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5. Taxonomy of prokaryotic viruses: 2018-2019 update from the ICTV Bacterial and Archaeal Viruses Subcommittee.

Author

Adriaenssens, EM, Sullivan, MB, Knezevic, P, van Zyl, LJ, Sarkar, BL, Dutilh, BE, Alfenas-Zerbini, P, Łobocka, M, Tong, Y, Brister, JR, Moreno Switt, AI, Klumpp, J, Aziz, RK, Barylski, J, Uchiyama, J, Edwards, RA, Kropinski, AM, Petty, NK, Clokie, MRJ, Kushkina, AI, Morozova, VV, Duffy, S, Gillis, A, Rumnieks, J, Kurtböke İ, Chanishvili, N, Goodridge, L, Wittmann, J, Lavigne, R, Jang, HB, Prangishvili, D, Enault, F, Turner, D, Poranen, MM, Oksanen, HM, Krupovic, M, Adriaenssens, EM, Sullivan, MB, Knezevic, P, van Zyl, LJ, Sarkar, BL, Dutilh, BE, Alfenas-Zerbini, P, Łobocka, M, Tong, Y, Brister, JR, Moreno Switt, AI, Klumpp, J, Aziz, RK, Barylski, J, Uchiyama, J, Edwards, RA, Kropinski, AM, Petty, NK, Clokie, MRJ, Kushkina, AI, Morozova, VV, Duffy, S, Gillis, A, Rumnieks, J, Kurtböke İ, Chanishvili, N, Goodridge, L, Wittmann, J, Lavigne, R, Jang, HB, Prangishvili, D, Enault, F, Turner, D, Poranen, MM, Oksanen, HM, and Krupovic, M

Abstract

This article is a summary of the activities of the ICTV's Bacterial and Archaeal Viruses Subcommittee for the years 2018 and 2019. Highlights include the creation of a new order, 10 families, 22 subfamilies, 424 genera and 964 species. Some of our concerns about the ICTV's ability to adjust to and incorporate new DNA- and protein-based taxonomic tools are discussed.

Published
2020

8. Strengths and Shortcomings of Advanced Detection Technologies

Author

Goodridge, L. D., Fratamico, P., Christensen, Laurids Siig, Hoorfar, Jeffrey, Griffiths, M., Carter, M., Bhumia, A. K., O´Kennedy, R., Goodridge, L. D., Fratamico, P., Christensen, Laurids Siig, Hoorfar, Jeffrey, Griffiths, M., Carter, M., Bhumia, A. K., and O´Kennedy, R.

Published
2011

14. Central Nervous System Tissue in Meat Products: An Evaluation of Risk, Prevention Strategies, and Testing Procedures.

Author

Bowling, M. B., Belk, K. E., Nightingale, K. K., Goodridge, L. D., Scanga, J. A., Sofos, J. N., Tatum, J. D., and Smith, G. C.

Subjects
CENTRAL nervous system, MEAT, FOOD, PUBLIC health, BOVINE spongiform encephalopathy, CREUTZFELDT-Jakob disease
Abstract

Since the outbreak of bovine spongiform encephalopathy (BSE) in the United Kingdom in 1986 and its subsequent link to the human neurological disorder variant Creutzfeldt-Jakob disease (vCJD), presence of tissues from the central nervous system (CNS) in meat products has been considered a public health concern and, thus, has been banned from entering the human food chain in many countries. Despite this, potential can exist during harvesting to contaminate or cross-contaminate edible meat products with CNS tissue that is designated as a specified risk material (SRM) in many countries. Methods used to detect CNS tissue in meat products vary greatly in their sensitivity, specificity, cost, labor and expertise needed, ease of completion, and type of results given (qualitative vs quantitative) and, within these constraints, appropriate testing methods must be selected to monitor or verify that meat products system controls are effective in removing CNS tissue from the human food chain. The extent to which monitoring procedures are needed should be based on the public health risk of CNS tissue in meat products as determined by each sovereign nation and/or third-party international organizations such as the World Organization for Animal Health (OIE). Risk associated with consumption of CNS tissue should be estimated by sovereign nations by establishing prevalence of BSE within their borders. Using this information, science-based decisions may guide international policy and trade. Using available scientific information, appropriate testing methods for monitoring or verification, and prevalence information, nations can estimate and reduce, to the extent deemed necessary, the public health risk of vCJD. [ABSTRACT FROM AUTHOR]

Published
2007
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15. Evaluation of Lactic Acid as an Initial and Secondary Subprimal Intervention for Escherichia coliO157:H7, Non-O157 Shiga Toxin–Producing E. coli, and a Nonpathogenic E. coliSurrogate for E. coliO157:H7

Author

PITTMAN, C.I., GEORNARAS, I., WOERNER, D.R., NIGHTINGALE, K.K., SOFOS, J.N., GOODRIDGE, L., and BELK, K.E.

Abstract

Lactic acid can reduce microbial contamination on beef carcass surfaces when used as a food safety intervention, but effectiveness when applied to the surface of chilled beef subprimal sections is not well documented. Studies characterizing bacterial reduction on subprimals after lactic acid treatment would be useful for validations of hazard analysis critical control point (HACCP) systems. The objective of this study was to validate initial use of lactic acid as a subprimal intervention during beef fabrication followed by a secondary application to vacuum-packaged product that was applied at industry operating parameters. Chilled beef subprimal sections (100 cm2) were either left uninoculated or were inoculated with 6 log CFU/cm2of a 5-strain mixture of Escherichia coliO157:H7, a 12-strain mixture of non-O157 Shiga toxin–producing E. coli(STEC), or a 5-strain mixture of nonpathogenic (biotype I) E. colithat are considered surrogates for E. coliO157:H7. Uninoculated and inoculated subprimal sections received only an initial or an initial and a second “rework” application of lactic acid in a custom-built spray cabinet at 1 of 16 application parameters. After the initial spray, total inoculum counts were reduced from 6.0 log CFU/cm2to 3.6, 4.4, and 4.4 log CFU/cm2for the E. colisurrogates, E. coliO157:H7, and non-O157 STEC inoculation groups, respectively. After the second (rework) application, total inoculum counts were 2.6, 3.2, and 3.6 log CFU/cm2for the E. colisurrogates, E. coliO157:H7, and non-O157 STEC inoculation groups, respectively. Both the initial and secondary lactic acid treatments effectively reduced counts of pathogenic and nonpathogenic strains of E. coliand natural microflora on beef subprimals. These data will be useful to the meat industry as part of the HACCP validation process.

Published
2012
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16. A Rapid Most-Probable-Number–Based Enzyme-Linked Immunosorbent Assay for the Detection and Enumeration of SalmonellaTyphimurium in Poultry Wastewater

Author

Goodridge, C., Goodridge, L., Gottfried, D., Edmonds, P., and Wyvill, J.C.

