methodology in computational de novo protein design involves two general steps: (1) The...
The two major challenges in protein structure prediction problems are (1) the lack of an accurate en...
In the past decade, a concerted effort to successfully capture specific tertiary packing interaction...
International audienceProtein design aims at conceiving new proteins or modifying existing ones to o...
International audienceProtein design has many applications not only in biotechnology but also in bas...
Despite having irregular structure, protein loops often adopt specific conformations that are critic...
Computational protein design aims to predict protein sequences that will fold into a given three-dim...
We present a detailed study of the performance and reliability of design procedures based on ene...
International audienceComputational protein design will continue to improve as new implementations a...
Recent successes in protein design have illustrated the promise of computational approaches. These m...
Several groups have applied and experimentally tested systematic, quan-titative methods to protein d...
Automated methodologies to design synthetic proteins from first principles use energy computations t...
We demonstrate the performance of a new implicit solvent model on native protein loop prediction fro...
We present a detailed study of the performance and reliability of design procedures based on energy ...
Automated methodologies to design synthetic proteins from first principles use energy computations t...
The current methodology in computational de novo protein design involves two general steps: (1) The...
The two major challenges in protein structure prediction problems are (1) the lack of an accurate en...