Search

Your search keyword '"Zamperini, Katherine"' showing total 6 results
Start Over Author "Zamperini, Katherine"
6 results on '"Zamperini, Katherine"'

2. rpoS-Regulated Core Genes Involved in the Competitive Fitness of Salmonella enterica Serovar Kentucky in the Intestines of Chickens

Author

Cheng, Ying, Pedroso, Adriana Ayres, Porwollik, Steffen, McClelland, Michael, Lee, Margie D, Kwan, Tiffany, Zamperini, Katherine, Soni, Vivek, Sellers, Holly S, Russell, Scott M, and Maurer, John J

Subjects
Biological Sciences, Biomedical and Clinical Sciences, Microbiology, Clinical Sciences, Medical Microbiology, Genetics, Foodborne Illness, Infectious Diseases, Digestive Diseases, Emerging Infectious Diseases, 2.2 Factors relating to the physical environment, Aetiology, 2.1 Biological and endogenous factors, Animals, Bacterial Proteins, Chickens, Gene Deletion, Gene Expression Profiling, Gene Expression Regulation, Bacterial, Genes, Bacterial, Intestines, Operon, Regulon, Salmonella Infections, Animal, Salmonella enterica, Serogroup, Sigma Factor, Medical microbiology
Abstract

Salmonella enterica serovar Kentucky has become the most frequently isolated serovar from poultry in the United States over the past decade. Despite its prevalence in poultry, it causes few human illnesses in the United States. The dominance of S. Kentucky in poultry does not appear to be due to single introduction of a clonal strain, and its reduced virulence appears to correlate with the absence of virulence genes grvA, sseI, sopE, and sodC1. S. Kentucky's prevalence in poultry is possibly attributable to its metabolic adaptation to the chicken cecum. While there were no difference in the growth rate of S. Kentucky and S. Typhimurium grown microaerophilically in cecal contents, S. Kentucky persisted longer when chickens were coinfected with S. Typhimurium. The in vivo advantage that S. Kentucky has over S. Typhimurium appears to be due to differential regulation of core Salmonella genes via the stationary-phase sigma factor rpoS. Microarray analysis of Salmonella grown in cecal contents in vitro identified several metabolic genes and motility and adherence genes that are differentially activated in S. Kentucky. The contributions of four of these operons (mgl, prp, nar, and csg) to Salmonella colonization in chickens were assessed. Deletion of mgl and csg reduced S. Kentucky persistence in competition studies in chickens infected with wild-type or mutant strains. Subtle mutations affecting differential regulation of core Salmonella genes appear to be important in Salmonella's adaptation to its animal host and especially for S. Kentucky's emergence as the dominant serovar in poultry.

Published
2015

5. Effect of Salmonella vaccination of breeder chickens on contamination of broiler chicken carcasses in integrated poultry operations

Author

Dorea, Fernanda C., Cole, Dana J., Hofacre, Charles, Zamperini, Katherine, Mathis, Demetrius, Doyle, Michael P., Lee, Margie D., and Maurer, John J.

Subjects
Enterobacteriaceae infections -- Control, Broilers (Poultry) -- Contamination, Biological sciences
Abstract

Four vaccinated and four nonvaccinated breeder (parental) chicken flocks were monitored and prevalence of Salmonella in these flocks and their broiler, meat bird progeny were compared to determine the impact of Salmonella vaccination on commercial poultry operations. The vaccinated hens showed lower prevalence of Salmonella in the ceca and the reproductive tracts and the broiler chicks acquired from vaccinated breeders also showed lower Salmonella prevalence when placed at the broiler farms contracted with the poultry company.

Published
2010

6. rpoS-Regulated Core Genes Involved in the Competitive Fitness of Salmonella enterica Serovar Kentucky in the Intestines of Chickens.

Author

Ying Cheng, Pedroso, Adriana Ayres, Porwollik, Steffen, McClelland, Michael, Lee, Margie D., Kwan, Tiffany, Zamperini, Katherine, Soni, Vivek, Sellers, Holly S., Russell, Scott M., and Maurer, John J.

Subjects
*POULTRY diseases, *DISEASE prevalence, *GENETIC mutation, *SALMONELLA enterica, *MICROARRAY technology
Abstract

Salmonella enterica serovar Kentucky has become the most frequently isolated serovar from poultry in the United States over the past decade. Despite its prevalence in poultry, it causes few human illnesses in the United States. The dominance of S. Kentucky in poultry does not appear to be due to single introduction of a clonal strain, and its reduced virulence appears to correlate with the absence of virulence genes grvA, sseI, sopE, and sodC1. S. Kentucky's prevalence in poultry is possibly attributable to its metabolic adaptation to the chicken cecum. While there were no difference in the growth rate of S. Kentucky and S. Typhimurium grown microaerophilically in cecal contents, S. Kentucky persisted longer when chickens were coinfected with S. Typhimurium. The in vivo advantage that S. Kentucky has over S. Typhimurium appears to be due to differential regulation of core Salmonella genes via the stationary-phase sigma factor rpoS. Microarray analysis of Salmonella grown in cecal contents in vitro identified several metabolic genes and motility and adherence genes that are differentially activated in S. Kentucky. The contributions of four of these operons (mgl, prp, nar, and csg) to Salmonella colonization in chickens were assessed. Deletion of mgl and csg reduced S. Kentucky persistence in competition studies in chickens infected with wild-type or mutant strains. Subtle mutations affecting differential regulation of core Salmonella genes appear to be important in Salmonella's adaptation to its animal host and especially for S. Kentucky's emergence as the dominant serovar in poultry. [ABSTRACT FROM AUTHOR]

Published
2015
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results