Your search keyword '"Gale Brightwell"' showing total 2 results

1. Whole genome sequence analysis of ESBL-producing Escherichia coli recovered from New Zealand freshwater sites

Author

Sara A. Burgess, Marie Moinet, Gale Brightwell, and Adrian L. Cookson

Subjects

General Medicine

Abstract

Extended-spectrum beta lactamase (ESBL)-producing Escherichia coli are often isolated from humans with urinary tract infections and may display a multidrug-resistant phenotype. These pathogens represent a target for a One Health surveillance approach to investigate transmission between humans, animals and the environment. This study examines the multidrug-resistant phenotype and whole genome sequence data of four ESBL-producing E . coli isolated from freshwater in New Zealand. All four isolates were obtained from a catchment with a mixed urban and pastoral farming land-use. Three isolates were sequence type (ST) 131 (CTX-M-27-positive) and the other ST69 (CTX-M-15-positive); a phylogenetic comparison with other locally isolated strains demonstrated a close relationship with New Zealand clinical isolates. Genes associated with resistance to antifolates, tetracyclines, aminoglycosides and macrolides were identified in all four isolates, together with fluoroquinolone resistance in two isolates. The ST69 isolate harboured the bla CTX-M-15 gene on a IncHI2A plasmid, and two of the three ST131 isolates harboured the bla CTX-M-27 genes on IncF plasmids. The last ST131 isolate harboured bla CTX-M-27 on the chromosome in a unique site between gspC and gspD. These data highlight a probable human origin of the isolates with subsequent transmission from urban centres through wastewater to the wider environment.

Published

2022

2. Occurrence of genes encoding spore germination in Clostridium species that cause meat spoilage

Author

Sara A. Burgess, Faith P. Palevich, Amanda Gardner, John Mills, Gale Brightwell, and Nikola Palevich

Subjects

General Medicine

Abstract

Members of the genus Clostridium are frequently associated with meat spoilage. The ability for low numbers of spores of certain Clostridium species to germinate in cold-stored vacuum-packed meat can result in blown pack spoilage. However, little is known about the germination process of these clostridia, despite this characteristic being important for their ability to cause spoilage. This study sought to determine the genomic conditions for germination of 37 representative Clostridium strains from seven species ( C. estertheticum , C. tagluense , C. frigoris , C. gasigenes , C. putrefaciens , C. aligidicarnis and C. frigdicarnis) by comparison with previously characterized germination genes from C. perfringens , C. sporogenes and C. botulinum . All the genomes analysed contained at least one gerX operon. Seven different gerX operon configuration types were identified across genomes from C. estertheticum , C. tagluense and C. gasigenes . Differences arose between the C. gasigenes genomes and those belonging to C. tagluense / C. estertheticum in the number and type of genes coding for cortex lytic enzymes, suggesting the germination pathway of C. gasigenes is different. However, the core components of the germination pathway were conserved in all the Clostridium genomes analysed, suggesting that these species undergo the same major steps as Bacillus subtilis for germination to occur.

Published

2022