AbstractThis paper presents a novel guided search strategy Extremal Optimization (EO) with constrained structure for protein folding. In the proposed algorithm, evaluating the fitness of each monomer in an amino-acid sequence is introduced to guide the improvement of the conformation. In addition, a constrained structure is proposed to reduce the complexity of algorithm. We demonstrate that EO can be applied successfully to the protein folding problem. The results show that the algorithm can find the best solutions so far for the listed benchmarks. Within the achieved results, the search converged rapidly and efficiently
A new method to develop low-energy folding routes for proteins is presented. The novel aspect of the...
Abstract- A problem of immense importance in computational biology is the determination of the funct...
Abstract: Key problems in computational biology, including protein and RNA folding and drug docking,...
AbstractThis paper presents a novel guided search strategy Extremal Optimization (EO) with constrain...
Abstract: We adapt a combinatorial optimization algorithm, extremal optimization (EO), for the searc...
Abstract Background The protein folding problem remains one of the most challenging open problems in...
This research shows optimization approaches to protein folding. The protein folding problem is to pr...
The notion of optimization is inherent in protein design. A long linear chain of twenty types of ami...
One of the grand challenges in computational biology is the prediction of the three-dimensional stru...
Under appropriate physiological conditions, proteins fold into their biologically active native conf...
The paper describes a constraint-based solution to the protein folding problem on face-centered cubi...
We developed a combinatorial search algorithm which we call best profile search for the global optim...
During evolution, the effective interactions between residues in a protein can be adjusted through m...
The paper describes a constraint-based solution to the protein folding problem on face-centered cubi...
It has been proposed that proteins fold by a process called "Zipping and Assembly" (Z&A). Zi...
A new method to develop low-energy folding routes for proteins is presented. The novel aspect of the...
Abstract- A problem of immense importance in computational biology is the determination of the funct...
Abstract: Key problems in computational biology, including protein and RNA folding and drug docking,...
AbstractThis paper presents a novel guided search strategy Extremal Optimization (EO) with constrain...
Abstract: We adapt a combinatorial optimization algorithm, extremal optimization (EO), for the searc...
Abstract Background The protein folding problem remains one of the most challenging open problems in...
This research shows optimization approaches to protein folding. The protein folding problem is to pr...
The notion of optimization is inherent in protein design. A long linear chain of twenty types of ami...
One of the grand challenges in computational biology is the prediction of the three-dimensional stru...
Under appropriate physiological conditions, proteins fold into their biologically active native conf...
The paper describes a constraint-based solution to the protein folding problem on face-centered cubi...
We developed a combinatorial search algorithm which we call best profile search for the global optim...
During evolution, the effective interactions between residues in a protein can be adjusted through m...
The paper describes a constraint-based solution to the protein folding problem on face-centered cubi...
It has been proposed that proteins fold by a process called "Zipping and Assembly" (Z&A). Zi...
A new method to develop low-energy folding routes for proteins is presented. The novel aspect of the...
Abstract- A problem of immense importance in computational biology is the determination of the funct...
Abstract: Key problems in computational biology, including protein and RNA folding and drug docking,...