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本文引用的文献

1
Dynein-dependent transport of the hantaan virus nucleocapsid protein to the endoplasmic reticulum-Golgi intermediate compartment.汉坦病毒核衣壳蛋白通过动力蛋白依赖性转运至内质网-高尔基体中间腔室。
J Virol. 2007 Aug;81(16):8634-47. doi: 10.1128/JVI.00418-07. Epub 2007 May 30.
2
The coiled-coil domain structure of the Sin Nombre virus nucleocapsid protein.辛诺柏病毒核衣壳蛋白的卷曲螺旋结构域结构
J Mol Biol. 2007 Mar 9;366(5):1538-44. doi: 10.1016/j.jmb.2006.12.046. Epub 2006 Dec 23.
3
Hantavirus N protein exhibits genus-specific recognition of the viral RNA panhandle.汉坦病毒N蛋白对病毒RNA柄环结构具有属特异性识别作用。
J Virol. 2006 Nov;80(22):11283-92. doi: 10.1128/JVI.00820-06. Epub 2006 Sep 13.
4
Diagnosis and treatment of new world hantavirus infections.新大陆汉坦病毒感染的诊断与治疗
Curr Opin Infect Dis. 2006 Oct;19(5):437-42. doi: 10.1097/01.qco.0000244048.38758.1f.
5
Oligomerization of hantavirus nucleocapsid protein: analysis of the N-terminal coiled-coil domain.汉坦病毒核衣壳蛋白的寡聚化:N 端卷曲螺旋结构域分析
J Virol. 2006 Sep;80(18):9073-81. doi: 10.1128/JVI.00515-06.
6
Truncated recombinant Dobrava hantavirus nucleocapsid proteins induce strong, long-lasting immune responses in mice.截短的重组多布拉伐汉坦病毒核衣壳蛋白在小鼠中诱导强烈且持久的免疫反应。
Intervirology. 2006;49(5):253-60. doi: 10.1159/000093454. Epub 2006 May 22.
7
Hantaviruses: molecular biology, evolution and pathogenesis.汉坦病毒:分子生物学、进化与发病机制
Curr Mol Med. 2005 Dec;5(8):773-90. doi: 10.2174/156652405774962317.
8
Hantavirus nucleocapsid protein: a multifunctional molecule with both housekeeping and ambassadorial duties.汉坦病毒核衣壳蛋白:一种兼具管家职责和大使职责的多功能分子。
Arch Virol. 2005 Sep;150(9):1693-713. doi: 10.1007/s00705-005-0555-4. Epub 2005 Jun 3.
9
A hantavirus nucleocapsid protein segment exposed on hepatitis B virus core particles is highly immunogenic in mice when applied without adjuvants or in the presence of pre-existing anti-core antibodies.当无佐剂应用或存在预先存在的抗核心抗体时,暴露于乙肝病毒核心颗粒上的汉坦病毒核衣壳蛋白片段在小鼠中具有高度免疫原性。
Vaccine. 2005 Jun 10;23(30):3973-83. doi: 10.1016/j.vaccine.2005.02.025. Epub 2005 Mar 16.
10
The hantavirus nucleocapsid protein recognizes specific features of the viral RNA panhandle and is altered in conformation upon RNA binding.汉坦病毒核衣壳蛋白识别病毒RNA柄状结构的特定特征,并在与RNA结合后发生构象改变。
J Virol. 2005 Feb;79(3):1824-35. doi: 10.1128/JVI.79.3.1824-1835.2005.

安第斯汉坦病毒核衣壳蛋白N端卷曲螺旋结构域的核磁共振结构

NMR structure of the N-terminal coiled coil domain of the Andes hantavirus nucleocapsid protein.

作者信息

Wang Yu, Boudreaux Daniel M, Estrada D Fernando, Egan Chet W, St Jeor Stephen C, De Guzman Roberto N

机构信息

Department of Molecular Biosciences, University of Kansas, Lawrence, Kansas 66045, USA.

出版信息

J Biol Chem. 2008 Oct 17;283(42):28297-304. doi: 10.1074/jbc.M804869200. Epub 2008 Aug 7.

DOI:10.1074/jbc.M804869200
PMID:18687679
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2568929/
Abstract

The hantaviruses are emerging infectious viruses that in humans can cause a cardiopulmonary syndrome or a hemorrhagic fever with renal syndrome. The nucleocapsid (N) is the most abundant viral protein, and during viral assembly, the N protein forms trimers and packages the viral RNA genome. Here, we report the NMR structure of the N-terminal domain (residues 1-74, called N1-74) of the Andes hantavirus N protein. N1-74 forms two long helices (alpha1 and alpha2) that intertwine into a coiled coil domain. The conserved hydrophobic residues at the helix alpha1-alpha2 interface stabilize the coiled coil; however, there are many conserved surface residues whose function is not known. Site-directed mutagenesis, CD spectroscopy, and immunocytochemistry reveal that a point mutation in the conserved basic surface formed by Arg22 or Lys26 lead to antibody recognition based on the subcellular localization of the N protein. Thus, Arg22 and Lys26 are likely involved in a conformational change or molecular recognition when the N protein is trafficked from the cytoplasm to the Golgi, the site of viral assembly and maturation.

摘要

汉坦病毒是新出现的传染性病毒,可在人类中引起心肺综合征或肾综合征出血热。核衣壳(N)是病毒中含量最丰富的蛋白质,在病毒组装过程中,N蛋白形成三聚体并包裹病毒RNA基因组。在此,我们报道了安第斯汉坦病毒N蛋白N端结构域(第1至74位氨基酸残基,称为N1-74)的核磁共振结构。N1-74形成两个长螺旋(α1和α2),它们相互缠绕形成一个卷曲螺旋结构域。α1-α2螺旋界面处保守的疏水残基稳定了卷曲螺旋结构;然而,有许多保守的表面残基,其功能尚不清楚。定点诱变、圆二色光谱和免疫细胞化学研究表明,由精氨酸22或赖氨酸26形成的保守碱性表面上的一个点突变,会基于N蛋白的亚细胞定位导致抗体识别。因此,当N蛋白从细胞质转运到高尔基体(病毒组装和成熟的场所)时,精氨酸22和赖氨酸26可能参与了构象变化或分子识别过程。