Your search keyword '"P M Fratamico"' showing total 20 results

1. Comparative Gene Expression Analysis of Salmonella Typhimurium DT104 in Ground Chicken Extract and Brain Heart Infusion Broth

Author

Yanhong Liu, Fangyuan Zhang, Jabari L. Hawkins, Jake R. Elder, Gian Marco Baranzoni, Zuyi Huang, Pina M. Fratamico, and Salina Parveen

Subjects

Salmonella enterica Typhimurium DT104, poultry products, ground chicken extract, transcriptomics, Biology (General), QH301-705.5

Abstract

Salmonella enterica Typhimurium DT104 (S. Typhimurium DT104) is an important foodborne pathogen that is associated with poultry and poultry products. Currently, there is very little information on the underlying molecular mechanisms that allow DT104 to survive and propagate in poultry meat and the poultry processing environment. The current study assessed the global gene expression of DT104 in ground chicken extract (GCE) compared to brain heart infusion (BHI) medium using RNA-Seq technology. DT104 was grown to the early stationary phase (ESP), inoculated into GCE or BHI, and then re-grown to the log phase before RNA was extracted and transcripts were quantified by RNA-Seq. Gene expression for DT104 grown in GCE was then compared to that of DT104 grown in BHI for samples grown to the ESP. Growth in GCE resulted in the up-regulated expression of genes related to translation, carnitine metabolism (23–283-fold change), and cobalamin (vitamin B12) biosynthesis (14-fold change). In particular, the presence of carnitine in chicken meat, and thus, in GCE, which lacks carbohydrates, may allow Salmonella to utilize this compound as a carbon and nitrogen source. This study demonstrates that RNA-Seq data can provide a comprehensive analysis of DT104 gene expression in a food model for poultry products. This study also provides additional evidence for the importance of metabolic adaptation in the ability of S. enterica to successfully adapt to and occupy niches outside of its host and provides potential targets that could be used to develop intervention strategies to control Salmonella in poultry.

Published

2024

2. Two homologous Salmonella serogroup C1-specific genes are required for flagellar motility and cell invasion

Author

Xiujuan Zhou, Bin Liu, Yanhong Liu, Chunlei Shi, Pina M. Fratamico, Lida Zhang, Dapeng Wang, Jianhua Zhang, Yan Cui, Ping Xu, and Xianming Shi

Subjects

Salmonella, Serogroup C1, RNA-Seq, Motility, Virulence, Growth, Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

Abstract Background Salmonella is a major bacterial pathogen associated with a large number of outbreaks of foodborne diseases. Many highly virulent serovars that cause human illness belong to Salmonella serogroup C1, and Salmonella ser. Choleraesuis is a prominent cause of invasive infections in Asia. Comparative genomic analysis in our previous study showed that two homologous genes, SC0368 and SC0595 in Salmonella ser. Choleraesuis were unique to serogroup C1. In this study, two single-deletion mutants (Δ0368 and Δ0595) and one double-deletion mutant (Δ0368Δ0595) were constructed based on the genome. All these mutants and the wild-type strain were subjected to RNA-Seq analysis to reveal functional relationships of the two serogroup C1-specific genes. Results Data from RNA-Seq indicated that deletion of SC0368 resulted in defects in motility through repression of σ28 in flagellar regulation Class 3. Consistent with RNA-Seq data, results from transmission electron microcopy (TEM) showed that flagella were not present in △0368 and △0368△0595 mutants resulting in both swimming and swarming defects. Interestingly, the growth rates of two non-motile mutants △0368 and △0368△0595 were significantly greater than the wild-type, which may be associated with up-regulation of genes encoding cytochromes, enhancing bacterial proliferation. Moreover, the △0595 mutant was significantly more invasive in Caco-2 cells as shown by bacterial enumeration assays, and the expression of lipopolysaccharide (LPS) core synthesis-related genes (rfaB, rfaI, rfaQ, rfaY, rfaK, rfaZ) was down-regulated only in the △0368△0595 mutant. In addition, this study also speculated that these two genes might be contributing to serotype conversion for Salmonella C1 serogroup based on their apparent roles in biosynthesis of LPS and the flagella. Conclusion A combination of biological and transcriptomic (RNA-Seq) analyses has shown that the SC0368 and SC0595 genes are involved in biosynthesis of flagella and complete LPS, as well as in bacterial growth and virulence. Such information will aid to revealing the role of these specific genes in bacterial physiology and evolution within the serogroup C1.

