Genome wide analysis of the evolution of Senecavirus A from swine clinical material and assembly yard environmental samples

Xu, Wanhong; Hole, Kate; Goolia, Melissa; Pickering, Bradley; Salo, Tim; Lung, Oliver; Nfon, Charles

doi:10.1371/journal.pone.0176964

Cited by 45 publications

(40 citation statements)

References 31 publications

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“…Foreign animal disease investigations indicated that other vesicular viral pathogens, such as foot-and-mouth disease virus (FMDV), swine vesicular disease virus (SVDV), vesicular stomatitis virus (VSV), and vesicular exanthema of swine virus (VESV), were negative in these cases [10]. Subsequently, SVV detection was reported by other laboratories in the U.S. [11][12][13][14][15][16], China [17][18][19][20][21], Canada [22], Thailand [23], and Colombia [24]. Vesicular lesions were induced in pigs following experimental inoculation with the contemporary U.S. isolates of SVV [25,26], confirming that SVV is a vesicular viral pathogen.…”

Section: Introductionmentioning

confidence: 99%

Development and evaluation of a real-time RT-PCR and a field-deployable RT-insulated isothermal PCR for the detection of Seneca Valley virus

et al. 2019

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Background Seneca Valley virus (SVV) has emerged in multiple countries in recent years. SVV infection can cause vesicular lesions clinically indistinguishable from those caused by other vesicular disease viruses, such as foot-and-mouth disease virus (FMDV), swine vesicular disease virus (SVDV), vesicular stomatitis virus (VSV), and vesicular exanthema of swine virus (VESV). Sensitive and specific RT-PCR assays for the SVV detection is necessary for differential diagnosis. Real-time RT-PCR (rRT-PCR) has been used for the detection of many RNA viruses. The insulated isothermal PCR (iiPCR) on a portable POCKIT™ device is user friendly for on-site pathogen detection. In the present study, SVV rRT-PCR and RT-iiPCR were developed and validated. Results Neither the SVV rRT-PCR nor the RT-iiPCR cross-reacted with any of the vesicular disease viruses (20 FMDV, two SVDV, six VSV, and two VESV strains), classical swine fever virus (four strains), and 15 other common swine viruses. Analytical sensitivities of the SVV rRT-PCR and RT-iiPCR were determined using serial dilutions of in vitro transcribed RNA as well as viral RNA extracted from a historical SVV isolate and a contemporary SVV isolate. Diagnostic performances were further evaluated using 125 swine samples by two approaches. First, nucleic acids were extracted from the 125 samples using the MagMAX™ kit and then tested by both RT-PCR methods. One sample was negative by the rRT-PCR but positive by the RT-iiPCR, resulting in a 99.20% agreement (124/125; 95% CI: 96.59–100%, κ = 0.98). Second, the 125 samples were tested by the taco™ mini extraction/RT-iiPCR and by the MagMAX™ extraction/rRT-PCR system in parallel. Two samples were positive by the MagMAX™/rRT-PCR system but negative by the taco™ mini/RT-iiPCR system, resulting in a 98.40% agreement (123/125; 95% CI: 95.39–100%, κ = 0.97). The two samples with discrepant results had relatively high C T values. Conclusions The SVV rRT-PCR and RT-iiPCR developed in this study are very sensitive and specific and have comparable diagnostic performances for SVV RNA detection. The SVV rRT-PCR can be adopted for SVV detection in laboratories. The SVV RT-iiPCR in a simple field-deployable system could serve as a tool to help diagnose vesicular diseases in swine at points of need.

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Section: Introductionmentioning

confidence: 99%

Development and evaluation of a real-time RT-PCR and a field-deployable RT-insulated isothermal PCR for the detection of Seneca Valley virus

et al. 2019

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“…Seneca Valley virus (SVV) was identified from a contaminated PER.C6 cell line in 2002 (Leme, Alfieri, & Alfieri, ; Segales, Barcellos, Alfieri, Burrough, & Marthaler, ), whereas SVV‐associated porcine idiopathic vesicular disease (PIVD) was reported until 2007 in Canada and 2010 in the United States (US) (Leme et al., ; Pasma, Davidson, & Shaw, ; Singh, Corner, Clark, Scherba, & Fredrickson, ). Since the PIVD outbreak in swine herds in Brazil (Leme et al., ), this disease had been reported in the United States (Zhang et al., ), Colombia (Sun, Vannucci, Knutson, Corzo, & Marthaler,), Thailand (Saeng‐Chuto, Rodtian, Temeeyasen, Wegner, & Nilubol, ), Canada (Xu et al., ) and China (Wu et al., ), suggesting a gradually increasing geographic distribution.…”

Section: Introductionmentioning

confidence: 99%

Genetic and phylogenetic analysis of reemerged novel Seneca Valley virus strains in Guangdong province, 2017

Liu

Ren

et al. 2018

Transbound Emerg Dis

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From June to July 2017, six Seneca Valley virus (SVV) strains were isolated from swine herds exhibiting SVV-associated porcine idiopathic vesicular disease (PIVD) in Guangdong province, China. Complete genomic sequences of these six newly identified strains were genetically and phylogenetically analysed. The results revealed that these six SVV strains were genetically closely related to USA/GBI29/2015 and notably distinct from all previous Chinese strains, indicating the reemergence of new SVV strains in Guangdong province.

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“…After the SVV outbreaks in Brazil, the virus infection was also reported in different pig categories/herds of other countries of the Americas (Joshi et al., ; Sun, Vannucci, Knutson, Corzo, & Marthaler, ; Xu et al., ) and Asia (Saeng‐Chuto, Rodtian, Temeeyasen, Wegner, & Nilubol, ; Wu et al., ) during 2015 and 2016. However, the number of field reports on SVV‐suspected cases in piglets and SVV diagnostics has decreased in Brazilian pig herds during 2017, suggesting that the infection became endemic in pig herds, leading to asymptomatic and/or subclinical infections.…”

Section: Seneca Valley Virus (Svv) Detection In Biological Samples Comentioning

confidence: 86%

A new wave of Seneca Valley virus outbreaks in Brazil

Leme

Miyabe

Agnol

et al. 2019

Transbound Emerg Dis

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Genome wide analysis of the evolution of Senecavirus A from swine clinical material and assembly yard environmental samples

Cited by 45 publications

References 31 publications

Development and evaluation of a real-time RT-PCR and a field-deployable RT-insulated isothermal PCR for the detection of Seneca Valley virus

Development and evaluation of a real-time RT-PCR and a field-deployable RT-insulated isothermal PCR for the detection of Seneca Valley virus

Genetic and phylogenetic analysis of reemerged novel Seneca Valley virus strains in Guangdong province, 2017

A new wave of Seneca Valley virus outbreaks in Brazil

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