Computational protein design (CPD) aims to predict amino acid sequences that fold to specific structures and perform desired functions. CPD depends on a rotamer library, an energy function, and an algorithm to search the sequence/conformation space. Variable neighborhood search (VNS) with cost function networks is a powerful framework that can provide tight upper bounds on the global minimum energy. We propose a new CPD heuristic based on VNS in which a subset of the solution space (a “neighborhood”) is explored, whose size is gradually increased with a dedicated probabilistic heuristic. The algorithm was tested on 99 protein designs with fixed backbones involving nine proteins from the SH2, SH3, and PDZ families. The number of mutating pos...
International audienceStructure-based computational protein design (CPD) refers to the problem of fi...
International audienceMOTIVATION:Structure-based Computational Protein design (CPD) plays a critical...
In Computational Protein Design (CPD), assuming a rigid backbone and amino-acid rotamer library, the...
International audienceComputational protein design (CPD) aims to predict amino acid sequences that f...
Computational protein design (CPD) is an important tool for biotechnology still under development. E...
International audienceProteins are chains of simple molecules called amino acids. The sequence of am...
Proteins are chains of simple molecules called amino acids. The three-dimensional shape of a protein...
Motivation: The main challenge for structure-based computational protein design (CPD) remains the co...
Proteins are chains of simple molecules called amino acids. The three-dimensional shape of a protein...
Abstract. Proteins are chains of simple molecules called amino acids. The three-dimensional shape of...
One of the main challenges in computational protein design (CPD) is the huge size of the protein seq...
One main challenge in Computational Protein Design (CPD) lies in the exploration of the amino-acid s...
International audienceProteins are the main active molecules of life. Although natural proteins play...
International audienceIn Computational Protein Design (CPD), assuming a rigid backbone and amino-aci...
International audienceStructure-based computational protein design (CPD) refers to the problem of fi...
International audienceMOTIVATION:Structure-based Computational Protein design (CPD) plays a critical...
In Computational Protein Design (CPD), assuming a rigid backbone and amino-acid rotamer library, the...
International audienceComputational protein design (CPD) aims to predict amino acid sequences that f...
Computational protein design (CPD) is an important tool for biotechnology still under development. E...
International audienceProteins are chains of simple molecules called amino acids. The sequence of am...
Proteins are chains of simple molecules called amino acids. The three-dimensional shape of a protein...
Motivation: The main challenge for structure-based computational protein design (CPD) remains the co...
Proteins are chains of simple molecules called amino acids. The three-dimensional shape of a protein...
Abstract. Proteins are chains of simple molecules called amino acids. The three-dimensional shape of...
One of the main challenges in computational protein design (CPD) is the huge size of the protein seq...
One main challenge in Computational Protein Design (CPD) lies in the exploration of the amino-acid s...
International audienceProteins are the main active molecules of life. Although natural proteins play...
International audienceIn Computational Protein Design (CPD), assuming a rigid backbone and amino-aci...
International audienceStructure-based computational protein design (CPD) refers to the problem of fi...
International audienceMOTIVATION:Structure-based Computational Protein design (CPD) plays a critical...
In Computational Protein Design (CPD), assuming a rigid backbone and amino-acid rotamer library, the...