Published

2021

3. Genome Sequence Analysis and Characterization of Shiga Toxin 2 Production by Escherichia coli O157:H7 Strains Associated With a Laboratory Infection

Author

Mark Eppinger, Sonia Almería, Anna Allué-Guardia, Lori K. Bagi, Anwar A. Kalalah, Joshua B. Gurtler, and Pina M. Fratamico

Subjects

Shiga toxin (Stx) producing Escherichia coli (STEC), O157:H7, laboratory infection, genome sequencing, single nucleotide polymorphisms (SNP) typing, Microbiology, QR1-502

Abstract

A laboratory-acquired E. coli O157:H7 infection with associated severe sequelae including hemolytic uremic syndrome occurred in an individual working in the laboratory with a mixture of nalidixic acid-resistant (NalR) O157:H7 mutant strains in a soil-biochar blend. The patient was hospitalized and treated with an intravenous combination of metronidazole and levofloxacin. The present study investigated the source of this severe laboratory acquired infection and further examined the influence of the antibiotics used during treatment on the expression and production of Shiga toxin. Genomes of two Stx2a-and eae-positive O157:H7 strains isolated from the patient’s stool were sequenced along with two pairs of the wt strains and their derived NalR mutants used in the laboratory experiments. High-resolution SNP typing determined the strains’ individual genetic relatedness and unambiguously identified the two laboratory-derived NalR mutant strains as the source of the researcher’s life-threatening disease, rather than a conceivable ingestion of unrelated O157:H7 isolates circulating at the same time. It was further confirmed that in sublethal doses, the antibiotics increased toxin expression and production. Our results support a simultaneous co-infection with clinical strains in the laboratory, which were the causative agents of previous O157:H7 outbreaks, and further that the administration of antibiotics may have impacted the outcome of the infection.

Published

2022

4. Involvement of a putative ATP-Binding Cassette (ABC) Involved in manganese transport in virulence of Listeria monocytogenes.

Author

Yanhong Liu, Brian ByongKwon Yoo, Cheng-An Hwang, Mira Rakic Martinez, Atin R Datta, and Pina M Fratamico

Subjects

Medicine, Science

Abstract

Listeria monocytogenes is a foodborne pathogen and the causative agent of listeriosis, a disease associated with high fatality (20-30%) and hospitalization rates (>95%). ATP-Binding Cassette (ABC) transporters have been demonstrated to be involved in the general stress response. In previous studies, in-frame deletion mutants of the ABC transporter genes, LMOf2365_1875 and LMOf2365_1877, were constructed and analyzed; however, additional work is needed to investigate the virulence potential of these deletion mutants. In this study, two in vitro methods and one in vivo model were used to investigate the virulence potential of in-frame deletion mutants of ABC transporter genes. First, the invasion efficiency in host cells was measured using the HT-29 human cell line. Second, cell-to-cell spread activity was measured using a plaque forming assay. Lastly, virulence potential of the mutants was tested in the Galleria mellonella wax moth model. Our results demonstrated that the deletion mutant, ⊿LMOf2365_1875, displayed decreased invasion and cell-to-cell spread efficiency in comparison to the wild-type, LMOf2365, indicating that LMOf2365_1875 may be required for virulence. Furthermore, the reduced virulence of these mutants was confirmed using the Galleria mellonella wax moth model. In addition, the expression levels of 15 virulence and stress-related genes were analyzed by RT-PCR assays using stationary phase cells. Our results showed that virulence-related gene expression levels from the deletion mutants were elevated (15/15 genes from ⊿LMOf2365_1877 and 7/15 genes from ⊿LMOf2365_1875) compared to the wild type LMOf2365, suggesting that ABC transporters may negatively regulate virulence gene expression under specific conditions. The expression level of the stress-related gene, clpE, also was increased in both deletion mutants, indicating the involvement of ABC transporters in the stress response. Taken together, our findings suggest that ABC transporters may be used as potential targets to develop new therapeutic strategies to control L. monocytogenes.

Published

2022

5. A Targeted Sequencing Assay for Serotyping Escherichia coli Using AgriSeq Technology

Author

Jacob R. Elder, Pina M. Fratamico, Yanhong Liu, David S. Needleman, Lori Bagi, Robert Tebbs, Adam Allred, Prasad Siddavatam, Haktan Suren, Krishna Reddy Gujjula, Chitrita DebRoy, Edward G. Dudley, and Xianghe Yan

Subjects

targeted sequencing, molecular serotyping, E coli, AgriSeq technology, O-antigen, Microbiology, QR1-502

