Abstract
ABSTRACTLactic acid bacteria are known to exhibit probiotic properties through various mechanisms, including competitive exclusion, pathogen inhibition, production of antimicrobial substances, and maintenance of eubiosis. Here, we present the draft genome sequence of a novel probiotic strain, Lactobacillus rhamnosus strain NRRL B-442, which exhibits potent antivirulence activity against Salmonella enterica.
Highlights
Lactic acid bacteria are known to exhibit probiotic properties through various mechanisms, including competitive exclusion, pathogen inhibition, production of antimicrobial substances, and maintenance of eubiosis
The 2,974,909-bp genome is composed of a single circular chromosome with a GϩC content of 46.7%
According to the Rapid Annotations using Subsystems Technology (RAST) analysis, 1,826 protein-coding genes were assigned to putative functional categories, with the most abundant being related to carbohydrate metabolism (27%) and protein metabolism (11%)
Summary
Lactic acid bacteria are known to exhibit probiotic properties through various mechanisms, including competitive exclusion, pathogen inhibition, production of antimicrobial substances, and maintenance of eubiosis. The 2,974,909-bp genome is composed of a single circular chromosome with a GϩC content of 46.7%.
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