Phi29 polymerase based random amplification of viral RNA as an alternative to random RT-PCR

Berthet, Nicolás; Reinhardt, Anita; Leclercq, India; Ooyen, Sven van; Batéjat, Christophe; Dickinson, Philip; Stamboliyska, Rayna; Old, Iain G.; Kong, Katherine A.; Dacheux, Laurent; Bourhy, Hervé; Kennedy, Giulia C.; Korfhage, Christian; Cole, Stewart T.; Manuguerra, Jean-Claude

doi:10.1186/1471-2199-9-77

Cited by 70 publications

(63 citation statements)

References 16 publications

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“…RNA extraction from biological samples was processed with TRI Reagent (Molecular Research Center) according to the manufacturer's recommendations. After extraction, viral RNAs were reverse transcribed and then amplified using the whole-transcriptome amplification (WTA) protocol (QuantiTect Whole Transcriptome kit; Qiagen) as described previously (3).…”

Section: Methodsmentioning

confidence: 99%

“…The amplification step, which is more often limiting for this technology, has also benefited from recent developments. Phi29 polymerase-based amplification methods provide amplified DNA with minimal changes in sequence and relative abundance for many biomedical applications (3,31,40). The amplification factor varied from 10 6 to 10 9 , and it was also demonstrated that coamplification occurred when viral RNA was mixed with bacterial DNA (3).…”

mentioning

confidence: 99%

“…This whole-transcriptome amplification (WTA) approach can also be successfully applied to viral genomic RNA of all sizes. Amplifying viral RNA by WTA provides considerably better sensitivity and accuracy of detection than random reverse transcription (RT)-PCR in the context of resequencing microarrays (RMAs) (3).…”

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confidence: 99%

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Application of Broad-Spectrum Resequencing Microarray for Genotyping Rhabdoviruses

Dacheux

Berthet

Dissard

et al. 2010

J Virol

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The rapid and accurate identification of pathogens is critical in the control of infectious disease. To this end, we analyzed the capacity for viral detection and identification of a newly described high-density resequencing microarray (RMA), termed PathogenID, which was designed for multiple pathogen detection using database similarity searching. We focused on one of the largest and most diverse viral families described to date, the family Rhabdoviridae. We demonstrate that this approach has the potential to identify both known and related viruses for which precise sequence information is unavailable. In particular, we demonstrate that a strategy based on consensus sequence determination for analysis of RMA output data enabled successful detection of viruses exhibiting up to 26% nucleotide divergence with the closest sequence tiled on the array. Using clinical specimens obtained from rabid patients and animals, this method also shows a high species level concordance with standard reference assays, indicating that it is amenable for the development of diagnostic assays. Finally, 12 animal rhabdoviruses which were currently unclassified, unassigned, or assigned as tentative species within the family Rhabdoviridae were successfully detected. These new data allowed an unprecedented phylogenetic analysis of 106 rhabdoviruses and further suggest that the principles and methodology developed here may be used for the broad-spectrum surveillance and the broader-scale investigation of biodiversity in the viral world.

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Section: Methodsmentioning

confidence: 99%

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confidence: 99%

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Application of Broad-Spectrum Resequencing Microarray for Genotyping Rhabdoviruses

Dacheux

Berthet

Dissard

et al. 2010

J Virol

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“…Circular targets are ideal for this amplification strategy. However, linear targets can also be amplified in a similar manner (Dean et al 2001;Berthet et al 2008). For short linear DNA viruses and cDNA, amplification is less efficient, and additional steps, such as ligation, may have to be included for amplification (Berthet et al 2008).…”

Section: Displacement Amplificationmentioning

confidence: 99%

“…However, linear targets can also be amplified in a similar manner (Dean et al 2001;Berthet et al 2008). For short linear DNA viruses and cDNA, amplification is less efficient, and additional steps, such as ligation, may have to be included for amplification (Berthet et al 2008). This strategy has also been successful in studying different viral metagenomes, and several novel viruses have been discovered by this method, such as a fibropapilloma virus in sea turtles (Ng et al 2009), Anellovirus in harbor seals (Ng et al 2011), Bocavirus in pigs (Blomstro¨m et al 2009), and Papillomaviruses in humans (Rector et al 2004).…”

Section: Displacement Amplificationmentioning

confidence: 99%

Viral metagenomics as an emerging and powerful tool in veterinary medicine

Blomström

2011

Veterinary Quarterly

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New diseases continue to emerge in both human and animal populations, and the importance of animals, as reservoirs for viruses that can cause zoonoses are evident. Thus, an increased knowledge of the viral flora in animals, both in healthy and diseased individuals, is important both for animal and human health. Viral metagenomics is a culture-independent approach that is used to investigate the complete viral genetic populations of a sample. This review describes and discusses the different possible steps of a viral metagenomic study utilizing sequence-independent amplification, high-throughput sequencing, and bioinformatics to identify viruses. With this technology, multiple viruses can be detected simultaneously and novel and highly divergent viruses can be discovered and genetically characterized for the first time. This review also briefly discusses the applications of viral metagenomics in veterinary science and lists some of the viruses discovered within this field.

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