Photo-Thermal Induced Resonance (PTIR) nanospectroscopy, tuned towards amide-I absorption, was used to study the distribution of proteic material in 34 different HeLa cells, of which 18 were chemically stressed by oxidative stress with Na3AsO3. The cell nucleus was found to provide a weaker amide-I signal than the surrounding cytoplasm, while the strongest PTIR signal comes from the perinuclear region. AFM topography shows that the cells exposed to oxidative stress undergo a volume reduction with respect to the control cells, through an accumulation of the proteic material around and above the nucleus. This is confirmed by the PTIR maps of the cytoplasm, where the pixels providing a high amide-I signal were identified with a space resolution of ∼300 × 300 nm. By analyzing their distribution with two different statistical procedures we found that the probability to find protein clusters smaller than 0.6 μm in the cytoplasm of stressed HeLa cells is higher by 35% than in the control cells. These results indicate that it is possible to study proteic clustering within single cells by label-free optical nanospectroscopy.
Protein clustering in chemically stressed HeLa cells studied by infrared nanospectroscopy / Giliberti, Valeria; Baldassarre, Leonetta; Rosa, Alessandro; DE TURRIS, Valeria; Ortolani, Michele; Calvani, Paolo; Nucara, Alessandro. - In: NANOSCALE. - ISSN 2040-3364. - STAMPA. - 8:(2016), pp. 17560-17567. [10.1039/c6nr05783g]
Protein clustering in chemically stressed HeLa cells studied by infrared nanospectroscopy
GILIBERTI, VALERIA;BALDASSARRE, Leonetta;ROSA, ALESSANDRO;DE TURRIS, VALERIA;ORTOLANI, MICHELE;CALVANI, Paolo;NUCARA, Alessandro
2016
Abstract
Photo-Thermal Induced Resonance (PTIR) nanospectroscopy, tuned towards amide-I absorption, was used to study the distribution of proteic material in 34 different HeLa cells, of which 18 were chemically stressed by oxidative stress with Na3AsO3. The cell nucleus was found to provide a weaker amide-I signal than the surrounding cytoplasm, while the strongest PTIR signal comes from the perinuclear region. AFM topography shows that the cells exposed to oxidative stress undergo a volume reduction with respect to the control cells, through an accumulation of the proteic material around and above the nucleus. This is confirmed by the PTIR maps of the cytoplasm, where the pixels providing a high amide-I signal were identified with a space resolution of ∼300 × 300 nm. By analyzing their distribution with two different statistical procedures we found that the probability to find protein clusters smaller than 0.6 μm in the cytoplasm of stressed HeLa cells is higher by 35% than in the control cells. These results indicate that it is possible to study proteic clustering within single cells by label-free optical nanospectroscopy.| File | Dimensione | Formato | |
|---|---|---|---|
|
Giliberti_Protein_2016.pdf
accesso aperto
Note: Articolo principale
Tipologia:
Versione editoriale (versione pubblicata con il layout dell'editore)
Licenza:
Creative commons
Dimensione
3.23 MB
Formato
Adobe PDF
|
3.23 MB | Adobe PDF |
I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