Abstract

The rapid and accurate detection and enumeration of low levels of SalmonellaTyphimurium in food processing facilities are critical components of an effective hazard analysis critical control point program. The objective of this study was to develop a rapid (8 h) most probable number (MPN)–enzyme-linked immunosorbent assay (ELISA) for the detection and enumeration of SalmonellaTyphimurium in wastewater. The specific objectives were to (i) characterize poly- and monoclonal SalmonellaTyphimurium–specific antibodies in order to select the most specific and sensitive antibody for SalmonellaTyphimurium detection, and (ii) validate the MPN assay through a correlation between the 8-h MPN-ELISA and the traditional 48-h SalmonellaTyphimurium MPN method in poultry scald water. Poultry scald water samples were spiked with 10 and 50 CFU/ml of SalmonellaTyphimurium. The traditional MPN method used a 48-h enrichment period followed by an analysis, while the MPN-ELISA used a 5-h enrichment period followed by a 3-h ELISA analysis. No differences (P< 0.05) were found between the traditional MPN and the MPN-ELISA, indicating the promise of the MPN-ELISA for the rapid detection and enumeration of SalmonellaTyphimurium within an 8-h shift. This abbreviated assay will permit increased product sampling and more rapid movement of food between production and processing, resulting in reduced spoilage and quality losses.

Published
2003
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20. Concentration of enteric viruses from tap water using an anion exchange resin-based method.

Author

Pérez-Méndez, A., Chandler, J. C., Bisha, B., and Goodridge, L. D.

Subjects
*ENTEROVIRUSES, *DRINKING water, *ION exchange (Chemistry), *PUBLIC health, *NUCLEIC acids, *ADENOVIRUS diseases, *COST effectiveness
Abstract

Detecting low concentrations of enteric viruses in water is needed for public health-related monitoring and control purposes. Thus, there is a need for sensitive, rapid and cost effective enteric viral concentration methods compatible with downstream molecular detection. Here, a virus concentration method based on adsorption of the virus to an anion exchange resin and direct isolation of nucleic acids is presented. Ten liter samples of tap water spiked with different concentrations (10-10,000 TCID50/10 L) of human adenovirus 40 (HAdV-40), hepatitis A virus (HAV) or rotavirus (RV) were concentrated and detected by real time PCR or real time RT-PCR. This method improved viral detection compared to direct testing of spiked water samples where the ΔCt was 12.1 for AdV-40 and 4.3 for HAV. Direct detection of RV in water was only possible for one of the three replicates tested (Ct of 37), but RV detection was improved using the resin method (all replicates tested positive with an average Ct of 30, n = 3). The limit of detection of the method was 10 TCID50/10 L for HAdV-40 and HAV, and 100 TCID50/10 L of water for RV. These results compare favorably with detection limits reported for more expensive and laborious methods. [ABSTRACT FROM AUTHOR]

Published
2014
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22. Phylogenomics of novel clones of Aeromonas veronii recovered from a freshwater lake reveals unique biosynthetic gene clusters.

Author

Lawal OU, Bryan N, Parreira VR, Anderson R, Chen Y, Precious M, and Goodridge L

Abstract

Aquatic ecosystems serve as crucial reservoirs for pathogens and antimicrobial resistance genes, thus presenting a significant global health risk. Here, we investigated the phylogenomics of Aeromonas veronii from Lake Wilcox in Ontario. Among the 11 bacterial isolates, nine were identified as A. veronii . Notably, 67% of A. veronii isolates were potential human pathogens. Considerable genetic diversity was noted among the A. veronii isolates, suggesting the lake as a reservoir for multiple human pathogenic strains. Comparison of the A. veronii sequenced with global A. veronii genomes highlighted significant genetic diversity and suggests widespread dissemination of strains. All the isolates carried chromosomal genes encoding resistance to β-lactams. Although virulence gene content differed between human and non-human pathogenic strains, type III secretion systems was associated with human pathogenic isolates. The assessment of AMR genes in global isolates showed that β-lactam and tetracycline resistance genes were predominant. Although the machine learning-based pangenome-wide association approach performed did not yield any source-based genes, some genes were enriched in a few isolates from different sources. The mrkABCDF operon that mediates biofilm formation and genes encoding resistance to colistin, chloramphenicol, trimethoprim, and tetracycline were enriched in animal products, whereas macrolide resistance genes and Inc plasmid-types were linked to the aquatic environment. Novel biosynthetic gene clusters were identified, suggesting that A. veronii with varying pathogenic potential could produce unique secondary metabolites. There is a need for continuous tracking of pathogens in aquatic ecosystems to contribute to our understanding of their evolutionary dynamics and the ecological roles of their genetic elements., Importance: Lakes and other aquatic ecosystems can harbor harmful bacteria that can make people sick and resist antibiotics, posing a significant global health risk. In this study, we investigated Aeromonas veronii , a Gram-negative bacteria found in Lake Wilcox in Ontario. We used various techniques, including whole-genome sequencing (WGS), to analyze the bacteria and found that many of the isolates had the potential to cause human disease. We also discovered significant genetic diversity among the isolates, indicating that the lake may be a reservoir for multiple human pathogenic strains. All isolates carried genes that confer resistance to antibiotics, and some virulence genes were associated with human pathogenic isolates. This study highlights the importance of monitoring aquatic ecosystems for harmful bacteria to better understand their evolution, potential for human pathogenicity, and the ecological roles of their genetic elements. This knowledge can inform strategies for preventing the spread of antibiotic-resistant bacteria and protecting public health.

Published
2024
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23. Genomic surveillance of Canadian airport wastewater samples allows early detection of emerging SARS-CoV-2 lineages.

Author

Overton AK, Knapp JJ, Lawal OU, Gibson R, Fedynak AA, Adebiyi AI, Maxwell B, Cheng L, Bee C, Qasim A, Atanas K, Payne M, Stuart R, Fleury MD, Knox NC, Nash D, Hungwe YC, Prasla SR, Ho H, Agboola SO, Kwon SH, Naik S, Parreira VR, Rizvi F, Precious MJ, Thomas S, Zambrano M, Fang V, Gilliland E, Varia M, Horn M, Landgraff C, Arts EJ, Goodridge L, Becker D, and Charles TC

Subjects
Humans, Whole Genome Sequencing methods, Ontario epidemiology, Canada epidemiology, Sewage virology, SARS-CoV-2 genetics, SARS-CoV-2 isolation & purification, Wastewater virology, Airports, COVID-19 epidemiology, COVID-19 virology, COVID-19 transmission, COVID-19 diagnosis, Genome, Viral
Abstract

The severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) pandemic has shown wastewater (WW) surveillance to be an effective means of tracking the emergence of viral lineages which arrive by many routes of transmission including via transportation hubs. In the Canadian province of Ontario, numerous municipal wastewater treatment plants (WWTPs) participate in WW surveillance of infectious disease targets such as SARS-CoV-2 by qPCR and whole genome sequencing (WGS). The Greater Toronto Airports Authority (GTAA), operator of Toronto Pearson International Airport (Toronto Pearson), has been participating in WW surveillance since January 2022. As a major international airport in Canada and the largest national hub, this airport is an ideal location for tracking globally emerging SARS-CoV-2 variants of concern (VOCs). In this study, WW collected from Toronto Pearson's two terminals and pooled aircraft sewage was processed for WGS using a tiled-amplicon approach targeting the SARS-CoV-2 virus genome. Data generated was analyzed to monitor trends of SARS-CoV-2 lineage frequencies. Initial detections of emerging lineages were compared between Toronto Pearson WW samples, municipal WW samples collected from the surrounding regions, and Ontario clinical data as published by Public Health Ontario. Results enabled the early detection of VOCs and individual mutations emerging in Ontario. On average, the emergence of novel lineages at the airport preceded clinical detections by 1-4 weeks, and up to 16 weeks in one case. This project illustrates the efficacy of WW surveillance at transitory transportation hubs and sets an example that could be applied to other viruses as part of a pandemic preparedness strategy and to provide monitoring on a mass scale., (© 2024. The Author(s).)

Published
2024
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24. Draft genome sequences of three poultry Salmonella Shamba isolates from South Africa.

Author

Karama M, Lawal OU, Parreira VR, Soni M, Chen Y, Cenci-Goga BT, Grispoldi L, Greyling J, and Goodridge L

Abstract

Nontyphoidal Salmonella enterica serovars are foodborne pathogens commonly transmitted through poultry products. Draft genome sequences of three Salmonella enterica subsp. enterica serovar Shamba isolates which were obtained from poultry house dust in South Africa are reported herein., Competing Interests: The authors declare no conflict of interest.

Published
2024
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25. SARS-CoV-2 viral titer measurements in Ontario, Canada wastewaters throughout the COVID-19 pandemic.

Author

D'Aoust PM, Hegazy N, Ramsay NT, Yang MI, Dhiyebi HA, Edwards E, Servos MR, Ybazeta G, Habash M, Goodridge L, Poon A, Arts E, Brown RS, Payne SJ, Kirkwood A, Simmons D, Desaulniers JP, Ormeci B, Kyle C, Bulir D, Charles T, McKay RM, Gilbride K, Oswald C, Peng H, Pileggi V, Wang ML, Tong A, Orellano D, DeGroot CT, and Delatolla R

Subjects
Ontario epidemiology, Humans, Pandemics, Viral Load, COVID-19 epidemiology, SARS-CoV-2, Wastewater virology
Abstract

During the COVID-19 pandemic, the Province of Ontario, Canada, launched a wastewater surveillance program to monitor SARS-CoV-2, inspired by the early work and successful forecasts of COVID-19 waves in the city of Ottawa, Ontario. This manuscript presents a dataset from January 1, 2021, to March 31, 2023, with RT-qPCR results for SARS-CoV-2 genes and PMMoV from 107 sites across all 34 public health units in Ontario, covering 72% of the province's and 26.2% of Canada's population. Sampling occurred 2-7 times weekly, including geographical coordinates, serviced populations, physico-chemical water characteristics, and flowrates. In doing so, this manuscript ensures data availability and metadata preservation to support future research and epidemic preparedness through detailed analyses and modeling. The dataset has been crucial for public health in tracking disease locally, especially with the rise of the Omicron variant and the decline in clinical testing, highlighting wastewater-based surveillance's role in estimating disease incidence in Ontario., (© 2024. The Author(s).)

Published
2024
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26. Survival and Expression of rpoS and grxB of Cronobacter sakazakii in Powdered Infant Formula Under Simulated Gastric Conditions of Newborns.

Author

Kireina D, Parreira VR, Goodridge L, and Farber JM

Subjects
Humans, Infant, Newborn, Hydrogen-Ion Concentration, Infant, Food Microbiology, Colony Count, Microbial, Food Contamination analysis, Sigma Factor genetics, Sigma Factor metabolism, Cronobacter sakazakii genetics, Infant Formula, Bacterial Proteins genetics
Abstract

Cronobacter sakazakii can cause severe illnesses in infants, predominantly in preterm newborns, with consumption of contaminated powdered infant formula (PIF) being the major vehicle of infection. Using a dynamic human gastrointestinal simulator called the SHIME, this study examined the effects of gastric acidity and gastric digestion time of newborns on the survival and expression of stress genes of C. sakazakii. Individual strains, inoculated at 7 log CFU/mL into reconstituted PIF, were exposed to gastric pH values of 4.00, 5.00 and 6.00 for 4 h with gradual acidification. The survival results showed that C. sakazakii grew in the stomach portion of the SHIME during a 4-h exposure to pH 4.00, 5.00 and 6.00 by 0.96-1.05, 1.02-1.28 and 1.11-1.73 log CFU/mL, respectively. The expression of two stress genes, rpoS and grxB, throughout gastric digestion was evaluated using reverse transcription qPCR. The upregulation of rpoS and grxB during the 4-h exposure to simulated gastric fluid at pH 4.00 showed that C. sakazakii strains may be experiencing the most stress in the pH 4.00 treatment. The gene expression results also suggest that C. sakazakii strains appeared to develop an acid adaptation response during the 4-h exposure that may facilitate their survival. Altogether, this study highlights that a combination of low gastric acidity, long digestion time in the presence of reconstituted PIF, created a favorable environment for the adaptation and survival of C. sakazakii in the simulation of a newborn's stomach. This study gives directions for future research to further advance our understanding of the behavior of C. sakazakii in the GI tract of newborns., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 The Authors. Published by Elsevier Inc. All rights reserved.)

Published
2024
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27. Genomic and Phenotypic Analysis of Salmonella enterica Bacteriophages Identifies Two Novel Phage Species.

