New indicators for assessing the quality of in silico produced biomolecules: the case study of the aptamer-Angiopoietin-2 complex

R. Cataldo, L. Giotta, M. Guascito, E. Alfinito
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Abstract

Computational procedures to foresee the 3D structure of aptamers are in continuous progress. They constitute a crucial input to research, mainly when the crystallographic counterpart of the structures in silico produced is not present. At now, many codes are able to perform structure and binding prediction, although their ability in scoring the results remains rather weak. In this paper, we propose a novel procedure to complement the ranking outcomes of free docking code, by applying it to a set of anti-angiopoietin aptamers, whose performances are known. We rank the in silico produced configurations, adopting a maximum likelihood estimate, based on their topological and electrical properties. From the analysis, two principal kinds of conformers are identified, whose ability to mimick the binding features of the natural receptor is discussed. The procedure is easily generalizable to many biological biomolecules, useful for increasing chances of success in designing high-specificity biosensors (aptasensors).
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评价硅合成生物分子质量的新指标:适体-血管生成素-2复合物的案例研究
预测适体三维结构的计算程序正在不断发展。它们构成了研究的关键输入,主要是在硅结构的晶体学对应物不存在的情况下。目前,许多代码都能够进行结构和绑定预测,但它们对结果的评分能力仍然很弱。在本文中,我们提出了一种新的程序来补充自由对接代码的排名结果,通过将其应用于一组抗血管生成素适配体,其性能已知。我们根据它们的拓扑和电学性质,采用最大似然估计,对硅生产的构型进行排序。从分析中,确定了两种主要的构象,并讨论了它们模仿天然受体结合特征的能力。该方法易于推广到许多生物分子,有助于增加设计高特异性生物传感器(适体传感器)的成功机会。
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