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Abstract
The distribution of chemical species and the mechanical modulation inside a single cell or tissue are of fundamental importance to characterize their physiological activity or their pathological conditions [1–4]. Here we analyse these properties by means of label free, non invasive, spectroscopic methods. In particular, we use a recently developed micro-spectrometer, which acquires simultaneously Raman and Brillouin spectra on the same point with subcellular resolution [5]. The techniques ability to analyse the chemical composition and the mechanical properties of single cells has been tested on NIH/3T3 murine fibroblast cells grown in adhesion on silicon substrates. Here we report the data acquired from fixed cells after their oncogenic transformation. Mechanical and chemical evolution is evident by direct inspection of raw data. Sharing our experimental records can be valuable for researchers interested in the analysis of single cells by Raman and Brillouin spectroscopy in order: i) to compare data acquired by different set-ups and ii) to correctly model the fitting functions.
Highlights
Subject Specific subject area Type of data How data were acquired Data format Parameters for data collection
Custom build microscope coupled with Brillouin and Raman spectrometers [6,7] Raw The laser beam with l 1⁄4 532 nm and power on the sample P
The Raman spectra were acquired by RM- Horiba iHR320 Triax using a 600 grooves mmÀ1 grating and an N2 cooled CCD detector (1024 Â 256 pixels)
Summary
Subject Specific subject area Type of data How data were acquired Data format Parameters for data collection. Supplementary data" of the present article as zip file. Custom build microscope coupled with Brillouin and Raman spectrometers [6,7] Raw The laser beam with l 1⁄4 532 nm and power on the sample P
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