黄病毒属聚合酶保守序列：与媒介传播能力和疾病表型的相关性分析。

PCP consensus sequences of flaviviruses: correlating variance with vector competence and disease phenotype.

机构信息

Sealy Center for Structural Biology and Molecular Biophysics, Department of Biochemistry and Molecular Biology, University of Texas Medical Branch, 301 University Boulevard, Galveston, TX 77555-0857, USA.

出版信息

J Mol Biol. 2010 Feb 26;396(3):550-63. doi: 10.1016/j.jmb.2009.11.070. Epub 2009 Dec 4.

DOI:10.1016/j.jmb.2009.11.070

PMID:19969003

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2822003/

Abstract

BACKGROUND

Computational methods are needed to design multivalent vaccines against flaviviruses (FVs) such as the West Nile virus or the dengue virus (DENV).

OBJECTIVE

We aimed to use physicochemical property (PCP) consensus sequences of FV strains to delineate conserved motifs, areas of maximum variability, and specific loci that correlate with arthropod vector, serotype, and disease severity.

METHODS

PCP consensus sequences for 27 species were prepared from 928 annotated sequences catalogued in Flavitrack. Alignments of these correlated well with the known structures of the NS3 protease domain and envelope (E) proteins. The PCPMer suite was used to identify motifs common to all FVs. Areas of PCP variability that correlated with phenotype were plotted on the structures.

RESULTS

Despite considerable diversity at the amino acid level, PCPs for both proteins were well conserved throughout the FVs. A series of insertions in E separated tick- from mosquito-borne viruses and all arthropod-borne viruses from isolates with no known vector or directly from insects. Comparison of a PCP consensus sequence of E derived from 600 DENV strains (DENV600) with individual ones for DENV1-DENV4 showed that most major serotype-specific variation occurs near these insertions. The DENV600 differed from one prepared from eight hemorrhagic or fatal strains from four DENV serotypes at only three positions, two of which overlap known escape mutant sites.

CONCLUSIONS

Comparing consensus sequences showed that substantial changes occur in only a few areas of the E protein. PCP consensus sequences can contribute to the design of multivalent vaccines.

摘要

背景

需要计算方法来设计针对黄病毒（FV）的多价疫苗，例如西尼罗河病毒或登革热病毒（DENV）。

目的

我们旨在使用 FV 株的理化特性（PCP）共识序列来描绘保守基序、最大变异性区域和与节肢动物载体、血清型和疾病严重程度相关的特定基因座。

方法

从 Flavitrack 中编目的 928 个注释序列中准备了 27 个物种的 PCP 共识序列。这些序列的比对与 NS3 蛋白酶结构域和包膜（E）蛋白的已知结构很好地吻合。使用 PCPMer 套件来识别所有 FV 共有的基序。将与表型相关的 PCP 变异性区域绘制在结构上。

结果

尽管在氨基酸水平上存在很大的多样性，但两种蛋白的 PCP 在 FV 中都很好地保守。E 中的一系列插入将蜱传病毒与蚊传病毒分开，所有节肢动物传播的病毒都与没有已知载体或直接来自昆虫的病毒分开。将从 600 个 DENV 株（DENV600）中获得的 E 的 PCP 共识序列与 DENV1-DENV4 的单个序列进行比较，表明大多数主要血清型特异性变异发生在这些插入附近。DENV600 与来自四个 DENV 血清型的八个出血性或致命株中仅三个位置的制备物不同，其中两个重叠已知的逃逸突变体位点。

结论

比较共识序列表明，E 蛋白的少数区域发生了实质性变化。PCP 共识序列可以为多价疫苗的设计做出贡献。

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