蓝舌病病毒10型NS1蛋白羧基末端序列的表征与修饰,及其与小管形成和该蛋白羧基末端附近抗原表位定位的关系。
Characterization and modification of the carboxy-terminal sequences of bluetongue virus type 10 NS1 protein in relation to tubule formation and location of an antigenic epitope in the vicinity of the carboxy terminus of the protein.
作者信息
Monastyrskaya K, Gould E A, Roy P
机构信息
Department of Biochemistry, University of Oxford, United Kingdom.
出版信息
J Virol. 1995 May;69(5):2831-41. doi: 10.1128/JVI.69.5.2831-2841.1995.
Abstract
Bluetongue virus produces large numbers of tubules during infection. The tubules are formed from a 552-amino-acid, 64-kDa NS1 protein encoded by the viral double-stranded RNA segment M6. A series of deletion and extension mutants of bluetongue virus serotype 10 NS1 has been generated and expressed in insect cells in order to identify the carboxy-terminal components of the protein which are important for tubule formation. The mutants AcCT5 and AcCT10, lacking 5 and 10 of the carboxy-terminal residues, respectively, were prepared. By analyzing their abilities to form tubules, it was shown that AcCT5 was capable of this function whereas AcCT10 was not, indicating that the last five amino acids are not strongly involved in NS1 tubule formation. Extension mutants including foreign antigenic sequences involving up to 16 amino acids added to the C terminus of NS1 were shown to form tubules, although an extension of 19 amino acids inhibited tubule formation. Analysis of a panel of monoclonal antibodies has established that an NS1 antigenic site is located near the carboxy terminus of the protein. It appears to be exposed on the surface of tubules. The opportunities to develop new vaccines using recombinant NS1 to deliver foreign epitopes are discussed.
摘要
蓝舌病病毒在感染过程中会产生大量小管。这些小管由病毒双链RNA片段M6编码的一种552个氨基酸、64 kDa的NS1蛋白形成。为了确定该蛋白对于小管形成很重要的羧基末端成分,已构建并在昆虫细胞中表达了一系列蓝舌病病毒10型NS1的缺失和延伸突变体。分别制备了缺失羧基末端5个和10个残基的突变体AcCT5和AcCT10。通过分析它们形成小管的能力,结果表明AcCT5具有此功能而AcCT10不具有,这表明最后五个氨基酸对NS1小管形成的参与程度不高。包括在NS1的C末端添加多达16个氨基酸的外来抗原序列的延伸突变体显示能形成小管,不过添加19个氨基酸会抑制小管形成。对一组单克隆抗体的分析确定,一个NS1抗原位点位于该蛋白的羧基末端附近。它似乎暴露在小管表面。文中还讨论了利用重组NS1递送外来表位开发新疫苗的可能性。
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