IKERBASQUE, Basque Foundation for Science, 48011, Bilbao, Spain.
Curr Top Med Chem. 2013;13(5):619-41. doi: 10.2174/1568026611313050006.
Reducing costs in terms of time, animal sacrifice, and material resources with computational methods has become a promising goal in Medicinal, Biological, Physical and Organic Chemistry. There are many computational techniques that can be used in this sense. In any case, almost all these methods focus on few fundamental aspects including: type (1) methods to quantify the molecular structure, type (2) methods to link the structure with the biological activity, and others. In particular, MARCH-INSIDE (MI), acronym for Markov Chain Invariants for Networks Simulation and Design, is a well-known method for QSAR analysis useful in step (1). In addition, the bio-inspired Artificial-Intelligence (AI) algorithms called Artificial Neural Networks (ANNs) are among the most powerful type (2) methods. We can combine MI with ANNs in order to seek QSAR models, a strategy which is called herein MIANN (MI & ANN models). One of the first applications of the MIANN strategy was in the development of new QSAR models for drug discovery. MIANN strategy has been expanded to the QSAR study of proteins, protein-drug interactions, and protein-protein interaction networks. In this paper, we review for the first time many interesting aspects of the MIANN strategy including theoretical basis, implementation in web servers, and examples of applications in Medicinal and Biological chemistry. We also report new applications of the MIANN strategy in Medicinal chemistry and the first examples in Physical and Organic Chemistry, as well. In so doing, we developed new MIANN models for several self-assembly physicochemical properties of surfactants and large reaction networks in organic synthesis. In some of the new examples we also present experimental results which were not published up to date.
用计算方法来降低时间、动物牺牲和物质资源方面的成本,已经成为医学、生物、物理和有机化学领域的一个有前途的目标。在这方面可以使用许多计算技术。在任何情况下,几乎所有这些方法都集中在几个基本方面,包括:(1)量化分子结构的方法类型,(2)将结构与生物活性联系起来的方法类型,以及其他方法。特别是,MARCH-INSIDE(MI),是用于 QSAR 分析的 Markov 链不变量的首字母缩写,是步骤(1)中有用的 QSAR 分析的知名方法。此外,称为人工神经网络(ANNs)的生物启发式人工智能(AI)算法是最强大的(2)方法类型之一。我们可以将 MI 与 ANNs 结合起来寻找 QSAR 模型,这种策略在这里称为 MIANN(MI 和 ANN 模型)。MIANN 策略的最早应用之一是开发用于药物发现的新 QSAR 模型。MIANN 策略已扩展到蛋白质、蛋白质-药物相互作用和蛋白质-蛋白质相互作用网络的 QSAR 研究。在本文中,我们首次回顾了 MIANN 策略的许多有趣方面,包括理论基础、在网络服务器中的实现以及在医学和生物学化学中的应用示例。我们还报告了 MIANN 策略在医学化学中的新应用以及物理和有机化学中的第一个示例。通过这样做,我们为几个表面活性剂的自组装物理化学性质和有机合成中的大反应网络开发了新的 MIANN 模型。在一些新的示例中,我们还提供了迄今为止尚未发表的实验结果。