Abstract

The gold standard method for serotyping Escherichia coli has relied on antisera-based typing of the O- and H-antigens, which is labor intensive and often unreliable. In the post-genomic era, sequence-based assays are potentially faster to provide results, could combine O-serogrouping and H-typing in a single test, and could simultaneously screen for the presence of other genetic markers of interest such as virulence factors. Whole genome sequencing is one approach; however, this method has limited multiplexing capabilities, and only a small fraction of the sequence is informative for subtyping or identifying virulence potential. A targeted, sequence-based assay and accompanying software for data analysis would be a great improvement over the currently available methods for serotyping. The purpose of this study was to develop a high-throughput, molecular method for serotyping E. coli by sequencing the genes that are required for production of O- and H-antigens, as well as to develop software for data analysis and serotype identification. To expand the utility of the assay, targets for the virulence factors, Shiga toxins (stx1, and stx2) and intimin (eae) were included. To validate the assay, genomic DNA was extracted from O-serogroup and H-type standard strains and from Shiga toxin-producing E. coli, the targeted regions were amplified, and then sequencing libraries were prepared from the amplified products followed by sequencing of the libraries on the Ion S5™ sequencer. The resulting sequence files were analyzed via the SeroType Caller™ software for identification of O-serogroup, H-type, and presence of stx1, stx2, and eae. We successfully identified 169 O-serogroups and 41 H-types. The assay also routinely detected the presence of stx1a,c,d (3 of 3 strains), stx2c−e,g (8 of 8 strains), stx2f (1 strain), and eae (6 of 6 strains). Taken together, the high-throughput, sequence-based method presented here is a reliable alternative to antisera-based serotyping methods for E. coli.

Published

2021

6. Escherichia coli O-Antigen Gene Clusters of Serogroups O62, O68, O131, O140, O142, and O163: DNA Sequences and Similarity between O62 and O68, and PCR-Based Serogrouping

Author

Yanhong Liu, Xianghe Yan, Chitrita DebRoy, Pina M. Fratamico, David S. Needleman, Robert W. Li, Wei Wang, Liliana Losada, Lauren Brinkac, Diana Radune, Magaly Toro, Narasimha Hegde, and Jianghong Meng

Subjects

PCR, Escherichia coli, serogroups, DNA sequence, O-antigen gene cluster, detection, identification, Biotechnology, TP248.13-248.65

Abstract

The DNA sequence of the O-antigen gene clusters of Escherichia coli serogroups O62, O68, O131, O140, O142, and O163 was determined, and primers based on the wzx (O-antigen flippase) and/or wzy (O-antigen polymerase) genes within the O-antigen gene clusters were designed and used in PCR assays to identify each serogroup. Specificity was tested with E. coli reference strains, field isolates belonging to the target serogroups, and non-E. coli bacteria. The PCR assays were highly specific for the respective serogroups; however, the PCR assay targeting the O62 wzx gene reacted positively with strains belonging to E. coli O68, which was determined by serotyping. Analysis of the O-antigen gene cluster sequences of serogroups O62 and O68 reference strains showed that they were 94% identical at the nucleotide level, although O62 contained an insertion sequence (IS) element located between the rmlA and rmlC genes within the O-antigen gene cluster. A PCR assay targeting the rmlA and rmlC genes flanking the IS element was used to differentiate O62 and O68 serogroups. The PCR assays developed in this study can be used for the detection and identification of E. coli O62/O68, O131, O140, O142, and O163 strains isolated from different sources.

Published

2015

7. Escherichia coli O157:H7 Acid Sensitivity Correlates with Flocculation Phenotype during Nutrient Limitation

Author

Kathryn L. Kay, Frederick Breidt, Pina M. Fratamico, Gian M. Baranzoni, Gwang-Hee Kim, Amy M. Grunden, and Deog-Hwan Oh

Subjects

STEC, acid resistance, nutrient limitation, curli, GcvB, Microbiology, QR1-502

Abstract

Shiga toxin producing Escherichia coli (STEC) strains vary in acid resistance; however, little is known about the underlying mechanisms that result in strain specific differences. Among 25 STEC O157:H7 strains tested, 7 strains flocculated when grown statically for 18 h in minimal salts medium at 37°C, while 18 strains did not. Interestingly, the flocculation phenotype (cells came out of suspension) was found to correlate with degree of acid sensitivity in an assay with 400 mM acetic acid solution at pH 3.3 targeting acidified foods. Strains exhibiting flocculation were more acid sensitive and were designated FAS, for flocculation acid sensitive, while the acid resistant strain designated PAR for planktonic acid resistant. Flocculation was not observed for any strains during growth in complex medium (Luria Bertani broth). STEC strains B201 and B241 were chosen as representative FAS (2.4 log reduction) and PAR (0.15 log reduction) strains, respectively, due to differences in acid resistance and flocculation phenotype. Results from electron microscopy showed evidence of fimbriae production in B201, whereas fimbriae were not observed in B241.Curli fimbriae production was identified through plating on Congo red differential medium, and all FAS strains showed curli fimbriae production. Surprisingly, 5 PAR strains also had evidence of curli production. Transcriptomic and targeted gene expression data for B201 and B241indicated that csg and hde (curli and acid induced chaperone genes, respectively) expression positively correlated with the phenotypic differences observed for these strains. These data suggest that FAS strains grown in minimal medium express curli, resulting in a flocculation phenotype. This may be regulated by GcvB, which positively regulates curli fimbriae production and represses acid chaperone proteins. RpoS and other regulatory mechanisms may impact curli fimbriae production, as well. These findings may help elucidate mechanisms underlying differences among STEC strains in relating acid resistance and biofilm formation.

