A Probabilistic Approach in the Search Space of the Molecular Distance Geometry Problem.

IF 5.6 2区化学 Q1 CHEMISTRY, MEDICINAL

Journal of Chemical Information and Modeling Pub Date : 2024-11-13 DOI:10.1021/acs.jcim.4c00427

Rômulo S Marques, Michael Souza, Fernando Batista, Miguel Gonçalves, Carlile Lavor

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引用次数: 0

Abstract

The discovery of the three-dimensional shape of protein molecules using interatomic distance information from nuclear magnetic resonance (NMR) can be modeled as a discretizable molecular distance geometry problem (DMDGP). Due to its combinatorial characteristics, the problem is conventionally solved in the literature as a depth-first search in a binary tree. In this work, we introduce a new search strategy, which we call frequency-based search (FBS), that for the first time utilizes geometric information contained in the protein data bank (PDB). We encode the geometric configurations of 14,382 molecules derived from NMR experiments present in the PDB into binary strings. The obtained results show that the sample space of the binary strings extracted from the PDB does not follow a uniform distribution. Furthermore, we compare the runtime of the symmetry-based build-Up (SBBU) algorithm (the most efficient method in the literature to solve the DMDGP) combined with FBS and the depth-first search (DFS) in finding a solution, ascertaining that FBS performs better in about 70% of the cases.

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分子距离几何问题搜索空间中的概率方法。

利用来自核磁共振（NMR）的原子间距离信息发现蛋白质分子的三维形状，可以模拟为可离散分子距离几何问题（DMDGP）。由于其组合特征，文献中通常以二叉树中的深度优先搜索来解决该问题。在这项工作中，我们引入了一种新的搜索策略，我们称之为基于频率的搜索（FBS），它首次利用了蛋白质数据库（PDB）中包含的几何信息。我们将 PDB 中 14,382 个核磁共振实验分子的几何构型编码成二进制字符串。结果表明，从 PDB 中提取的二进制字符串的样本空间并不是均匀分布的。此外，我们还比较了基于对称性的建立算法（SBBU）（文献中解决 DMDGP 的最有效方法）与 FBS 和深度优先搜索（DFS）相结合寻找解决方案的运行时间，结果发现 FBS 在大约 70% 的情况下表现更好。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Chemical Information and Modeling 化学-化学综合

CiteScore

9.80

自引率

10.70%

发文量

529

审稿时长

1.4 months

期刊介绍： The Journal of Chemical Information and Modeling publishes papers reporting new methodology and/or important applications in the fields of chemical informatics and molecular modeling. Specific topics include the representation and computer-based searching of chemical databases, molecular modeling, computer-aided molecular design of new materials, catalysts, or ligands, development of new computational methods or efficient algorithms for chemical software, and biopharmaceutical chemistry including analyses of biological activity and other issues related to drug discovery. Astute chemists, computer scientists, and information specialists look to this monthly’s insightful research studies, programming innovations, and software reviews to keep current with advances in this integral, multidisciplinary field. As a subscriber you’ll stay abreast of database search systems, use of graph theory in chemical problems, substructure search systems, pattern recognition and clustering, analysis of chemical and physical data, molecular modeling, graphics and natural language interfaces, bibliometric and citation analysis, and synthesis design and reactions databases.