In the past decade, a concerted effort to successfully capture specific tertiary packing interactions produced specific three-dimensional structures for many de novo designed proteins that are validated by nuclear magnetic resonance and/or X-ray crystallographic techniques. However, the success rate of computational design remains low. In this review, we provide an overview of experimentally validated, de novo designed proteins and compare four available programs, RosettaDesign, EGAD, Liang-Grishin, and RosettaDesign-SR, by assessing designed sequences computationally. Computational assessment includes the recovery of native sequences, the calculation of sizes of hydrophobic patches and total solvent-accessible surface area, and the predict...
Rapid progress has been made in the field of protein design over the past couple of years. Computati...
Protein design aims at designing new protein molecules of desired structure and functionality. One o...
Automated methodologies to design synthetic proteins from first principles use energy computations t...
In the past decade, a concerted effort to successfully capture specific tertiary packing interaction...
Motivation: Despite many successes, de novo protein design is not yet a solved problem as its succes...
Several groups have applied and experimentally tested systematic, quan-titative methods to protein d...
International audienceProtein design has many applications not only in biotechnology but also in bas...
International audienceProtein design aims at conceiving new proteins or modifying existing ones to o...
AbstractRecent years have seen the first applications of computational protein design to generate no...
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...
The first fully automated design and experimental validation of a novel sequence for an entire prote...
Proteins are typically represented by discrete atomic coordinates providing an accessible framework ...
Computational protein design method has been developed to understand the underling physicochemical p...
Designing a protein sequence that will fold into a predefined structure is of both practical and fun...
Rapid progress has been made in the field of protein design over the past couple of years. Computati...
Protein design aims at designing new protein molecules of desired structure and functionality. One o...
Automated methodologies to design synthetic proteins from first principles use energy computations t...
In the past decade, a concerted effort to successfully capture specific tertiary packing interaction...
Motivation: Despite many successes, de novo protein design is not yet a solved problem as its succes...
Several groups have applied and experimentally tested systematic, quan-titative methods to protein d...
International audienceProtein design has many applications not only in biotechnology but also in bas...
International audienceProtein design aims at conceiving new proteins or modifying existing ones to o...
AbstractRecent years have seen the first applications of computational protein design to generate no...
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...
The first fully automated design and experimental validation of a novel sequence for an entire prote...
Proteins are typically represented by discrete atomic coordinates providing an accessible framework ...
Computational protein design method has been developed to understand the underling physicochemical p...
Designing a protein sequence that will fold into a predefined structure is of both practical and fun...
Rapid progress has been made in the field of protein design over the past couple of years. Computati...
Protein design aims at designing new protein molecules of desired structure and functionality. One o...
Automated methodologies to design synthetic proteins from first principles use energy computations t...