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pmi personal molecular imager  (Bio-Rad)


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    Bio-Rad pmi personal molecular imager
    Pmi Personal Molecular Imager, supplied by Bio-Rad, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/pmi personal molecular imager/product/Bio-Rad
    Average 90 stars, based on 1 article reviews
    pmi personal molecular imager - by Bioz Stars, 2026-03
    90/100 stars

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    personal molecular imager (pmi) phosphorimager  (Bio-Rad)
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    Co-precipitation experiments on carbonate minerals for RNA-binding competition. The precipitated column formed by two carbonates and containing radioactive RNA (left, see text for details) is exposed to a <t>phosphorimager</t> screen to observe RNA localization in the column (A). For each pair, carbonates are either prepared separately and then mixed together (“xCO 3 + yCO 3 ”, first column per pair), or all the ingredients are co-precipitated (“xyCO 3 ”, second column per pair). Subsequently (B), columns xCO 3 + yCO 3 are frozen, cut in slices, and the radioactivity in each slide plotted versus the column height in cm. Columns for the pair Ba–Mg and Sr–Ca could not be frozen and sliced due to their high lability; their autoradiograms were profiled instead for RNA localization (data not shown). Carbonate density: CaCO 3 2.71 g/cm 3 < MgCO 3 2.96 g/cm 3 < SrCO 3 3.5 g/cm 3 < BaCO 3 4.29 g/cm 3 .
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    Co-precipitation experiments on carbonate minerals for RNA-binding competition. The precipitated column formed by two carbonates and containing radioactive RNA (left, see text for details) is exposed to a phosphorimager screen to observe RNA localization in the column (A). For each pair, carbonates are either prepared separately and then mixed together (“xCO 3 + yCO 3 ”, first column per pair), or all the ingredients are co-precipitated (“xyCO 3 ”, second column per pair). Subsequently (B), columns xCO 3 + yCO 3 are frozen, cut in slices, and the radioactivity in each slide plotted versus the column height in cm. Columns for the pair Ba–Mg and Sr–Ca could not be frozen and sliced due to their high lability; their autoradiograms were profiled instead for RNA localization (data not shown). Carbonate density: CaCO 3 2.71 g/cm 3 < MgCO 3 2.96 g/cm 3 < SrCO 3 3.5 g/cm 3 < BaCO 3 4.29 g/cm 3 .

    Journal: Beilstein Journal of Organic Chemistry

    Article Title: Adsorption of RNA on mineral surfaces and mineral precipitates

    doi: 10.3762/bjoc.13.42

    Figure Lengend Snippet: Co-precipitation experiments on carbonate minerals for RNA-binding competition. The precipitated column formed by two carbonates and containing radioactive RNA (left, see text for details) is exposed to a phosphorimager screen to observe RNA localization in the column (A). For each pair, carbonates are either prepared separately and then mixed together (“xCO 3 + yCO 3 ”, first column per pair), or all the ingredients are co-precipitated (“xyCO 3 ”, second column per pair). Subsequently (B), columns xCO 3 + yCO 3 are frozen, cut in slices, and the radioactivity in each slide plotted versus the column height in cm. Columns for the pair Ba–Mg and Sr–Ca could not be frozen and sliced due to their high lability; their autoradiograms were profiled instead for RNA localization (data not shown). Carbonate density: CaCO 3 2.71 g/cm 3 < MgCO 3 2.96 g/cm 3 < SrCO 3 3.5 g/cm 3 < BaCO 3 4.29 g/cm 3 .

    Article Snippet: Screens were scanned with a Personal Molecular Imager (PMI) phosphorimager (BioRad) and analyzed with the software QuantityOne (BioRad).

    Techniques: RNA Binding Assay, Radioactivity