Published

2017

8. Advances in Molecular Serotyping and Subtyping of Escherichia coli

Author

Pina M. Fratamico, Chitrita eDebroy, Yanhong eLiu, David S. Needleman, Gian Marco eBaranzoni, and Peter eFeng

Subjects

Escherichia coli, IDENTIFICATION, detection, O-group, whole genome sequencing, subtyping, Microbiology, QR1-502

Abstract

E. coli plays an important role as a member of the gut microbiota; however, pathogenic strains also exist, including various diarrheagenic E. coli pathotypes and extraintestinal pathogenic E. coli that cause illness outside of the GI-tract. E. coli have traditionally been serotyped using antisera against the ca. 186 O-antigens and 53 H-flagellar antigens. Phenotypic methods, including bacteriophage typing and O- and H- serotyping for differentiating and characterizing E. coli have been used for many years; however, these methods are generally time consuming and not always accurate. Advances in next generation sequencing technologies have made it possible to develop genetic-based subtyping and molecular serotyping methods for E. coli, which are more discriminatory compared to phenotypic typing methods. Furthermore, whole genome sequencing (WGS) of E. coli is replacing established subtyping methods such as pulsed-field gel electrophoresis (PFGE), providing a major advancement in the ability to investigate food-borne disease outbreaks and for trace-back to sources. A variety of sequence analysis tools and bioinformatic pipelines are being developed to analyze the vast amount of data generated by WGS and to obtain specific information such as O- and H-group determination and the presence of virulence genes and other genetic markers.

Published

2016

9. Comparison of O-Antigen Gene Clusters of All O-Serogroups of Escherichia coli and Proposal for Adopting a New Nomenclature for O-Typing.

Author

Chitrita DebRoy, Pina M Fratamico, Xianghe Yan, GianMarco Baranzoni, Yanhong Liu, David S Needleman, Robert Tebbs, Catherine D O'Connell, Adam Allred, Michelle Swimley, Michael Mwangi, Vivek Kapur, Juan A Raygoza Garay, Elisabeth L Roberts, and Robab Katani

Subjects

Medicine, Science

Abstract

Escherichia coli strains are classified based on O-antigens that are components of the lipopolysaccharide (LPS) in the cell envelope. O-antigens are important virulence factors, targets of both the innate and adaptive immune system, and play a role in host-pathogen interactions. Because they are highly immunogenic and display antigenic specificity unique for each strain, O-antigens are the biomarkers for designating O-types. Immunologically, 185 O-serogroups and 11 OX-groups exist for classification. Conventional serotyping for O-typing entails agglutination reactions between the O-antigen and antisera generated against each O-group. The procedure is labor intensive, not always accurate, and exhibits equivocal results. In this report, we present the sequences of 71 O-antigen gene clusters (O-AGC) and a comparison of all 196 O- and OX-groups. Many of the designated O-types, applied for classification over several decades, exhibited similar nucleotide sequences of the O-AGCs and cross-reacted serologically. Some O-AGCs carried insertion sequences and others had only a few nucleotide differences between them. Thus, based on these findings, it is proposed that several of the E. coli O-groups may be merged. Knowledge of the O-AGC sequences facilitates the development of molecular diagnostic platforms that are rapid, accurate, and reliable that can replace conventional serotyping. Additionally, with the scientific knowledge presented, new frontiers in the discovery of biomarkers, understanding the roles of O-antigens in the innate and adaptive immune system and pathogenesis, the development of glycoconjugate vaccines, and other investigations, can be explored.

Published

2016

10. Correction: Comparison of O-Antigen Gene Clusters of All O-Serogroups of Escherichia coli and Proposal for Adopting a New Nomenclature for O-Typing.

Author

Chitrita DebRoy, Pina M Fratamico, Xianghe Yan, GianMarco Baranzoni, Yanhong Liu, David S Needleman, Robert Tebbs, Catherine D O'Connell, Adam Allred, Michelle Swimley, Michael Mwangi, Vivek Kapur, Juan A Raygoza Garay, Elisabeth L Roberts, and Robab Katani

Subjects

Medicine, Science

Abstract

[This corrects the article DOI: 10.1371/journal.pone.0147434.].

