Canonicalizing BigSMILES for Polymers with Defined Backbones

IF 4.7 Q1 POLYMER SCIENCE ACS polymers Au Pub Date : 2022-10-14 DOI:10.1021/acspolymersau.2c00009
Tzyy-Shyang Lin, Nathan J. Rebello, Guang-He Lee, Melody A. Morris and Bradley D. Olsen*, 
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引用次数: 9

Abstract

BigSMILES, a line notation for encapsulating the molecular structure of stochastic molecules such as polymers, was recently proposed as a compact and readable solution for writing macromolecules. While BigSMILES strings serve as useful identifiers for reconstructing the molecular connectivity for polymers, in general, BigSMILES allows the same polymer to be codified into multiple equally valid representations. Having a canonicalization scheme that eliminates the multiplicity would be very useful in reducing time-intensive tasks like structural comparison and molecular search into simple string-matching tasks. Motivated by this, in this work, two strategies for deriving canonical representations for linear polymers are proposed. In the first approach, a canonicalization scheme is proposed to standardize the expression of BigSMILES stochastic objects, thereby standardizing the expression of overall BigSMILES strings. In the second approach, an analogy between formal language theory and the molecular ensemble of polymer molecules is drawn. Linear polymers can be converted into regular languages, and the minimal deterministic finite automaton uniquely associated with each prescribed language is used as the basis for constructing the unique text identifier associated with each distinct polymer. Overall, this work presents algorithms to convert linear polymers into unique structure-based text identifiers. The derived identifiers can be readily applied in chemical information systems for polymers and other polymer informatics applications.

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定义骨架聚合物的BigSMILES规范化
BigSMILES是一种用于封装随机分子(如聚合物)分子结构的行表示法,最近被提出作为一种紧凑且可读的大分子书写解决方案。虽然BigSMILES字符串是用于重建聚合物分子连通性的有用标识符,但通常,BigSMILES允许将相同的聚合物编码为多个同等有效的表示。拥有一个消除多重性的规范化方案将非常有助于将耗时的任务(如结构比较和分子搜索)减少为简单的字符串匹配任务。基于此,本文提出了两种线性聚合物正则表示的推导策略。在第一种方法中,提出了一种规范化方案来标准化BigSMILES随机对象的表达,从而标准化整个BigSMILES字符串的表达。在第二种方法中,将形式语言理论与聚合物分子的分子系综进行了类比。线性聚合物可以转换为规则语言,并且使用与每种规定语言唯一相关的最小确定性有限自动机作为构建与每种不同聚合物相关的唯一文本标识符的基础。总的来说,这项工作提出了将线性聚合物转换为唯一的基于结构的文本标识符的算法。衍生的标识符可以很容易地应用于聚合物的化学信息系统和其他聚合物信息学应用。
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