4 research outputs found

    Catalases have tellurite reductase activity <b><i>in situ.</i></b>

    Full text link
    <div><p>Assays for the H<sub>2</sub>O<sub>2</sub> dismutase and TeO<sub>3</sub><sup>2−</sup> reductase activities of catalase <i>in situ</i> were carried out by resolving proteins on polyacrylamide gels, incubating gel strips in the presence of substrate, and developing gel strips to reveal the presence of specific products of each reaction (Woodbury et al. 1971; Gregory and Fridovich 1974).</p> <p>For dismutase assays, 25 µg of protein were loaded in each gel lane; 250 µg of protein was used for tellurite reductase assays.</p> <p> <b>(A)</b> The results in <a href="http://www.plosone.org/article/info:doi/10.1371/journal.pone.0000070#pone-0000070-g003" target="_blank">Fig. 3A</a> show that bovine liver catalase (a tetramer of 255 kDa) migrates as a single band on native gels (lane 2) with an apparent molecular mass similar to that of a 244 kD standard (lane 1), and has both hydrogen peroxide dismutase (lane 3) and tellurite reductase (lane 4) activities.</p> <p> <b>(B)</b> The activities of catalase present in extracts made from <i>E. coli</i> Top10 cells carrying the plasmid vector pBAD display lower H<sub>2</sub>O<sub>2</sub> dismutase and TeO<sub>3</sub><sup>2−</sup> reductase activities (lanes 7 and 9) than does an otherwise isogenic strain with plasmid pCAT, which expresses the <i>S. epidermidis</i> CH <i>katA</i> (catalase) gene (lanes 8 and 10); these activities most likely correspond to the predominant tetrameric form of catalase.</p> <p>In crude extracts of <i>S. epidermidis</i>, two different bands of each activity are observed (lanes 5 and 6).</p></div

    Figure 4. Expression of the <i>S. epidermidis katA</i> gene in <i>E. coli</i> confers increased resistance to both tellurite and hydrogen peroxide.

    Full text link
    <div><p> <b>(A)</b> Aliquots of exponentially growing cultures of <i>E. coli</i> strain JWK3914 (<i>katG</i>) carrying plasmids pBAD (<b>a</b> and <b>c</b>) or pCAT (<b>b</b> and <b>d</b>) were spread onto the surface of plates with LB medium, 15.5 µl K<sub>2</sub>TeO<sub>3</sub> (4 mM)(<b>a</b> and <b>b</b>) or hydrogen peroxide (3%) (<b>c</b> and <b>d</b>) were spotted onto the centers of the bacterial lawns, and cells were grown to reveal zones of inhibition (Fuentes et al. 2005).</p> <p> <b>(B)</b> The mean areas of growth inhibition zones (cm<sup>2</sup>) were determined from three independent experiments; thin bars represent the standard deviations.</p></div

    The tellurite reductase activity in crude extracts prepared from <i>S. epidermidis</i> CH is dependent on NADH as cofactor.

    Full text link
    <div><p>The tellurite reductase activity present in crude extracts of <i>S. epidermidis</i> CH cells was followed over time as the increase in absorbance at 500 nm due to the conversion of tellurite to tellurium in the presence (▪) and absence (•) of NADH under standard assay conditions.</p> <p>The values shown represent the means of three independent determinations made with crude extracts containing 1.2 mg/ml total protein.</p></div

    The product of tellurite reduction by catalase is elemental tellurium.

    Full text link
    <div><p>Absorption spectra of products formed upon the reduction of K<sub>2</sub>TeO<sub>3</sub><i>in vitro</i> by <b>(A)</b> 2-mercaptoethanol, <b>(B)</b> a crude extract prepared from <i>S. epidermidis</i> CH cells prior to chromatographic enrichment, and <b>(C)</b> purified bovine liver catalase, were resolved by Induced Coupled Plasma-Optical Emission spectroscopy <a href="http://www.plosone.org/article/info:doi/10.1371/journal.pone.0000070#pone.0000070-Grotti1" target="_blank">[30]</a>.</p> <p>All products show an absorption maximum at 214.281 nm, the peak wavelength of the Te° standard (triangle in panel A).</p> <p>We note that the scale used to measure absorbance in the crude extract differs by a factor of ten from those used to measure absorbance in chemically prepared tellurium (A) and in the product of tellurite reduction by bovine liver catalase (C).</p> <p>This is because the crude extract includes a plethora of components with absorption maxima at or near this wavelength.</p></div
    corecore