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Paper detail

Polynomial cases of the Discretizable Molecular Distance Geometry Problem

An important application of distance geometry to biochemistry studies the embeddings of the vertices of a weighted graph in the three-dimensional Euclidean space such that the edge weights are equal to the Euclidean distances between corresponding point pairs. When the graph represents the backbone of a protein, one can exploit the natural vertex order to show that the search space for feasible embeddings is discrete. The corresponding decision problem can be solved using a binary tree based search procedure which is exponential in the worst case. We discuss assumptions that bound the search tree width to a polynomial size.

preprint2011arXivOpen access
Leo LibertiCarlile LavorBenoit MassonAntonio Mucherino
Computational Engineering, Finance, and ScienceData Structures and AlgorithmsQuantitative MethodsComputational Geometry
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Leo LibertiCarlile LavorBenoit MassonAntonio Mucherino

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