Login / Signup

In Vivo Oxidative Stress Monitoring Through Intracellular Hydroxyl Radicals Detection by Recyclable Upconversion Nanoprobes.

Yuxin LiuQi JiaQuanwei GuoAnqi JiangJing Zhou
Published in: Analytical chemistry (2017)
Oxidative stress, as an essential cause to many diseases via irreversible biomolecule oxidation, can be induced by casual-contacted nanomaterials, which can generate hydroxyl radical (•OH) due to their active surface capacity. Herein, we report a novel upconversion nanoprobe for ratiometric •OH detection and monitoring titanium oxide nanomaterial-induced oxidative stress. Unlike previously developed nanoprobes, the •OH-responsive acceptor in these nanoprobes can be rapidly prepared and easily recycled. With a detection limit of ∼2 nM and a broad linear range of 4 nM-16 μM, the nanoprobe is suitable for both in vitro and in vivo applications. The facile preparation and recyclable strategy provide a new method for developing novel nanoprobes that can directly detect hazardous molecules in biological samples and systems.
Keyphrases