Rafael Alves scite author profile

BackgroundThe determination of protein structures satisfying distance constraints is an important problem in structural biology. Whereas the most common method currently employed is simulated annealing, there have been other methods previously proposed in the literature. Most of them, however, are designed to find one solution only.ResultsIn order to explore exhaustively the feasible conformational space, we propose here an interval Branch-and-Prune algorithm (iBP) to solve the Distance Geometry Problem (DGP) associated to protein structure determination. This algorithm is based on a discretization of the problem obtained by recursively constructing a search space having the structure of a tree, and by verifying whether the generated atomic positions are feasible or not by making use of pruning devices. The pruning devices used here are directly related to features of protein conformations.ConclusionsWe described the new algorithm iBP to generate protein conformations satisfying distance constraints, that would potentially allows a systematic exploration of the conformational space. The algorithm iBP has been applied on three α-helical peptides.

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Clifford Algebra and the Discretizable Molecular Distance Geometry Problem

Alves

Figueiredo

Petraglia

et al. 2015

Adv. Appl. Clifford Algebras

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Geometric Algebra to Model Uncertainties in the Discretizable Molecular Distance Geometry Problem

Alves

Lavor

2016

Adv. Appl. Clifford Algebras

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Rafael Alves

An algorithm to enumerate all possible protein conformations verifying a set of distance constraints

Clifford Algebra and the Discretizable Molecular Distance Geometry Problem

Geometric Algebra to Model Uncertainties in the Discretizable Molecular Distance Geometry Problem

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