多种 HIV 病毒都被一种构象动态的抗病毒药物靶向。
Diverse HIV viruses are targeted by a conformationally dynamic antiviral.
机构信息
Medical Research Council Laboratory of Molecular Biology, Division of Protein and Nucleic Acid Chemistry, Cambridge, UK.
出版信息
Nat Struct Mol Biol. 2012 Mar 11;19(4):411-6. doi: 10.1038/nsmb.2253.
Abstract
Rhesus macaque TRIMCyp (RhTC) is a potent primate antiviral host protein that inhibits the replication of diverse HIV viruses. Here we show that it has acquired the ability to target multiple viruses by evolving an active site that interconverts between multiple conformations. Mutations that have relieved active site constraints allow RhTC to dynamically sample conformational space, including radically different conformers that target both HIV-1 and HIV-2 viruses. Introduction of a reversible constraint into RhTC allows specificity to be switched between a single conformation specific for HIV-1 and a dynamic ensemble that targets multiple viruses. These results show that conformational diversity can be used to expand the target diversity of innate immune receptors by supplementing their limited genetic variability with variability in protein structure.
摘要
恒河猴 TRIMCyp(RhTC)是一种有效的灵长类抗病毒宿主蛋白,可抑制多种 HIV 病毒的复制。在这里,我们表明它通过进化出一个在多种构象之间转换的活性位点,从而获得了靶向多种病毒的能力。解除活性位点限制的突变使 RhTC 能够动态地在构象空间中进行采样,包括针对 HIV-1 和 HIV-2 病毒的截然不同的构象。在 RhTC 中引入一个可逆的约束允许在针对 HIV-1 的单一构象特异性和针对多种病毒的动态整体之间切换特异性。这些结果表明,构象多样性可通过用蛋白质结构的可变性补充其有限的遗传可变性,从而用于扩大先天免疫受体的靶标多样性。
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