Your search keyword '"H.C. den Bakker"' showing total 4 results

1. Interrogation of single nucleotide polymorphisms in gnd provides a novel method for molecular serogrouping of clinically important Shiga toxin producing Escherichia coli (STEC) targeted by regulation in the United States, including the 'big six' non-O157 STEC and STEC O157

Author

J.R. Elder, H.C. den Bakker, Marie Bugarel, Guy H. Loneragan, and Kendra K. Nightingale

Subjects

0301 basic medicine, Microbiology (medical), Meat, Genotype, 030106 microbiology, Single-nucleotide polymorphism, Biology, Escherichia coli O157, Serogroup, medicine.disease_cause, Polymorphism, Single Nucleotide, Microbiology, Non o157, Feces, 03 medical and health sciences, fluids and secretions, Data sequences, medicine, Animals, Humans, SNP, Multiplex, Typing, Serotyping, Molecular Biology, Escherichia coli, Shiga toxin-producing Escherichia coli, Escherichia coli Infections, Genetics, Shiga-Toxigenic Escherichia coli, Escherichia coli Proteins, O Antigens, bacterial infections and mycoses, United States, High-Throughput Screening Assays, Molecular Typing, 030104 developmental biology, bacteria

Abstract

Escherichia coli O157:H7 has frequently been associated with foodborne infections and is considered an adulterant in raw non-intact beef in the U.S. Shiga toxin-producing E. coli (STEC) belonging to serogroups O26, O45, O103, O111, O121, and O145 (known as the “big six” non-O157) were estimated to cause > 70% of foodborne infections attributed to non-O157 serogroups in the U.S., as a result, these six serogroups have also been targeted by regulation in the U.S. The purpose of this study was to develop a rapid and high-throughput molecular method to group STEC isolates into seven clinically important serogroups (i.e., O157 and the “big six” non-O157 serogroups) targeted by regulation in the U.S. by interrogating single nucleotide polymorphisms (SNPs) in gnd. A collection of 195 STEC isolates, including isolates belonging to O157:H7 (n = 18), O26 (n = 21), O45 (n = 19), O103 (n = 24), O111 (n = 24), O121 (n = 23), O145 (n = 21), and ten other STEC serogroups (n = 45), was assembled and characterized by full gnd sequencing to identify informative SNPs for molecular serogrouping. A multiplex SNP typing assay was developed to interrogate twelve informative gnd SNPs by single base pair extension chemistry and used to characterize the STEC isolate collection assembled here. SNP types were assigned to each isolate by the assay and polymorphisms were confirmed with gnd sequence data. O-serogroup-specific SNP types were identified for each of the seven clinically important STEC serogroups, which allowed the differentiation of these seven STEC serogroups from other non-O157 STEC serogroups. Although serogroups of the “big six” non-O157 STEC and O157:H7 contained multiple SNP types per O-serogroup, there were no overlapping SNP types between serogroups. Our results demonstrate that molecular serogrouping of STEC isolates by interrogation of informative SNPs in gnd represents an alternative to traditional serogrouping by agglutination for rapid and high-throughput identification of clinically important STEC serogroups targeted by regulation for surveillance and epidemiological investigations.

Published

2016

2. Listeria monocytogenes and hemolytic Listeria innocua in poultry

Author

Irene Hanning, Martin Wiedmann, Steven C. Ricke, S.R. Milillo, H.C. den Bakker, Ashley R. Clement, J.C. Stout, and Esther D. Fortes

Subjects

Veterinary medicine, Listeria, Context (language use), Poaceae, medicine.disease_cause, Listeria monocytogenes, medicine, Animals, Listeriosis, Typing, Animal Husbandry, Cecum, Pathogen, Phylogeny, Poultry Diseases, Soil Microbiology, biology, General Medicine, biology.organism_classification, Housing, Animal, Animal Science and Zoology, Analytical profile index, Chickens, Soil microbiology, Bacteria

Abstract

Listeria monocytogenes is a ubiquitous, saprophytic, Gram-positive bacterium and occasional food-borne pathogen, often associated with ready-to-eat meat products. Because of the increased consumer interest in organic, all natural, and free range poultry products, it is important to understand L. monocytogenes in the context of such systems. Pasture-reared poultry were surveyed over the course of two 8-wk rearing periods. Cecal, soil, and grass samples were collected for Listeria isolation and characterization. Seven of 399 cecal samples (or 1.75%) were Listeria-positive. All positive cecal samples were obtained from broilers sampled at 2 wk of age. Grass and soil samples were collected from the pasture both before and after introduction of the poultry. Environmental samples collected after introduction of poultry were significantly more likely to contain Listeria (P < 0.001). The results of analytical profile index Listeria, sigB allelic typing, and hlyA PCR tests found that both L. monocytogenes and L. innocua, including hemolytic L. innocua, were recovered from the cecal and environmental (grass/soil) samples. The sigB allelic typing also revealed that (1) positive samples could be composed of 2 or more allelic types; (2) allelic types found in cecal samples could also be found in the environment; and (3) allelic types could persist through the 2 rearing periods. Our data indicate that both pasture-reared poultry and their environment can be contaminated with L. monocytogenes and hemolytic L. innocua.