Author

Bhandare S, Lawal OU, Colavecchio A, Cadieux B, Zahirovich-Jovich Y, Zhong Z, Tompkins E, Amitrano M, Kukavica-Ibrulj I, Boyle B, Wang S, Levesque RC, Delaquis P, Danyluk M, and Goodridge L

Abstract

Bacteriophages (phages) are potential alternatives to chemical antimicrobials against pathogens of public health significance. Understanding the diversity and host specificity of phages is important for developing effective phage biocontrol approaches. Here, we assessed the host range, morphology, and genetic diversity of eight Salmonella enterica phages isolated from a wastewater treatment plant. The host range analysis revealed that six out of eight phages lysed more than 81% of the 43 Salmonella enterica isolates tested. The genomic sequences of all phages were determined. Whole-genome sequencing (WGS) data revealed that phage genome sizes ranged from 41 to 114 kb, with GC contents between 39.9 and 50.0%. Two of the phages SB13 and SB28 represent new species, Epseptimavirus SB13 and genera Macdonaldcampvirus, respectively, as designated by the International Committee for the Taxonomy of Viruses (ICTV) using genome-based taxonomic classification. One phage (SB18) belonged to the Myoviridae morphotype while the remaining phages belonged to the Siphoviridae morphotype. The gene content analyses showed that none of the phages possessed virulence, toxin, antibiotic resistance, type I-VI toxin-antitoxin modules, or lysogeny genes. Three (SB3, SB15, and SB18) out of the eight phages possessed tailspike proteins. Whole-genome-based phylogeny of the eight phages with their 113 homologs revealed three clusters A, B, and C and seven subclusters (A1, A2, A3, B1, B2, C1, and C2). While cluster C1 phages were predominantly isolated from animal sources, cluster B contained phages from both wastewater and animal sources. The broad host range of these phages highlights their potential use for controlling the presence of S. enterica in foods.

Published
2024
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28. Whole genome sequence of Vibrio cholerae NB-183 isolated from freshwater in Ontario, Canada harbors a unique gene repertoire.

Author

Lawal OU, Bryan N, Soni M, Chen Y, Precious M, Parreira VR, and Goodridge L

Subjects
Humans, Ontario, Virulence genetics, Fresh Water, Vibrio cholerae genetics, Cholera
Abstract

Objective: Vibrio cholerae is an enteric pathogen that poses a significant threat to global health. It causes severe dehydrating diarrheal disease cholera in humans. V. cholerae could be acquired either from consuming contaminated seafood or direct contact with polluted waters. As part of a larger program that assesses the microbial community profile in aquatic systems, V. cholerae strain NB-183 was isolated and characterized using a combination of culture- and whole-genome sequencing-based approaches., Data Description: Here we report the assembled and annotated whole-genome sequence of a V. cholerae strain NB-183 isolated from a recreational freshwater lake in Ontario, Canada. The genome was sequenced using short-read Illumina systems. The whole-genome sequencing yielded 4,112,549 bp genome size with 99 contigs with an average genome coverage of 96× and 47.42% G + C content. The whole genome-based comparison, phylogenomic and gene repertoire indicates that this strain harbors multiple virulence genes and biosynthetic gene clusters. This genome sequence and its associated datasets provided in this study will be an indispensable resource to enhance the understanding of the functional, ecological, and evolutionary dynamics of V. cholerae., (© 2024. The Author(s).)

Published
2024
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29. Real-time evaluation of signal accuracy in wastewater surveillance of pathogens with high rates of mutation.

Author

Thakali O, Mercier É, Eid W, Wellman M, Brasset-Gorny J, Overton AK, Knapp JJ, Manuel D, Charles TC, Goodridge L, Arts EJ, Poon AFY, Brown RS, Graber TE, Delatolla R, and DeGroot CT

Subjects
Alleles, Mutation, Ontario epidemiology, SARS-CoV-2 genetics, RNA, Viral genetics, Wastewater, Wastewater-Based Epidemiological Monitoring
Abstract

Wastewater surveillance of coronavirus disease 2019 (COVID-19) commonly applies reverse transcription-quantitative polymerase chain reaction (RT-qPCR) to quantify severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) RNA concentrations in wastewater over time. In most applications worldwide, maximal sensitivity and specificity of RT-qPCR has been achieved, in part, by monitoring two or more genomic loci of SARS-CoV-2. In Ontario, Canada, the provincial Wastewater Surveillance Initiative reports the average copies of the CDC N1 and N2 loci normalized to the fecal biomarker pepper mild mottle virus. In November 2021, the emergence of the Omicron variant of concern, harboring a C28311T mutation within the CDC N1 probe region, challenged the accuracy of the consensus between the RT-qPCR measurements of the N1 and N2 loci of SARS-CoV-2. In this study, we developed and applied a novel real-time dual loci quality assurance and control framework based on the relative difference between the loci measurements to the City of Ottawa dataset to identify a loss of sensitivity of the N1 assay in the period from July 10, 2022 to January 31, 2023. Further analysis via sequencing and allele-specific RT-qPCR revealed a high proportion of mutations C28312T and A28330G during the study period, both in the City of Ottawa and across the province. It is hypothesized that nucleotide mutations in the probe region, especially A28330G, led to inefficient annealing, resulting in reduction in sensitivity and accuracy of the N1 assay. This study highlights the importance of implementing quality assurance and control criteria to continually evaluate, in near real-time, the accuracy of the signal produced in wastewater surveillance applications that rely on detection of pathogens whose genomes undergo high rates of mutation., (© 2024. The Author(s).)

Published
2024
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30. Draft genome sequences of two Salmonella Uzaramo isolates from poultry in South Africa.

Author

Karama M, Lawal OU, Parreira VR, Soni M, Chen Y, Cenci-Goga BT, Grispoldi L, Greyling J, and Goodridge L

Abstract

Salmonella enterica is a zoonotic pathogen and a leading cause of foodborne gastroenteritis in humans. Here, we report the draft genome sequences of two Salmonella Uzaramo isolates, which were isolated from poultry organs during routine post-mortem examination in South Africa. Currently, whole-genome sequences on Salmonella Uzaramo are scanty., Competing Interests: The authors declare no conflict of interest.

Published
2024
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31. Evaluation of four human-associated fecal biomarkers in wastewater in Southern Ontario.

Author

Chettleburgh C, Ma SX, Swinwood-Sky M, McDougall H, Kireina D, Taggar G, McBean E, Parreira V, Goodridge L, and Habash M

Subjects
Ontario, Tobamovirus, Water Pollution analysis, Humans, Feces microbiology, Sewage, Water Microbiology, Biomarkers, Environmental Monitoring, Bacteriophages, Wastewater
Abstract

Human fecal biomarkers (HFBs) have a longstanding history in the field of microbial source tracking (MST) serving as indicators of human fecal contamination in drinking and recreational water. Further, HFBs have aided in recent efforts to monitor human pathogen transmission within communities. The dilution of wastewater from various sources throughout the sewershed cannot be controlled and human fecal biomarkers (HFBs) can be used to normalize target human pathogen concentrations so that fluctuations in fecal matter in wastewater can be accounted for. In the current study, we monitored the prevalence of four HFBs - including two viruses, Pepper mild mottle virus (PMMoV), cross-assembly phage (crAssphage), as well as two human-associated Bacteroides markers, HF183 and BacHuman - in wastewater samples from ten Southern Ontario wastewater treatment plants and evaluated their temporal and spatial variation in context of environmental factors that may impact the ability of HFB to normalize pathogen concentrations in wastewater. Environmental variables including precipitation, wastewater flow rate, temperature, and concentrated mass were also analyzed for their potential correlation with HFB variation in wastewater. The four HFBs were detected at high concentrations across all 10 sampling locations. The median concentrations across all sampling sites were: PMMoV 3.6 Log gene copies (GC)/mL; crAssphage 5.0 Log GC/mL; HF183 6.8 Log GC/mL and BacHuman 6.9 Log GC/mL. All HFBs were found to be similarly stratified across all 10 sites, and the bacterial markers were consistently found at higher concentration compared to the viral HFBs at all sites. The coefficient of variation (CV) for each HFB was used to characterize the variability of each biomarker at each sewershed. BacHuman and crAssphage were found to have lower CV than PMMoV and HF183, indicating that BacHuman and crAssphage may perform better in reflecting the variations in abundance of human feces in wastewater or MST applications., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 Elsevier B.V. All rights reserved.)

