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Article Abstract
Hydrogen peroxide (HO) serves fundamental regulatory functions in metabolism beyond the role as damage signal. During stress conditions, the level of HO increases in the cells and causes oxidative stress, which interferes with normal cell growth in plants and animals. The HO also acts as a central signaling molecule and regulates numerous pathways in living cells. To better understand the generation of HO in environmental responses and its role in cellular signaling, there is a need to study the flux of HO at high spatio-temporal resolution in a real-time fashion. Herein, we developed a genetically encoded Fluorescence Resonance Energy Transfer (FRET)-based nanosensor (FLIP-HO) by sandwiching the regulatory domain (RD) of OxyR between two fluorescent moieties, namely ECFP and mVenus. This nanosensor was pH stable, highly selective to HO, and showed insensitivity to other oxidants like superoxide anions, nitric oxide, and peroxynitrite. The FLIP-HO demonstrated a broad dynamic range and having a binding affinity (Kd) of 247 µM. Expression of sensor protein in living bacterial, yeast, and mammalian cells showed the localization of the sensor in the cytosol. The flux of HO was measured in these live cells using the FLIP-HO under stress conditions or by externally providing the ligand. Time-dependent FRET-ratio changes were recorded, which correspond to the presence of HO. Using this sensor, real-time information of the HO level can be obtained non-invasively. Thus, this nanosensor would help to understand the adverse effect of HO on cell physiology and its role in redox signaling.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC7760702 | PMC |
| http://dx.doi.org/10.3390/biology9120430 | DOI Listing |
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