Association of Nanodiamond Rotation Dynamics with Cell Activities by Translation-Rotation Tracking

Association of Nanodiamond Rotation Dynamics with Cell Activities by Translation-Rotation Tracking

Correlated translation-orientation tracking of single particles can provide important information for understanding the dynamics of live systems and their interaction with the probes. However, full six-dimensional (6D) motion tracking has yet to be achieved. Here, we developed synchronized 3D transl...

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Bibliographic Details
Published in:Nano letters Vol. 21; no. 8; pp. 3393 - 3400
Main Authors: Feng, Xi, Leong, Weng-Hang, Xia, Kangwei, Liu, Chu-Feng, Liu, Gang-Qin, Rendler, Torsten, Wrachtrup, Joerg, Liu, Ren-Bao, Li, Quan
Format: Journal Article
Language:English
Published: United States American Chemical Society 28-04-2021
Subjects:
Rotation tracking
Optically detected magnetic resonance
Single particle tracking
Cell membrane
Nitrogen vacancy centers in nanodiamond
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Summary:Correlated translation-orientation tracking of single particles can provide important information for understanding the dynamics of live systems and their interaction with the probes. However, full six-dimensional (6D) motion tracking has yet to be achieved. Here, we developed synchronized 3D translation and 3D rotation tracking of single diamond particles based on nitrogen-vacancy center sensing. We first performed 6D tracking of diamond particles attached to a giant plasma membrane vesicle to demonstrate the method. Quantitative analysis of diamond particles’ motion allowed elimination of the geometric effect and revealed the net rotation on the vesicle. 6D tracking was then applied to measure live cell dynamics. Motion characteristics of nanodiamonds on cell membranes under various controlled physiological conditions suggest that the nanodiamonds’ rotation is associated with cell metabolic activities. Our technique extends the toolbox of single particle tracking and provides a unique solution to problems where correlated analysis of translation and rotation is critical.
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ISSN:1530-6984
1530-6992
DOI:10.1021/acs.nanolett.0c04864