Your search keyword '"Tall, B. D."' showing total 3 results

1. A hybrid reference-guided de novo assembly approach for generating Cyclospora mitochondrion genomes

Author

Gopinath, G. R., Cinar, H. N., Murphy, H. R., Durigan, M., Almeria, M., Tall, B. D., and DaSilva, A. J.

Published

2018

2. A hybrid reference-guided de novo assembly approach for generating <italic>Cyclospora</italic> mitochondrion genomes.

Author

Gopinath, G. R., Cinar, H. N., Murphy, H. R., Durigan, M., Almeria, M., Tall, B. D., and DaSilva, A. J.

Subjects

COCCIDIA, PROTOZOAN mitochondria, PROTOZOAN genomes, FOODBORNE diseases, FOOD safety

Abstract

Cyclospora cayetanensis is a coccidian parasite associated with large and complex foodborne outbreaks worldwide. Linking samples from cyclosporiasis patients during foodborne outbreaks with suspected contaminated food sources, using conventional epidemiological methods, has been a persistent challenge. To address this issue, development of new methods based on potential genomically-derived markers for strain-level identification has been a priority for the food safety research community. The absence of reference genomes to identify nucleotide and structural variants with a high degree of confidence has limited the application of using sequencing data for source tracking during outbreak investigations. In this work, we determined the quality of a high resolution, curated, public mitochondrial genome assembly to be used as a reference genome by applying bioinformatic analyses. Using this reference genome, three new mitochondrial genome assemblies were built starting with metagenomic reads generated by sequencing DNA extracted from oocysts present in stool samples from cyclosporiasis patients. Nucleotide variants were identified in the new and other publicly available genomes in comparison with the mitochondrial reference genome. A consolidated workflow, presented here, to generate new mitochondrion genomes using our reference-guided de novo assembly approach could be useful in facilitating the generation of other mitochondrion sequences, and in their application for subtyping C. cayetanensis strains during foodborne outbreak investigations. [ABSTRACT FROM AUTHOR]

Published

2018

3. Genomic characterization of malonate positive Cronobacter sakazakii serotype O:2, sequence type 64 strains, isolated from clinical, food, and environment samples

Author

Ben D. Tall, Roger Stephan, Jayanthi Gangiredla, YeonJoo Yoo, Flavia Negrete, Carol Iversen, Eunbi Park, Gopal R. Gopinath, Seungeun Jeong, Günter Klein, Isha R. Patel, Mijeong Kim, Felix Reich, Séamus Fanning, Hyerim Choi, HyeJin Jeong, Samantha Finkelstein, Hannah R. Chase, Jihyeon Park, ChaeYoon Lee, Angelika Lehner, Soyoung Jun, Hyein Jang, YouYoung Lee, JungHa Woo, TaeJung Chung, Athmanya K. Eshwar, University of Zurich, and Tall, B D

Subjects

0301 basic medicine, Serotype, Operon, 030106 microbiology, 2405 Parasitology, Virulence, 610 Medicine & health, Microbiology, Genome, 03 medical and health sciences, Plasmid, Virology, 2715 Gastroenterology, Cronobacter, lcsh:RC799-869, 10082 Institute of Food Safety and Hygiene, Genetics, Whole genome sequencing, Phylogenetic analysis, biology, Research, 2404 Microbiology, Gastroenterology, DNA microarray, 2725 Infectious Diseases, biology.organism_classification, Cronobacter sakazakii, 030104 developmental biology, Infectious Diseases, 2406 Virology, 570 Life sciences, Parasitology, lcsh:Diseases of the digestive system. Gastroenterology, Malonate utilization in C. sakazakii

Abstract

Background Malonate utilization, an important differential trait, well recognized as being possessed by six of the seven Cronobacter species is thought to be largely absent in Cronobacter sakazakii (Csak). The current study provides experimental evidence that confirms the presence of a malonate utilization operon in 24 strains of sequence type (ST) 64, obtained from Europe, Middle East, China, and USA; it offers explanations regarding the genomic diversity and phylogenetic relatedness among these strains, and that of other C. sakazakii strains. Results In this study, the presence of a malonate utilization operon in these strains was initially identified by DNA microarray analysis (MA) out of a pool of 347 strains obtained from various surveillance studies involving clinical, spices, milk powder sources and powdered infant formula production facilities in Ireland and Germany, and dried dairy powder manufacturing facilities in the USA. All ST64 C. sakazakii strains tested could utilize malonate. Zebrafish embryo infection studies showed that C. sakazakii ST64 strains are as virulent as other Cronobacter species. Parallel whole genome sequencing (WGS) and MA showed that the strains phylogenetically grouped as a separate clade among the Csak species cluster. Additionally, these strains possessed the Csak O:2 serotype. The nine-gene, ~ 7.7 kbp malonate utilization operon was located in these strains between two conserved flanking genes, gyrB and katG. Plasmidotyping results showed that these strains possessed the virulence plasmid pESA3, but in contrast to the USA ST64 Csak strains, ST64 Csak strains isolated from sources in Europe and the Middle East, did not possess the type six secretion system effector vgrG gene. Conclusions Until this investigation, the presence of malonate-positive Csak strains, which are associated with foods and clinical cases, was under appreciated. If this trait was used solely to identify Cronobacter strains, many strains would likely be misidentified. Parallel WGS and MA were useful in characterizing the total genome content of these Csak O:2, ST64, malonate-positive strains and further provides an understanding of their phylogenetic relatedness among other virulent C. sakazakii strains. Electronic supplementary material The online version of this article (10.1186/s13099-018-0238-9) contains supplementary material, which is available to authorized users.

Published

2018