Published
2023
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32. Draft genome sequences of two Proteus mirabilis isolates recovered from a municipal wastewater treatment plant in Ontario, Canada.

Author

Botschner W, Davidson H, Lawal OU, Parreira VR, and Goodridge L

Abstract

Proteus mirabilis is a Gram-negative bacterium that is frequently implicated in urinary tract infections in humans and companion animals and has also been associated with foodborne infections in several countries. Here, we report the draft genome sequences of two P. mirabilis isolates recovered from municipal wastewater., Competing Interests: The authors declare no conflict of interest.

Published
2023
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33. Complete genome sequences of agricultural azole-resistant Penicillium rubens encoding CYP51A and ERG11 paralogues.

Author

Gauthier J, Mohammadi S, Huffman J, Lawal OU, Kukavica-Ibrulj I, Potvin M, Goodridge L, and Levesque RC

Abstract

Azoles are major antifungals in agriculture and medicine. However, the surge of intrinsic azole resistance is critical for public health. Here, we present the complete long-read sequencing of three azole-resistant Penicillium rubens from food crops. The presence of CYP51A and ERG11 paralogues was confirmed, as in other azole-resistant P. rubens ., Competing Interests: The authors declare no conflict of interest.

Published
2023
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34. Genetic diversity of Salmonella enterica isolated over 13 years from raw California almonds and from an almond orchard.

Author

Moyne AL, Lawal OU, Gauthier J, Kukavica-Ibrulj I, Potvin M, Goodridge L, Levesque RC, and Harris LJ

Subjects
United States, Polymorphism, Single Nucleotide, Humans, Salmonella, Salmonella enteritidis genetics, California epidemiology, Salmonella enterica genetics, Prunus dulcis genetics
Abstract

A comparative genomic analysis was conducted for 171 Salmonella isolates recovered from raw inshell almonds and raw almond kernels between 2001 and 2013 and for 30 Salmonella Enteritidis phage type (PT) 30 isolates recovered between 2001 and 2006 from a 2001 salmonellosis outbreak-associated almond orchard. Whole genome sequencing was used to measure the genetic distance among isolates by single nucleotide polymorphism (SNP) analyses and to predict the presence of plasmid DNA and of antimicrobial resistance (AMR) and virulence genes. Isolates were classified by serovars with Parsnp, a fast core-genome multi aligner, before being analyzed with the CFSAN SNP Pipeline (U.S. Food and Drug Administration Center for Food Safety and Applied Nutrition). Genetically similar (≤18 SNPs) Salmonella isolates were identified among several serovars isolated years apart. Almond isolates of Salmonella Montevideo (2001 to 2013) and Salmonella Newport (2003 to 2010) differed by ≤9 SNPs. Salmonella Enteritidis PT 30 isolated between 2001 and 2013 from survey, orchard, outbreak, and clinical samples differed by ≤18 SNPs. One to seven plasmids were found in 106 (62%) of the Salmonella isolates. Of the 27 plasmid families that were identified, IncFII and IncFIB plasmids were the most predominant. AMR genes were identified in 16 (9%) of the survey isolates and were plasmid encoded in 11 of 16 cases; 12 isolates (7%) had putative resistance to at least one antibiotic in three or more drug classes. A total of 303 virulence genes were detected among the assembled genomes; a plasmid that harbored a combination of pef, rck, and spv virulence genes was identified in 23% of the isolates. These data provide evidence of long-term survival (years) of Salmonella in agricultural environments., Competing Interests: The authors have declared that no competing interests exist., (Copyright: © 2023 Moyne et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.)

Published
2023
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36. Draft Genome Sequence of Bacillus anthracis N1, Isolated from a Recreational Freshwater Kettle Lake in Ontario, Canada.

Author

Bryan N, Anderson R, Lawal OU, Parreira VR, and Goodridge L

Abstract

Bacillus anthracis is widespread in soil and a causative agent of anthrax, primarily in herbivores. Here, we report the draft genome sequence of Bacillus anthracis strain N1, which was isolated from a recreational freshwater lake and found to carry multiple antibiotic resistance genes and biosynthetic gene clusters.

Published
2023
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37. Application of prophage sequence analysis to investigate a disease outbreak involving Salmonella Adjame, a rare serovar and implications for the population structure.

Author

Gao R, Duceppe MO, Chattaway MA, Goodridge L, and Ogunremi D

Abstract

Introduction: Outbreak investigation of foodborne salmonellosis is hindered when the food source is contaminated by multiple strains of Salmonella , creating difficulties matching an incriminated organism recovered from patients with the specific strain in the suspect food. An outbreak of the rare Salmonella Adjame was caused by multiple strains of the organism as revealed by single-nucleotide polymorphism (SNP) variation. The use of highly discriminatory prophage analysis to characterize strains of Salmonella should enable a more precise strain characterization and aid the investigation of foodborne salmonellosis., Methods: We have carried out genomic analysis of S. Adjame strains recovered during the course of a recent outbreak and compared them with other strains of the organism ( n  = 38 strains), using SNPs to evaluate strain differences present in the core genome, and prophage sequence typing (PST) to evaluate the accessory genome. Phylogenetic analyses were performed using both total prophage content and conserved prophages., Results: The PST analysis of the S. Adjame isolates showed a high degree of strain heterogeneity. We observed small clusters made up of 2-6 isolates ( n  = 27) and singletons ( n  = 11) in stark contrast with the three clusters observed by SNP analysis. In total, we detected 24 prophages of which only four were highly prevalent, namely: Entero&#95;p88 (36/38 strains), Salmon&#95;SEN34 (35/38 strains), Burkho&#95;phiE255 (33/38 strains) and Edward&#95;GF (28/38 strains). Despite the marked strain diversity seen with prophage analysis, the distribution of the four most common prophages matched the clustering observed using core genome., Discussion: Mutations in the core and accessory genomes of S. Adjame have shed light on the evolutionary relationships among the Adjame strains and demonstrated a convergence of the variations observed in both fractions of the genome. We conclude that core and accessory genomes analyses should be adopted in foodborne bacteria outbreak investigations to provide a more accurate strain description and facilitate reliable matching of isolates from patients and incriminated food sources. The outcomes should translate to a better understanding of the microbial population structure and an 46 improved source attribution in foodborne illnesses., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2023 Gao, Duceppe, Chattaway, Goodridge and Ogunremi.)

