通过靶向诱变产生的噬菌体PRD1的一个新突变体类别表明,蛋白质P5将受体结合蛋白连接到顶点。
A new mutant class, made by targeted mutagenesis, of phage PRD1 reveals that protein P5 connects the receptor binding protein to the vertex.
作者信息
Bamford J K, Bamford D H
机构信息
Department of Biosciences and Institute of Biotechnology, University of Helsinki, 00014 Helsinki, Finland.
出版信息
J Virol. 2000 Sep;74(17):7781-6. doi: 10.1128/jvi.74.17.7781-7786.2000.
Abstract
Phage PRD1 and adenovirus share a number of structural and functional similarities, one of which is the vertex organization at the fivefold-symmetry positions. We developed an in vitro mutagenesis system for the linear PRD1 genome in order to make targeted mutations. The role of protein P5 in the vertex structure was examined by this method. Mutation in gene V revealed that protein P5 is essential. The absence of P5 did not compromise the particle assembly or DNA packaging but led to a deficient vertex structure where the receptor binding protein P2, in addition to protein P5, was missing. P5(-) particles also lost their DNA upon purification. Based on this and previously published information we propose a spatial model for the spike structure at the vertices. This resembles to the corresponding structure in adenovirus.
摘要
噬菌体PRD1与腺病毒在结构和功能上有许多相似之处,其中之一是五重对称位置的顶点组织。我们开发了一种用于线性PRD1基因组的体外诱变系统,以便进行靶向突变。通过该方法研究了蛋白质P5在顶点结构中的作用。基因V中的突变表明蛋白质P5是必不可少的。P5的缺失并不影响颗粒组装或DNA包装,但导致顶点结构缺陷,除了蛋白质P5外,受体结合蛋白P2也缺失。P5(-)颗粒在纯化后也失去了它们的DNA。基于此以及先前发表的信息,我们提出了顶点处刺突结构的空间模型。这类似于腺病毒中的相应结构。
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