In Computational Protein Design (CPD), assuming a rigid backbone and amino-acid rotamer library, the problem of finding a sequence with an optimal conformation is NP-hard. In this paper, using Dunbrack’s rotamer library and Talaris2014 decomposable energy function, we use an exact deterministic method combining branch and bound, arc consistency, and tree-decomposition to provenly identify the global minimum energy sequence-conformation on full-redesign problems, defining search spaces of size up to 10<sup>234</sup>. This is achieved on a single core of a standard computing server, requiring a maximum of 66GB RAM. A variant of the algorithm is able to exhaustively enumerate all sequence-conformations within an energy threshold of the optimum...
International audienceComputational protein design (CPD) aims to predict amino acid sequences that f...
Optimizing amino acid conformation and identity is a central problem in computational protein design...
One of the main challenges in computational protein design (CPD) is the huge size of the protein seq...
International audienceIn Computational Protein Design (CPD), assuming a rigid backbone and amino-aci...
One main challenge in Computational Protein Design (CPD) lies in the exploration of the amino-acid s...
International audienceProtein design aims at conceiving new proteins or modifying existing ones to o...
Computational protein design (CPD) is an important tool for biotechnology still under development. E...
Proteins are chains of simple molecules called amino acids. The three-dimensional shape of a protein...
We present a detailed study of the performance and reliability of design procedures based on ene...
In this paper, we present numerical evidence that supports the notion of minimization in the seque...
Motivation: The main challenge for structure-based computational protein design (CPD) remains the co...
We develop and implement a brand new method for protein design. Our design method utilizes advances ...
International audienceMOTIVATION:Structure-based Computational Protein design (CPD) plays a critical...
Abstract: We adapt a combinatorial optimization algorithm, extremal optimization (EO), for the searc...
In this paper, we present numerical evidence that supports the notion of minimization in the sequenc...
International audienceComputational protein design (CPD) aims to predict amino acid sequences that f...
Optimizing amino acid conformation and identity is a central problem in computational protein design...
One of the main challenges in computational protein design (CPD) is the huge size of the protein seq...
International audienceIn Computational Protein Design (CPD), assuming a rigid backbone and amino-aci...
One main challenge in Computational Protein Design (CPD) lies in the exploration of the amino-acid s...
International audienceProtein design aims at conceiving new proteins or modifying existing ones to o...
Computational protein design (CPD) is an important tool for biotechnology still under development. E...
Proteins are chains of simple molecules called amino acids. The three-dimensional shape of a protein...
We present a detailed study of the performance and reliability of design procedures based on ene...
In this paper, we present numerical evidence that supports the notion of minimization in the seque...
Motivation: The main challenge for structure-based computational protein design (CPD) remains the co...
We develop and implement a brand new method for protein design. Our design method utilizes advances ...
International audienceMOTIVATION:Structure-based Computational Protein design (CPD) plays a critical...
Abstract: We adapt a combinatorial optimization algorithm, extremal optimization (EO), for the searc...
In this paper, we present numerical evidence that supports the notion of minimization in the sequenc...
International audienceComputational protein design (CPD) aims to predict amino acid sequences that f...
Optimizing amino acid conformation and identity is a central problem in computational protein design...
One of the main challenges in computational protein design (CPD) is the huge size of the protein seq...