Published

2016

11. Comparison of whole genome sequences from human and non-human Escherichia coli O26 strains

Author

Keri N Norman, Michael L Clawson, Nancy N Strockbine, Robert E Mandrell, Roger eJohnson, Kim eZiebell, Shaohua eZhao, Pina M Fratamico, Robert eStones, Marc W Allard, and James L Bono

Subjects

Shiga Toxins, polymorphisms, phylogenetic, O26, Escherichia coli, Microbiology, QR1-502

Abstract

Shiga toxin-producing Escherichia coli (STEC) O26 is the second leading E. coli serogroup responsible for human illness outbreaks behind E. coli O157:H7. Recent outbreaks have been linked to emerging pathogenic O26:H11 strains harboring stx2 only. Cattle have been recognized as an important reservoir of O26 strains harboring stx1; however the reservoir of these emerging stx2 strains is unknown. The objective of this study was to identify nucleotide polymorphisms in human and cattle-derived strains in order to compare differences in polymorphism derived genotypes and virulence gene profiles between the two host species. Whole genome sequencing was performed on 182 epidemiologically unrelated O26 strains, including 109 human-derived strains and 73 non-human-derived strains. A panel of 289 O26 strains (241 STEC and 48 non-STEC) was subsequently genotyped using a set of 283 polymorphisms identified by whole genome sequencing, resulting in 64 unique genotypes. Phylogenetic analyses identified seven clusters within the O26 strains. The seven clusters did not distinguish between isolates originating from humans or cattle; however, clusters did correspond with particular virulence gene profiles. Human and non-human-derived strains harboring stx1 clustered separately from strains harboring stx2, strains harboring eae, and non-STEC strains. Strains harboring stx2 were more closely related to non-STEC strains and strains harboring eae than to strains harboring stx1. The finding of human and cattle-derived strains with the same polymorphism derived genotypes and similar virulence gene profiles, provides evidence that similar strains are found in cattle and humans and transmission between the two species may occur.

Published

2015

12. Detection of Shiga Toxin-Producing Escherichia coli (STEC) O157:H7, O26, O45, O103, O111, O121, and O145, and Salmonella in Retail Raw Ground Beef Using the DuPont ™ BAX® System

Author

Jamie L Wasilenko, Pina M Fratamico, Christopher eSommers, Daniel R DeMarco, Stephen eVarkey, Kyle eRhoden, and George eTice

Subjects

Salmonella, PCR, detection, non-O157 STEC, O157:H7, Shiga toxin-producing E. coli, Microbiology, QR1-502

Abstract

Shiga toxin-producing Escherichia coli (STEC) and Salmonella are food-borne pathogens commonly associated with beef, and reliable methods are needed to determine their prevalence in beef and to ensure food safety. Retail ground beef was tested for the presence of E. coli O157:H7, STEC serogroups O26, O45, O103, O111, O121, and O145, and Salmonella using the DuPont™ BAX® system method. Ground beef (325 g) samples were enriched in 1.5 L of TSB with 2 mg/L novobiocin at 42°C for 18 h, and then evaluated using the BAX® System real-time PCR assays for E. coli O157:H7 and STEC suite, and the BAX® System standard PCR assays for E. coli O157:H7 MP and Salmonella. Samples positive for STEC target genes by the BAX® System assays were subjected to immunomagnetic separation (IMS) and plating onto modified Rainbow Agar O157. Enrichments that were PCR positive for Salmonella were inoculated into RV broth, incubated for 18 h at 42C, and then plated onto XLT-4 agar. Presumptive positive STEC and Salmonella colonies were confirmed using the BAX® System assays. Results of the BAX® System STEC assays showed 20/308 (6.5%) of samples positive for both the Shiga toxin (stx) and intimin (eae) genes; 4 (1.3%) for stx, eae, and O26; 1 (0.3%) for stx, eae, and O45; 3 (1%) for stx, eae, and O103; and 1 (0.3%) for stx, eae, and O145. There were also 3 samples positive for stx, eae, and more than one STEC serogroup. Three (1.0%) of the samples were positive using the BAX® System real-time E. coli O157:H7 assay, and 28 (9.1%) were positive using the BAX® System Salmonella assay. STEC O103 and E. coli O157:H7 were isolated from 2/6 and 2/3 PCR positive samples, respectively. Salmonella isolates were recovered and confirmed from 27 of the 28 Salmonella PCR positive samples, and a portion of the isolates were serotyped and antibiotic resistance profiles determined. Results demonstrate that the BAX® System assays are effective for detecting STEC and Salmonella in beef.

Published

2014

13. Light scattering sensor for direct identification of colonies of Escherichia coli serogroups O26, O45, O103, O111, O121, O145 and O157.

