Application of automated network generation for retrosynthetic planning of potential corrosion inhibitors†

IF 3.2 3区 工程技术 Q2 CHEMISTRY, PHYSICAL Molecular Systems Design & Engineering Pub Date : 2023-12-18 DOI:10.1039/D3ME00162H
Lauren M. Lopez, Quan Zhang, Orion Dollar, Jim Pfaendtner, Brent H. Shanks and Linda J. Broadbelt
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Abstract

Retrosynthesis is the process of designing chemical pathways from a set of reactants to a set of desired products. However, when both the pools of potential reactants and products grow to a substantial size, this becomes infeasible without the aid of computational tools. This work uses Pickaxe, an automated network generation tool, to perform computational retrosynthesis on a pool of 297 bioprivileged candidate molecules as reactants and 44 003 potential corrosion inhibitors that were generated by a variational autoencoder. Unlike typical approaches in computational synthesis planning, the use of automated network generation allows flexibility in pathways and starting material beyond those that are documented. This work starts by replicating known pathways to corrosion inhibitors from a single bioprivileged candidate molecule and applying the constituent reaction families to the entirety of the reactant pool and concludes by generating networks with a more extensive reaction family list and two sets of co-reactants, or “helper molecules”. Network size, both from the perspective of total reactions enacted and total products formed, was analyzed.

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应用自动网络生成技术对潜在缓蚀剂进行逆合成规划
逆合成是设计从一组反应物到一组所需产物的化学路径的过程。然而,当潜在的反应物和产物库都增长到相当大的规模时,如果没有计算工具的帮助,这种方法就变得不可行了。这项研究利用自动网络生成工具 Pickaxe,对由 297 个生物候选分子组成的反应物池和 44,003 个潜在腐蚀抑制剂进行了计算逆合成,这些潜在腐蚀抑制剂是由变异自动编码器生成的。与计算合成规划中的典型方法不同,使用自动网络生成技术可以灵活地使用已记录的路径和起始材料。这项工作首先复制了从单一候选生物分子到腐蚀抑制剂的已知途径,并将组成反应系列应用于整个反应物池,最后利用更广泛的反应系列列表和两组共反应物或 "辅助分子 "生成网络。从已进行的总反应和形成的总产物的角度分析了网络的规模。
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来源期刊
Molecular Systems Design & Engineering
Molecular Systems Design & Engineering Engineering-Biomedical Engineering
CiteScore
6.40
自引率
2.80%
发文量
144
期刊介绍: Molecular Systems Design & Engineering provides a hub for cutting-edge research into how understanding of molecular properties, behaviour and interactions can be used to design and assemble better materials, systems, and processes to achieve specific functions. These may have applications of technological significance and help address global challenges.
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Back cover Back cover Dual responsive fluorescence switching of organohydrogel towards base/acid† Back cover Graph-based networks for accurate prediction of ground and excited state molecular properties from minimal features†
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