Spectromicroscopic observation of a live single cell in a biocompatible liquid-enclosing graphene systemElectronic supplementary information (ESI) available. See DOI: 10.1039/c7nr05223e
On-the-spot visualization of biochemical responses of intact live cells is vital for a clear understanding of cell biology. The main obstacles for instant visualization of biochemical responses of living cells arise from the lack of a sophisticated detecting technique which can simultaneously provid...
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| creator | Yu, Seong Uk Lee, Hwiwon Cho, Woo Jong Kim, Chulhyun Kang, Moon Cheol Shin, Hyun-Joon Kim, Namdong Hahn, Sei Kwang Kim, Kwang S |
| description | On-the-spot visualization of biochemical responses of intact live cells is vital for a clear understanding of cell biology. The main obstacles for instant visualization of biochemical responses of living cells arise from the lack of a sophisticated detecting technique which can simultaneously provide chemical analysis tools and the biocompatible wet conditions. Here we introduce scanning transmission X-ray microscopy (STXM) combined with a liquid-enclosing graphene system (LGS), offering biocompatible conditions and improved X-ray absorption spectra to probe the chemical responses of live cells under wet conditions. This set-up enables us to probe a subtle change in absorption spectra depending on the oxidation state of a miniscule amount of oxygen in the functional groups present in each cell and its surroundings containing a minimal amount of liquid water. As an example of
in situ
biochemical responses of wet cells, chemical responses of a single Colo 205 cell are visualized and analyzed using X-ray absorption near the oxygen K-edge. This spectromicroscopic method using LGS can be applied to diverse biological samples under wet conditions for the analysis of their biochemical responses.
Scanning transmission X-ray microscopy combined with liquid-enclosing graphene system offering biocompatible wet environment allows on-the-spot visualization of biochemical responses of live cells. |
| doi_str_mv | 10.1039/c7nr05223e |
| format | Article |
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in situ
biochemical responses of wet cells, chemical responses of a single Colo 205 cell are visualized and analyzed using X-ray absorption near the oxygen K-edge. This spectromicroscopic method using LGS can be applied to diverse biological samples under wet conditions for the analysis of their biochemical responses.
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in situ
biochemical responses of wet cells, chemical responses of a single Colo 205 cell are visualized and analyzed using X-ray absorption near the oxygen K-edge. This spectromicroscopic method using LGS can be applied to diverse biological samples under wet conditions for the analysis of their biochemical responses.
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in situ
biochemical responses of wet cells, chemical responses of a single Colo 205 cell are visualized and analyzed using X-ray absorption near the oxygen K-edge. This spectromicroscopic method using LGS can be applied to diverse biological samples under wet conditions for the analysis of their biochemical responses.
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| source | Royal Society Of Chemistry Journals 2008- |
| title | Spectromicroscopic observation of a live single cell in a biocompatible liquid-enclosing graphene systemElectronic supplementary information (ESI) available. See DOI: 10.1039/c7nr05223e |
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