Author

Yanjie Tang, Huisung Kim, Atul K Singh, Amornrat Aroonnual, Euiwon Bae, Bartek Rajwa, Pina M Fratamico, and Arun K Bhunia

Subjects

Medicine, Science

Abstract

BACKGROUND: Shiga-toxin producing Escherichia coli (STEC) have emerged as important foodborne pathogens, among which seven serogroups (O26, O45, O103, O111, O121, O145, O157) are most frequently implicated in human infection. The aim was to determine if a light scattering sensor can be used to rapidly identify the colonies of STEC serogroups on selective agar plates. METHODOLOGY/PRINCIPAL FINDINGS: Initially, a total of 37 STEC strains representing seven serovars were grown on four different selective agar media, including sorbitol MacConkey (SMAC), Rainbow Agar O157, BBL CHROMagarO157, and R&F E. coli O157:H7, as well as nonselective Brain Heart Infusion agar. The colonies were scanned by an automated light scattering sensor, known as BARDOT (BActerial Rapid Detection using Optical scattering Technology), to acquire scatter patterns of STEC serogroups, and the scatter patterns were analyzed using an image classifier. Among all of the selective media tested, both SMAC and Rainbow provided the best differentiation results allowing multi-class classification of all serovars with an average accuracy of more than 90% after 10-12 h of growth, even though the colony appearance was indistinguishable at that early stage of growth. SMAC was chosen for exhaustive scatter image library development, and 36 additional strains of O157:H7 and 11 non-O157 serovars were examined, with each serogroup producing unique differential scatter patterns. Colony scatter images were also tested with samples derived from pure and mixed cultures, as well as experimentally inoculated food samples. BARDOT accurately detected O157 and O26 serovars from a mixed culture and also from inoculated lettuce and ground beef (10-h broth enrichment +12-h on-plate incubation) in the presence of natural background microbiota in less than 24 h. CONCLUSIONS: BARDOT could potentially be used as a screening tool during isolation of the most important STEC serovars on selective agar plates from food samples in less than 24 h.

Published

2014

14. Evaluation of the performance of the IQ-Check kits and the USDA Microbiology Laboratory Guidebook methods for detection of Shiga toxin-producing Escherichia coli (STEC) and STEC and Salmonella simultaneously in ground beef

Author

G M, Baranzoni, P M, Fratamico, F, Boccia, L K, Bagi, G-H, Kim, A, Anastasio, and T, Pepe

Subjects

Red Meat, Shiga-Toxigenic Escherichia coli, Salmonella, Virulence Factors, Food Microbiology, Animals, Cattle, Guidelines as Topic, Shiga Toxins, United States Department of Agriculture, Polymerase Chain Reaction, United States

Abstract

To evaluate the performance of the IQ-Check kits and the USDA Microbiology Laboratory Guidebook (MLG) methods for detection of the top seven Shiga toxin-producing Escherichia coli (STEC) (O157:H7, O26, O45, O103, O111, O121 and O145) in ground beef and both STEC and Salmonella in co-inoculated samples.Ground beef samples inoculated with ~10 CFU of STEC or both STEC and Salmonella Typhimurium were stored at 4°C for 72 h, followed by screening with the IQ-Check and BAX System kit (MLG) methods that employ different enrichment media. STEC and S. Typhimurium were detected after 12 and 18 h and their presence was confirmed by colony isolation.Both methods were able to detect STEC in ground beef after 12 h of enrichment in samples inoculated with low levels of the pathogen. STEC and S. Typhimurium can be detected and isolated in co-inoculated ground beef samples.The IQ-Check methods are comparable to the MLG methods for detection of STEC and simultaneous detection of STEC and S. Typhimurium in seeded ground beef after a short enrichment time, thus the IQ-Check method can be useful for the food industry for rapid detection of these pathogens.

Published

2016

15. Tracing Pathogens in the Food Chain

Author

Stanley Brul, P M Fratamico, Thomas A. McMeekin, Stanley Brul, P M Fratamico, and Thomas A. McMeekin

Subjects

Foodborne diseases--Molecular diagnosis, Food--Microbiology, Molecular microbiology

Abstract

Successful methods for the detection and investigation of outbreaks of foodborne disease are essential for ensuring consumer safety. Increased understanding of the transmission of pathogens in food chains will also assist efforts to safeguard public health. Tracing pathogens in the food chain reviews key aspects of the surveillance, analysis and spread of foodborne pathogens at different stages of industrial food production and processing. Part one provides an introduction to foodborne pathogen surveillance, outbreak investigation and control. Part two concentrates on subtyping of foodborne pathogens, with chapters on phenoytypic subtyping and pulsed-field gel electrophoresis, as well as emerging methods. The vital topics of method validation and quality assurance are also covered. The focus in Part three is on particular techniques for the surveillance and study of pathogens, such as protein-based analysis, ribotyping and comparative genomics. Finally, Part four focuses on tracing pathogens in specific food chains, such as red meat and game, dairy, fish and shellfish. With its distinguished editors and international team of contributors, Tracing pathogens in the food chain is a standard reference for researchers, public health experts and food industry professionals concerned with the study and control of foodborne disease. - Reviews key aspects of the surveillance, analysis and spread of foodborne pathogens - Provides an overview of method validation and quality assurance - Examines the tracing of pathogens in specific food chains, such as red meat, game and dairy

