Mapping active allosteric loci SARS-CoV Spike Proteins by means of Protein Contact Networks

L. Paola, A. Giuliani
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引用次数: 8

Abstract

Coronaviruses are a class of virus responsible of the recent outbreak of Human Severe Acute Respiratory Syndrome. The molecular machinery behind the viral entry and thus infectivity is based on the formation of the complex of virus spike protein with the angiotensin-converting enzyme 2 (ACE2). The detection of putative allosteric sites on the viral spike protein can trace the path to develop allosteric drugs to weaken the strength of the spike-ACE2 interface and, thus, reduce the viral infectivity. In this work we present results of the application of the Protein Contact Network (PCN) paradigm to the complex SARS-CoV spike - ACE2 relative to both 2003 SARS and the recent 2019 - CoV. Results point to a specific region, present in both structures, that is predicted to act as allosteric site modulating the binding of the spike protein with ACE2.
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利用蛋白接触网络绘制sars冠状病毒刺突蛋白活性变构位点
冠状病毒是导致最近爆发的人类严重急性呼吸系统综合症的一类病毒。病毒进入并因此具有传染性的分子机制是基于病毒刺突蛋白与血管紧张素转换酶2 (ACE2)复合物的形成。检测病毒刺突蛋白上假定的变抗位点可以追踪开发变抗药物的途径,以削弱刺突- ace2界面的强度,从而降低病毒的传染性。在这项工作中,我们介绍了将蛋白质接触网络(PCN)范式应用于复杂的SARS-CoV刺突- ACE2与2003年SARS和最近的2019 -CoV相关的结果。结果指出,在这两种结构中都存在一个特定的区域,该区域被预测为调节刺突蛋白与ACE2结合的变构位点。
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