The TetR Family of Regulators

Cuthbertson, Leslie; Nodwell, Justin R.

doi:10.1128/mmbr.00018-13

Cited by 467 publications

(535 citation statements)

References 373 publications

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“…Proteins within the H-NS family have been suggested to be involved in T6SS regulation (31,32). TetR-like regulators play a broad role in many aspects of prokaryotic physiology (33), and members of this family have been implicated in T6SS regulation (34). Close homologs of TetR1 and TetR2 are only present in A. baumannii harboring pAB04-1/pAB3-like plasmids.…”

Section: Loss Of a Conserved Conjugative Resistance Plasmid Results mentioning

confidence: 99%

A multidrug resistance plasmid contains the molecular switch for type VI secretion in Acinetobacter baumannii

Weber

Irwin

et al. 2015

Proc. Natl. Acad. Sci. U.S.A.

159

190

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Infections with Acinetobacter baumannii, one of the most troublesome and least studied multidrug-resistant superbugs, are increasing at alarming rates. A. baumannii encodes a type VI secretion system (T6SS), an antibacterial apparatus of Gram-negative bacteria used to kill competitors. Expression of the T6SS varies among different strains of A. baumannii, for which the regulatory mechanisms are unknown. Here, we show that several multidrug-resistant strains of A. baumannii harbor a large, self-transmissible resistance plasmid that carries the negative regulators for T6SS. T6SS activity is silenced in plasmid-containing, antibiotic-resistant cells, while part of the population undergoes frequent plasmid loss and activation of the T6SS. This activation results in T6SS-mediated killing of competing bacteria but renders A. baumannii susceptible to antibiotics. Our data show that a plasmid that has evolved to harbor antibiotic resistance genes plays a role in the differentiation of cells specialized in the elimination of competing bacteria.

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Section: Loss Of a Conserved Conjugative Resistance Plasmid Results mentioning

confidence: 99%

A multidrug resistance plasmid contains the molecular switch for type VI secretion in Acinetobacter baumannii

Weber

Irwin

et al. 2015

Proc. Natl. Acad. Sci. U.S.A.

159

190

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“…OCSs are proteins containing sensory and signaling domains; they lack HK and receptor domains and can be identified by amino acid conservation in their DNA-binding domains and by different conserved motifs (54). Twenty families of major prokaryotic OCSs have been recognized so far (68). With the exception of the MetJ family, they are all represented in LAB.…”

Section: One-component Systemsmentioning

confidence: 99%

“…TetR proteins constitute a widespread family of OCSs regulating many aspects of bacterial physiology and interacting with a vast array of ligands (68). A small number of TetR family regulators have been characterized for LAB, among which only S. pneumoniae SczA has so far been implicated in a stress response.…”

Section: One-component Systemsmentioning

confidence: 99%

Stress Physiology of Lactic Acid Bacteria

Papadimitriou

Alegría

Bron

et al. 2016

Microbiol Mol Biol Rev

515

404

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SUMMARYLactic acid bacteria (LAB) are important starter, commensal, or pathogenic microorganisms. The stress physiology of LAB has been studied in depth for over 2 decades, fueled mostly by the technological implications of LAB robustness in the food industry. Survival of probiotic LAB in the host and the potential relatedness of LAB virulence to their stress resilience have intensified interest in the field. Thus, a wealth of information concerning stress responses exists today for strains as diverse as starter (e.g.,Lactococcus lactis), probiotic (e.g., severalLactobacillusspp.), and pathogenic (e.g.,EnterococcusandStreptococcusspp.) LAB. Here we present the state of the art for LAB stress behavior. We describe the multitude of stresses that LAB are confronted with, and we present the experimental context used to study the stress responses of LAB, focusing on adaptation, habituation, and cross-protection as well as on self-induced multistress resistance in stationary phase, biofilms, and dormancy. We also consider stress responses at the population and single-cell levels. Subsequently, we concentrate on the stress defense mechanisms that have been reported to date, grouping them according to their direct participation in preserving cell energy, defending macromolecules, and protecting the cell envelope. Stress-induced responses of probiotic LAB and commensal/pathogenic LAB are highlighted separately due to the complexity of the peculiar multistress conditions to which these bacteria are subjected in their hosts. Induction of prophages under environmental stresses is then discussed. Finally, we present systems-based strategies to characterize the “stressome” of LAB and to engineer new food-related and probiotic LAB with improved stress tolerance.

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“…Most prokaryotic regulator proteins consist of an amino-terminal DBD that recognizes a unique DNA operator sequence and a carboxyterminal sensory domain (SD) that specifically binds to a ligand molecule (Fig. 1A) (Cuthbertson and Nodwell 2013). Their diversity and sensory capacity render these proteins attractive for mammalian gene regulation and gene circuit design .…”

Section: Transcriptional Gene Switchesmentioning

confidence: 99%

“…Prokaryotic regulator protein families are a widespread class of sensor proteins (e.g., .200,000 prokaryotic regulator protein-like sequences have been identified) that enable cells to adapt rapidly to environmental and metabolic changes by controlling the transcription of target genes depending on specific input signals (Ramos et al 2005;Cuthbertson and Nodwell 2013). Most prokaryotic regulator proteins consist of an amino-terminal DBD that recognizes a unique DNA operator sequence and a carboxyterminal sensory domain (SD) that specifically binds to a ligand molecule (Fig.…”

Section: Transcriptional Gene Switchesmentioning

confidence: 99%