Electrostatic Interactions between Complement Regulator CD46(SCR1-2) and Adenovirus Ad11/Ad21 Fiber Protein Knob.

Molecular biology international Pub Date : 2015-01-01 Epub Date: 2015-08-19 DOI:10.1155/2015/967465

Carl Z Chen, Ronald D Gorham, Zied Gaieb, Dimitrios Morikis

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引用次数: 1

Abstract

Adenoviruses bind to a variety of human cells to cause infection. Both the B2 adenovirus 11 and B1 adenovirus 21 use protein knobs to bind to complement regulator CD46(SCR1-2) in order to gain entry into host cells. In each complex, the two proteins are highly negatively charged but bind to each other at an interface with oppositely charged surface patches. We computationally generated single-alanine mutants of charged residues in the complexes CD46(SCR1-2)-Ad11k and CD46(SCR1-2)-Ad21k. We used electrostatic clustering and Poisson-Boltzmann free energy calculations to propose a hypothesis on the role of electrostatics in association. Our results delineate specific interfacial electrostatic interactions that are critical for association in both CD46(SCR1-2)-Ad11k and CD46(SCR1-2)-Ad21k. These results will serve as a predictive tool in the selection of mutants with desired binding affinity in experimental mutagenesis studies. This study will also serve as a foundation for the design of inhibitors to treat adenovirus infections.

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补体调节因子CD46(SCR1-2)与腺病毒Ad11/Ad21纤维蛋白旋涡的静电相互作用。

腺病毒与多种人体细胞结合引起感染。B2腺病毒11和B1腺病毒21都使用蛋白旋钮与补体调节因子CD46(SCR1-2)结合以进入宿主细胞。在每个复合物中，这两种蛋白质都带高度负电荷，但在带有相反电荷的表面斑块的界面上相互结合。我们通过计算生成了CD46(SCR1-2)-Ad11k和CD46(SCR1-2)-Ad21k复合物中带电残基的单丙氨酸突变体。我们利用静电聚类和泊松-玻尔兹曼自由能计算提出了静电在缔合中的作用假设。我们的研究结果描述了CD46(SCR1-2)-Ad11k和CD46(SCR1-2)-Ad21k中特定的界面静电相互作用，这些相互作用对于CD46(SCR1-2)-Ad11k和CD46(SCR1-2)-Ad21k的结合至关重要。这些结果将作为在实验诱变研究中选择具有所需结合亲和力的突变体的预测工具。本研究也将为设计治疗腺病毒感染的抑制剂提供基础。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Molecular biology international

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