Published

2011

16. Statistics of sampling for microbiological testing of foodborne pathogens

Author

L. Jaykus, Marcel H. Zwietering, P. M. Fratamico, and Tom Ross

Subjects

Engineering, business.industry, Process (engineering), Product testing, Sampling (statistics), Hazard analysis, Performance objective, Food safety, Levensmiddelenmicrobiologie, Product (business), Critical control point, Food Microbiology, Life Science, Operations management, business, VLAG

Abstract

A sampling plan is part of a process to assess the acceptability of a batch of product against some criterion. At a minimum, a sampling plan involves specification of the number of samples to be drawn and tested from a lot and a criterion (or criteria) that must be satisfied to consider the entire batch as acceptable for sale or other specified uses. In this text, the main interest is the assessment of the microbiological safety of foods, but the same considerations discussed in this chapter apply equally to assessment of microbiological quality. Even with the widespread implementation of preventative strategies such as hazard analysis and critical control point (HACCP) and related food safety management strategies, there are still many situations in which food safety assurance mainly relies on microbiological testing. End product testing might be needed in some circumstances, for example, when there are no critical control points in a process (e.g., raw or minimally processed ready-to-eat foods) or when the history of a product is unknown. Equally, food safety objectives and performance objectives (International Commission on Microbiological Specifications for Foods, 2002; Anonymous, 2005) may nominate microbiological criteria to be met.

Published

2011

17. Identification and characterization of an immunodominant 58-kilodalton antigen of Aspergillus fumigatus recognized by sera of patients with invasive aspergillosis

Author

P M Fratamico and H R Buckley

Subjects

Antigens, Fungal, medicine.drug_class, Immunoblotting, Immunology, Monoclonal antibody, Microbiology, Chromatography, Affinity, Epitope, Aspergillus fumigatus, Affinity chromatography, Antigen, medicine, Aspergillosis, Humans, Amino Acids, Antibodies, Fungal, Gel electrophoresis, biology, biology.organism_classification, Molecular Weight, Infectious Diseases, Concanavalin A, biology.protein, Parasitology, Antibody, Research Article

Abstract

Sera from 38 patients with invasive aspergillosis were tested by Western immunoblotting for the presence of antibodies to antigens of Aspergillus fumigatus present in a mycelial extract of the organism. All of the sera contained antibodies to an antigen of molecular weight 58,000, which was which was determined by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. It was the only antigen recognized in approximately 90% of the sera tested. The 58-kDa antigen is an abundant component of mycelial extracts composing approximately 50% of the Coomassie blue-stained protein. The antigen also contains carbohydrate, since it is stained by the carbohydrate stain periodic acid-Schiff and it binds to the lectin concanavalin A. It was purified by immunoaffinity chromatography employing a monoclonal antibody directed against an epitope on the 58-kDa antigen. Analysis of the purified antigen by gas-liquid chromatography revealed the presence of mannose, galactose, and glucose residues in a 2:1:2 ratio. The ratio of protein to carbohydrate is 1.16:1. The protein is slightly acidic, containing relatively high quantities of glutamic and aspartic acids, glycine, alanine, serine, and threonine. The 58-kDa antigen also contains phosphate groups as part of its structure. Serological activity was totally destroyed after treatment with sodium metaperiodate and was partially destroyed after treatment with pronase. The 58-kDa antigen was not able to hydrolyze protein.

Published

1991

18. Biofilms in the Food and Beverage Industries

Author

P M Fratamico, B A Annous, N W Guenther, P M Fratamico, B A Annous, and N W Guenther

Subjects

Food contamination, Food Industry, Biofilms, Food industry and trade, Food--Microbiology

Abstract

When bacteria attach to and colonise the surfaces of food processing equipment and foods products themselves, there is a risk that biofilms may form. Human pathogens in biofilms can be harder to remove than free microorganisms and may therefore pose a more significant food safety risk. Biofilms in the food and beverage industries reviews the formation of biofilms in these sectors and best practices for their control.The first part of the book considers fundamental aspects such as molecular mechanisms of biofilm formation by food-associated bacteria and methods for biofilm imaging, quantification and monitoring. Part two then reviews biofilm formation by different microorganisms. Chapters in Part three focus on significant issues related to biofilm prevention and removal. Contributions on biofilms in particular food industry sectors, such as dairy and red meat processing and fresh produce, complete the collection.With its distinguished editors and international team of contributors, Biofilms in the food and beverage industries is a highly beneficial reference for microbiologists and those in industry responsible for food safety. - Considers fundamental aspects concerning the ecology and characteristics of biofilms and considers methods for their detection - Examines biofilm formation by different micro-organisms such as samonella and food spoilage - Discusses specific issues related to biofilm prevention and removal, such as cleaning and sanitation of food contact surfaces and food processing equipment

