Title : A Locally Activatable Sensor for Robust Quantification of Organellar Glutathione - Hubner_2022_bioRxiv__ |
Author(s) : Hubner S , Quargnali G , Thallmair S , Rivera-Fuentes P |
Ref : Biorxiv , : , 2023 |
Abstract :
A Locally Activatable Sensor for Robust Quantification of Organellar Glutathione Glutathione (GSH) is the main determinant of intracellular redox potential and participates in multiple cellular signaling pathways. Achieving a detailed understanding of intracellular GSH trafficking and regulation depends on the development of tools to map GSH compartmentalization and intra-organelle fluctuations. Herein, we present a new GSH sensing platform, TRaQ-G, for live-cell imaging. This small-molecule/protein hybrid sensor possesses a unique reactivity turn-on mechanism that ensures that the small molecule is only sensitive to GSH in the desired location. Furthermore, TRaQ-G can be fused to a fluorescent protein of choice to give a ratiometric response. Using TRaQ-G-mGold, we demonstrated that the nuclear and cytosolic GSH pools are independently regulated during cell proliferation. We also used this sensor, in combination with roGFP, to quantify redox potential and GSH concentration simultaneously in the endoplasmic reticulum. Finally, by exchanging the fluorescent protein, we created a near-infrared, targetable and quantitative GSH sensor. |
PubMedSearch : Hubner_2022_bioRxiv__ |
PubMedID: |
Gene_locus related to this paper: rhoso-halo1 |
Inhibitor | TRaQ-G-ILQ TRaQ-G-ILU TRaQ-G-ctrl Me-TRaQ-G |
Gene_locus | rhoso-halo1 |
Structure | 7ZBD 7ZBB 7ZBA |
Hubner S, Quargnali G, Thallmair S, Rivera-Fuentes P (2023)
A Locally Activatable Sensor for Robust Quantification of Organellar Glutathione
Biorxiv
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Hubner S, Quargnali G, Thallmair S, Rivera-Fuentes P (2023)
Biorxiv
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