乙型肝炎病毒核心蛋白在单链和双链核酸上的差异组装表明充满双链 DNA 的核心是弹簧加载的。
Differential assembly of Hepatitis B Virus core protein on single- and double-stranded nucleic acid suggest the dsDNA-filled core is spring-loaded.
机构信息
Department of Molecular and Cellular Biochemistry, Indiana University, Bloomington, IN 47405, USA.
出版信息
Virology. 2012 Aug 15;430(1):20-9. doi: 10.1016/j.virol.2012.04.012. Epub 2012 May 16.
Abstract
Hepatitis B Virus (HBV) cores assemble on viral RNA, which is reverse transcribed within the core to the partially dsDNA genome of mature HBV. However, constraining dsDNA, a stiff polymer, within a core necessarily requires far greater capsid stability than constraining ssRNA. We hypothesized that, unlike ssRNA, dsDNA would be a poor substrate for assembly. We examined titrations of ssDNA and dsDNA with purified HBV core protein, Cp183, by EMSA, EM, DLS, and etheno-DNA fluorescence. Cp183 bound ssDNA with high affinity to form virus-like capsids. However, Cp183 bound dsDNA poorly, forming a mixture of irregular complexes. Nonetheless, we observed some normal cores in dsDNA assembly reactions, indicating that the energy required to bend DNA could be similar to the protein-protein association energy. This similarity of energies suggests that dsDNA stresses mature HBV cores, in agreement with calculation, which may be the basis for the virus maturation signal and DNA release.
摘要
乙型肝炎病毒(HBV)核心在病毒 RNA 上组装,该 RNA 在核心内逆转录为成熟 HBV 的部分双链 DNA(dsDNA)基因组。然而,将刚性聚合物 dsDNA 限制在核心内,必然需要比限制 ssRNA 更高的衣壳稳定性。我们假设,与 ssRNA 不同,dsDNA 作为组装的底物较差。我们通过 EMSA、EM、DLS 和乙撑-DNA 荧光法,用纯化的 HBV 核心蛋白 Cp183 对 ssDNA 和 dsDNA 进行了滴定分析。Cp183 与 ssDNA 高亲和力结合形成病毒样衣壳。然而,Cp183 与 dsDNA 结合不良,形成了不规则复合物的混合物。尽管如此,我们在 dsDNA 组装反应中观察到一些正常的核心,这表明弯曲 DNA 所需的能量可能与蛋白质-蛋白质结合能相似。这种能量的相似性表明 dsDNA 会使成熟的 HBV 核心受到压力,这与计算结果一致,这可能是病毒成熟信号和 DNA 释放的基础。
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