Published

2012

3. A phylogenetic study of Boletus section Boletus in Europe

Author

D.C.M. Beugelsdijk, Stefano G. A. Draisma, Giuseppe C. Zuccarello, S. van der Linde, Machiel E. Noordeloos, and H.C. den Bakker

Subjects

Species complex, Taxon, biology, Boletus edulis, Botany, Phylogenetic study, Zoology, Boletus, Morphology (biology), Genetic variability, biology.organism_classification, Clade, Ecology, Evolution, Behavior and Systematics

Abstract

A phylogenetic study of the species in Boletus sect. Boletus was undertaken using the molecular markers ITS1-5.8S-ITS2 and Gap dh. Four well-supported lineages, one comprising Boletus edulis s.l., the others referring to B. aereus, B. reticulatus and B. pinophilus have been distinguished. The ML and MP trees of ITS showed remarkably low resolution within the B. edulis clade, and confirmed earlier published results, despite the use of samples from a wider geographical area and different hosts. The results of Gap dh demonstrate clearly that this low resolution must be ascribed to a low genetic variability with the B. edulis clade, and make clear that morphological and ecological characters have been overestimated within this species complex. Boletus edulis is therefore defined as a variable species with a wide morphological, ecological and geographic range, and includes several specific and subspecific taxa described in the literature (e.g. B. betulicola, B. persoonii, B. quercicola and B. venturii). Three other European species (B. aereus, B. pinophilus and B. reticulatus) are well delimited species based on morphology and our genetic data.

Published

2008

4. Equine Stomachs Harbor an Abundant and Diverse Mucosal Microbiota

Author

J. Parker, Hollis N. Erb, Sean P. McDonough, A. J. Burton, R. L. Rosenthal, H.C. den Bakker, Scot E. Dowd, Patrick L. McDonough, K. W. Simpson, Martin Wiedmann, and Gillian A. Perkins

Subjects

DNA, Bacterial, Firmicutes, Biopsy, Molecular Sequence Data, medicine.disease_cause, Applied Microbiology and Biotechnology, DNA, Ribosomal, Microbiology, Microbial Ecology, Lactobacillus, RNA, Ribosomal, 16S, medicine, Prevotella, Animals, Cluster Analysis, Horses, Moraxella, In Situ Hybridization, Fluorescence, Phylogeny, Ecology, biology, Bacteria, Streptococcus, Stomach, Bacteroidetes, Biodiversity, Sequence Analysis, DNA, biology.organism_classification, Gastric Mucosa, Actinobacillus, Metagenome, Proteobacteria, Food Science, Biotechnology

Abstract

Little is known about the gastric mucosal microbiota in healthy horses, and its role in gastric disease has not been critically examined. The present study used a combination of 16S rRNA bacterial tag-encoded pyrosequencing (bTEFAP) and fluorescence in situ hybridization (FISH) to characterize the composition and spatial distribution of selected gastric mucosal microbiota of healthy horses. Biopsy specimens of the squamous, glandular, antral, and any ulcerated mucosa were obtained from 6 healthy horses by gastroscopy and from 3 horses immediately postmortem. Pyrosequencing was performed on biopsy specimens from 6 of the horses and yielded 53,920 reads in total, with 631 to 4,345 reads in each region per horse. The microbiome segregated into two distinct clusters comprised of horses that were stabled, fed hay, and sampled at postmortem (cluster 1) and horses that were pastured on grass, fed hay, and biopsied gastroscopically after a 12-h fast (cluster 2). The types of bacteria obtained from different anatomic regions clustered by horse rather than region. The dominant bacteria in cluster 1 were Firmicutes (>83% reads/sample), mainly Streptococcus spp., Lactobacillus spp. and, Sarcina spp. Cluster 2 was more diverse, with predominantly Proteobacteria , Bacteroidetes , and Firmicutes , consisting of Actinobacillus spp. Moraxella spp., Prevotella spp., and Porphyromonas spp. Helicobacter sp. sequences were not identified in any of 53,920 reads. FISH ( n = 9) revealed bacteria throughout the stomach in close apposition to the mucosa, with significantly more Streptococcus spp. present in the glandular region of the stomach. The equine stomach harbors an abundant and diverse mucosal microbiota that varies by individual.

Published

2012