Published
2023
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38. Mapping the Roles of Nutrition and Dietetics Professionals in Sustainable Food Systems and Exploring Opportunities for Strategic Collaboration.

Author

Goodridge L, Carlsson L, and Callaghan EG

Subjects
Humans, Sustainable Development, Nutritional Status, Dietetics, Nutritionists
Abstract

Current food systems drive environmental damage, social injustices, and undermine health, and these challenges are complex and seemingly intractable. Collaboration is required to transition to more sustainable food systems (SFS). Registered Dietitians and Nutritionists (RDs) are an under-leveraged and well-positioned group to contribute to addressing food systems challenges because of their locations in the system and their existing skillsets. Drawing on research with dietitians, this perspective paper presents both a theoretical proposal as well as collective expertise in supporting sustainable development of the global food system. It highlights where RDs work in food systems with the aim to reveal multiple points of entry where RDs can and do contribute to SFS across food systems, approaches to apply, as well as opportunities for collaboration within and beyond the profession. Educational and societal barriers exist that prevent systematic RD engagement; however, examples of established work provide models to follow.

Published
2022
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39. Selection of a Potential Synbiotic against Cronobacter sakazakii.

Author

Ke A, Parreira VR, Farber JM, and Goodridge L

Subjects
Ecosystem, Food Microbiology, Humans, Infant, Infant Formula microbiology, Powders metabolism, Cronobacter, Cronobacter sakazakii, Synbiotics
Abstract

Abstract: Cronobacter sakazakii is an opportunistic foodborne pathogen that can be fatal to infants; it is commonly associated with powdered infant formula due to contamination during manufacturing processes or during preparation in hospitals or homes. This project aimed to select a potential synbiotic, a combination of probiotic strains with a prebiotic product, to inhibit the growth of C. sakazakii in an in vitro dynamic infant gut model (Simulator of the Human Intestinal Microbial Ecosystem). A total of 16 lactic acid bacteria (LAB) were tested for their inhibitory properties against four different C. sakazakii strains by a zone of inhibition test. Lactobacillus and Pediococcus species were able to inhibit the growth (>15-mm inhibition zones) of all C. sakazakii strains tested, and only one strain from the two genera exhibited atypical resistance to tetracycline. All C. sakazakii strains and the selected LAB strains, which inhibited C. sakazakii and did not exhibit atypical antibiotic resistance, were grown in Luria-Bertani or de Man Rogosa Sharpe broth, respectively, containing 1% dextrose or 1% commercial prebiotic (w/v) to compare their ability to metabolize the prebiotic product. Overall, based on the growth inhibition of C. sakazakii, antibiotic susceptibility, and prebiotic metabolism, 6 of the 16 LAB were chosen to be part of a potential synbiotic. This study has provided valuable information that will help with the development of a synbiotic that can be used in powdered infant formula to reduce the potential for C. sakazakii-related illnesses in infants., (Published 2022 by the International Association for Food Protection.)

Published
2022
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40. Metagenomics of Wastewater Influent from Wastewater Treatment Facilities across Ontario in the Era of Emerging SARS-CoV-2 Variants of Concern.

Author

Lawal OU, Zhang L, Parreira VR, Brown RS, Chettleburgh C, Dannah N, Delatolla R, Gilbride KA, Graber TE, Islam G, Knockleby J, Ma S, McDougall H, McKay RM, Mloszewska A, Oswald C, Servos M, Swinwood-Sky M, Ybazeta G, Habash M, and Goodridge L

Abstract

We report metagenomic sequencing analyses of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) RNA in composite wastewater influent from 10 regions in Ontario, Canada, during the transition between Delta and Omicron variants of concern. The Delta and Omicron BA.1/BA.1.1 and BA.2-defining mutations occurring in various frequencies were reported in the consensus and subconsensus sequences of the composite samples.

Published
2022
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41. Inhibition of Cronobacter sakazakii in an infant simulator of the human intestinal microbial ecosystem using a potential synbiotic.

Author

Ke A, Parreira VR, Farber JM, and Goodridge L

Abstract

Powdered infant formula (PIF) can be contaminated with Cronobacter sakazakii , which can cause severe illnesses in infants. Synbiotics, a combination of probiotics and prebiotics, could act as an alternative control measure for C. sakazakii contamination in PIF and within the infant gut, but synbiotics have not been well studied for their ability to inhibit C. sakazakii . Using a Simulator of the Human Intestinal Microbial Ecosystem (SHIME ® ) inoculated with infant fecal matter, we demonstrated that a potential synbiotic, consisting of six lactic acid bacteria (LAB) strains and Vivinal GOS, can inhibit the growth of C. sakazakii in an infant possibly through either the production of antimicrobial metabolites like acetate, increasing species diversity within the SHIME compartments to compete for nutrients or a combination of mechanisms. Using a triple SHIME set-up, i.e., three identical SHIME compartments, the first SHIME (SHIME 1) was designated as the control SHIME in the absence of a treatment, whereas SHIME 2 and 3 were the treated SHIME over 2, 1-week treatment periods. The addition of the potential synbiotic (LAB + VGOS) resulted in a significant decrease in C. sakazakii levels within 1 week ( p < 0.05), but in the absence of a treatment the significant decline took 2 weeks ( p < 0.05), and the LAB treatment did not decrease C. sakazakii levels ( p ≥ 0.05). The principal component analysis showed a distinction between metabolomic profiles for the control and LAB treatment, but similar profiles for the LAB + VGOS treatment. The addition of the potential synbiotic (LAB + VGOS) in the first treatment period slightly increased species diversity ( p ≥ 0.05) compared to the control and LAB, which may have had an effect on the survival of C. sakazakii throughout the treatment period. Our results also revealed that the relative abundance of Bifidobacterium was negatively correlated with Cronobacter when no treatments were added (ρ = -0.96; p < 0.05). These findings suggest that C. sakazakii could be inhibited by the native gut microbiota, and inhibition can be accelerated by the potential synbiotic treatment., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Ke, Parreira, Farber and Goodridge.)

Published
2022
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42. Draft Genome Sequences of Two Clostridium botulinum Group II Strains Carrying Phage-Like Plasmids.

Author

Cadieux B, Lawal OU, Emond-Rheault JG, Jeukens J, Freschi L, Kukavica-Ibrulj I, Levesque RC, Austin JW, and Goodridge L

Abstract

Clostridium botulinum is responsible for botulism, a potentially lethal foodborne intoxication. Here, we report the draft genome sequences of C. botulinum group II strains 202F (serotype F) and Hazen (serotype E). The genomes share many similarities, including multiple mobile genetic elements.

