Abstract
A universal filtration and enzyme-based workflow has been established to allow for the rapid and sensitive quantification of leading pathogens Cryptosporidium parvum, Giardia gamblia, Campylobacter jejuni, and Escherichia coli from tap water samples with volumes up to 100 mL, and the potential to scale up to larger volumes. qPCR limits of quantification as low as four oocysts for Cryptosporidium, twelve cysts for Giardia, two cells for C. jejuni, and nineteen cells for E. coli per reaction were achieved. A polycarbonate filter-based sampling method coupled with the prepGEM enzyme-based DNA extraction system created a single-step transfer workflow that required as little as 20 min of incubation time and a 100 µL reaction mix. The quantification via qPCR was performed directly on the prepGEM extract, bypassing time-consuming, labour-intensive conventional culture-based methods. The tap water samples were shown to contain insoluble particles that inhibited detection by reducing the quantification efficiency of a representative pathogen (C. jejuni) to 30–60%. This sample inhibition was effectively removed by an on-filter treatment of 20% (v/v) phosphoric acid wash. Overall, the established workflow was able to achieve quantification efficiencies of 92% and higher for all four leading water pathogens, forming the basis of a rapid, portable, and low-cost solution to water monitoring.
Highlights
Waterborne pathogen monitoring plays a significant role in preventing and containing major public health problems worldwide
Organisms used for the experiments were sourced as follows: Campylobacter jejuni (IFM 2454) and Escherichia coli O157 (IFM 2007) were obtained from IFM Quality Services
Tap water samples were collected from the handwashing sink in Laboratory 6WW250 at Macquarie University (Sydney, Australia)
Summary
Waterborne pathogen monitoring plays a significant role in preventing and containing major public health problems worldwide. Notable bacterial waterborne pathogens include Campylobacter spp., a leading cause of bacterial diarrheal illness and a commonly identified cause of Guillan-Barré syndrome [1,2], and Escherichia coli, frequently associated with gastroenteritis and an indicator species for other faecal-borne microorganisms, such as Salmonella and Hepatitis A [3,4,5]. Protozoan parasites, such as Cryptosporidium and Giardia, are prevalent in environmental water and are responsible for the majority of reported waterborne disease outbreaks due to protozoa worldwide [6]. These methods range from filtration- or gravity-based capture, immuno- or culture-based selection, direct counting, or immunoassays, many of which require specialised instrumentation confined
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