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Manganese Privation-Induced Transcriptional Upregulation of the Class IIa Bacteriocin Plantaricin 423 in Lactobacillus plantarum Strain 423

Ross Rayne Vermeulen, Shelly M. Deane, Leon M. T. Dicks, Johann M. Rohwer, Anton D. van Staden

2021Applied and Environmental Microbiology18 citationsDOIOpen Access PDF

Abstract

Lactic acid bacteria hold huge industrial application and economic value, especially bacteriocinogenic strains, which further aids in the exclusion of specific foodborne pathogens. Since bacteriocinogenic strains are sought after, it is equally important to understand the mechanism of bacteriocin regulation. This is currently an understudied aspect of class IIa operons. Our research suggests the existence of a previously undescribed mode of class IIa bacteriocin regulation, whereby bacteriocin expression is linked to management of the producer's transition metal homeostasis. This delocalized metalloregulatory model may fundamentally affect the selection of culture conditions for bacteriocin expression and change our understanding of class IIa bacteriocin gene transfer dynamics in a given microbiome.

Topics & Concepts

OperonBacteriocinLactobacillus plantarumBiologyMicrobiologyGeneBacteriaGeneticsLactic acidEscherichia coliProbiotics and Fermented FoodsMicrobial Metabolism and ApplicationsGenomics and Phylogenetic Studies
Manganese Privation-Induced Transcriptional Upregulation of the Class IIa Bacteriocin Plantaricin 423 in Lactobacillus plantarum Strain 423 | Litcius