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    Fluorescence measurements of free [Mg2+] by use of mag-fura 2 in Salmonella enterica (2004)

    Art
    Zeitschriftenartikel / wissenschaftlicher Beitrag
    Autoren
    Froschauer, Elisabeth M
    Kolisek, Martin
    Dieterich, Frank
    Schweigel, Monika
    Schweyen, Rudolf J
    Quelle
    FEMS microbiology letters
    Bandzählung: 237
    Heftzählung: 1
    Seiten: 49 – 55
    ISSN: 0378-1097
    Sprache
    Englisch
    Verweise
    Pubmed: 15268937
    Kontakt
    Institut für Veterinär-Physiologie

    Oertzenweg 19 b
    14163 Berlin
    +49 30 838 62600
    physiologie@vetmed.fu-berlin.de

    Abstract / Zusammenfassung

    The Mg2+ fluorescent dye mag-fura 2, entrapped in cells or organelles, has frequently been used for dual excitation ratio-metric determinations of free ionic Mg2+ concentrations in eukaryotic, mostly mammalian cells. Here we report its successful application to measure free Mg2+ concentrations ([Mg2+]i) in Salmonella enterica cells. When kept in nominally Mg2+ free buffer (resting conditions), the [Mg2+]i of wild-type cells has been determined to be 0.9 mM. An increase in the external Mg2+ concentration ([Mg2+]e) resulted in a rapid increase of [Mg2+]i, saturating within a few seconds at about 1.5 mM with [Mg2+]e of 20 mM. In contrast, cells lacking the Mg2+ transport proteins CorA, MgtA, MgtB failed to show this rapid increase. Instead, their [Mg2+]i increased steadily over extended periods of time and saturated at concentrations below those of wild-type cells. Mg2+ uptake rates increased more than 15-fold when corA was overexpressed in these mutant cells. Uptake of Mg2+ into corA expressing cells was strongly stimulated by nigericin, which increased the membrane potential DeltaPsi at the expense of DeltapH, and drastically reduced by valinomycin, which decreased the membrane potential DeltaPsi. These results reveal mag-fura 2 as a useful indicator to measure steady-state [Mg2+]i values in resting bacterial cells and to determine Mg2+ uptake rates. They confirm the role of CorA as the major Mg2+ transport protein and reveal the membrane potential as driving force for Mg2+ uptake into S. enterica cells.