Published

2009

19. Production and characterization of monoclonal antibodies to a 58-kilodalton antigen of Aspergillus fumigatus

Author

W K Long, H R Buckley, and P M Fratamico

Subjects

Antigens, Fungal, medicine.drug_class, Immunology, Immunoblotting, Immunofluorescence, Monoclonal antibody, Microbiology, Aspergillus fumigatus, Mice, Antigen, Immunoblot Analysis, medicine, Animals, Mice, Inbred BALB C, medicine.diagnostic_test, biology, Antibodies, Monoclonal, Precipitin, biology.organism_classification, Molecular biology, Precipitin Tests, Molecular Weight, Infectious Diseases, Immunoglobulin M, Polyclonal antibodies, biology.protein, Parasitology, Antibody, Research Article

Abstract

Eight monoclonal antibodies that recognize a serodiagnostically important 58-kDa antigen of Aspergillus fumigatus were produced and partially characterized. 2-7, 2-12, and 2-14 are of the immunoglobulin M class, and 2-2-1, 2-2-4, 2-2-6, 2-2-9, and 2-2-13 are all immunoglobulin G1(kappa) antibodies. Immunoblot analysis with A. fumigatus mycelial extract demonstrated that all of the monoclonal antibodies recognize a major 58-kDa antigen. The antigen was also detected by immunoblot analysis of 4- and 7-day culture filtrate preparations. 2-2-1, 2-2-4, and 2-2-6 cross-reacted with an antigen of approximately 55 kDa from an extract of Candida albicans. 2-7, 2-12, 2-14, and 2-2-4 formed a precipitin band with immunoaffinity-purified 58-kDa antigen by immunodiffusion. Results from indirect immunofluorescence assays with 2-7 and 2-2-9 showed fluorescent staining mainly on the surfaces of conidia and hyphae, indicating that the 58-kDa antigen may be cell wall associated. 2-2-9 and 2-2-13 and antibodies in patient and immune rabbit sera precipitated the [35S]methionine-labeled 58-kDa antigen. The 58-kDa antigen immunoprecipitated by each of the antibodies was enzymatically cleaved by Staphylococcus aureus V8 protease; one cleavage product, a 35-kDa fragment, was generated, indicating that the precipitated antigens share primary structure. Immunoblot analysis with an immunoaffinity-purified 58-kDa antigen showed that sera from patients with invasive aspergillosis reacted with the same antigen as that recognized by the monoclonal antibodies.

Published

1991

20. Detection of Campylobacter from Poultry Carcass Skin Samples at Slaughter in Southern Italy

Author

Iole Ventrone, Tiziana Pepe, Giuseppina Esposito, Maria Luisa Cortesi, Rosaria De Dominicis, Pina M. Fratamico, Pepe, Tiziana, R., DE DOMINICIS, G., Esposito, Ventrone, Iole, P. M., Fratamico, and Cortesi, MARIA LUISA

Subjects

DNA, Bacterial, Veterinary medicine, Colony Count, Microbial, Campylobacteriosis, Food Contamination, Campylobacter coli, medicine.disease_cause, Microbiology, Campylobacter jejuni, Species Specificity, medicine, Food microbiology, Animals, Humans, Skin, biology, Campylobacter, Hygiene, Raw milk, medicine.disease, biology.organism_classification, Diarrhea, Italy, Consumer Product Safety, Food Microbiology, Cloaca, medicine.symptom, Chickens, Abattoirs, Food Science, Food contaminant

Abstract

Campylobacter is a major foodborne pathogen responsible for acute gastroenteritis characterized by diarrhea that is sometimes bloody, fever, cramps, and vomiting. Campylobacter species are carried in the intestinal tracts of mammals and birds, and sources of human infection include raw milk, contaminated water, direct contact with pets, and foods, particularly poultry. Campylobacter jejuni and C. coli are the species that account for the majority of human infections. The aim of this work was to determine the prevalence of Campylobacter in 190 poultry carcasses sampled at slaughter and to use a multiplex PCR assay to determine if the isolates were C. jejuni or C. coli. C. coli was not isolated, while C. jejuni was recovered from 52 (37.1%) of 140 carcasses for which pools of four sampling sites (neck, cloaca, breast, and back) were examined. In the remaining 50 carcasses, the four sites were analyzed separately, and C. jejuni was recovered from the samples in the following order: neck (n = 20), cloaca (n = 16), breast (n = 14), and back (n = 11). The results are in agreement with those of other studies, which showed that C. jejuni is more commonly associated with poultry than is C. coli. Control strategies for Campylobacter should include interventions to eliminate C. jejuni in poultry at various stages of production and processing, including at slaughter.

Published

2009