Deep Sequencing Details the Cross-over Map of Chimeric Genes in Two Porcine Reproductive and Respiratory Syndrome Virus Infectious Clones.

The Open Virology Journal Pub Date : 2017-06-30 eCollection Date: 2017-01-01 DOI:10.2174/1874357901711010049
Nanhua Chen, Ranjni J Chand, Raymond R R Rowland
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Abstract

Background: Recombination is an important contributor to the genetic diversity of most viruses. A reverse genetics system using green fluorescence protein (GFP)- and enhanced GFP (EGFP)-expressing infectious clones was developed to study the requirements for recombination. However, it is still unclear what types of cross-over events occurred to produce the viable offspring.

Objective: We utilized 454 sequencing to infer recombination events in this system.

Method: Two porcine reproductive and respiratory syndrome virus (PRRSV) infectious clones, P129-EGFP-97C and P129-GFPm-d (2-6), were co-transfected into HEK-293T cells. P129-EGFP-97C is a fully functional virus that contains a non-fluorescent EGFP. P129-GFPm-d (2-6) is a defective virus but contains a fluorescent GFPm. Successful recombination was evident by the appearance of fully functional progeny virus that expresses fluorescence. Total RNA was extracted from infected cells expressing fluorescence, and the entire fluorescent gene was amplified to prepare an amplicon library for 454 sequencing.

Results: Deep sequencing showed that the nucleotide identities changed from ~37% (in the variable region from 21nt to 165nt) to 20% (T289C) to ~38% (456-651nt) then to 100% (672-696nt) when compared to EGFP. The results indicated that cross-over events occurred in three conserved regions (166-288nt, 290-455nt, 652-671nt), which were also supported by sequence alignments. Remarkably, the short conserved region (652-671nt) showed to be a cross-over hotspot. In addition, four cross-over patterns (two single and two double cross-over) might be used to produce viable recombinants.

Conclusion: The reverse genetics system incorporating the use of high throughput sequencing creates a genetic platform to study the generation of viable recombinant viruses.

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两个猪繁殖与呼吸综合征病毒感染克隆嵌合基因的深度测序详细交叉图谱。
背景:重组是大多数病毒遗传多样性的重要因素。利用表达绿色荧光蛋白(GFP)和增强型绿色荧光蛋白(EGFP)的感染性克隆,建立了一种反向遗传系统,研究重组的要求。然而,目前还不清楚发生了什么类型的杂交事件来产生可存活的后代。目的:利用454测序技术推测该系统的重组事件。方法:将猪繁殖与呼吸综合征病毒(PRRSV)两个传染性克隆P129-EGFP-97C和p129 - gffp -d(2-6)共转染HEK-293T细胞。P129-EGFP-97C是一种含有非荧光EGFP的全功能病毒。P129-GFPm-d(2-6)是一种缺陷病毒,但含有荧光GFPm。成功的重组是明显的出现功能齐全的后代病毒表达荧光。从表达荧光的感染细胞中提取总RNA,扩增整个荧光基因,制备扩增子文库,用于454测序。结果:深度测序显示,与EGFP相比,核苷酸同源性从~37% (21nt ~ 165nt可变区)到20% (T289C)到~38% (456 ~ 651nt)再到100% (672 ~ 696nt)。结果表明,交叉事件发生在166 ~ 288nt、290 ~ 455nt、652 ~ 671nt三个保守区域,序列比对结果也支持交叉事件的发生。值得注意的是,短保守区(652-671nt)显示为交叉热点。此外,四种交叉模式(两种单交叉和两种双交叉)可能用于产生可存活的重组体。结论:结合高通量测序技术的反向遗传系统为研究重组病毒的产生提供了一个遗传平台。
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