Combined X-ray Microfluorescence and Atomic Force Microscopy Studies of Mg Distribution in Whole Cells
- Resource Type
- Authors
- S. Lagomarsino; S. Iotti; G. Farruggia; V. Trapani; A. Cedola; M. Fratini; I. Bukreeva; L. Mastrototaro; A. Notargiacomo; I. McNulty; S. Vogt; S. Kim; D. Legnini; J. A. M. Maier; F. Wolf; Ian McNulty; Catherine Eyberger; Barry Lai
- Source
- info:cnr-pdr/source/autori:S. Lagomarsino, S. Iotti, G. Farruggia, V. Trapani, A. Cedola, M. Fratini, I. Bukreeva, L. Mastrototaro, A. Notargiacomo, I. McNulty, S. Vogt, S. Kim, D. Legnini, J. A. M. Maier, F. Wolf/congresso_nome:10th International Conference on X-ray Microscopy/congresso_luogo:Univ Chicago, Chicago/congresso_data:15%2F08%2F2010, 20%2F08%2F2010/anno:2011/pagina_da:/pagina_a:/intervallo_pagine
- Subject
- spatial distribution
Atomic force microscopy
Chemistry
Nondestructive analysis
Analytical chemistry
X-ray fluorescence
magnesium
intracellular imaging
law.invention
law
Microscopy
X ray microfluorescence
Electron microscope
Cellular biophysics
- Language
- ISSN
- 0094-243X
We present in this paper a novel methodology that combines scanning x-ray fluorescencee microscopy and atomic force microscopy. The combination of these two techniques allows the determination of a concentration map of Mg in whole (not sectioned) cells.