Microarray-based detection and genotyping of viral pathogens

Wang, David; Coscoy, Laurent; Zylberberg, Maxine; Avila, Pedro C.; Boushey, Homer A.; Ganem, Don; DeRisi, Joseph L.

doi:10.1073/pnas.242579699

Cited by 693 publications

(252 citation statements)

References 22 publications

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“…Pathogen concentrations obtained with this system could then be used for quantitative microbial risk assessment (QMRA) (19). Several advantages of this MFQPCR over other simultaneous multipathogen detection technologies such as microarray (20,21), TaqMan array (22,23), Luminex assay (24), OpenArray (25), FilmArray (26), and molecular inversion probe assay (27) include its high sensitivity and quantitative performance. However, MFQPCR technology has not been applied to quantify multiple viral pathogens.…”

mentioning

confidence: 99%

Microfluidic Quantitative PCR for Simultaneous Quantification of Multiple Viruses in Environmental Water Samples

Ishii

Kitamura

Segawa

et al. 2014

Appl Environ Microbiol

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cTo secure food and water safety, quantitative information on multiple pathogens is important. In this study, we developed a microfluidic quantitative PCR (MFQPCR) system to simultaneously quantify 11 major human viral pathogens, including adenovirus, Aichi virus, astrovirus, enterovirus, human norovirus, rotavirus, sapovirus, and hepatitis A and E viruses. Murine norovirus and mengovirus were also quantified in our MFQPCR system as a sample processing control and an internal amplification control, respectively. River water contaminated with effluents from a wastewater treatment plant in Sapporo, Japan, was collected and used to validate our MFQPCR system for multiple viruses. High-throughput quantitative information was obtained with a quantification limit of 2 copies/l of cDNA/DNA. Using this MFQPCR system, we could simultaneously quantify multiple viral pathogens in environmental water samples. The viral quantities obtained using MFQPCR were similar to those determined by conventional quantitative PCR. Thus, the MFQPCR system developed in this study can provide direct and quantitative information for viral pathogens, which is essential for risk assessments.

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mentioning

confidence: 99%

Microfluidic Quantitative PCR for Simultaneous Quantification of Multiple Viruses in Environmental Water Samples

Ishii

Kitamura

Segawa

et al. 2014

Appl Environ Microbiol

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“…Several studies have reported the use of DNA microarrays for the detection or classification of influenza viruses (26)(27)(28)(29)(30)(31). These microarrays were designed to detect specific influenza A virus strains (29,30) or to subtype and pathotype the HA of avian influenza viruses (30) but not to determine both the HA and NA subtypes.…”

Section: Discussionmentioning

confidence: 99%

PhyloFlu, a DNA Microarray for Determining the Phylogenetic Origin of Influenza A Virus Gene Segments and the Genomic Fingerprint of Viral Strains

et al. 2014

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f Recent evidence suggests that most influenza A virus gene segments can contribute to the pathogenicity of the virus. In this regard, the hemagglutinin (HA) subtype of the circulating strains has been closely surveyed, but the reassortment of internal gene segments is usually not monitored as a potential source of an increased pathogenicity. In this work, an oligonucleotide DNA microarray (PhyloFlu) designed to determine the phylogenetic origins of the eight segments of the influenza virus genome was constructed and validated. Clades were defined for each segment and also for the 16 HA and 9 neuraminidase (NA) subtypes. Viral genetic material was amplified by reverse transcription-PCR (RT-PCR) with primers specific to the conserved 5= and 3= ends of the influenza A virus genes, followed by PCR amplification with random primers and Cy3 labeling. The microarray unambiguously determined the clades for all eight influenza virus genes in 74% (28/38) of the samples. The microarray was validated with reference strains from different animal origins, as well as from human, swine, and avian viruses from field or clinical samples. In most cases, the phylogenetic clade of each segment defined its animal host of origin. The genomic fingerprint deduced by the combined information of the individual clades allowed for the determination of the time and place that strains with the same genomic pattern were previously reported. PhyloFlu is useful for characterizing and surveying the genetic diversity and variation of animal viruses circulating in different environmental niches and for obtaining a more detailed surveillance and follow up of reassortant events that can potentially modify virus pathogenicity.

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“…In designing probes for our array, we sought to balance the goals of conservation and uniqueness, prioritizing oligo sequences that were conserved, to the extent possible, within the family of the targeted organism, and unique relative to other families and kingdoms. We designed arrays with larger numbers of probes per sequence (50 or more for viruses, 15 or more for bacteria) than previous arrays having only [2][3][4][5][6][7][8][9][10] probes per target (5,6). The large number of probes per target was expected to improve sensitivity, an important consideration given possible amplification bias in the random PCR sample preparation protocol, which could result in non-amplification of genome regions targeted by some probes.…”

Section: Llmda Probe Design For Broad Spectrum Detection Of Viruses Amentioning

confidence: 99%

Detection of Adventitious Viruses from Biologicals Using a Broad-Spectrum Microbial Detection Array

Jaing¹,

Gardner²,

McLoughlin³

et al. 2011

PDA Journal of Pharmaceutical Science and Technology

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ABSTRACT:We designed the Lawrence Livermore Microbial Detection Array (LLMDA), which contains 388,000 DNA probes. This array can detect any sequenced viruses or bacteria within 24 hours. In addition, the oligonucleotide probes were selected to enable detection of novel, divergent species with homology to sequenced organisms. We recently used this array to identify an adventitious virus from a vaccine product. We have also used this array to detect viral and bacterial infections from various human clinical samples. Broad spectrum microbial detection microarrays are efficient and cost-effective tools to rapidly screen cell bank samples, raw materials, vaccine samples and clinical samples to ensure drug, food and health safety in the United States and worldwide.

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Microarray-based detection and genotyping of viral pathogens

Cited by 693 publications

References 22 publications

Microfluidic Quantitative PCR for Simultaneous Quantification of Multiple Viruses in Environmental Water Samples

Microfluidic Quantitative PCR for Simultaneous Quantification of Multiple Viruses in Environmental Water Samples

PhyloFlu, a DNA Microarray for Determining the Phylogenetic Origin of Influenza A Virus Gene Segments and the Genomic Fingerprint of Viral Strains

Detection of Adventitious Viruses from Biologicals Using a Broad-Spectrum Microbial Detection Array

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