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Full-Text Articles in Microbiology
Functional Screening Of The Cronobacter Sakazakii Baa-894 Genome Reveals A Role For Prop (Esa_02131) In Carnitine Uptake, Audrey Feeney, Roy D. Sleator
Functional Screening Of The Cronobacter Sakazakii Baa-894 Genome Reveals A Role For Prop (Esa_02131) In Carnitine Uptake, Audrey Feeney, Roy D. Sleator
Department of Biological Sciences Publications
Cronobacter sakazakii is a neonatal pathogen responsible for up to 80% of fatalities in infected infants. Low birth weight infants and neonates infected with C. sakazakii suffer necrotizing enterocolitis, bacteraemia and meningitis. The mode of transmission most often associated with infection is powdered infant formula (PIF) which, with an aw of ∼0.2, is too low to allow most microorganisms to persist. Survival of C. sakazakii in environments subject to extreme hyperosmotic stress has previously been attributed to the uptake of compatible solutes including proline and betaine. Herein, we report the construction and screening of a C. sakazakii genome bank and …
Carnitine And O-Acylcarnitines In Pseudomonas Aerguinosa: Metabolism, Transport, And Regulation, Jamie Meadows
Carnitine And O-Acylcarnitines In Pseudomonas Aerguinosa: Metabolism, Transport, And Regulation, Jamie Meadows
Graduate College Dissertations and Theses
Pseudomonas aeruginosa is found in numerous environments and is an opportunistic pathogen affecting those who are immunocompromised. Its large genome encodes tremendous metabolic and regulatory diversity that enables P. aeruginosa to adapt to various environments. We are interested in how P. aeruginosa senses and responds to the host-derived compounds, carnitine and acylcarnitines. Acylcarnitines can be hydrolyzed to carnitine, where the liberated carnitine and its catabolic product glycine betaine can be used as osmoprotectants, for induction of the virulence factor phospholipase C, and as sole carbon, nitrogen, and energy sources. P. aeruginosa is incapable of de novo synthesis of carnitine and …