NMR Protein Structure Calculation and Sphere Intersections

Q2 Mathematics

Computational and Mathematical Biophysics Pub Date : 2020-01-01 DOI:10.1515/cmb-2020-0103

C. Lavor, R. Alves, M. Souza, Luis Aragón José

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引用次数: 5

Abstract

Abstract Nuclear Magnetic Resonance (NMR) experiments can be used to calculate 3D protein structures and geometric properties of protein molecules allow us to solve the problem iteratively using a combinatorial method, called Branch-and-Prune (BP). The main step of BP algorithm is to intersect three spheres centered at the positions for atoms i − 3, i − 2, i − 1, with radii given by the atomic distances di−3,i, di−2,i, di−1,i, respectively, to obtain the position for atom i. Because of uncertainty in NMR data, some of the distances di−3,i should be represented as interval distances [ d_i-3,i,d¯i-3,i {\underline{d}_{i - 3,i}},{\bar d_{i - 3,i}} ], where d_i-3,i≤di-3,i≤d¯i-3,i {\underline{d}_{i - 3,i}} \le {d_{i - 3,i}} \le {\bar d_{i - 3,i}} . In the literature, an extension of the BP algorithm was proposed to deal with interval distances, where the idea is to sample values from [ d_i-3,i,d¯i-3,i {\underline{d}_{i - 3,i}},{\bar d_{i - 3,i}} ]. We present a new method, based on conformal geometric algebra, to reduce the size of [ d_i-3,i,d¯i-3,i {\underline{d}_{i - 3,i}},{\bar d_{i - 3,i}} ], before the sampling process. We also compare it with another approach proposed in the literature.

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核磁共振蛋白质结构计算和球体相交

摘要核磁共振(NMR)实验可以用于计算蛋白质的三维结构和蛋白质分子的几何性质，使我们能够使用一种称为分支-剪枝(BP)的组合方法迭代求解问题。BP算法的主要步骤是将以原子i−3、i−2、i−1为中心的三个球体与原子距离di−3、i、di−2、i、di−1、i的半径相交，得到原子i的位置。由于核磁共振数据的不确定性，一些距离di−3、i应表示为区间距离[d＿i-3,i,d¯i-3,i {\underline{d} ＿i-3,i, {}}{\bar d＿i-3,i]。其中d＿i-3,i≤di-3,i≤d¯i-3,i {}}{\underline{d} ＿i-3,i {}}\le d＿i-3,i {{}}\le{\bar d＿i-3,i。在文献中，提出了一种BP算法的扩展来处理间隔距离，其思想是从[d＿i-3,i,d¯i-3,i {}}{\underline{d} ＿i-3,i, {}}{\bar d＿i-3,i]中采样值。提出了一种基于共形几何代数的方法，在采样前减小[d＿i-3,i,d¯i-3,i {}}{\underline{d} ＿i-3,i, {}}{\bar d＿i-3,i]的大小。我们还将其与文献中提出的另一种方法进行了比较。{}}

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