Published
2022
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43. Genomic and phenotypic analysis of SspH1 identifies a new Salmonella effector, SspH3.

Author

Herod A, Emond-Rheault JG, Tamber S, Goodridge L, Lévesque RC, and Rohde J

Subjects
Animals, Mammals metabolism, Salmonella genetics, Salmonella metabolism, Type III Secretion Systems, Ubiquitin-Protein Ligases metabolism, Bacterial Proteins genetics, Bacterial Proteins metabolism, Proto-Oncogene Proteins c-akt
Abstract

Salmonella is a major foodborne pathogen and is responsible for a range of diseases. Not all Salmonella contributes to severe health outcomes as there is a large degree of genetic heterogeneity among the 2,600 serovars within the genus. This variability across Salmonella serovars is linked to numerous genetic elements that dictate virulence. While several genetic elements encode virulence factors with well-documented contributions to pathogenesis, many genetic elements implicated in Salmonella virulence remain uncharacterized. Many pathogens encode a family of E3 ubiquitin ligases that are delivered into the cells that they infect using a Type 3 Secretion System (T3SS). These effectors, known as NEL-domain E3s, were first characterized in Salmonella. Most Salmonella encodes the NEL-effectors sspH2 and slrP, whereas only a subset of Salmonella encodes sspH1. SspH1 has been shown to ubiquitinate the mammalian protein kinase PKN1, which has been reported to negatively regulate the pro-survival program Akt. We discovered that SspH1 mediates the degradation of PKN1 during infection of a macrophage cell line but that this degradation does not impact Akt signaling. Genomic analysis of a large collection of Salmonella genomes identified a putative new gene, sspH3, with homology to sspH1. SspH3 is a novel NEL-domain effector., (© 2021 John Wiley & Sons Ltd.)

Published
2022
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44. Passive sampling, a practical method for wastewater-based surveillance of SARS-CoV-2.

Author

Habtewold J, McCarthy D, McBean E, Law I, Goodridge L, Habash M, and Murphy HM

Subjects
Humans, Ontario epidemiology, Wastewater, COVID-19, SARS-CoV-2
Abstract

In search of practical and affordable tools for wastewater-based surveillance of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), three independent field experiments were conducted using three passive sampler sorbents (electronegative membrane, cotton bud, and gauze) in Guelph, Ontario, Canada. Total daily cases during this study ranged from 2 to 17/100,000 people and 43/54 traditionally collected wastewater samples were positive for SARS-CoV-2 with mean detectable concentrations ranging from 8.4 to 1780 copies/ml. Viral levels on the passive samplers were assessed after 4, 8, 24, 48, 72, and 96 hrs of deployment in the wastewater and 43/54 membrane, 42/54 gauze, and 27/54 cotton bud samples were positive. A linear accumulation rate of SARS-CoV-2 on the membranes was observed up to 48 hours, suggesting the passive sampler could adequately reflect wastewater levels for up to two days of deployment. Due the variability in accumulation observed for the cotton buds and gauzes, and the pre-processing steps required for the gauzes, we recommend membrane filters as a simple cost-effective option for wastewater-based surveillance of SARS-CoV-2., (Copyright © 2021 Elsevier Inc. All rights reserved.)

Published
2022
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45. Salmonella enterica subsp. enterica virulence potential can be linked to higher survival within a dynamic in vitro human gastrointestinal model.

Author

Cavestri C, Savard P, Fliss I, Emond-Rhéault JG, Hamel J, Kukavica-Ibrulj I, Boyle B, Daigle F, Malo D, Bekal S, Harris LJ, Levesque RC, Goodridge L, and LaPointe G

Subjects
Humans, Models, Biological, Gastrointestinal Tract microbiology, Salmonella pathogenicity, Virulence
Abstract

Salmonella enterica subsp. enterica is one of the leading causes of human foodborne infections and several outbreaks are now associated with the consumption of fresh fruit and vegetables. This study aims at evaluating whether Salmonella virulence can be linked to an enhanced ability to survive successive digestive environments. Thirteen S. enterica strains were selected according to high and low virulence phenotypes. Lettuce inoculated separately with each S. enterica strain was used as food matrix in the TNO gastrointestinal model (TIM-1) of the human upper gastrointestinal tract. During the passage in the stomach, counts determined using PMA-qPCR were 2-5 logs higher than the cultivable counts for all strains indicating the presence of viable but non-cultivable cells. Bacterial growth was observed in the duodenum compartment after 180 min for all but one strain and growth continued into the ileal compartment. After passage through the simulated gastrointestinal tract, both virulent and avirulent S. enterica strains survived but high virulence strains had a significantly (p = 0.004) better average survival rate (1003 %-3753 %) than low virulence strains (from 25 % to 3730%). The survival rates of S. enterica strains could be linked to the presence of genes associated with acid and bile resistance and their predicted products. The presence of single nucleotide polymorphisms may also impact the function of virulence associated genes and play a role in the resulting phenotype. These data provide an understanding of the relationship between measured virulence potential and survival of S. enterica during dynamic simulated gastrointestinal transit., (Copyright © 2021 Elsevier Ltd. All rights reserved.)

Published
2022
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46. Current and Future Perspectives on the Role of Probiotics, Prebiotics, and Synbiotics in Controlling Pathogenic Cronobacter Spp. in Infants.

Author

Ke A, Parreira VR, Goodridge L, and Farber JM

Abstract

Cronobacter species, in particular C. sakazakii , is an opportunistic bacterial pathogen implicated in the development of potentially debilitating illnesses in infants (<12months old). The combination of a poorly developed immune system and gut microbiota put infants at a higher risk of infection compared to other age groups. Probiotics and prebiotics are incorporated in powdered infant formula and, in addition to strengthening gut physiology and stimulating the growth of commensal gut microbiota, have proven antimicrobial capabilities. Postbiotics in the cell-free supernatant of a microbial culture are derived from probiotics and can also exert health benefits. Synbiotics, a mixture of probiotics and prebiotics, may provide further advantages as probiotics and gut commensals degrade prebiotics into short-chain fatty acids that can provide benefits to the host. Cell-culture and animal models have been widely used to study foodborne pathogens, but sophisticated gut models have been recently developed to better mimic the gut conditions, thus giving a more accurate representation of how various treatments can affect the survival and pathogenicity of foodborne pathogens. This review aims to summarize the current understanding on the connection between Cronobacter infections and infants, as well as highlight the potential efficacy of probiotics, prebiotics, and synbiotics in reducing invasive Cronobacter infections during early infancy., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Ke, Parreira, Goodridge and Farber.)

Published
2021
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47. Near real-time determination of B.1.1.7 in proportion to total SARS-CoV-2 viral load in wastewater using an allele-specific primer extension PCR strategy.

