Ward A C, Azad A A, Macreadie I G
Biomolecular Research Institute, Parkville, Victoria, Australia.
Arch Virol. 1994;138(3-4):299-314. doi: 10.1007/BF01379133.
The influenza A virus non-structural protein NS1 was produced using a copper-inducible expression system in the yeast Saccharomyces cerevisiae. The protein produced had a molecular weight of 26 kDa by SDS-PAGE and was reactive with anti-NS1 antisera. The recombinant NS1 protein was targetted to the nucleolus/nuclear envelope fraction of the yeast cell nucleus, showing that its localisation signals remain functional in yeast. In addition, immune-electron microscopy detected cytoplasmic inclusions reminiscent of those seen in cells infected with some influenza strains. The NS1 protein was shown to be capable of in vivo self-interaction which probably forms the basis of its propensity to form inclusions. Expression of the protein was found to be toxic to yeast cells expressing it, supporting a role for the protein in the shutdown of influenza virus-infected cells. Deletion mapping of NS1 pointed to 2 regions of the molecule being important for this toxicity: a basic C-terminal stretch which has been shown to act as a nuclear localisation signal, and an N-terminal region implicated in RNA binding.
甲型流感病毒非结构蛋白NS1是利用酿酒酵母中的铜诱导表达系统产生的。通过SDS-PAGE分析,所产生的蛋白质分子量为26 kDa,并且能与抗NS1抗血清发生反应。重组NS1蛋白定位于酵母细胞核的核仁/核膜部分,表明其定位信号在酵母中仍然具有功能。此外,免疫电子显微镜检测到细胞质内含物,类似于在感染某些流感毒株的细胞中所见。NS1蛋白被证明能够在体内进行自我相互作用,这可能是其形成内含物倾向的基础。发现该蛋白的表达对表达它的酵母细胞有毒性,这支持了该蛋白在流感病毒感染细胞的关闭过程中发挥作用。NS1的缺失图谱分析表明,该分子的2个区域对这种毒性很重要:一个碱性的C末端片段,已被证明可作为核定位信号;以及一个与RNA结合有关的N末端区域。