Massively parallel pathogen identification using high‐density microarrays

Berthet, Nicolás; Dickinson, Philip; Filliol, Ingrid; Reinhardt, Anita; Batéjat, Christophe; Vallaeys, Tatiana; Kong, Katherine A.; Davies, Christopher; Lee, Walter; Zhang, Shenglan; Turpaz, Yaron; Heym, Béate; Coralie, Gilberte; Dacheux, Laurent; Burguière, Ana Maria; Bourhy, Hervé; Old, Iain G.; Manuguerra, Jean Claude; Cole, Stewart T.; Kennedy, Giulia C.

doi:10.1111/j.1751-7915.2007.00012.x

Cited by 42 publications

(49 citation statements)

References 20 publications

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“…This technology also offers the potential for a single test that detects and discriminates between a target pathogen and its closest phylogenetic neighbors, which expands the repertoire of identifiable organisms far beyond those that are initially included in the array. Successful results have been obtained using this tech-nology, especially for the detection of broad-spectrum respiratory tract pathogens using respiratory pathogen microarrays (2,25,26) or the detection of a broad range of biothreat agents (1,23,36,45). The amplification step, which is more often limiting for this technology, has also benefited from recent developments.…”

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confidence: 94%

“…The microarray hybridization process was carried out according to the protocol recommended by the manufacturer (Affymetrix). All of the details and parameter settings for the data analysis (essentially conversion of raw image files obtained from scanning of the microarrays into FASTA files containing the sequences of base calls made for each tiled region of the microarray) have been described previously (1). The base call rate refers to the percentage of base calls generated from the full-length tiled sequence.…”

Section: Methodsmentioning

confidence: 99%

“…A direct application using this sequence region was recently described for lyssavirus RNA detection in human rabies diagnosis (13). Taking advantage of these characteristics, this polymerase region was also used to design probes for high-density RMAs, also called PathogenID arrays (Affymetrix), which are optimized for the detection and sequence determination of several RNA viruses, particularly rhabdoviruses (1).…”

mentioning

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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confidence: 94%

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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“…DNA arrays have two main uses in microbiology: Detection of known pathogens, and assessment of diversity 113) . In general, a PCR amplification step using specific primer sets is used to generated labeled DNA 9,11,27,58,79,95,96,100,105,136,156,173,182) . This requirement of predesigned oligomers for amplification and hybridization opens the possibility that many unknown organisms remain undetected (especially viruses which have no universal homologous gene).…”

Section: Introductionmentioning

confidence: 99%

Global Sequencing: A Review of Current Molecular Data and New Methods Available to Assess Microbial Diversity

Christen

2008

Microb. Environ.

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Roughly estimating the diversity of life has for a long time been seen as a challenge. Sequences obtained from the environment by direct amplification are now seen as the sole mean to provide information for at least 99% of the prokaryotes in natural communities. Recent massive parallel sequencing technologies now allow to sequence nearly every sequence resulting from such amplification. Are we ready to deal with such a deluge of data? Using three recent publications (16S rRNA genes amplification in soil and seawater followed by massive parallel sequencing) as case examples, this review analyses the state of the field.

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“…The 2001 and 2010 strains were also tested by a resequencing microarray for detection and characterisation of a large panel of viruses and bacteria. 2,3 We were able to detect, in one step (48 h), two sequences of haemagglutinin and DNA polymerase DNA-dependent genes of the viral genome in both samples and to confi rm the genotype (DRC clade). Our patients were admitted to the local health centre and kept in isolation until they were no longer infectious.…”

Section: Maculopapular Lesions In the Central African Republicmentioning

confidence: 91%