Literature DB >> 24079267

Bacterial Mg2+ homeostasis, transport, and virulence.

Eduardo A Groisman1, Kerry Hollands, Michelle A Kriner, Eun-Jin Lee, Sun-Yang Park, Mauricio H Pontes.   

Abstract

Organisms must maintain physiological levels of Mg(2+) because this divalent cation is critical for the stabilization of membranes and ribosomes, for the neutralization of nucleic acids, and as a cofactor in a variety of enzymatic reactions. In this review, we describe the mechanisms that bacteria utilize to sense the levels of Mg(2+) both outside and inside the cytoplasm. We examine how bacteria achieve Mg(2+) homeostasis by adjusting the expression and activity of Mg(2+) transporters and by changing the composition of their cell envelope. We discuss the connections that exist between Mg(2+) sensing, Mg(2+) transport, and bacterial virulence. Additionally, we explore the logic behind the fact that bacterial genomes encode multiple Mg(2+) transporters and distinct sensing systems for cytoplasmic and extracytoplasmic Mg(2+). These analyses may be applicable to the homeostatic control of other cations.

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Year:  2013        PMID: 24079267      PMCID: PMC4059682          DOI: 10.1146/annurev-genet-051313-051025

Source DB:  PubMed          Journal:  Annu Rev Genet        ISSN: 0066-4197            Impact factor:   16.830


  124 in total

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  82 in total

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2.  Gene expression kinetics governs stimulus-specific decoration of the Salmonella outer membrane.

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5.  A Screen for Antibiotic Resistance Determinants Reveals a Fitness Cost of the Flagellum in Pseudomonas aeruginosa.

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6.  Disruption of the OLE ribonucleoprotein complex causes magnesium toxicity in Bacillus halodurans.

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7.  Magnesium-sensitive upstream ORF controls PRL phosphatase expression to mediate energy metabolism.

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9.  The small protein MgtS and small RNA MgrR modulate the PitA phosphate symporter to boost intracellular magnesium levels.

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