2017
DOI: 10.3389/fmicb.2017.00406
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Current Advances on Virus Discovery and Diagnostic Role of Viral Metagenomics in Aquatic Organisms

Abstract: The global expansion of the aquaculture industry has brought with it a corresponding increase of novel viruses infecting different aquatic organisms. These emerging viral pathogens have proved to be a challenge to the use of traditional cell-cultures and immunoassays for identification of new viruses especially in situations where the novel viruses are unculturable and no antibodies exist for their identification. Viral metagenomics has the potential to identify novel viruses without prior knowledge of their g… Show more

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Cited by 33 publications
(26 citation statements)
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“…However, the infectivity of a virus in a well-defined laboratory assay setting may not correlate to dynamic real-world settings with fluctuating environmental conditions, chemical microenvironments, and host sensitivities. Furthermore, the appropriate host of the virus may not be known, and some viruses have proven to be unculturable or difficult to culture even in cases where the host is known [100][101][102]. As a result of these challenges, several culture-independent methods for evaluating viral infectivity have been proposed, typically using a measure of the integrity of one or more parts of the virus as a proxy for the infectivity of the virus as a whole [103][104][105].…”
Section: Unculturable Virusesmentioning
confidence: 99%
“…However, the infectivity of a virus in a well-defined laboratory assay setting may not correlate to dynamic real-world settings with fluctuating environmental conditions, chemical microenvironments, and host sensitivities. Furthermore, the appropriate host of the virus may not be known, and some viruses have proven to be unculturable or difficult to culture even in cases where the host is known [100][101][102]. As a result of these challenges, several culture-independent methods for evaluating viral infectivity have been proposed, typically using a measure of the integrity of one or more parts of the virus as a proxy for the infectivity of the virus as a whole [103][104][105].…”
Section: Unculturable Virusesmentioning
confidence: 99%
“…As a certain proportion of sequences generated by NGS approaches remain uncharacterized because no similar sequences are available from gene banks, possible causatives can be overlooked. The verification of a relation between found pathogen and a specific disease can also be a difficult challenge, however the application of next-generation sequencing combined with bioinformatics approaches unraveled a large number of previously unknown pathogens of aquatic organisms and have significantly accelerated the ability to identify novel viruses of fish [ 46 ].…”
Section: Discussionmentioning
confidence: 99%
“…In ish, viruses discovered using metagenomics include circoviruses from common bream [34] and European eel [35], posavirus [36] and seadornavirus [37] from freshwater carp and totivirus from golden shiner. As shown in our recent study [9], more than 20 novel ish pathogenic viruses have been identiied using metagenomics in the last 4 years, which is more than the number identiied using traditional diagnostic tools in the last 5 decades, clearly showing the rapid rate at which metagenomics has accelerated our ability to identify novel pathogens compared with traditional diagnostic methods.…”
Section: Application Of Metagenomics In Diagnostics and Discovery Of mentioning
confidence: 94%
“…Metagenomics analyses have the capacity to sequence all nucleic acids present in a sample at once thereby generating a vast array of data that requires computational analyses for interpretation [20,21]. As pointed out in our previous studies [9,10], it has the advantage of identifying co-infections and in the case of viral pathogens, it has the capacity to generate all variable proteins that form complete virions thereby permiting comparative phylogenetic analyses with other viruses present in public databases. Moreover, it is a proactive diagnostic tool able to identify novel pathogens before they cause outbreaks unlike the reactive traditional diagnostic tools in which etiological agents are only identiied after causing disease outbreaks reaching epidemic proportions [21].…”
Section: Application Of Metagenomics In Diagnostics and Discovery Of mentioning
confidence: 99%
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