2014
DOI: 10.1111/tbed.12251
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False-Positive Results in Metagenomic Virus Discovery: A Strong Case for Follow-Up Diagnosis

Abstract: A viral metagenomic approach using virion enrichment, random amplification and next-generation sequencing was used to investigate an undiagnosed cluster of dairy cattle presenting with high persistent fever, unresponsive to anti-microbial and anti-inflammatory treatment, diarrhoea and redness of nose and teat. Serum and whole blood samples were taken in the predicted hyperviraemic state of an animal that a few days later presented with these clinical signs. Bioinformatics analysis of the resulting data from th… Show more

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Cited by 39 publications
(45 citation statements)
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References 27 publications
(34 reference statements)
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“…Of course molecular identification of viral sequences is only the first step in determining whether or not it is associated with disease. Follow-up studies are needed to prove a link between a candidate infectious agent and disease (Chiu, 2013;Lipkin, 2009;Rosseel et al, 2014). Some recommendations to minimize contamination issues would be (1) alternating use of a large set of barcodes, (2) do not simultaneously make libraries in the same PCR cabinet, (3) perform the recommended maintenance wash steps of your sequencing instrument in between 2 subsequent sequencing runs, (4) avoiding multiplexing samples of different metagenomics experiments on the same sequencing run, and (5) using a different NGS platform with less carryover issues.…”
Section: Discussionmentioning
confidence: 99%
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“…Of course molecular identification of viral sequences is only the first step in determining whether or not it is associated with disease. Follow-up studies are needed to prove a link between a candidate infectious agent and disease (Chiu, 2013;Lipkin, 2009;Rosseel et al, 2014). Some recommendations to minimize contamination issues would be (1) alternating use of a large set of barcodes, (2) do not simultaneously make libraries in the same PCR cabinet, (3) perform the recommended maintenance wash steps of your sequencing instrument in between 2 subsequent sequencing runs, (4) avoiding multiplexing samples of different metagenomics experiments on the same sequencing run, and (5) using a different NGS platform with less carryover issues.…”
Section: Discussionmentioning
confidence: 99%
“…Two pretreatment steps (0.45 m filtration followed by nuclease treatment) were performed on 1 ml of spiked sample as described previously (Rosseel et al, 2014). The nuclease treatment step was performed using 50 U TURBO DNase (2 U/l, Life Technologies), 1× TURBO DNase Buffer and 10 U RiboShredder RNase Blend (1 U/l, Epicentre Technologies) as reported previously (Rosseel et al, 2014 …”
Section: Two-step Viral Enrichment ('2-step')mentioning
confidence: 99%
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“…For (+) ssRNA viruses, strand-specific RNA sequencing with good validation [51] may help to detect the negative strand (replicative intermediate); but regular RNA-seq and other NGS techniques cannot. Then researchers should be aware of the limitations of massive sequencing tools and other Àomics approaches to avoid misinterpretation [52][53][54].…”
Section: Infection or Not?mentioning
confidence: 99%