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arxiv: 1007.1744 · v1 · submitted 2010-07-10 · 🧬 q-bio.CB · physics.med-ph

Mapping cellular magnesium using X-ray microfluorescence and atomic force microscopy

Stefano Lagomarsino , Stefano Iotti , Giovanna Farruggia , Alessia Cedola , Valentina Trapani , Michela Fratini , Inna Bukreeva , Andrea Notargiacomo
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Lucia Mastrototaro Ian McNulty Stefan Vogt Daniel Legnini Sangsoo Kim Jeanette A M Maier Federica I Wolf
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classification 🧬 q-bio.CB physics.med-ph
keywords informationmagnesiummicroscopyx-rayatomicforceintracellularabsorption
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Magnesium is the most abundant intracellular divalent cation. We present an innovative experimental approach to localizing intracellular magnesium that combines elemental and morphological information from individual cells with high-resolution spatial information. Integration of information from scanning fluorescence X-ray microscopy with information from atomic force microscopy was used to generate a magnesium concentration map and to determine the X-ray linear absorption coefficient map within a whole dehydrated mammary epithelial cell.

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