Capsid Integrity qPCR—An Azo-Dye Based and Culture-Independent Approach to Estimate Adenovirus Infectivity after Disinfection and in the Aquatic Environment

Leifels, Mats; Shoults, David C.; Wiedemeyer, Alyssa; Ashbolt, Nicholas J.; Sozzi, Emanuele; Hagemeier, Angela; Jurzik, Lars

doi:10.3390/w11061196

Cited by 18 publications

(28 citation statements)

References 83 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Lack of efficacy of an azo dye method with avian influenza virus was suspected to be due to natural characteristics of an enveloped virus that make it difficult for EMA to penetrate the compromised capsid ( Graiver et al., 2010 ). However, the PMA dye assay was successfully applied to detect dengue virus, another enveloped, single-stranded RNA virus ( Huang et al., 2016 ), lending further support to the conclusion that PMA is more effective than in removing false positive signals in qPCR while not showing microbicidal effects ( Fittipaldi et al., 2012 ; Gedalanga and Olson, 2009 ; Leifels et al., 2019 ).…”

Section: Viruses Studiedmentioning

confidence: 80%

“…For other viruses, direct investigation for effects of strain origins, i.e., laboratory-grown strains and environmentally acquired strains, is limited, and comparisons of results among different studies would lead to biases due to diverse experimental protocols and conditions. Moreover, a limitation of azo dye studies on clinical, environmental and food samples is the absence of information regarding absolute quantification of infectious and non-infectious viruses to evaluate the assay performance, even though known concentrations of mengovirus ( Randazzo et al., 2018a , 2018b ) or murine norovirus ( Leifels et al., 2016 , 2019 ) have been added as internal controls in some studies investigating greywater used for irrigation or freshwater near a recreational bathing site. Other complicating factors include process recovery loss and inhibition effects in qPCR assays that appeared to affect RNA viruses more than DNA viruses regardless of azo dye pretreatment ( Leifels et al., 2016 ).…”

Section: Origin Of Studied Virusesmentioning

confidence: 99%

“…Seventy percent of the articles we researched used PMA or the derived PMAxx, and a third of the studies compared them to EMA and/or the derivate PEMAX ( Table 1 ). In general, PMA and PMAxx were found to be more suitable for capsid integrity qPCR, most likely due to their higher ability to enter thermally and chemically inactivated virions while not penetrating intact capsids or showing microbicidal effects ( Jeong et al., 2017 ; Kim et al., 2017 ; Moreno et al., 2015 ), when compared to infectious virus titers determined by cell culture ( Leifels et al., 2019 ).…”

Section: Azo Dye Type and Concentration Rangementioning

confidence: 99%

See 2 more Smart Citations

Capsid integrity quantitative PCR to determine virus infectivity in environmental and food applications – A systematic review

et al. 2021

Self Cite

View full text Add to dashboard Cite

Section: Viruses Studiedmentioning

confidence: 80%

Section: Origin Of Studied Virusesmentioning

confidence: 99%

Section: Azo Dye Type and Concentration Rangementioning

confidence: 99%

See 1 more Smart Citation

Capsid integrity quantitative PCR to determine virus infectivity in environmental and food applications – A systematic review

et al. 2021

Self Cite

View full text Add to dashboard Cite

“…Intercalating dyes, such as propidium monoazide (PMA) and ethidium monoazide (EMA) in conjunction with qPCR (PMA-RT-qPCR and PMA-qPCR for RNA or DNA viruses, respectively), have been used to determine the potential infectivity of enteric viruses in water [11,70,71]. Treatment of virus suspensions with platinum (IV) chloride (PtCl4) has also been applied to discriminate between potentially infectious and thermally inactivated enteric hepatitis viruses in environmental samples [12,72,73].…”

Section: Molecular Methods For Assessing Virus Infectivitymentioning

confidence: 99%

“…Unfortunately, these methods cannot directly detect the infectivity of waterborne viruses. Various approaches have been developed to assess infectivity of waterborne enteric viruses using molecular methods, but they are specific to the virus and the mechanism of virus inactivation [10,11,12]. The mechanism of virus inactivation may vary by the type of virus, disinfectant, and other methods which may make the virus incapable of replication [13,14].…”

Section: Introductionmentioning

confidence: 99%

Assessing the Occurrence of Waterborne Viruses in Reuse Systems: Analytical Limits and Needs

Gerba

Betancourt

2019

Pathogens

View full text Add to dashboard Cite

Detection of waterborne enteric viruses is an essential tool in assessing the risk of waterborne transmission. Cell culture is considered a gold standard for detection of these viruses. However, it is important to recognize the uncertainty and limitations of enteric virus detection in cell culture. Cell culture cannot support replication of all virus types and strains, and numerous factors control the efficacy of specific virus detection assays, including chemical additives, cell culture passage number, and sequential passage of a sample in cell culture. These factors can result in a 2- to 100-fold underestimation of virus infectivity. Molecular methods reduce the time for detection of viruses and are useful for detection of those that do not produce cytopathogenic effects. The usefulness of polymerase chain reaction (PCR) to access virus infectivity has been demonstrated for only a limited number of enteric viruses and is limited by an understanding of the mechanism of virus inactivation. All of these issues are important to consider when assessing waterborne infectious viruses and expected goals on virus reductions needed for recycled water. The use of safety factors to account for this may be useful to ensure that the risks in drinking water and recycled water for potable reuse are minimized.

show abstract

Aligning monitoring of virus barriers in potable reuse with unit process treatment mechanisms and time scales: A critical review and research needs

Adelman,

Oberoi,

Oppenheimer

et al. 2024

AWWA Water Science

View full text Add to dashboard Cite

Interest is growing in potable reuse in response to water scarcity and the desire for sustainable supplies. While potable reuse systems must control a variety of physical, chemical, and microbiological contaminants, human enteric viruses are particularly concerning and drive process performance objectives due to their often‐high occurrence in source waters, small size, potential resistance to treatment, and laborious methods to determine infectivity. This paper reviews the alignment of online monitoring practices with the mechanisms and time scales of the various barriers for enteric viruses. While there are numerous studies and reviews of individual barriers, no other review has been identified that covers operational monitoring of the entire potable reuse system. This paper also provides a critical assessment of the efficacy of current practices for operational and verification monitoring of the integrity of barriers to enteric viruses in potable reuse systems. The prevalence of human enteric viruses in wastewater and associated challenges of quantifying them through treatment are discussed within the risk management frameworks currently in use or under development for potable reuse systems. Monitoring approaches are then reviewed throughout the potable reuse water cycle. Current monitoring practices are compared with treatment process mechanisms and time scales, for the treatment barriers of biological wastewater treatment, membrane bioreactors, microfiltration/ultrafiltration, reverse osmosis, ultraviolet irradiation/advanced oxidation, ozonation, granular media/biologically active filtration, and chlorination. Monitoring and pathogen removal mechanisms are also reviewed for both environmental and engineered buffers. Implications are then discussed for future areas of research in potable reuse.

show abstract

Capsid Integrity qPCR—An Azo-Dye Based and Culture-Independent Approach to Estimate Adenovirus Infectivity after Disinfection and in the Aquatic Environment

Cited by 18 publications

References 83 publications

Capsid integrity quantitative PCR to determine virus infectivity in environmental and food applications – A systematic review

Capsid integrity quantitative PCR to determine virus infectivity in environmental and food applications – A systematic review

Assessing the Occurrence of Waterborne Viruses in Reuse Systems: Analytical Limits and Needs

Aligning monitoring of virus barriers in potable reuse with unit process treatment mechanisms and time scales: A critical review and research needs

Contact Info

Product

Resources

About