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A novel coronavirus outbreak of global health concern.一场引发全球卫生关注的新型冠状病毒疫情。
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Influenza A Virus Hemagglutinin-Neuraminidase-Receptor Balance: Preserving Virus Motility.甲型流感病毒血凝素-神经氨酸酶-受体平衡:维持病毒的运动性。
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Human coronaviruses OC43 and HKU1 bind to 9--acetylated sialic acids via a conserved receptor-binding site in spike protein domain A.人冠状病毒 OC43 和 HKU1 通过 Spike 蛋白结构域 A 中的保守受体结合位点与 9--乙酰化唾液酸结合。
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Kinetic analysis of the influenza A virus HA/NA balance reveals contribution of NA to virus-receptor binding and NA-dependent rolling on receptor-containing surfaces.流感 A 病毒 HA/NA 平衡的动力学分析揭示了 NA 对病毒与受体结合以及含受体表面上的 NA 依赖性滚动的贡献。
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冠状病毒血凝素酯酶和刺突蛋白共同进化以达到功能平衡和最佳病毒粒子亲和力。

Coronavirus hemagglutinin-esterase and spike proteins coevolve for functional balance and optimal virion avidity.

机构信息

Virology Division, Department of Biomolecular Health Sciences, Faculty of Veterinary Medicine, Utrecht University, 3584 CL Utrecht, The Netherlands.

Department of Chemical Biology and Drug Discovery, Utrecht Institute for Pharmaceutical Sciences, Bijvoet Center for Biomolecular Research, Utrecht University, 3584 CG Utrecht, The Netherlands.

出版信息

Proc Natl Acad Sci U S A. 2020 Oct 13;117(41):25759-25770. doi: 10.1073/pnas.2006299117. Epub 2020 Sep 29.

DOI:10.1073/pnas.2006299117
PMID:32994342
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7568303/
Abstract

Human coronaviruses OC43 and HKU1 are respiratory pathogens of zoonotic origin that have gained worldwide distribution. OC43 apparently emerged from a bovine coronavirus (BCoV) spillover. All three viruses attach to 9--acetylated sialoglycans via spike protein S with hemagglutinin-esterase (HE) acting as a receptor-destroying enzyme. In BCoV, an HE lectin domain promotes esterase activity toward clustered substrates. OC43 and HKU1, however, lost HE lectin function as an adaptation to humans. Replaying OC43 evolution, we knocked out BCoV HE lectin function and performed forced evolution-population dynamics analysis. Loss of HE receptor binding selected for second-site mutations in S, decreasing S binding affinity by orders of magnitude. Irreversible HE mutations led to cooperativity in virus swarms with low-affinity S minority variants sustaining propagation of high-affinity majority phenotypes. Salvageable HE mutations induced successive second-site substitutions in both S and HE. Apparently, S and HE are functionally interdependent and coevolve to optimize the balance between attachment and release. This mechanism of glycan-based receptor usage, entailing a concerted, fine-tuned activity of two envelope protein species, is unique among CoVs, but reminiscent of that of influenza A viruses. Apparently, general principles fundamental to virion-sialoglycan interactions prompted convergent evolution of two important groups of human and animal pathogens.

摘要

人冠状病毒 OC43 和 HKU1 是具有动物源性的呼吸道病原体,已在全球范围内传播。OC43 显然是从牛冠状病毒 (BCoV) 溢出中出现的。这三种病毒都通过刺突蛋白 S 附着在 9--乙酰化唾液酸糖上,血凝素-酯酶 (HE) 作为一种受体破坏酶。在 BCoV 中,HE 凝集素结构域促进针对聚集底物的酯酶活性。然而,OC43 和 HKU1 在适应人类时失去了 HE 凝集素功能。为了重现 OC43 的进化,我们敲除了 BCoV HE 凝集素功能,并进行了强制进化-群体动态分析。失去 HE 受体结合选择了 S 中的第二位置突变,使 S 结合亲和力降低了数量级。不可逆转的 HE 突变导致低亲和力 S 少数变体的病毒群协同作用,维持了高亲和力多数表型的传播。可挽救的 HE 突变在 S 和 HE 中诱导连续的第二位置取代。显然,S 和 HE 在功能上是相互依赖的,并共同进化以优化附着和释放之间的平衡。这种基于聚糖的受体使用机制,需要两种包膜蛋白物种的协同、精细调节的活性,是冠状病毒中所特有的,但让人联想到甲型流感病毒的机制。显然,与病毒-唾液酸糖相互作用相关的一般原则促使两组重要的人类和动物病原体发生趋同进化。