Author

Graber TE, Mercier É, Bhatnagar K, Fuzzen M, D'Aoust PM, Hoang HD, Tian X, Towhid ST, Plaza-Diaz J, Eid W, Alain T, Butler A, Goodridge L, Servos M, and Delatolla R

Subjects
Alleles, Humans, Polymerase Chain Reaction, Viral Load, Wastewater, COVID-19, SARS-CoV-2
Abstract

The coronavirus disease 2019 (COVID-19) pandemic caused by the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) has claimed millions of lives to date. Antigenic drift has resulted in viral variants with putatively greater transmissibility, virulence, or both. Early and near real-time detection of these variants of concern (VOC) and the ability to accurately follow their incidence and prevalence in communities is wanting. Wastewater-based epidemiology (WBE), which uses nucleic acid amplification tests to detect viral fragments, is a reliable proxy of COVID-19 incidence and prevalence, and thus offers the potential to monitor VOC viral load in a given population. Here, we describe and validate a primer extension PCR strategy targeting a signature mutation in the N gene of SARS-CoV-2. This allows quantification of B.1.1.7 versus non-B.1.1.7 allele frequency in wastewater without the need to employ quantitative RT-PCR standard curves. We show that the wastewater B.1.1.7 profile correlates with its clinical counterpart and benefits from a near real-time and facile data collection and reporting pipeline. This assay can be quickly implemented within a current SARS-CoV-2 WBE framework with minimal cost; allowing early and contemporaneous estimates of B.1.1.7 community transmission prior to, or in lieu of, clinical screening and identification. Our study demonstrates that this strategy can provide public health units with an additional and much needed tool to rapidly triangulate VOC incidence/prevalence with high sensitivity and lineage specificity., (Copyright © 2021. Published by Elsevier Ltd.)

Published
2021
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48. Exploring the potential of foodborne transmission of respiratory viruses.

Author

O'Brien B, Goodridge L, Ronholm J, and Nasheri N

Subjects
Animals, Birds, COVID-19 transmission, COVID-19 virology, Feces virology, Humans, SARS-CoV-2 isolation & purification, Foodborne Diseases virology, Respiratory Tract Infections transmission, Respiratory Tract Infections virology
Abstract

The ongoing pandemic involving severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) has raised the question whether this virus, which is known to be spread primarily though respiratory droplets, could be spread through the fecal-oral route or via contaminated food. In this article, we present a critical review of the literature exploring the potential foodborne transmission of several respiratory viruses including human coronaviruses, avian influenza virus (AVI), parainfluenza viruses, human respiratory syncytial virus, adenoviruses, rhinoviruses, and Nipah virus. Multiple lines of evidence, including documented expression of receptor proteins on gastrointestinal epithelial cells, in vivo viral replication in gastrointestinal epithelial cell lines, extended fecal shedding of respiratory viruses, and the ability to remain infectious in food environments for extended periods of time raises the theoretical ability of some human respiratory viruses, particularly human coronaviruses and AVI, to spread via food. However, to date, neither epidemiological data nor case reports of clear foodborne transmission of either viruses exist. Thus, foodborne transmission of human respiratory viruses remains only a theoretical possibility., (Crown Copyright © 2020. Published by Elsevier Ltd. All rights reserved.)

Published
2021
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49. Bacteriophage-Induced Lipopolysaccharide Mutations in Escherichia coli Lead to Hypersensitivity to Food Grade Surfactant Sodium Dodecyl Sulfate.

Author

Zhong Z, Emond-Rheault JG, Bhandare S, Lévesque R, and Goodridge L

Abstract

Bacteriophages (phages) are considered as one of the most promising antibiotic alternatives in combatting bacterial infectious diseases. However, one concern of employing phage application is the emergence of bacteriophage-insensitive mutants (BIMs). Here, we isolated six BIMs from E. coli B in the presence of phage T4 and characterized them using genomic and phenotypic methods. Of all six BIMs, a six-amino acid deletion in glucosyltransferase WaaG likely conferred phage resistance by deactivating the addition of T4 receptor glucose to the lipopolysaccharide (LPS). This finding was further supported by the impaired phage adsorption to BIMs and glycosyl composition analysis which quantitatively confirmed the absence of glucose in the LPS of BIMs. Since LPSs actively maintain outer membrane (OM) permeability, phage-induced truncations of LPSs destabilized the OM and sensitized BIMs to various substrates, especially to the food-grade surfactant sodium dodecyl sulfate (SDS). This hypersensitivity to SDS was exploited to design a T4-SDS combination which successfully prevented the generation of BIMs and eliminated the inoculated bacteria. Collectively, phage-driven modifications of LPSs immunized BIMs from T4 predation but increased their susceptibilities as a fitness cost. The findings of this study suggest a novel strategy to enhance the effectiveness of phage-based food safety interventions.

Published
2020
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50. Phenomic and genomic approaches to studying the inhibition of multiresistant Salmonella enterica by microcin J25.

Author

Ben Said L, Emond-Rheault JG, Soltani S, Telhig S, Zirah S, Rebuffat S, Diarra MS, Goodridge L, Levesque RC, and Fliss I

Subjects
Animals, Anti-Bacterial Agents pharmacology, Genomics, Humans, Microbial Sensitivity Tests, Microscopy, Electron, Transmission, Phenomics, Salmonella enterica drug effects, Salmonella enterica ultrastructure, Bacteriocins pharmacology, Salmonella enterica genetics
Abstract

In livestock production, antibiotics are used to promote animal growth, control infections and thereby increase profitability. This practice has led to the emergence of multiresistant bacteria such as Salmonella, of which some serovars are disseminated in the environment. The objective of this study is to evaluate microcin J25 as an inhibitor of Salmonella enterica serovars of various origins including human, livestock and food. Among the 116 isolates tested, 37 (31.8%) were found resistant to at least one antibiotic, and 28 were multiresistant with 19 expressing the penta-resistant phenotype ACSSuT. Microcin J25 inhibited all isolates, with minimal inhibitory concentration values ranging from 0.06 μg/ml (28.4 nM) to 400 μg/ml (189 μM). Interestingly, no cross-resistance was found between microcin J25 and antibiotics. Multiple sequence alignments of genes encoding for the different proteins involved in the recognition and transport of microcin J25 showed that only ferric-hydroxamate uptake is an essential determinant for susceptibility of S. enterica to microcin J25. Examination of Salmonella strains exposed to microcin J25 by transmission electronic microscopy showed for the first-time involvement of a pore formation mechanism. Microcin J25 was a strong inhibitor of several multiresistant isolates of Salmonella and may have a great potential as an alternative to antibiotics., (© 2020 Society for Applied Microbiology and John Wiley & Sons Ltd.)

Published
2020
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